#include "vulkan/vulkan.h" {-# OPTIONS_GHC -fno-warn-orphans#-} {-# OPTIONS_GHC -fno-warn-unused-imports#-} {-# OPTIONS_HADDOCK not-home#-} {-# LANGUAGE CPP #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE ForeignFunctionInterface #-} {-# LANGUAGE MagicHash #-} {-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE Strict #-} {-# LANGUAGE TypeApplications #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE ViewPatterns #-} module Graphics.Vulkan.Core_1_0 (-- * Vulkan core API interface definitions -- | -- -- @api = vulkan@ -- -- @name = VK_VERSION_1_0@ -- -- @number = 1.0@ -- -- ** Header boilerplate -- -- | -- > ##include "vk_platform.h" -- -- ** API version -- -- ** API constants module Graphics.Vulkan.Types.Enum.Pipeline, pattern VK_LOD_CLAMP_NONE, pattern VK_REMAINING_MIP_LEVELS, pattern VK_REMAINING_ARRAY_LAYERS, pattern VK_WHOLE_SIZE, pattern VK_ATTACHMENT_UNUSED, pattern VK_TRUE, pattern VK_FALSE, pattern VK_QUEUE_FAMILY_IGNORED, pattern VK_SUBPASS_EXTERNAL, -- ** Device initialization VkCreateInstance, pattern VkCreateInstance, HS_vkCreateInstance, PFN_vkCreateInstance, vkCreateInstance, vkCreateInstanceSafe, VkDestroyInstance, pattern VkDestroyInstance, HS_vkDestroyInstance, PFN_vkDestroyInstance, vkDestroyInstance, vkDestroyInstanceSafe, VkEnumeratePhysicalDevices, pattern VkEnumeratePhysicalDevices, HS_vkEnumeratePhysicalDevices, PFN_vkEnumeratePhysicalDevices, vkEnumeratePhysicalDevices, vkEnumeratePhysicalDevicesSafe, VkGetPhysicalDeviceFeatures, pattern VkGetPhysicalDeviceFeatures, HS_vkGetPhysicalDeviceFeatures, PFN_vkGetPhysicalDeviceFeatures, vkGetPhysicalDeviceFeatures, vkGetPhysicalDeviceFeaturesSafe, VkGetPhysicalDeviceFormatProperties, pattern VkGetPhysicalDeviceFormatProperties, HS_vkGetPhysicalDeviceFormatProperties, PFN_vkGetPhysicalDeviceFormatProperties, vkGetPhysicalDeviceFormatProperties, vkGetPhysicalDeviceFormatPropertiesSafe, VkGetPhysicalDeviceImageFormatProperties, pattern VkGetPhysicalDeviceImageFormatProperties, HS_vkGetPhysicalDeviceImageFormatProperties, PFN_vkGetPhysicalDeviceImageFormatProperties, vkGetPhysicalDeviceImageFormatProperties, vkGetPhysicalDeviceImageFormatPropertiesSafe, VkGetPhysicalDeviceProperties, pattern VkGetPhysicalDeviceProperties, HS_vkGetPhysicalDeviceProperties, PFN_vkGetPhysicalDeviceProperties, vkGetPhysicalDeviceProperties, vkGetPhysicalDevicePropertiesSafe, VkGetPhysicalDeviceQueueFamilyProperties, pattern VkGetPhysicalDeviceQueueFamilyProperties, HS_vkGetPhysicalDeviceQueueFamilyProperties, PFN_vkGetPhysicalDeviceQueueFamilyProperties, vkGetPhysicalDeviceQueueFamilyProperties, vkGetPhysicalDeviceQueueFamilyPropertiesSafe, VkGetPhysicalDeviceMemoryProperties, pattern VkGetPhysicalDeviceMemoryProperties, HS_vkGetPhysicalDeviceMemoryProperties, PFN_vkGetPhysicalDeviceMemoryProperties, vkGetPhysicalDeviceMemoryProperties, vkGetPhysicalDeviceMemoryPropertiesSafe, VkGetInstanceProcAddr, pattern VkGetInstanceProcAddr, HS_vkGetInstanceProcAddr, PFN_vkGetInstanceProcAddr, vkGetInstanceProcAddr, vkGetInstanceProcAddrSafe, VkGetDeviceProcAddr, pattern VkGetDeviceProcAddr, HS_vkGetDeviceProcAddr, PFN_vkGetDeviceProcAddr, vkGetDeviceProcAddr, vkGetDeviceProcAddrSafe, module Graphics.Vulkan.Marshal, module Graphics.Vulkan.Types.BaseTypes, module Graphics.Vulkan.Types.Bitmasks, module Graphics.Vulkan.Types.Enum.Format, module Graphics.Vulkan.Types.Enum.Image, module Graphics.Vulkan.Types.Enum.InternalAllocationType, module Graphics.Vulkan.Types.Enum.Memory, module Graphics.Vulkan.Types.Enum.PhysicalDeviceType, module Graphics.Vulkan.Types.Enum.Queue, module Graphics.Vulkan.Types.Enum.Result, module Graphics.Vulkan.Types.Enum.SampleCountFlags, module Graphics.Vulkan.Types.Enum.StructureType, module Graphics.Vulkan.Types.Enum.SystemAllocationScope, module Graphics.Vulkan.Types.Funcpointers, module Graphics.Vulkan.Types.Handles, module Graphics.Vulkan.Types.Struct.AllocationCallbacks, module Graphics.Vulkan.Types.Struct.ApplicationInfo, module Graphics.Vulkan.Types.Struct.Extent, module Graphics.Vulkan.Types.Struct.FormatProperties, module Graphics.Vulkan.Types.Struct.Image, module Graphics.Vulkan.Types.Struct.InstanceCreateInfo, module Graphics.Vulkan.Types.Struct.Memory, module Graphics.Vulkan.Types.Struct.PhysicalDevice, module Graphics.Vulkan.Types.Struct.PhysicalDeviceFeatures, module Graphics.Vulkan.Types.Struct.QueueFamilyProperties, -- ** Device commands VkCreateDevice, pattern VkCreateDevice, HS_vkCreateDevice, PFN_vkCreateDevice, vkCreateDevice, vkCreateDeviceSafe, VkDestroyDevice, pattern VkDestroyDevice, HS_vkDestroyDevice, PFN_vkDestroyDevice, vkDestroyDevice, vkDestroyDeviceSafe, module Graphics.Vulkan.Types.Enum.Device, module Graphics.Vulkan.Types.Struct.Device, -- ** Extension discovery commands VkEnumerateInstanceExtensionProperties, pattern VkEnumerateInstanceExtensionProperties, HS_vkEnumerateInstanceExtensionProperties, PFN_vkEnumerateInstanceExtensionProperties, vkEnumerateInstanceExtensionProperties, vkEnumerateInstanceExtensionPropertiesSafe, VkEnumerateDeviceExtensionProperties, pattern VkEnumerateDeviceExtensionProperties, HS_vkEnumerateDeviceExtensionProperties, PFN_vkEnumerateDeviceExtensionProperties, vkEnumerateDeviceExtensionProperties, vkEnumerateDeviceExtensionPropertiesSafe, module Graphics.Vulkan.Types.Struct.ExtensionProperties, -- ** Layer discovery commands VkEnumerateInstanceLayerProperties, pattern VkEnumerateInstanceLayerProperties, HS_vkEnumerateInstanceLayerProperties, PFN_vkEnumerateInstanceLayerProperties, vkEnumerateInstanceLayerProperties, vkEnumerateInstanceLayerPropertiesSafe, VkEnumerateDeviceLayerProperties, pattern VkEnumerateDeviceLayerProperties, HS_vkEnumerateDeviceLayerProperties, PFN_vkEnumerateDeviceLayerProperties, vkEnumerateDeviceLayerProperties, vkEnumerateDeviceLayerPropertiesSafe, module Graphics.Vulkan.Types.Struct.LayerProperties, -- ** queue commands VkGetDeviceQueue, pattern VkGetDeviceQueue, HS_vkGetDeviceQueue, PFN_vkGetDeviceQueue, vkGetDeviceQueue, vkGetDeviceQueueSafe, VkQueueSubmit, pattern VkQueueSubmit, HS_vkQueueSubmit, PFN_vkQueueSubmit, vkQueueSubmit, vkQueueSubmitSafe, VkQueueWaitIdle, pattern VkQueueWaitIdle, HS_vkQueueWaitIdle, PFN_vkQueueWaitIdle, vkQueueWaitIdle, vkQueueWaitIdleSafe, VkDeviceWaitIdle, pattern VkDeviceWaitIdle, HS_vkDeviceWaitIdle, PFN_vkDeviceWaitIdle, vkDeviceWaitIdle, vkDeviceWaitIdleSafe, module Graphics.Vulkan.Types.Struct.SubmitInfo, -- ** Memory commands VkAllocateMemory, pattern VkAllocateMemory, HS_vkAllocateMemory, PFN_vkAllocateMemory, vkAllocateMemory, vkAllocateMemorySafe, VkFreeMemory, pattern VkFreeMemory, HS_vkFreeMemory, PFN_vkFreeMemory, vkFreeMemory, vkFreeMemorySafe, VkMapMemory, pattern VkMapMemory, HS_vkMapMemory, PFN_vkMapMemory, vkMapMemory, vkMapMemorySafe, VkUnmapMemory, pattern VkUnmapMemory, HS_vkUnmapMemory, PFN_vkUnmapMemory, vkUnmapMemory, vkUnmapMemorySafe, VkFlushMappedMemoryRanges, pattern VkFlushMappedMemoryRanges, HS_vkFlushMappedMemoryRanges, PFN_vkFlushMappedMemoryRanges, vkFlushMappedMemoryRanges, vkFlushMappedMemoryRangesSafe, VkInvalidateMappedMemoryRanges, pattern VkInvalidateMappedMemoryRanges, HS_vkInvalidateMappedMemoryRanges, PFN_vkInvalidateMappedMemoryRanges, vkInvalidateMappedMemoryRanges, vkInvalidateMappedMemoryRangesSafe, VkGetDeviceMemoryCommitment, pattern VkGetDeviceMemoryCommitment, HS_vkGetDeviceMemoryCommitment, PFN_vkGetDeviceMemoryCommitment, vkGetDeviceMemoryCommitment, vkGetDeviceMemoryCommitmentSafe, module Graphics.Vulkan.Types.Struct.MappedMemoryRange, -- ** Memory management API commands VkBindBufferMemory, pattern VkBindBufferMemory, HS_vkBindBufferMemory, PFN_vkBindBufferMemory, vkBindBufferMemory, vkBindBufferMemorySafe, VkBindImageMemory, pattern VkBindImageMemory, HS_vkBindImageMemory, PFN_vkBindImageMemory, vkBindImageMemory, vkBindImageMemorySafe, VkGetBufferMemoryRequirements, pattern VkGetBufferMemoryRequirements, HS_vkGetBufferMemoryRequirements, PFN_vkGetBufferMemoryRequirements, vkGetBufferMemoryRequirements, vkGetBufferMemoryRequirementsSafe, VkGetImageMemoryRequirements, pattern VkGetImageMemoryRequirements, HS_vkGetImageMemoryRequirements, PFN_vkGetImageMemoryRequirements, vkGetImageMemoryRequirements, vkGetImageMemoryRequirementsSafe, -- ** Sparse resource memory management API commands VkGetImageSparseMemoryRequirements, pattern VkGetImageSparseMemoryRequirements, HS_vkGetImageSparseMemoryRequirements, PFN_vkGetImageSparseMemoryRequirements, vkGetImageSparseMemoryRequirements, vkGetImageSparseMemoryRequirementsSafe, VkGetPhysicalDeviceSparseImageFormatProperties, pattern VkGetPhysicalDeviceSparseImageFormatProperties, HS_vkGetPhysicalDeviceSparseImageFormatProperties, PFN_vkGetPhysicalDeviceSparseImageFormatProperties, vkGetPhysicalDeviceSparseImageFormatProperties, vkGetPhysicalDeviceSparseImageFormatPropertiesSafe, VkQueueBindSparse, pattern VkQueueBindSparse, HS_vkQueueBindSparse, PFN_vkQueueBindSparse, vkQueueBindSparse, vkQueueBindSparseSafe, module Graphics.Vulkan.Types.Enum.Sparse, module Graphics.Vulkan.Types.Struct.Bind, module Graphics.Vulkan.Types.Struct.Offset, module Graphics.Vulkan.Types.Struct.Sparse, -- ** Fence commands VkCreateFence, pattern VkCreateFence, HS_vkCreateFence, PFN_vkCreateFence, vkCreateFence, vkCreateFenceSafe, VkDestroyFence, pattern VkDestroyFence, HS_vkDestroyFence, PFN_vkDestroyFence, vkDestroyFence, vkDestroyFenceSafe, VkResetFences, pattern VkResetFences, HS_vkResetFences, PFN_vkResetFences, vkResetFences, vkResetFencesSafe, VkGetFenceStatus, pattern VkGetFenceStatus, HS_vkGetFenceStatus, PFN_vkGetFenceStatus, vkGetFenceStatus, vkGetFenceStatusSafe, VkWaitForFences, pattern VkWaitForFences, HS_vkWaitForFences, PFN_vkWaitForFences, vkWaitForFences, vkWaitForFencesSafe, module Graphics.Vulkan.Types.Enum.Fence, module Graphics.Vulkan.Types.Struct.Fence, -- ** Queue semaphore commands VkCreateSemaphore, pattern VkCreateSemaphore, HS_vkCreateSemaphore, PFN_vkCreateSemaphore, vkCreateSemaphore, vkCreateSemaphoreSafe, VkDestroySemaphore, pattern VkDestroySemaphore, HS_vkDestroySemaphore, PFN_vkDestroySemaphore, vkDestroySemaphore, vkDestroySemaphoreSafe, module Graphics.Vulkan.Types.Struct.Semaphore, -- ** Event commands VkCreateEvent, pattern VkCreateEvent, HS_vkCreateEvent, PFN_vkCreateEvent, vkCreateEvent, vkCreateEventSafe, VkDestroyEvent, pattern VkDestroyEvent, HS_vkDestroyEvent, PFN_vkDestroyEvent, vkDestroyEvent, vkDestroyEventSafe, VkGetEventStatus, pattern VkGetEventStatus, HS_vkGetEventStatus, PFN_vkGetEventStatus, vkGetEventStatus, vkGetEventStatusSafe, VkSetEvent, pattern VkSetEvent, HS_vkSetEvent, PFN_vkSetEvent, vkSetEvent, vkSetEventSafe, VkResetEvent, pattern VkResetEvent, HS_vkResetEvent, PFN_vkResetEvent, vkResetEvent, vkResetEventSafe, module Graphics.Vulkan.Types.Struct.EventCreateInfo, -- ** Query commands VkCreateQueryPool, pattern VkCreateQueryPool, HS_vkCreateQueryPool, PFN_vkCreateQueryPool, vkCreateQueryPool, vkCreateQueryPoolSafe, VkDestroyQueryPool, pattern VkDestroyQueryPool, HS_vkDestroyQueryPool, PFN_vkDestroyQueryPool, vkDestroyQueryPool, vkDestroyQueryPoolSafe, VkGetQueryPoolResults, pattern VkGetQueryPoolResults, HS_vkGetQueryPoolResults, PFN_vkGetQueryPoolResults, vkGetQueryPoolResults, vkGetQueryPoolResultsSafe, module Graphics.Vulkan.Types.Enum.Query, module Graphics.Vulkan.Types.Struct.QueryPoolCreateInfo, -- ** Buffer commands VkCreateBuffer, pattern VkCreateBuffer, HS_vkCreateBuffer, PFN_vkCreateBuffer, vkCreateBuffer, vkCreateBufferSafe, VkDestroyBuffer, pattern VkDestroyBuffer, HS_vkDestroyBuffer, PFN_vkDestroyBuffer, vkDestroyBuffer, vkDestroyBufferSafe, module Graphics.Vulkan.Types.Enum.Buffer, module Graphics.Vulkan.Types.Enum.SharingMode, module Graphics.Vulkan.Types.Struct.Buffer, -- ** Buffer view commands VkCreateBufferView, pattern VkCreateBufferView, HS_vkCreateBufferView, PFN_vkCreateBufferView, vkCreateBufferView, vkCreateBufferViewSafe, VkDestroyBufferView, pattern VkDestroyBufferView, HS_vkDestroyBufferView, PFN_vkDestroyBufferView, vkDestroyBufferView, vkDestroyBufferViewSafe, -- ** Image commands VkCreateImage, pattern VkCreateImage, HS_vkCreateImage, PFN_vkCreateImage, vkCreateImage, vkCreateImageSafe, VkDestroyImage, pattern VkDestroyImage, HS_vkDestroyImage, PFN_vkDestroyImage, vkDestroyImage, vkDestroyImageSafe, VkGetImageSubresourceLayout, pattern VkGetImageSubresourceLayout, HS_vkGetImageSubresourceLayout, PFN_vkGetImageSubresourceLayout, vkGetImageSubresourceLayout, vkGetImageSubresourceLayoutSafe, module Graphics.Vulkan.Types.Struct.SubresourceLayout, -- ** Image view commands VkCreateImageView, pattern VkCreateImageView, HS_vkCreateImageView, PFN_vkCreateImageView, vkCreateImageView, vkCreateImageViewSafe, VkDestroyImageView, pattern VkDestroyImageView, HS_vkDestroyImageView, PFN_vkDestroyImageView, vkDestroyImageView, vkDestroyImageViewSafe, module Graphics.Vulkan.Types.Enum.ComponentSwizzle, module Graphics.Vulkan.Types.Struct.ComponentMapping, -- ** Shader commands VkCreateShaderModule, pattern VkCreateShaderModule, HS_vkCreateShaderModule, PFN_vkCreateShaderModule, vkCreateShaderModule, vkCreateShaderModuleSafe, VkDestroyShaderModule, pattern VkDestroyShaderModule, HS_vkDestroyShaderModule, PFN_vkDestroyShaderModule, vkDestroyShaderModule, vkDestroyShaderModuleSafe, module Graphics.Vulkan.Types.Struct.Shader, -- ** Pipeline Cache commands VkCreatePipelineCache, pattern VkCreatePipelineCache, HS_vkCreatePipelineCache, PFN_vkCreatePipelineCache, vkCreatePipelineCache, vkCreatePipelineCacheSafe, VkDestroyPipelineCache, pattern VkDestroyPipelineCache, HS_vkDestroyPipelineCache, PFN_vkDestroyPipelineCache, vkDestroyPipelineCache, vkDestroyPipelineCacheSafe, VkGetPipelineCacheData, pattern VkGetPipelineCacheData, HS_vkGetPipelineCacheData, PFN_vkGetPipelineCacheData, vkGetPipelineCacheData, vkGetPipelineCacheDataSafe, VkMergePipelineCaches, pattern VkMergePipelineCaches, HS_vkMergePipelineCaches, PFN_vkMergePipelineCaches, vkMergePipelineCaches, vkMergePipelineCachesSafe, module Graphics.Vulkan.Types.Struct.Pipeline, -- ** Pipeline commands VkCreateGraphicsPipelines, pattern VkCreateGraphicsPipelines, HS_vkCreateGraphicsPipelines, PFN_vkCreateGraphicsPipelines, vkCreateGraphicsPipelines, vkCreateGraphicsPipelinesSafe, VkCreateComputePipelines, pattern VkCreateComputePipelines, HS_vkCreateComputePipelines, PFN_vkCreateComputePipelines, vkCreateComputePipelines, vkCreateComputePipelinesSafe, VkDestroyPipeline, pattern VkDestroyPipeline, HS_vkDestroyPipeline, PFN_vkDestroyPipeline, vkDestroyPipeline, vkDestroyPipelineSafe, module Graphics.Vulkan.Types.Enum.Blend, module Graphics.Vulkan.Types.Enum.Color, module Graphics.Vulkan.Types.Enum.CompareOp, module Graphics.Vulkan.Types.Enum.CullModeFlags, module Graphics.Vulkan.Types.Enum.DynamicState, module Graphics.Vulkan.Types.Enum.FrontFace, module Graphics.Vulkan.Types.Enum.LogicOp, module Graphics.Vulkan.Types.Enum.PolygonMode, module Graphics.Vulkan.Types.Enum.PrimitiveTopology, module Graphics.Vulkan.Types.Enum.Shader, module Graphics.Vulkan.Types.Enum.Stencil, module Graphics.Vulkan.Types.Enum.VertexInputRate, module Graphics.Vulkan.Types.Struct.ComputePipelineCreateInfo, module Graphics.Vulkan.Types.Struct.Rect, module Graphics.Vulkan.Types.Struct.Specialization, module Graphics.Vulkan.Types.Struct.StencilOpState, module Graphics.Vulkan.Types.Struct.VertexInput, module Graphics.Vulkan.Types.Struct.Viewport, -- ** Pipeline layout commands VkCreatePipelineLayout, pattern VkCreatePipelineLayout, HS_vkCreatePipelineLayout, PFN_vkCreatePipelineLayout, vkCreatePipelineLayout, vkCreatePipelineLayoutSafe, VkDestroyPipelineLayout, pattern VkDestroyPipelineLayout, HS_vkDestroyPipelineLayout, PFN_vkDestroyPipelineLayout, vkDestroyPipelineLayout, vkDestroyPipelineLayoutSafe, module Graphics.Vulkan.Types.Struct.PushConstantRange, -- ** Sampler commands VkCreateSampler, pattern VkCreateSampler, HS_vkCreateSampler, PFN_vkCreateSampler, vkCreateSampler, vkCreateSamplerSafe, VkDestroySampler, pattern VkDestroySampler, HS_vkDestroySampler, PFN_vkDestroySampler, vkDestroySampler, vkDestroySamplerSafe, module Graphics.Vulkan.Types.Enum.BorderColor, module Graphics.Vulkan.Types.Enum.Filter, module Graphics.Vulkan.Types.Enum.Sampler, module Graphics.Vulkan.Types.Struct.Sampler, -- ** Descriptor set commands VkCreateDescriptorSetLayout, pattern VkCreateDescriptorSetLayout, HS_vkCreateDescriptorSetLayout, PFN_vkCreateDescriptorSetLayout, vkCreateDescriptorSetLayout, vkCreateDescriptorSetLayoutSafe, VkDestroyDescriptorSetLayout, pattern VkDestroyDescriptorSetLayout, HS_vkDestroyDescriptorSetLayout, PFN_vkDestroyDescriptorSetLayout, vkDestroyDescriptorSetLayout, vkDestroyDescriptorSetLayoutSafe, VkCreateDescriptorPool, pattern VkCreateDescriptorPool, HS_vkCreateDescriptorPool, PFN_vkCreateDescriptorPool, vkCreateDescriptorPool, vkCreateDescriptorPoolSafe, VkDestroyDescriptorPool, pattern VkDestroyDescriptorPool, HS_vkDestroyDescriptorPool, PFN_vkDestroyDescriptorPool, vkDestroyDescriptorPool, vkDestroyDescriptorPoolSafe, VkResetDescriptorPool, pattern VkResetDescriptorPool, HS_vkResetDescriptorPool, PFN_vkResetDescriptorPool, vkResetDescriptorPool, vkResetDescriptorPoolSafe, VkAllocateDescriptorSets, pattern VkAllocateDescriptorSets, HS_vkAllocateDescriptorSets, PFN_vkAllocateDescriptorSets, vkAllocateDescriptorSets, vkAllocateDescriptorSetsSafe, VkFreeDescriptorSets, pattern VkFreeDescriptorSets, HS_vkFreeDescriptorSets, PFN_vkFreeDescriptorSets, vkFreeDescriptorSets, vkFreeDescriptorSetsSafe, VkUpdateDescriptorSets, pattern VkUpdateDescriptorSets, HS_vkUpdateDescriptorSets, PFN_vkUpdateDescriptorSets, vkUpdateDescriptorSets, vkUpdateDescriptorSetsSafe, module Graphics.Vulkan.Types.Enum.Descriptor, module Graphics.Vulkan.Types.Struct.CopyDescriptorSet, module Graphics.Vulkan.Types.Struct.Descriptor, module Graphics.Vulkan.Types.Struct.WriteDescriptorSet, -- ** Pass commands VkCreateFramebuffer, pattern VkCreateFramebuffer, HS_vkCreateFramebuffer, PFN_vkCreateFramebuffer, vkCreateFramebuffer, vkCreateFramebufferSafe, VkDestroyFramebuffer, pattern VkDestroyFramebuffer, HS_vkDestroyFramebuffer, PFN_vkDestroyFramebuffer, vkDestroyFramebuffer, vkDestroyFramebufferSafe, VkCreateRenderPass, pattern VkCreateRenderPass, HS_vkCreateRenderPass, PFN_vkCreateRenderPass, vkCreateRenderPass, vkCreateRenderPassSafe, VkDestroyRenderPass, pattern VkDestroyRenderPass, HS_vkDestroyRenderPass, PFN_vkDestroyRenderPass, vkDestroyRenderPass, vkDestroyRenderPassSafe, VkGetRenderAreaGranularity, pattern VkGetRenderAreaGranularity, HS_vkGetRenderAreaGranularity, PFN_vkGetRenderAreaGranularity, vkGetRenderAreaGranularity, vkGetRenderAreaGranularitySafe, module Graphics.Vulkan.Types.Enum.AccessFlags, module Graphics.Vulkan.Types.Enum.Attachment, module Graphics.Vulkan.Types.Enum.DependencyFlags, module Graphics.Vulkan.Types.Enum.Subpass, module Graphics.Vulkan.Types.Struct.Attachment, module Graphics.Vulkan.Types.Struct.FramebufferCreateInfo, module Graphics.Vulkan.Types.Struct.RenderPass, module Graphics.Vulkan.Types.Struct.Subpass, -- ** Command pool commands VkCreateCommandPool, pattern VkCreateCommandPool, HS_vkCreateCommandPool, PFN_vkCreateCommandPool, vkCreateCommandPool, vkCreateCommandPoolSafe, VkDestroyCommandPool, pattern VkDestroyCommandPool, HS_vkDestroyCommandPool, PFN_vkDestroyCommandPool, vkDestroyCommandPool, vkDestroyCommandPoolSafe, VkResetCommandPool, pattern VkResetCommandPool, HS_vkResetCommandPool, PFN_vkResetCommandPool, vkResetCommandPool, vkResetCommandPoolSafe, module Graphics.Vulkan.Types.Enum.Command, module Graphics.Vulkan.Types.Struct.Command, -- ** Command buffer commands VkAllocateCommandBuffers, pattern VkAllocateCommandBuffers, HS_vkAllocateCommandBuffers, PFN_vkAllocateCommandBuffers, vkAllocateCommandBuffers, vkAllocateCommandBuffersSafe, VkFreeCommandBuffers, pattern VkFreeCommandBuffers, HS_vkFreeCommandBuffers, PFN_vkFreeCommandBuffers, vkFreeCommandBuffers, vkFreeCommandBuffersSafe, VkBeginCommandBuffer, pattern VkBeginCommandBuffer, HS_vkBeginCommandBuffer, PFN_vkBeginCommandBuffer, vkBeginCommandBuffer, vkBeginCommandBufferSafe, VkEndCommandBuffer, pattern VkEndCommandBuffer, HS_vkEndCommandBuffer, PFN_vkEndCommandBuffer, vkEndCommandBuffer, vkEndCommandBufferSafe, VkResetCommandBuffer, pattern VkResetCommandBuffer, HS_vkResetCommandBuffer, PFN_vkResetCommandBuffer, vkResetCommandBuffer, vkResetCommandBufferSafe, -- ** Command buffer building commands VkCmdBindPipeline, pattern VkCmdBindPipeline, HS_vkCmdBindPipeline, PFN_vkCmdBindPipeline, vkCmdBindPipeline, vkCmdBindPipelineSafe, VkCmdSetViewport, pattern VkCmdSetViewport, HS_vkCmdSetViewport, PFN_vkCmdSetViewport, vkCmdSetViewport, vkCmdSetViewportSafe, VkCmdSetScissor, pattern VkCmdSetScissor, HS_vkCmdSetScissor, PFN_vkCmdSetScissor, vkCmdSetScissor, vkCmdSetScissorSafe, VkCmdSetLineWidth, pattern VkCmdSetLineWidth, HS_vkCmdSetLineWidth, PFN_vkCmdSetLineWidth, vkCmdSetLineWidth, vkCmdSetLineWidthSafe, VkCmdSetDepthBias, pattern VkCmdSetDepthBias, HS_vkCmdSetDepthBias, PFN_vkCmdSetDepthBias, vkCmdSetDepthBias, vkCmdSetDepthBiasSafe, VkCmdSetBlendConstants, pattern VkCmdSetBlendConstants, HS_vkCmdSetBlendConstants, PFN_vkCmdSetBlendConstants, vkCmdSetBlendConstants, vkCmdSetBlendConstantsSafe, VkCmdSetDepthBounds, pattern VkCmdSetDepthBounds, HS_vkCmdSetDepthBounds, PFN_vkCmdSetDepthBounds, vkCmdSetDepthBounds, vkCmdSetDepthBoundsSafe, VkCmdSetStencilCompareMask, pattern VkCmdSetStencilCompareMask, HS_vkCmdSetStencilCompareMask, PFN_vkCmdSetStencilCompareMask, vkCmdSetStencilCompareMask, vkCmdSetStencilCompareMaskSafe, VkCmdSetStencilWriteMask, pattern VkCmdSetStencilWriteMask, HS_vkCmdSetStencilWriteMask, PFN_vkCmdSetStencilWriteMask, vkCmdSetStencilWriteMask, vkCmdSetStencilWriteMaskSafe, VkCmdSetStencilReference, pattern VkCmdSetStencilReference, HS_vkCmdSetStencilReference, PFN_vkCmdSetStencilReference, vkCmdSetStencilReference, vkCmdSetStencilReferenceSafe, VkCmdBindDescriptorSets, pattern VkCmdBindDescriptorSets, HS_vkCmdBindDescriptorSets, PFN_vkCmdBindDescriptorSets, vkCmdBindDescriptorSets, vkCmdBindDescriptorSetsSafe, VkCmdBindIndexBuffer, pattern VkCmdBindIndexBuffer, HS_vkCmdBindIndexBuffer, PFN_vkCmdBindIndexBuffer, vkCmdBindIndexBuffer, vkCmdBindIndexBufferSafe, VkCmdBindVertexBuffers, pattern VkCmdBindVertexBuffers, HS_vkCmdBindVertexBuffers, PFN_vkCmdBindVertexBuffers, vkCmdBindVertexBuffers, vkCmdBindVertexBuffersSafe, VkCmdDraw, pattern VkCmdDraw, HS_vkCmdDraw, PFN_vkCmdDraw, vkCmdDraw, vkCmdDrawSafe, VkCmdDrawIndexed, pattern VkCmdDrawIndexed, HS_vkCmdDrawIndexed, PFN_vkCmdDrawIndexed, vkCmdDrawIndexed, vkCmdDrawIndexedSafe, VkCmdDrawIndirect, pattern VkCmdDrawIndirect, HS_vkCmdDrawIndirect, PFN_vkCmdDrawIndirect, vkCmdDrawIndirect, vkCmdDrawIndirectSafe, VkCmdDrawIndexedIndirect, pattern VkCmdDrawIndexedIndirect, HS_vkCmdDrawIndexedIndirect, PFN_vkCmdDrawIndexedIndirect, vkCmdDrawIndexedIndirect, vkCmdDrawIndexedIndirectSafe, VkCmdDispatch, pattern VkCmdDispatch, HS_vkCmdDispatch, PFN_vkCmdDispatch, vkCmdDispatch, vkCmdDispatchSafe, VkCmdDispatchIndirect, pattern VkCmdDispatchIndirect, HS_vkCmdDispatchIndirect, PFN_vkCmdDispatchIndirect, vkCmdDispatchIndirect, vkCmdDispatchIndirectSafe, VkCmdCopyBuffer, pattern VkCmdCopyBuffer, HS_vkCmdCopyBuffer, PFN_vkCmdCopyBuffer, vkCmdCopyBuffer, vkCmdCopyBufferSafe, VkCmdCopyImage, pattern VkCmdCopyImage, HS_vkCmdCopyImage, PFN_vkCmdCopyImage, vkCmdCopyImage, vkCmdCopyImageSafe, VkCmdBlitImage, pattern VkCmdBlitImage, HS_vkCmdBlitImage, PFN_vkCmdBlitImage, vkCmdBlitImage, vkCmdBlitImageSafe, VkCmdCopyBufferToImage, pattern VkCmdCopyBufferToImage, HS_vkCmdCopyBufferToImage, PFN_vkCmdCopyBufferToImage, vkCmdCopyBufferToImage, vkCmdCopyBufferToImageSafe, VkCmdCopyImageToBuffer, pattern VkCmdCopyImageToBuffer, HS_vkCmdCopyImageToBuffer, PFN_vkCmdCopyImageToBuffer, vkCmdCopyImageToBuffer, vkCmdCopyImageToBufferSafe, VkCmdUpdateBuffer, pattern VkCmdUpdateBuffer, HS_vkCmdUpdateBuffer, PFN_vkCmdUpdateBuffer, vkCmdUpdateBuffer, vkCmdUpdateBufferSafe, VkCmdFillBuffer, pattern VkCmdFillBuffer, HS_vkCmdFillBuffer, PFN_vkCmdFillBuffer, vkCmdFillBuffer, vkCmdFillBufferSafe, VkCmdClearColorImage, pattern VkCmdClearColorImage, HS_vkCmdClearColorImage, PFN_vkCmdClearColorImage, vkCmdClearColorImage, vkCmdClearColorImageSafe, VkCmdClearDepthStencilImage, pattern VkCmdClearDepthStencilImage, HS_vkCmdClearDepthStencilImage, PFN_vkCmdClearDepthStencilImage, vkCmdClearDepthStencilImage, vkCmdClearDepthStencilImageSafe, VkCmdClearAttachments, pattern VkCmdClearAttachments, HS_vkCmdClearAttachments, PFN_vkCmdClearAttachments, vkCmdClearAttachments, vkCmdClearAttachmentsSafe, VkCmdResolveImage, pattern VkCmdResolveImage, HS_vkCmdResolveImage, PFN_vkCmdResolveImage, vkCmdResolveImage, vkCmdResolveImageSafe, VkCmdSetEvent, pattern VkCmdSetEvent, HS_vkCmdSetEvent, PFN_vkCmdSetEvent, vkCmdSetEvent, vkCmdSetEventSafe, VkCmdResetEvent, pattern VkCmdResetEvent, HS_vkCmdResetEvent, PFN_vkCmdResetEvent, vkCmdResetEvent, vkCmdResetEventSafe, VkCmdWaitEvents, pattern VkCmdWaitEvents, HS_vkCmdWaitEvents, PFN_vkCmdWaitEvents, vkCmdWaitEvents, vkCmdWaitEventsSafe, VkCmdPipelineBarrier, pattern VkCmdPipelineBarrier, HS_vkCmdPipelineBarrier, PFN_vkCmdPipelineBarrier, vkCmdPipelineBarrier, vkCmdPipelineBarrierSafe, VkCmdBeginQuery, pattern VkCmdBeginQuery, HS_vkCmdBeginQuery, PFN_vkCmdBeginQuery, vkCmdBeginQuery, vkCmdBeginQuerySafe, VkCmdEndQuery, pattern VkCmdEndQuery, HS_vkCmdEndQuery, PFN_vkCmdEndQuery, vkCmdEndQuery, vkCmdEndQuerySafe, VkCmdResetQueryPool, pattern VkCmdResetQueryPool, HS_vkCmdResetQueryPool, PFN_vkCmdResetQueryPool, vkCmdResetQueryPool, vkCmdResetQueryPoolSafe, VkCmdWriteTimestamp, pattern VkCmdWriteTimestamp, HS_vkCmdWriteTimestamp, PFN_vkCmdWriteTimestamp, vkCmdWriteTimestamp, vkCmdWriteTimestampSafe, VkCmdCopyQueryPoolResults, pattern VkCmdCopyQueryPoolResults, HS_vkCmdCopyQueryPoolResults, PFN_vkCmdCopyQueryPoolResults, vkCmdCopyQueryPoolResults, vkCmdCopyQueryPoolResultsSafe, VkCmdPushConstants, pattern VkCmdPushConstants, HS_vkCmdPushConstants, PFN_vkCmdPushConstants, vkCmdPushConstants, vkCmdPushConstantsSafe, VkCmdBeginRenderPass, pattern VkCmdBeginRenderPass, HS_vkCmdBeginRenderPass, PFN_vkCmdBeginRenderPass, vkCmdBeginRenderPass, vkCmdBeginRenderPassSafe, VkCmdNextSubpass, pattern VkCmdNextSubpass, HS_vkCmdNextSubpass, PFN_vkCmdNextSubpass, vkCmdNextSubpass, vkCmdNextSubpassSafe, VkCmdEndRenderPass, pattern VkCmdEndRenderPass, HS_vkCmdEndRenderPass, PFN_vkCmdEndRenderPass, vkCmdEndRenderPass, vkCmdEndRenderPassSafe, VkCmdExecuteCommands, pattern VkCmdExecuteCommands, HS_vkCmdExecuteCommands, PFN_vkCmdExecuteCommands, vkCmdExecuteCommands, vkCmdExecuteCommandsSafe, module Graphics.Vulkan.Types.Enum.IndexType, module Graphics.Vulkan.Types.Struct.Clear, -- ** Types not directly used by the API. Include e.g. structs that are not parameter types of commands, but still defined by the API. module Graphics.Vulkan.Types.Struct.DispatchIndirectCommand, module Graphics.Vulkan.Types.Struct.DrawInd, module Graphics.Vulkan.Types.Enum.Object) where import GHC.Ptr (Ptr (..)) import Graphics.Vulkan.Constants (pattern VK_ATTACHMENT_UNUSED, pattern VK_FALSE, pattern VK_LOD_CLAMP_NONE, pattern VK_QUEUE_FAMILY_IGNORED, pattern VK_REMAINING_ARRAY_LAYERS, pattern VK_REMAINING_MIP_LEVELS, pattern VK_SUBPASS_EXTERNAL, pattern VK_TRUE, pattern VK_WHOLE_SIZE) import Graphics.Vulkan.Marshal import Graphics.Vulkan.Marshal.Proc import Graphics.Vulkan.Types.BaseTypes import Graphics.Vulkan.Types.Bitmasks import Graphics.Vulkan.Types.Enum.AccessFlags import Graphics.Vulkan.Types.Enum.Attachment import Graphics.Vulkan.Types.Enum.Blend import Graphics.Vulkan.Types.Enum.BorderColor import Graphics.Vulkan.Types.Enum.Buffer import Graphics.Vulkan.Types.Enum.Color import Graphics.Vulkan.Types.Enum.Command import Graphics.Vulkan.Types.Enum.CompareOp import Graphics.Vulkan.Types.Enum.ComponentSwizzle import Graphics.Vulkan.Types.Enum.CullModeFlags import Graphics.Vulkan.Types.Enum.DependencyFlags import Graphics.Vulkan.Types.Enum.Descriptor import Graphics.Vulkan.Types.Enum.Device import Graphics.Vulkan.Types.Enum.DynamicState import Graphics.Vulkan.Types.Enum.Fence import Graphics.Vulkan.Types.Enum.Filter import Graphics.Vulkan.Types.Enum.Format import Graphics.Vulkan.Types.Enum.FrontFace import Graphics.Vulkan.Types.Enum.Image import Graphics.Vulkan.Types.Enum.IndexType import Graphics.Vulkan.Types.Enum.InternalAllocationType import Graphics.Vulkan.Types.Enum.LogicOp import Graphics.Vulkan.Types.Enum.Memory import Graphics.Vulkan.Types.Enum.Object import Graphics.Vulkan.Types.Enum.PhysicalDeviceType import Graphics.Vulkan.Types.Enum.Pipeline import Graphics.Vulkan.Types.Enum.PolygonMode import Graphics.Vulkan.Types.Enum.PrimitiveTopology import Graphics.Vulkan.Types.Enum.Query import Graphics.Vulkan.Types.Enum.Queue import Graphics.Vulkan.Types.Enum.Result import Graphics.Vulkan.Types.Enum.SampleCountFlags import Graphics.Vulkan.Types.Enum.Sampler import Graphics.Vulkan.Types.Enum.Shader import Graphics.Vulkan.Types.Enum.SharingMode import Graphics.Vulkan.Types.Enum.Sparse import Graphics.Vulkan.Types.Enum.Stencil import Graphics.Vulkan.Types.Enum.StructureType import Graphics.Vulkan.Types.Enum.Subpass import Graphics.Vulkan.Types.Enum.SystemAllocationScope import Graphics.Vulkan.Types.Enum.VertexInputRate import Graphics.Vulkan.Types.Funcpointers import Graphics.Vulkan.Types.Handles import Graphics.Vulkan.Types.Struct.AllocationCallbacks import Graphics.Vulkan.Types.Struct.ApplicationInfo import Graphics.Vulkan.Types.Struct.Attachment import Graphics.Vulkan.Types.Struct.Bind import Graphics.Vulkan.Types.Struct.Buffer import Graphics.Vulkan.Types.Struct.Clear import Graphics.Vulkan.Types.Struct.Command import Graphics.Vulkan.Types.Struct.ComponentMapping import Graphics.Vulkan.Types.Struct.ComputePipelineCreateInfo import Graphics.Vulkan.Types.Struct.CopyDescriptorSet import Graphics.Vulkan.Types.Struct.Descriptor import Graphics.Vulkan.Types.Struct.Device import Graphics.Vulkan.Types.Struct.DispatchIndirectCommand import Graphics.Vulkan.Types.Struct.DrawInd import Graphics.Vulkan.Types.Struct.EventCreateInfo import Graphics.Vulkan.Types.Struct.ExtensionProperties import Graphics.Vulkan.Types.Struct.Extent import Graphics.Vulkan.Types.Struct.Fence import Graphics.Vulkan.Types.Struct.FormatProperties import Graphics.Vulkan.Types.Struct.FramebufferCreateInfo import Graphics.Vulkan.Types.Struct.Image import Graphics.Vulkan.Types.Struct.InstanceCreateInfo import Graphics.Vulkan.Types.Struct.LayerProperties import Graphics.Vulkan.Types.Struct.MappedMemoryRange import Graphics.Vulkan.Types.Struct.Memory import Graphics.Vulkan.Types.Struct.Offset import Graphics.Vulkan.Types.Struct.PhysicalDevice import Graphics.Vulkan.Types.Struct.PhysicalDeviceFeatures import Graphics.Vulkan.Types.Struct.Pipeline import Graphics.Vulkan.Types.Struct.PushConstantRange import Graphics.Vulkan.Types.Struct.QueryPoolCreateInfo import Graphics.Vulkan.Types.Struct.QueueFamilyProperties import Graphics.Vulkan.Types.Struct.Rect import Graphics.Vulkan.Types.Struct.RenderPass import Graphics.Vulkan.Types.Struct.Sampler import Graphics.Vulkan.Types.Struct.Semaphore import Graphics.Vulkan.Types.Struct.Shader import Graphics.Vulkan.Types.Struct.Sparse import Graphics.Vulkan.Types.Struct.Specialization import Graphics.Vulkan.Types.Struct.StencilOpState import Graphics.Vulkan.Types.Struct.SubmitInfo import Graphics.Vulkan.Types.Struct.Subpass import Graphics.Vulkan.Types.Struct.SubresourceLayout import Graphics.Vulkan.Types.Struct.VertexInput import Graphics.Vulkan.Types.Struct.Viewport import Graphics.Vulkan.Types.Struct.WriteDescriptorSet import System.IO.Unsafe (unsafeDupablePerformIO) pattern VkCreateInstance :: CString pattern VkCreateInstance <- (is_VkCreateInstance -> True) where VkCreateInstance = _VkCreateInstance {-# INLINE _VkCreateInstance #-} _VkCreateInstance :: CString _VkCreateInstance = Ptr "vkCreateInstance\NUL"## {-# INLINE is_VkCreateInstance #-} is_VkCreateInstance :: CString -> Bool is_VkCreateInstance = (EQ ==) . cmpCStrings _VkCreateInstance type VkCreateInstance = "vkCreateInstance" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_LAYER_NOT_PRESENT', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_INCOMPATIBLE_DRIVER'. -- -- > VkResult vkCreateInstance -- > ( const VkInstanceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkInstance* pInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateInstance <- vkGetInstanceProc @VkCreateInstance VK_NULL -- -- or less efficient: -- -- > myCreateInstance <- vkGetProc @VkCreateInstance -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateInstance" vkCreateInstance :: Ptr VkInstanceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkInstance -- ^ pInstance -> IO VkResult ##else vkCreateInstance :: Ptr VkInstanceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkInstance -- ^ pInstance -> IO VkResult vkCreateInstance = unsafeDupablePerformIO (vkGetProc @VkCreateInstance) {-# NOINLINE vkCreateInstance #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_LAYER_NOT_PRESENT', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_INCOMPATIBLE_DRIVER'. -- -- > VkResult vkCreateInstance -- > ( const VkInstanceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkInstance* pInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateInstance <- vkGetInstanceProc @VkCreateInstance VK_NULL -- -- or less efficient: -- -- > myCreateInstance <- vkGetProc @VkCreateInstance -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateInstance" vkCreateInstanceSafe :: Ptr VkInstanceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkInstance -- ^ pInstance -> IO VkResult ##else vkCreateInstanceSafe :: Ptr VkInstanceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkInstance -- ^ pInstance -> IO VkResult vkCreateInstanceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateInstance) {-# NOINLINE vkCreateInstanceSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_LAYER_NOT_PRESENT', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_INCOMPATIBLE_DRIVER'. -- -- > VkResult vkCreateInstance -- > ( const VkInstanceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkInstance* pInstance -- > ) -- -- type HS_vkCreateInstance = Ptr VkInstanceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkInstance -- ^ pInstance -> IO VkResult type PFN_vkCreateInstance = FunPtr HS_vkCreateInstance foreign import ccall unsafe "dynamic" unwrapVkCreateInstance :: PFN_vkCreateInstance -> HS_vkCreateInstance foreign import ccall safe "dynamic" unwrapVkCreateInstanceSafe :: PFN_vkCreateInstance -> HS_vkCreateInstance instance VulkanProc "vkCreateInstance" where type VkProcType "vkCreateInstance" = HS_vkCreateInstance vkProcSymbol = _VkCreateInstance {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateInstance {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateInstanceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyInstance :: CString pattern VkDestroyInstance <- (is_VkDestroyInstance -> True) where VkDestroyInstance = _VkDestroyInstance {-# INLINE _VkDestroyInstance #-} _VkDestroyInstance :: CString _VkDestroyInstance = Ptr "vkDestroyInstance\NUL"## {-# INLINE is_VkDestroyInstance #-} is_VkDestroyInstance :: CString -> Bool is_VkDestroyInstance = (EQ ==) . cmpCStrings _VkDestroyInstance type VkDestroyInstance = "vkDestroyInstance" -- | -- > void vkDestroyInstance -- > ( VkInstance instance -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyInstance <- vkGetInstanceProc @VkDestroyInstance vkInstance -- -- or less efficient: -- -- > myDestroyInstance <- vkGetProc @VkDestroyInstance -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyInstance" vkDestroyInstance :: VkInstance -- ^ instance -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyInstance :: VkInstance -- ^ instance -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyInstance = unsafeDupablePerformIO (vkGetProc @VkDestroyInstance) {-# NOINLINE vkDestroyInstance #-} ##endif -- | -- > void vkDestroyInstance -- > ( VkInstance instance -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyInstance <- vkGetInstanceProc @VkDestroyInstance vkInstance -- -- or less efficient: -- -- > myDestroyInstance <- vkGetProc @VkDestroyInstance -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyInstance" vkDestroyInstanceSafe :: VkInstance -- ^ instance -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyInstanceSafe :: VkInstance -- ^ instance -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyInstanceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyInstance) {-# NOINLINE vkDestroyInstanceSafe #-} ##endif -- | > void vkDestroyInstance -- > ( VkInstance instance -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyInstance = VkInstance -- ^ instance -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyInstance = FunPtr HS_vkDestroyInstance foreign import ccall unsafe "dynamic" unwrapVkDestroyInstance :: PFN_vkDestroyInstance -> HS_vkDestroyInstance foreign import ccall safe "dynamic" unwrapVkDestroyInstanceSafe :: PFN_vkDestroyInstance -> HS_vkDestroyInstance instance VulkanProc "vkDestroyInstance" where type VkProcType "vkDestroyInstance" = HS_vkDestroyInstance vkProcSymbol = _VkDestroyInstance {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyInstance {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyInstanceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEnumeratePhysicalDevices :: CString pattern VkEnumeratePhysicalDevices <- (is_VkEnumeratePhysicalDevices -> True) where VkEnumeratePhysicalDevices = _VkEnumeratePhysicalDevices {-# INLINE _VkEnumeratePhysicalDevices #-} _VkEnumeratePhysicalDevices :: CString _VkEnumeratePhysicalDevices = Ptr "vkEnumeratePhysicalDevices\NUL"## {-# INLINE is_VkEnumeratePhysicalDevices #-} is_VkEnumeratePhysicalDevices :: CString -> Bool is_VkEnumeratePhysicalDevices = (EQ ==) . cmpCStrings _VkEnumeratePhysicalDevices type VkEnumeratePhysicalDevices = "vkEnumeratePhysicalDevices" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED'. -- -- > VkResult vkEnumeratePhysicalDevices -- > ( VkInstance instance -- > , uint32_t* pPhysicalDeviceCount -- > , VkPhysicalDevice* pPhysicalDevices -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumeratePhysicalDevices <- vkGetInstanceProc @VkEnumeratePhysicalDevices vkInstance -- -- or less efficient: -- -- > myEnumeratePhysicalDevices <- vkGetProc @VkEnumeratePhysicalDevices -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEnumeratePhysicalDevices" vkEnumeratePhysicalDevices :: VkInstance -- ^ instance -> Ptr Word32 -- ^ pPhysicalDeviceCount -> Ptr VkPhysicalDevice -- ^ pPhysicalDevices -> IO VkResult ##else vkEnumeratePhysicalDevices :: VkInstance -- ^ instance -> Ptr Word32 -- ^ pPhysicalDeviceCount -> Ptr VkPhysicalDevice -- ^ pPhysicalDevices -> IO VkResult vkEnumeratePhysicalDevices = unsafeDupablePerformIO (vkGetProc @VkEnumeratePhysicalDevices) {-# NOINLINE vkEnumeratePhysicalDevices #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED'. -- -- > VkResult vkEnumeratePhysicalDevices -- > ( VkInstance instance -- > , uint32_t* pPhysicalDeviceCount -- > , VkPhysicalDevice* pPhysicalDevices -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumeratePhysicalDevices <- vkGetInstanceProc @VkEnumeratePhysicalDevices vkInstance -- -- or less efficient: -- -- > myEnumeratePhysicalDevices <- vkGetProc @VkEnumeratePhysicalDevices -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEnumeratePhysicalDevices" vkEnumeratePhysicalDevicesSafe :: VkInstance -- ^ instance -> Ptr Word32 -- ^ pPhysicalDeviceCount -> Ptr VkPhysicalDevice -- ^ pPhysicalDevices -> IO VkResult ##else vkEnumeratePhysicalDevicesSafe :: VkInstance -- ^ instance -> Ptr Word32 -- ^ pPhysicalDeviceCount -> Ptr VkPhysicalDevice -- ^ pPhysicalDevices -> IO VkResult vkEnumeratePhysicalDevicesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEnumeratePhysicalDevices) {-# NOINLINE vkEnumeratePhysicalDevicesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED'. -- -- > VkResult vkEnumeratePhysicalDevices -- > ( VkInstance instance -- > , uint32_t* pPhysicalDeviceCount -- > , VkPhysicalDevice* pPhysicalDevices -- > ) -- -- type HS_vkEnumeratePhysicalDevices = VkInstance -- ^ instance -> Ptr Word32 -- ^ pPhysicalDeviceCount -> Ptr VkPhysicalDevice -- ^ pPhysicalDevices -> IO VkResult type PFN_vkEnumeratePhysicalDevices = FunPtr HS_vkEnumeratePhysicalDevices foreign import ccall unsafe "dynamic" unwrapVkEnumeratePhysicalDevices :: PFN_vkEnumeratePhysicalDevices -> HS_vkEnumeratePhysicalDevices foreign import ccall safe "dynamic" unwrapVkEnumeratePhysicalDevicesSafe :: PFN_vkEnumeratePhysicalDevices -> HS_vkEnumeratePhysicalDevices instance VulkanProc "vkEnumeratePhysicalDevices" where type VkProcType "vkEnumeratePhysicalDevices" = HS_vkEnumeratePhysicalDevices vkProcSymbol = _VkEnumeratePhysicalDevices {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEnumeratePhysicalDevices {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEnumeratePhysicalDevicesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceFeatures :: CString pattern VkGetPhysicalDeviceFeatures <- (is_VkGetPhysicalDeviceFeatures -> True) where VkGetPhysicalDeviceFeatures = _VkGetPhysicalDeviceFeatures {-# INLINE _VkGetPhysicalDeviceFeatures #-} _VkGetPhysicalDeviceFeatures :: CString _VkGetPhysicalDeviceFeatures = Ptr "vkGetPhysicalDeviceFeatures\NUL"## {-# INLINE is_VkGetPhysicalDeviceFeatures #-} is_VkGetPhysicalDeviceFeatures :: CString -> Bool is_VkGetPhysicalDeviceFeatures = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceFeatures type VkGetPhysicalDeviceFeatures = "vkGetPhysicalDeviceFeatures" -- | -- > void vkGetPhysicalDeviceFeatures -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceFeatures* pFeatures -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceFeatures <- vkGetInstanceProc @VkGetPhysicalDeviceFeatures vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceFeatures <- vkGetProc @VkGetPhysicalDeviceFeatures -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceFeatures" vkGetPhysicalDeviceFeatures :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceFeatures -- ^ pFeatures -> IO () ##else vkGetPhysicalDeviceFeatures :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceFeatures -- ^ pFeatures -> IO () vkGetPhysicalDeviceFeatures = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceFeatures) {-# NOINLINE vkGetPhysicalDeviceFeatures #-} ##endif -- | -- > void vkGetPhysicalDeviceFeatures -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceFeatures* pFeatures -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceFeatures <- vkGetInstanceProc @VkGetPhysicalDeviceFeatures vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceFeatures <- vkGetProc @VkGetPhysicalDeviceFeatures -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceFeatures" vkGetPhysicalDeviceFeaturesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceFeatures -- ^ pFeatures -> IO () ##else vkGetPhysicalDeviceFeaturesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceFeatures -- ^ pFeatures -> IO () vkGetPhysicalDeviceFeaturesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceFeatures) {-# NOINLINE vkGetPhysicalDeviceFeaturesSafe #-} ##endif -- | > void vkGetPhysicalDeviceFeatures -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceFeatures* pFeatures -- > ) -- -- type HS_vkGetPhysicalDeviceFeatures = VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceFeatures -- ^ pFeatures -> IO () type PFN_vkGetPhysicalDeviceFeatures = FunPtr HS_vkGetPhysicalDeviceFeatures foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceFeatures :: PFN_vkGetPhysicalDeviceFeatures -> HS_vkGetPhysicalDeviceFeatures foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceFeaturesSafe :: PFN_vkGetPhysicalDeviceFeatures -> HS_vkGetPhysicalDeviceFeatures instance VulkanProc "vkGetPhysicalDeviceFeatures" where type VkProcType "vkGetPhysicalDeviceFeatures" = HS_vkGetPhysicalDeviceFeatures vkProcSymbol = _VkGetPhysicalDeviceFeatures {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceFeatures {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceFeaturesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceFormatProperties :: CString pattern VkGetPhysicalDeviceFormatProperties <- (is_VkGetPhysicalDeviceFormatProperties -> True) where VkGetPhysicalDeviceFormatProperties = _VkGetPhysicalDeviceFormatProperties {-# INLINE _VkGetPhysicalDeviceFormatProperties #-} _VkGetPhysicalDeviceFormatProperties :: CString _VkGetPhysicalDeviceFormatProperties = Ptr "vkGetPhysicalDeviceFormatProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceFormatProperties #-} is_VkGetPhysicalDeviceFormatProperties :: CString -> Bool is_VkGetPhysicalDeviceFormatProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceFormatProperties type VkGetPhysicalDeviceFormatProperties = "vkGetPhysicalDeviceFormatProperties" -- | -- > void vkGetPhysicalDeviceFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkFormatProperties* pFormatProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceFormatProperties <- vkGetProc @VkGetPhysicalDeviceFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceFormatProperties" vkGetPhysicalDeviceFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> Ptr VkFormatProperties -- ^ pFormatProperties -> IO () ##else vkGetPhysicalDeviceFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> Ptr VkFormatProperties -- ^ pFormatProperties -> IO () vkGetPhysicalDeviceFormatProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceFormatProperties) {-# NOINLINE vkGetPhysicalDeviceFormatProperties #-} ##endif -- | -- > void vkGetPhysicalDeviceFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkFormatProperties* pFormatProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceFormatProperties <- vkGetProc @VkGetPhysicalDeviceFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceFormatProperties" vkGetPhysicalDeviceFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> Ptr VkFormatProperties -- ^ pFormatProperties -> IO () ##else vkGetPhysicalDeviceFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> Ptr VkFormatProperties -- ^ pFormatProperties -> IO () vkGetPhysicalDeviceFormatPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceFormatProperties) {-# NOINLINE vkGetPhysicalDeviceFormatPropertiesSafe #-} ##endif -- | > void vkGetPhysicalDeviceFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkFormatProperties* pFormatProperties -- > ) -- -- type HS_vkGetPhysicalDeviceFormatProperties = VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> Ptr VkFormatProperties -- ^ pFormatProperties -> IO () type PFN_vkGetPhysicalDeviceFormatProperties = FunPtr HS_vkGetPhysicalDeviceFormatProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceFormatProperties :: PFN_vkGetPhysicalDeviceFormatProperties -> HS_vkGetPhysicalDeviceFormatProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceFormatPropertiesSafe :: PFN_vkGetPhysicalDeviceFormatProperties -> HS_vkGetPhysicalDeviceFormatProperties instance VulkanProc "vkGetPhysicalDeviceFormatProperties" where type VkProcType "vkGetPhysicalDeviceFormatProperties" = HS_vkGetPhysicalDeviceFormatProperties vkProcSymbol = _VkGetPhysicalDeviceFormatProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceFormatProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceFormatPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceImageFormatProperties :: CString pattern VkGetPhysicalDeviceImageFormatProperties <- (is_VkGetPhysicalDeviceImageFormatProperties -> True) where VkGetPhysicalDeviceImageFormatProperties = _VkGetPhysicalDeviceImageFormatProperties {-# INLINE _VkGetPhysicalDeviceImageFormatProperties #-} _VkGetPhysicalDeviceImageFormatProperties :: CString _VkGetPhysicalDeviceImageFormatProperties = Ptr "vkGetPhysicalDeviceImageFormatProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceImageFormatProperties #-} is_VkGetPhysicalDeviceImageFormatProperties :: CString -> Bool is_VkGetPhysicalDeviceImageFormatProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceImageFormatProperties type VkGetPhysicalDeviceImageFormatProperties = "vkGetPhysicalDeviceImageFormatProperties" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FORMAT_NOT_SUPPORTED'. -- -- > VkResult vkGetPhysicalDeviceImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkImageTiling tiling -- > , VkImageUsageFlags usage -- > , VkImageCreateFlags flags -- > , VkImageFormatProperties* pImageFormatProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceImageFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceImageFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceImageFormatProperties <- vkGetProc @VkGetPhysicalDeviceImageFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceImageFormatProperties" vkGetPhysicalDeviceImageFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkImageTiling -- ^ tiling -> VkImageUsageFlags -- ^ usage -> VkImageCreateFlags -- ^ flags -> Ptr VkImageFormatProperties -- ^ pImageFormatProperties -> IO VkResult ##else vkGetPhysicalDeviceImageFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkImageTiling -- ^ tiling -> VkImageUsageFlags -- ^ usage -> VkImageCreateFlags -- ^ flags -> Ptr VkImageFormatProperties -- ^ pImageFormatProperties -> IO VkResult vkGetPhysicalDeviceImageFormatProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceImageFormatProperties) {-# NOINLINE vkGetPhysicalDeviceImageFormatProperties #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FORMAT_NOT_SUPPORTED'. -- -- > VkResult vkGetPhysicalDeviceImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkImageTiling tiling -- > , VkImageUsageFlags usage -- > , VkImageCreateFlags flags -- > , VkImageFormatProperties* pImageFormatProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceImageFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceImageFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceImageFormatProperties <- vkGetProc @VkGetPhysicalDeviceImageFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceImageFormatProperties" vkGetPhysicalDeviceImageFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkImageTiling -- ^ tiling -> VkImageUsageFlags -- ^ usage -> VkImageCreateFlags -- ^ flags -> Ptr VkImageFormatProperties -- ^ pImageFormatProperties -> IO VkResult ##else vkGetPhysicalDeviceImageFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkImageTiling -- ^ tiling -> VkImageUsageFlags -- ^ usage -> VkImageCreateFlags -- ^ flags -> Ptr VkImageFormatProperties -- ^ pImageFormatProperties -> IO VkResult vkGetPhysicalDeviceImageFormatPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceImageFormatProperties) {-# NOINLINE vkGetPhysicalDeviceImageFormatPropertiesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FORMAT_NOT_SUPPORTED'. -- -- > VkResult vkGetPhysicalDeviceImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkImageTiling tiling -- > , VkImageUsageFlags usage -- > , VkImageCreateFlags flags -- > , VkImageFormatProperties* pImageFormatProperties -- > ) -- -- type HS_vkGetPhysicalDeviceImageFormatProperties = VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkImageTiling -- ^ tiling -> VkImageUsageFlags -- ^ usage -> VkImageCreateFlags -- ^ flags -> Ptr VkImageFormatProperties -- ^ pImageFormatProperties -> IO VkResult type PFN_vkGetPhysicalDeviceImageFormatProperties = FunPtr HS_vkGetPhysicalDeviceImageFormatProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceImageFormatProperties :: PFN_vkGetPhysicalDeviceImageFormatProperties -> HS_vkGetPhysicalDeviceImageFormatProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceImageFormatPropertiesSafe :: PFN_vkGetPhysicalDeviceImageFormatProperties -> HS_vkGetPhysicalDeviceImageFormatProperties instance VulkanProc "vkGetPhysicalDeviceImageFormatProperties" where type VkProcType "vkGetPhysicalDeviceImageFormatProperties" = HS_vkGetPhysicalDeviceImageFormatProperties vkProcSymbol = _VkGetPhysicalDeviceImageFormatProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceImageFormatProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceImageFormatPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceProperties :: CString pattern VkGetPhysicalDeviceProperties <- (is_VkGetPhysicalDeviceProperties -> True) where VkGetPhysicalDeviceProperties = _VkGetPhysicalDeviceProperties {-# INLINE _VkGetPhysicalDeviceProperties #-} _VkGetPhysicalDeviceProperties :: CString _VkGetPhysicalDeviceProperties = Ptr "vkGetPhysicalDeviceProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceProperties #-} is_VkGetPhysicalDeviceProperties :: CString -> Bool is_VkGetPhysicalDeviceProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceProperties type VkGetPhysicalDeviceProperties = "vkGetPhysicalDeviceProperties" -- | -- > void vkGetPhysicalDeviceProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceProperties <- vkGetInstanceProc @VkGetPhysicalDeviceProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceProperties <- vkGetProc @VkGetPhysicalDeviceProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceProperties" vkGetPhysicalDeviceProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceProperties -- ^ pProperties -> IO () ##else vkGetPhysicalDeviceProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceProperties -- ^ pProperties -> IO () vkGetPhysicalDeviceProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceProperties) {-# NOINLINE vkGetPhysicalDeviceProperties #-} ##endif -- | -- > void vkGetPhysicalDeviceProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceProperties <- vkGetInstanceProc @VkGetPhysicalDeviceProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceProperties <- vkGetProc @VkGetPhysicalDeviceProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceProperties" vkGetPhysicalDevicePropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceProperties -- ^ pProperties -> IO () ##else vkGetPhysicalDevicePropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceProperties -- ^ pProperties -> IO () vkGetPhysicalDevicePropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceProperties) {-# NOINLINE vkGetPhysicalDevicePropertiesSafe #-} ##endif -- | > void vkGetPhysicalDeviceProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceProperties* pProperties -- > ) -- -- type HS_vkGetPhysicalDeviceProperties = VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceProperties -- ^ pProperties -> IO () type PFN_vkGetPhysicalDeviceProperties = FunPtr HS_vkGetPhysicalDeviceProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceProperties :: PFN_vkGetPhysicalDeviceProperties -> HS_vkGetPhysicalDeviceProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDevicePropertiesSafe :: PFN_vkGetPhysicalDeviceProperties -> HS_vkGetPhysicalDeviceProperties instance VulkanProc "vkGetPhysicalDeviceProperties" where type VkProcType "vkGetPhysicalDeviceProperties" = HS_vkGetPhysicalDeviceProperties vkProcSymbol = _VkGetPhysicalDeviceProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDevicePropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceQueueFamilyProperties :: CString pattern VkGetPhysicalDeviceQueueFamilyProperties <- (is_VkGetPhysicalDeviceQueueFamilyProperties -> True) where VkGetPhysicalDeviceQueueFamilyProperties = _VkGetPhysicalDeviceQueueFamilyProperties {-# INLINE _VkGetPhysicalDeviceQueueFamilyProperties #-} _VkGetPhysicalDeviceQueueFamilyProperties :: CString _VkGetPhysicalDeviceQueueFamilyProperties = Ptr "vkGetPhysicalDeviceQueueFamilyProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceQueueFamilyProperties #-} is_VkGetPhysicalDeviceQueueFamilyProperties :: CString -> Bool is_VkGetPhysicalDeviceQueueFamilyProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceQueueFamilyProperties type VkGetPhysicalDeviceQueueFamilyProperties = "vkGetPhysicalDeviceQueueFamilyProperties" -- | -- > void vkGetPhysicalDeviceQueueFamilyProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pQueueFamilyPropertyCount -- > , VkQueueFamilyProperties* pQueueFamilyProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceQueueFamilyProperties <- vkGetInstanceProc @VkGetPhysicalDeviceQueueFamilyProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceQueueFamilyProperties <- vkGetProc @VkGetPhysicalDeviceQueueFamilyProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceQueueFamilyProperties" vkGetPhysicalDeviceQueueFamilyProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pQueueFamilyPropertyCount -> Ptr VkQueueFamilyProperties -- ^ pQueueFamilyProperties -> IO () ##else vkGetPhysicalDeviceQueueFamilyProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pQueueFamilyPropertyCount -> Ptr VkQueueFamilyProperties -- ^ pQueueFamilyProperties -> IO () vkGetPhysicalDeviceQueueFamilyProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceQueueFamilyProperties) {-# NOINLINE vkGetPhysicalDeviceQueueFamilyProperties #-} ##endif -- | -- > void vkGetPhysicalDeviceQueueFamilyProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pQueueFamilyPropertyCount -- > , VkQueueFamilyProperties* pQueueFamilyProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceQueueFamilyProperties <- vkGetInstanceProc @VkGetPhysicalDeviceQueueFamilyProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceQueueFamilyProperties <- vkGetProc @VkGetPhysicalDeviceQueueFamilyProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceQueueFamilyProperties" vkGetPhysicalDeviceQueueFamilyPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pQueueFamilyPropertyCount -> Ptr VkQueueFamilyProperties -- ^ pQueueFamilyProperties -> IO () ##else vkGetPhysicalDeviceQueueFamilyPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pQueueFamilyPropertyCount -> Ptr VkQueueFamilyProperties -- ^ pQueueFamilyProperties -> IO () vkGetPhysicalDeviceQueueFamilyPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceQueueFamilyProperties) {-# NOINLINE vkGetPhysicalDeviceQueueFamilyPropertiesSafe #-} ##endif -- | > void vkGetPhysicalDeviceQueueFamilyProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pQueueFamilyPropertyCount -- > , VkQueueFamilyProperties* pQueueFamilyProperties -- > ) -- -- type HS_vkGetPhysicalDeviceQueueFamilyProperties = VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pQueueFamilyPropertyCount -> Ptr VkQueueFamilyProperties -- ^ pQueueFamilyProperties -> IO () type PFN_vkGetPhysicalDeviceQueueFamilyProperties = FunPtr HS_vkGetPhysicalDeviceQueueFamilyProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceQueueFamilyProperties :: PFN_vkGetPhysicalDeviceQueueFamilyProperties -> HS_vkGetPhysicalDeviceQueueFamilyProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceQueueFamilyPropertiesSafe :: PFN_vkGetPhysicalDeviceQueueFamilyProperties -> HS_vkGetPhysicalDeviceQueueFamilyProperties instance VulkanProc "vkGetPhysicalDeviceQueueFamilyProperties" where type VkProcType "vkGetPhysicalDeviceQueueFamilyProperties" = HS_vkGetPhysicalDeviceQueueFamilyProperties vkProcSymbol = _VkGetPhysicalDeviceQueueFamilyProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceQueueFamilyProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceQueueFamilyPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceMemoryProperties :: CString pattern VkGetPhysicalDeviceMemoryProperties <- (is_VkGetPhysicalDeviceMemoryProperties -> True) where VkGetPhysicalDeviceMemoryProperties = _VkGetPhysicalDeviceMemoryProperties {-# INLINE _VkGetPhysicalDeviceMemoryProperties #-} _VkGetPhysicalDeviceMemoryProperties :: CString _VkGetPhysicalDeviceMemoryProperties = Ptr "vkGetPhysicalDeviceMemoryProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceMemoryProperties #-} is_VkGetPhysicalDeviceMemoryProperties :: CString -> Bool is_VkGetPhysicalDeviceMemoryProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceMemoryProperties type VkGetPhysicalDeviceMemoryProperties = "vkGetPhysicalDeviceMemoryProperties" -- | -- > void vkGetPhysicalDeviceMemoryProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceMemoryProperties* pMemoryProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceMemoryProperties <- vkGetInstanceProc @VkGetPhysicalDeviceMemoryProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceMemoryProperties <- vkGetProc @VkGetPhysicalDeviceMemoryProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceMemoryProperties" vkGetPhysicalDeviceMemoryProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceMemoryProperties -- ^ pMemoryProperties -> IO () ##else vkGetPhysicalDeviceMemoryProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceMemoryProperties -- ^ pMemoryProperties -> IO () vkGetPhysicalDeviceMemoryProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceMemoryProperties) {-# NOINLINE vkGetPhysicalDeviceMemoryProperties #-} ##endif -- | -- > void vkGetPhysicalDeviceMemoryProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceMemoryProperties* pMemoryProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceMemoryProperties <- vkGetInstanceProc @VkGetPhysicalDeviceMemoryProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceMemoryProperties <- vkGetProc @VkGetPhysicalDeviceMemoryProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceMemoryProperties" vkGetPhysicalDeviceMemoryPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceMemoryProperties -- ^ pMemoryProperties -> IO () ##else vkGetPhysicalDeviceMemoryPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceMemoryProperties -- ^ pMemoryProperties -> IO () vkGetPhysicalDeviceMemoryPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceMemoryProperties) {-# NOINLINE vkGetPhysicalDeviceMemoryPropertiesSafe #-} ##endif -- | > void vkGetPhysicalDeviceMemoryProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkPhysicalDeviceMemoryProperties* pMemoryProperties -- > ) -- -- type HS_vkGetPhysicalDeviceMemoryProperties = VkPhysicalDevice -- ^ physicalDevice -> Ptr VkPhysicalDeviceMemoryProperties -- ^ pMemoryProperties -> IO () type PFN_vkGetPhysicalDeviceMemoryProperties = FunPtr HS_vkGetPhysicalDeviceMemoryProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceMemoryProperties :: PFN_vkGetPhysicalDeviceMemoryProperties -> HS_vkGetPhysicalDeviceMemoryProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceMemoryPropertiesSafe :: PFN_vkGetPhysicalDeviceMemoryProperties -> HS_vkGetPhysicalDeviceMemoryProperties instance VulkanProc "vkGetPhysicalDeviceMemoryProperties" where type VkProcType "vkGetPhysicalDeviceMemoryProperties" = HS_vkGetPhysicalDeviceMemoryProperties vkProcSymbol = _VkGetPhysicalDeviceMemoryProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceMemoryProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceMemoryPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetInstanceProcAddr :: CString pattern VkGetInstanceProcAddr <- (is_VkGetInstanceProcAddr -> True) where VkGetInstanceProcAddr = _VkGetInstanceProcAddr {-# INLINE _VkGetInstanceProcAddr #-} _VkGetInstanceProcAddr :: CString _VkGetInstanceProcAddr = Ptr "vkGetInstanceProcAddr\NUL"## {-# INLINE is_VkGetInstanceProcAddr #-} is_VkGetInstanceProcAddr :: CString -> Bool is_VkGetInstanceProcAddr = (EQ ==) . cmpCStrings _VkGetInstanceProcAddr type VkGetInstanceProcAddr = "vkGetInstanceProcAddr" -- | -- > PFN_vkVoidFunction vkGetInstanceProcAddr -- > ( VkInstance instance -- > , const char* pName -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetInstanceProcAddr <- vkGetInstanceProc @VkGetInstanceProcAddr vkInstance -- -- or less efficient: -- -- > myGetInstanceProcAddr <- vkGetProc @VkGetInstanceProcAddr -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetInstanceProcAddr" vkGetInstanceProcAddr :: VkInstance -- ^ instance -> CString -- ^ pName -> IO PFN_vkVoidFunction ##else vkGetInstanceProcAddr :: VkInstance -- ^ instance -> CString -- ^ pName -> IO PFN_vkVoidFunction vkGetInstanceProcAddr = unsafeDupablePerformIO (vkGetProc @VkGetInstanceProcAddr) {-# NOINLINE vkGetInstanceProcAddr #-} ##endif -- | -- > PFN_vkVoidFunction vkGetInstanceProcAddr -- > ( VkInstance instance -- > , const char* pName -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetInstanceProcAddr <- vkGetInstanceProc @VkGetInstanceProcAddr vkInstance -- -- or less efficient: -- -- > myGetInstanceProcAddr <- vkGetProc @VkGetInstanceProcAddr -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetInstanceProcAddr" vkGetInstanceProcAddrSafe :: VkInstance -- ^ instance -> CString -- ^ pName -> IO PFN_vkVoidFunction ##else vkGetInstanceProcAddrSafe :: VkInstance -- ^ instance -> CString -- ^ pName -> IO PFN_vkVoidFunction vkGetInstanceProcAddrSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetInstanceProcAddr) {-# NOINLINE vkGetInstanceProcAddrSafe #-} ##endif -- | > PFN_vkVoidFunction vkGetInstanceProcAddr -- > ( VkInstance instance -- > , const char* pName -- > ) -- -- type HS_vkGetInstanceProcAddr = VkInstance -- ^ instance -> CString -- ^ pName -> IO PFN_vkVoidFunction type PFN_vkGetInstanceProcAddr = FunPtr HS_vkGetInstanceProcAddr foreign import ccall unsafe "dynamic" unwrapVkGetInstanceProcAddr :: PFN_vkGetInstanceProcAddr -> HS_vkGetInstanceProcAddr foreign import ccall safe "dynamic" unwrapVkGetInstanceProcAddrSafe :: PFN_vkGetInstanceProcAddr -> HS_vkGetInstanceProcAddr instance VulkanProc "vkGetInstanceProcAddr" where type VkProcType "vkGetInstanceProcAddr" = HS_vkGetInstanceProcAddr vkProcSymbol = _VkGetInstanceProcAddr {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetInstanceProcAddr {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetInstanceProcAddrSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetDeviceProcAddr :: CString pattern VkGetDeviceProcAddr <- (is_VkGetDeviceProcAddr -> True) where VkGetDeviceProcAddr = _VkGetDeviceProcAddr {-# INLINE _VkGetDeviceProcAddr #-} _VkGetDeviceProcAddr :: CString _VkGetDeviceProcAddr = Ptr "vkGetDeviceProcAddr\NUL"## {-# INLINE is_VkGetDeviceProcAddr #-} is_VkGetDeviceProcAddr :: CString -> Bool is_VkGetDeviceProcAddr = (EQ ==) . cmpCStrings _VkGetDeviceProcAddr type VkGetDeviceProcAddr = "vkGetDeviceProcAddr" -- | -- > PFN_vkVoidFunction vkGetDeviceProcAddr -- > ( VkDevice device -- > , const char* pName -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceProcAddr <- vkGetDeviceProc @VkGetDeviceProcAddr vkDevice -- -- or less efficient: -- -- > myGetDeviceProcAddr <- vkGetProc @VkGetDeviceProcAddr -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetDeviceProcAddr" vkGetDeviceProcAddr :: VkDevice -- ^ device -> CString -- ^ pName -> IO PFN_vkVoidFunction ##else vkGetDeviceProcAddr :: VkDevice -- ^ device -> CString -- ^ pName -> IO PFN_vkVoidFunction vkGetDeviceProcAddr = unsafeDupablePerformIO (vkGetProc @VkGetDeviceProcAddr) {-# NOINLINE vkGetDeviceProcAddr #-} ##endif -- | -- > PFN_vkVoidFunction vkGetDeviceProcAddr -- > ( VkDevice device -- > , const char* pName -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceProcAddr <- vkGetDeviceProc @VkGetDeviceProcAddr vkDevice -- -- or less efficient: -- -- > myGetDeviceProcAddr <- vkGetProc @VkGetDeviceProcAddr -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetDeviceProcAddr" vkGetDeviceProcAddrSafe :: VkDevice -- ^ device -> CString -- ^ pName -> IO PFN_vkVoidFunction ##else vkGetDeviceProcAddrSafe :: VkDevice -- ^ device -> CString -- ^ pName -> IO PFN_vkVoidFunction vkGetDeviceProcAddrSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetDeviceProcAddr) {-# NOINLINE vkGetDeviceProcAddrSafe #-} ##endif -- | > PFN_vkVoidFunction vkGetDeviceProcAddr -- > ( VkDevice device -- > , const char* pName -- > ) -- -- type HS_vkGetDeviceProcAddr = VkDevice -- ^ device -> CString -- ^ pName -> IO PFN_vkVoidFunction type PFN_vkGetDeviceProcAddr = FunPtr HS_vkGetDeviceProcAddr foreign import ccall unsafe "dynamic" unwrapVkGetDeviceProcAddr :: PFN_vkGetDeviceProcAddr -> HS_vkGetDeviceProcAddr foreign import ccall safe "dynamic" unwrapVkGetDeviceProcAddrSafe :: PFN_vkGetDeviceProcAddr -> HS_vkGetDeviceProcAddr instance VulkanProc "vkGetDeviceProcAddr" where type VkProcType "vkGetDeviceProcAddr" = HS_vkGetDeviceProcAddr vkProcSymbol = _VkGetDeviceProcAddr {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetDeviceProcAddr {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetDeviceProcAddrSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateDevice :: CString pattern VkCreateDevice <- (is_VkCreateDevice -> True) where VkCreateDevice = _VkCreateDevice {-# INLINE _VkCreateDevice #-} _VkCreateDevice :: CString _VkCreateDevice = Ptr "vkCreateDevice\NUL"## {-# INLINE is_VkCreateDevice #-} is_VkCreateDevice :: CString -> Bool is_VkCreateDevice = (EQ ==) . cmpCStrings _VkCreateDevice type VkCreateDevice = "vkCreateDevice" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_FEATURE_NOT_PRESENT', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkCreateDevice -- > ( VkPhysicalDevice physicalDevice -- > , const VkDeviceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDevice* pDevice -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDevice <- vkGetInstanceProc @VkCreateDevice vkInstance -- -- or less efficient: -- -- > myCreateDevice <- vkGetProc @VkCreateDevice -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateDevice" vkCreateDevice :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkDeviceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDevice -- ^ pDevice -> IO VkResult ##else vkCreateDevice :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkDeviceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDevice -- ^ pDevice -> IO VkResult vkCreateDevice = unsafeDupablePerformIO (vkGetProc @VkCreateDevice) {-# NOINLINE vkCreateDevice #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_FEATURE_NOT_PRESENT', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkCreateDevice -- > ( VkPhysicalDevice physicalDevice -- > , const VkDeviceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDevice* pDevice -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDevice <- vkGetInstanceProc @VkCreateDevice vkInstance -- -- or less efficient: -- -- > myCreateDevice <- vkGetProc @VkCreateDevice -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateDevice" vkCreateDeviceSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkDeviceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDevice -- ^ pDevice -> IO VkResult ##else vkCreateDeviceSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr VkDeviceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDevice -- ^ pDevice -> IO VkResult vkCreateDeviceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateDevice) {-# NOINLINE vkCreateDeviceSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INITIALIZATION_FAILED', 'VK_ERROR_EXTENSION_NOT_PRESENT', 'VK_ERROR_FEATURE_NOT_PRESENT', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkCreateDevice -- > ( VkPhysicalDevice physicalDevice -- > , const VkDeviceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDevice* pDevice -- > ) -- -- type HS_vkCreateDevice = VkPhysicalDevice -- ^ physicalDevice -> Ptr VkDeviceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDevice -- ^ pDevice -> IO VkResult type PFN_vkCreateDevice = FunPtr HS_vkCreateDevice foreign import ccall unsafe "dynamic" unwrapVkCreateDevice :: PFN_vkCreateDevice -> HS_vkCreateDevice foreign import ccall safe "dynamic" unwrapVkCreateDeviceSafe :: PFN_vkCreateDevice -> HS_vkCreateDevice instance VulkanProc "vkCreateDevice" where type VkProcType "vkCreateDevice" = HS_vkCreateDevice vkProcSymbol = _VkCreateDevice {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateDevice {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateDeviceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyDevice :: CString pattern VkDestroyDevice <- (is_VkDestroyDevice -> True) where VkDestroyDevice = _VkDestroyDevice {-# INLINE _VkDestroyDevice #-} _VkDestroyDevice :: CString _VkDestroyDevice = Ptr "vkDestroyDevice\NUL"## {-# INLINE is_VkDestroyDevice #-} is_VkDestroyDevice :: CString -> Bool is_VkDestroyDevice = (EQ ==) . cmpCStrings _VkDestroyDevice type VkDestroyDevice = "vkDestroyDevice" -- | -- > void vkDestroyDevice -- > ( VkDevice device -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDevice <- vkGetDeviceProc @VkDestroyDevice vkDevice -- -- or less efficient: -- -- > myDestroyDevice <- vkGetProc @VkDestroyDevice -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyDevice" vkDestroyDevice :: VkDevice -- ^ device -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDevice :: VkDevice -- ^ device -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDevice = unsafeDupablePerformIO (vkGetProc @VkDestroyDevice) {-# NOINLINE vkDestroyDevice #-} ##endif -- | -- > void vkDestroyDevice -- > ( VkDevice device -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDevice <- vkGetDeviceProc @VkDestroyDevice vkDevice -- -- or less efficient: -- -- > myDestroyDevice <- vkGetProc @VkDestroyDevice -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyDevice" vkDestroyDeviceSafe :: VkDevice -- ^ device -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDeviceSafe :: VkDevice -- ^ device -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDeviceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyDevice) {-# NOINLINE vkDestroyDeviceSafe #-} ##endif -- | > void vkDestroyDevice -- > ( VkDevice device -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyDevice = VkDevice -- ^ device -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyDevice = FunPtr HS_vkDestroyDevice foreign import ccall unsafe "dynamic" unwrapVkDestroyDevice :: PFN_vkDestroyDevice -> HS_vkDestroyDevice foreign import ccall safe "dynamic" unwrapVkDestroyDeviceSafe :: PFN_vkDestroyDevice -> HS_vkDestroyDevice instance VulkanProc "vkDestroyDevice" where type VkProcType "vkDestroyDevice" = HS_vkDestroyDevice vkProcSymbol = _VkDestroyDevice {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyDevice {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyDeviceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEnumerateInstanceExtensionProperties :: CString pattern VkEnumerateInstanceExtensionProperties <- (is_VkEnumerateInstanceExtensionProperties -> True) where VkEnumerateInstanceExtensionProperties = _VkEnumerateInstanceExtensionProperties {-# INLINE _VkEnumerateInstanceExtensionProperties #-} _VkEnumerateInstanceExtensionProperties :: CString _VkEnumerateInstanceExtensionProperties = Ptr "vkEnumerateInstanceExtensionProperties\NUL"## {-# INLINE is_VkEnumerateInstanceExtensionProperties #-} is_VkEnumerateInstanceExtensionProperties :: CString -> Bool is_VkEnumerateInstanceExtensionProperties = (EQ ==) . cmpCStrings _VkEnumerateInstanceExtensionProperties type VkEnumerateInstanceExtensionProperties = "vkEnumerateInstanceExtensionProperties" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateInstanceExtensionProperties -- > ( const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateInstanceExtensionProperties <- vkGetInstanceProc @VkEnumerateInstanceExtensionProperties VK_NULL -- -- or less efficient: -- -- > myEnumerateInstanceExtensionProperties <- vkGetProc @VkEnumerateInstanceExtensionProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEnumerateInstanceExtensionProperties" vkEnumerateInstanceExtensionProperties :: CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateInstanceExtensionProperties :: CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult vkEnumerateInstanceExtensionProperties = unsafeDupablePerformIO (vkGetProc @VkEnumerateInstanceExtensionProperties) {-# NOINLINE vkEnumerateInstanceExtensionProperties #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateInstanceExtensionProperties -- > ( const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateInstanceExtensionProperties <- vkGetInstanceProc @VkEnumerateInstanceExtensionProperties VK_NULL -- -- or less efficient: -- -- > myEnumerateInstanceExtensionProperties <- vkGetProc @VkEnumerateInstanceExtensionProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEnumerateInstanceExtensionProperties" vkEnumerateInstanceExtensionPropertiesSafe :: CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateInstanceExtensionPropertiesSafe :: CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult vkEnumerateInstanceExtensionPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEnumerateInstanceExtensionProperties) {-# NOINLINE vkEnumerateInstanceExtensionPropertiesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateInstanceExtensionProperties -- > ( const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- type HS_vkEnumerateInstanceExtensionProperties = CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult type PFN_vkEnumerateInstanceExtensionProperties = FunPtr HS_vkEnumerateInstanceExtensionProperties foreign import ccall unsafe "dynamic" unwrapVkEnumerateInstanceExtensionProperties :: PFN_vkEnumerateInstanceExtensionProperties -> HS_vkEnumerateInstanceExtensionProperties foreign import ccall safe "dynamic" unwrapVkEnumerateInstanceExtensionPropertiesSafe :: PFN_vkEnumerateInstanceExtensionProperties -> HS_vkEnumerateInstanceExtensionProperties instance VulkanProc "vkEnumerateInstanceExtensionProperties" where type VkProcType "vkEnumerateInstanceExtensionProperties" = HS_vkEnumerateInstanceExtensionProperties vkProcSymbol = _VkEnumerateInstanceExtensionProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEnumerateInstanceExtensionProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEnumerateInstanceExtensionPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEnumerateDeviceExtensionProperties :: CString pattern VkEnumerateDeviceExtensionProperties <- (is_VkEnumerateDeviceExtensionProperties -> True) where VkEnumerateDeviceExtensionProperties = _VkEnumerateDeviceExtensionProperties {-# INLINE _VkEnumerateDeviceExtensionProperties #-} _VkEnumerateDeviceExtensionProperties :: CString _VkEnumerateDeviceExtensionProperties = Ptr "vkEnumerateDeviceExtensionProperties\NUL"## {-# INLINE is_VkEnumerateDeviceExtensionProperties #-} is_VkEnumerateDeviceExtensionProperties :: CString -> Bool is_VkEnumerateDeviceExtensionProperties = (EQ ==) . cmpCStrings _VkEnumerateDeviceExtensionProperties type VkEnumerateDeviceExtensionProperties = "vkEnumerateDeviceExtensionProperties" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateDeviceExtensionProperties -- > ( VkPhysicalDevice physicalDevice -- > , const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateDeviceExtensionProperties <- vkGetInstanceProc @VkEnumerateDeviceExtensionProperties vkInstance -- -- or less efficient: -- -- > myEnumerateDeviceExtensionProperties <- vkGetProc @VkEnumerateDeviceExtensionProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEnumerateDeviceExtensionProperties" vkEnumerateDeviceExtensionProperties :: VkPhysicalDevice -- ^ physicalDevice -> CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateDeviceExtensionProperties :: VkPhysicalDevice -- ^ physicalDevice -> CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult vkEnumerateDeviceExtensionProperties = unsafeDupablePerformIO (vkGetProc @VkEnumerateDeviceExtensionProperties) {-# NOINLINE vkEnumerateDeviceExtensionProperties #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateDeviceExtensionProperties -- > ( VkPhysicalDevice physicalDevice -- > , const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateDeviceExtensionProperties <- vkGetInstanceProc @VkEnumerateDeviceExtensionProperties vkInstance -- -- or less efficient: -- -- > myEnumerateDeviceExtensionProperties <- vkGetProc @VkEnumerateDeviceExtensionProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEnumerateDeviceExtensionProperties" vkEnumerateDeviceExtensionPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateDeviceExtensionPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult vkEnumerateDeviceExtensionPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEnumerateDeviceExtensionProperties) {-# NOINLINE vkEnumerateDeviceExtensionPropertiesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_LAYER_NOT_PRESENT'. -- -- > VkResult vkEnumerateDeviceExtensionProperties -- > ( VkPhysicalDevice physicalDevice -- > , const char* pLayerName -- > , uint32_t* pPropertyCount -- > , VkExtensionProperties* pProperties -- > ) -- -- type HS_vkEnumerateDeviceExtensionProperties = VkPhysicalDevice -- ^ physicalDevice -> CString -- ^ pLayerName -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkExtensionProperties -- ^ pProperties -> IO VkResult type PFN_vkEnumerateDeviceExtensionProperties = FunPtr HS_vkEnumerateDeviceExtensionProperties foreign import ccall unsafe "dynamic" unwrapVkEnumerateDeviceExtensionProperties :: PFN_vkEnumerateDeviceExtensionProperties -> HS_vkEnumerateDeviceExtensionProperties foreign import ccall safe "dynamic" unwrapVkEnumerateDeviceExtensionPropertiesSafe :: PFN_vkEnumerateDeviceExtensionProperties -> HS_vkEnumerateDeviceExtensionProperties instance VulkanProc "vkEnumerateDeviceExtensionProperties" where type VkProcType "vkEnumerateDeviceExtensionProperties" = HS_vkEnumerateDeviceExtensionProperties vkProcSymbol = _VkEnumerateDeviceExtensionProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEnumerateDeviceExtensionProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEnumerateDeviceExtensionPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEnumerateInstanceLayerProperties :: CString pattern VkEnumerateInstanceLayerProperties <- (is_VkEnumerateInstanceLayerProperties -> True) where VkEnumerateInstanceLayerProperties = _VkEnumerateInstanceLayerProperties {-# INLINE _VkEnumerateInstanceLayerProperties #-} _VkEnumerateInstanceLayerProperties :: CString _VkEnumerateInstanceLayerProperties = Ptr "vkEnumerateInstanceLayerProperties\NUL"## {-# INLINE is_VkEnumerateInstanceLayerProperties #-} is_VkEnumerateInstanceLayerProperties :: CString -> Bool is_VkEnumerateInstanceLayerProperties = (EQ ==) . cmpCStrings _VkEnumerateInstanceLayerProperties type VkEnumerateInstanceLayerProperties = "vkEnumerateInstanceLayerProperties" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateInstanceLayerProperties -- > ( uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateInstanceLayerProperties <- vkGetInstanceProc @VkEnumerateInstanceLayerProperties VK_NULL -- -- or less efficient: -- -- > myEnumerateInstanceLayerProperties <- vkGetProc @VkEnumerateInstanceLayerProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEnumerateInstanceLayerProperties" vkEnumerateInstanceLayerProperties :: Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateInstanceLayerProperties :: Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult vkEnumerateInstanceLayerProperties = unsafeDupablePerformIO (vkGetProc @VkEnumerateInstanceLayerProperties) {-# NOINLINE vkEnumerateInstanceLayerProperties #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateInstanceLayerProperties -- > ( uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateInstanceLayerProperties <- vkGetInstanceProc @VkEnumerateInstanceLayerProperties VK_NULL -- -- or less efficient: -- -- > myEnumerateInstanceLayerProperties <- vkGetProc @VkEnumerateInstanceLayerProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEnumerateInstanceLayerProperties" vkEnumerateInstanceLayerPropertiesSafe :: Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateInstanceLayerPropertiesSafe :: Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult vkEnumerateInstanceLayerPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEnumerateInstanceLayerProperties) {-# NOINLINE vkEnumerateInstanceLayerPropertiesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateInstanceLayerProperties -- > ( uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- type HS_vkEnumerateInstanceLayerProperties = Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult type PFN_vkEnumerateInstanceLayerProperties = FunPtr HS_vkEnumerateInstanceLayerProperties foreign import ccall unsafe "dynamic" unwrapVkEnumerateInstanceLayerProperties :: PFN_vkEnumerateInstanceLayerProperties -> HS_vkEnumerateInstanceLayerProperties foreign import ccall safe "dynamic" unwrapVkEnumerateInstanceLayerPropertiesSafe :: PFN_vkEnumerateInstanceLayerProperties -> HS_vkEnumerateInstanceLayerProperties instance VulkanProc "vkEnumerateInstanceLayerProperties" where type VkProcType "vkEnumerateInstanceLayerProperties" = HS_vkEnumerateInstanceLayerProperties vkProcSymbol = _VkEnumerateInstanceLayerProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEnumerateInstanceLayerProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEnumerateInstanceLayerPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEnumerateDeviceLayerProperties :: CString pattern VkEnumerateDeviceLayerProperties <- (is_VkEnumerateDeviceLayerProperties -> True) where VkEnumerateDeviceLayerProperties = _VkEnumerateDeviceLayerProperties {-# INLINE _VkEnumerateDeviceLayerProperties #-} _VkEnumerateDeviceLayerProperties :: CString _VkEnumerateDeviceLayerProperties = Ptr "vkEnumerateDeviceLayerProperties\NUL"## {-# INLINE is_VkEnumerateDeviceLayerProperties #-} is_VkEnumerateDeviceLayerProperties :: CString -> Bool is_VkEnumerateDeviceLayerProperties = (EQ ==) . cmpCStrings _VkEnumerateDeviceLayerProperties type VkEnumerateDeviceLayerProperties = "vkEnumerateDeviceLayerProperties" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateDeviceLayerProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateDeviceLayerProperties <- vkGetInstanceProc @VkEnumerateDeviceLayerProperties vkInstance -- -- or less efficient: -- -- > myEnumerateDeviceLayerProperties <- vkGetProc @VkEnumerateDeviceLayerProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEnumerateDeviceLayerProperties" vkEnumerateDeviceLayerProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateDeviceLayerProperties :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult vkEnumerateDeviceLayerProperties = unsafeDupablePerformIO (vkGetProc @VkEnumerateDeviceLayerProperties) {-# NOINLINE vkEnumerateDeviceLayerProperties #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateDeviceLayerProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEnumerateDeviceLayerProperties <- vkGetInstanceProc @VkEnumerateDeviceLayerProperties vkInstance -- -- or less efficient: -- -- > myEnumerateDeviceLayerProperties <- vkGetProc @VkEnumerateDeviceLayerProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEnumerateDeviceLayerProperties" vkEnumerateDeviceLayerPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult ##else vkEnumerateDeviceLayerPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult vkEnumerateDeviceLayerPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEnumerateDeviceLayerProperties) {-# NOINLINE vkEnumerateDeviceLayerPropertiesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEnumerateDeviceLayerProperties -- > ( VkPhysicalDevice physicalDevice -- > , uint32_t* pPropertyCount -- > , VkLayerProperties* pProperties -- > ) -- -- type HS_vkEnumerateDeviceLayerProperties = VkPhysicalDevice -- ^ physicalDevice -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkLayerProperties -- ^ pProperties -> IO VkResult type PFN_vkEnumerateDeviceLayerProperties = FunPtr HS_vkEnumerateDeviceLayerProperties foreign import ccall unsafe "dynamic" unwrapVkEnumerateDeviceLayerProperties :: PFN_vkEnumerateDeviceLayerProperties -> HS_vkEnumerateDeviceLayerProperties foreign import ccall safe "dynamic" unwrapVkEnumerateDeviceLayerPropertiesSafe :: PFN_vkEnumerateDeviceLayerProperties -> HS_vkEnumerateDeviceLayerProperties instance VulkanProc "vkEnumerateDeviceLayerProperties" where type VkProcType "vkEnumerateDeviceLayerProperties" = HS_vkEnumerateDeviceLayerProperties vkProcSymbol = _VkEnumerateDeviceLayerProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEnumerateDeviceLayerProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEnumerateDeviceLayerPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetDeviceQueue :: CString pattern VkGetDeviceQueue <- (is_VkGetDeviceQueue -> True) where VkGetDeviceQueue = _VkGetDeviceQueue {-# INLINE _VkGetDeviceQueue #-} _VkGetDeviceQueue :: CString _VkGetDeviceQueue = Ptr "vkGetDeviceQueue\NUL"## {-# INLINE is_VkGetDeviceQueue #-} is_VkGetDeviceQueue :: CString -> Bool is_VkGetDeviceQueue = (EQ ==) . cmpCStrings _VkGetDeviceQueue type VkGetDeviceQueue = "vkGetDeviceQueue" -- | -- > void vkGetDeviceQueue -- > ( VkDevice device -- > , uint32_t queueFamilyIndex -- > , uint32_t queueIndex -- > , VkQueue* pQueue -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceQueue <- vkGetDeviceProc @VkGetDeviceQueue vkDevice -- -- or less efficient: -- -- > myGetDeviceQueue <- vkGetProc @VkGetDeviceQueue -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetDeviceQueue" vkGetDeviceQueue :: VkDevice -- ^ device -> Word32 -- ^ queueFamilyIndex -> Word32 -- ^ queueIndex -> Ptr VkQueue -- ^ pQueue -> IO () ##else vkGetDeviceQueue :: VkDevice -- ^ device -> Word32 -- ^ queueFamilyIndex -> Word32 -- ^ queueIndex -> Ptr VkQueue -- ^ pQueue -> IO () vkGetDeviceQueue = unsafeDupablePerformIO (vkGetProc @VkGetDeviceQueue) {-# NOINLINE vkGetDeviceQueue #-} ##endif -- | -- > void vkGetDeviceQueue -- > ( VkDevice device -- > , uint32_t queueFamilyIndex -- > , uint32_t queueIndex -- > , VkQueue* pQueue -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceQueue <- vkGetDeviceProc @VkGetDeviceQueue vkDevice -- -- or less efficient: -- -- > myGetDeviceQueue <- vkGetProc @VkGetDeviceQueue -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetDeviceQueue" vkGetDeviceQueueSafe :: VkDevice -- ^ device -> Word32 -- ^ queueFamilyIndex -> Word32 -- ^ queueIndex -> Ptr VkQueue -- ^ pQueue -> IO () ##else vkGetDeviceQueueSafe :: VkDevice -- ^ device -> Word32 -- ^ queueFamilyIndex -> Word32 -- ^ queueIndex -> Ptr VkQueue -- ^ pQueue -> IO () vkGetDeviceQueueSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetDeviceQueue) {-# NOINLINE vkGetDeviceQueueSafe #-} ##endif -- | > void vkGetDeviceQueue -- > ( VkDevice device -- > , uint32_t queueFamilyIndex -- > , uint32_t queueIndex -- > , VkQueue* pQueue -- > ) -- -- type HS_vkGetDeviceQueue = VkDevice -- ^ device -> Word32 -- ^ queueFamilyIndex -> Word32 -- ^ queueIndex -> Ptr VkQueue -- ^ pQueue -> IO () type PFN_vkGetDeviceQueue = FunPtr HS_vkGetDeviceQueue foreign import ccall unsafe "dynamic" unwrapVkGetDeviceQueue :: PFN_vkGetDeviceQueue -> HS_vkGetDeviceQueue foreign import ccall safe "dynamic" unwrapVkGetDeviceQueueSafe :: PFN_vkGetDeviceQueue -> HS_vkGetDeviceQueue instance VulkanProc "vkGetDeviceQueue" where type VkProcType "vkGetDeviceQueue" = HS_vkGetDeviceQueue vkProcSymbol = _VkGetDeviceQueue {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetDeviceQueue {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetDeviceQueueSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkQueueSubmit :: CString pattern VkQueueSubmit <- (is_VkQueueSubmit -> True) where VkQueueSubmit = _VkQueueSubmit {-# INLINE _VkQueueSubmit #-} _VkQueueSubmit :: CString _VkQueueSubmit = Ptr "vkQueueSubmit\NUL"## {-# INLINE is_VkQueueSubmit #-} is_VkQueueSubmit :: CString -> Bool is_VkQueueSubmit = (EQ ==) . cmpCStrings _VkQueueSubmit type VkQueueSubmit = "vkQueueSubmit" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueSubmit -- > ( VkQueue queue -- > , uint32_t submitCount -- > , const VkSubmitInfo* pSubmits -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueSubmit <- vkGetInstanceProc @VkQueueSubmit vkInstance -- -- or less efficient: -- -- > myQueueSubmit <- vkGetProc @VkQueueSubmit -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkQueueSubmit" vkQueueSubmit :: VkQueue -- ^ queue -> Word32 -- ^ submitCount -> Ptr VkSubmitInfo -- ^ pSubmits -> VkFence -- ^ fence -> IO VkResult ##else vkQueueSubmit :: VkQueue -- ^ queue -> Word32 -- ^ submitCount -> Ptr VkSubmitInfo -- ^ pSubmits -> VkFence -- ^ fence -> IO VkResult vkQueueSubmit = unsafeDupablePerformIO (vkGetProc @VkQueueSubmit) {-# NOINLINE vkQueueSubmit #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueSubmit -- > ( VkQueue queue -- > , uint32_t submitCount -- > , const VkSubmitInfo* pSubmits -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueSubmit <- vkGetInstanceProc @VkQueueSubmit vkInstance -- -- or less efficient: -- -- > myQueueSubmit <- vkGetProc @VkQueueSubmit -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkQueueSubmit" vkQueueSubmitSafe :: VkQueue -- ^ queue -> Word32 -- ^ submitCount -> Ptr VkSubmitInfo -- ^ pSubmits -> VkFence -- ^ fence -> IO VkResult ##else vkQueueSubmitSafe :: VkQueue -- ^ queue -> Word32 -- ^ submitCount -> Ptr VkSubmitInfo -- ^ pSubmits -> VkFence -- ^ fence -> IO VkResult vkQueueSubmitSafe = unsafeDupablePerformIO (vkGetProcSafe @VkQueueSubmit) {-# NOINLINE vkQueueSubmitSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueSubmit -- > ( VkQueue queue -- > , uint32_t submitCount -- > , const VkSubmitInfo* pSubmits -- > , VkFence fence -- > ) -- -- type HS_vkQueueSubmit = VkQueue -- ^ queue -> Word32 -- ^ submitCount -> Ptr VkSubmitInfo -- ^ pSubmits -> VkFence -- ^ fence -> IO VkResult type PFN_vkQueueSubmit = FunPtr HS_vkQueueSubmit foreign import ccall unsafe "dynamic" unwrapVkQueueSubmit :: PFN_vkQueueSubmit -> HS_vkQueueSubmit foreign import ccall safe "dynamic" unwrapVkQueueSubmitSafe :: PFN_vkQueueSubmit -> HS_vkQueueSubmit instance VulkanProc "vkQueueSubmit" where type VkProcType "vkQueueSubmit" = HS_vkQueueSubmit vkProcSymbol = _VkQueueSubmit {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkQueueSubmit {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkQueueSubmitSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkQueueWaitIdle :: CString pattern VkQueueWaitIdle <- (is_VkQueueWaitIdle -> True) where VkQueueWaitIdle = _VkQueueWaitIdle {-# INLINE _VkQueueWaitIdle #-} _VkQueueWaitIdle :: CString _VkQueueWaitIdle = Ptr "vkQueueWaitIdle\NUL"## {-# INLINE is_VkQueueWaitIdle #-} is_VkQueueWaitIdle :: CString -> Bool is_VkQueueWaitIdle = (EQ ==) . cmpCStrings _VkQueueWaitIdle type VkQueueWaitIdle = "vkQueueWaitIdle" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueWaitIdle -- > ( VkQueue queue -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueWaitIdle <- vkGetInstanceProc @VkQueueWaitIdle vkInstance -- -- or less efficient: -- -- > myQueueWaitIdle <- vkGetProc @VkQueueWaitIdle -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkQueueWaitIdle" vkQueueWaitIdle :: VkQueue -- ^ queue -> IO VkResult ##else vkQueueWaitIdle :: VkQueue -- ^ queue -> IO VkResult vkQueueWaitIdle = unsafeDupablePerformIO (vkGetProc @VkQueueWaitIdle) {-# NOINLINE vkQueueWaitIdle #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueWaitIdle -- > ( VkQueue queue -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueWaitIdle <- vkGetInstanceProc @VkQueueWaitIdle vkInstance -- -- or less efficient: -- -- > myQueueWaitIdle <- vkGetProc @VkQueueWaitIdle -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkQueueWaitIdle" vkQueueWaitIdleSafe :: VkQueue -- ^ queue -> IO VkResult ##else vkQueueWaitIdleSafe :: VkQueue -- ^ queue -> IO VkResult vkQueueWaitIdleSafe = unsafeDupablePerformIO (vkGetProcSafe @VkQueueWaitIdle) {-# NOINLINE vkQueueWaitIdleSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkQueueWaitIdle -- > ( VkQueue queue -- > ) -- -- type HS_vkQueueWaitIdle = VkQueue -- ^ queue -> IO VkResult type PFN_vkQueueWaitIdle = FunPtr HS_vkQueueWaitIdle foreign import ccall unsafe "dynamic" unwrapVkQueueWaitIdle :: PFN_vkQueueWaitIdle -> HS_vkQueueWaitIdle foreign import ccall safe "dynamic" unwrapVkQueueWaitIdleSafe :: PFN_vkQueueWaitIdle -> HS_vkQueueWaitIdle instance VulkanProc "vkQueueWaitIdle" where type VkProcType "vkQueueWaitIdle" = HS_vkQueueWaitIdle vkProcSymbol = _VkQueueWaitIdle {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkQueueWaitIdle {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkQueueWaitIdleSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDeviceWaitIdle :: CString pattern VkDeviceWaitIdle <- (is_VkDeviceWaitIdle -> True) where VkDeviceWaitIdle = _VkDeviceWaitIdle {-# INLINE _VkDeviceWaitIdle #-} _VkDeviceWaitIdle :: CString _VkDeviceWaitIdle = Ptr "vkDeviceWaitIdle\NUL"## {-# INLINE is_VkDeviceWaitIdle #-} is_VkDeviceWaitIdle :: CString -> Bool is_VkDeviceWaitIdle = (EQ ==) . cmpCStrings _VkDeviceWaitIdle type VkDeviceWaitIdle = "vkDeviceWaitIdle" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkDeviceWaitIdle -- > ( VkDevice device -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDeviceWaitIdle <- vkGetDeviceProc @VkDeviceWaitIdle vkDevice -- -- or less efficient: -- -- > myDeviceWaitIdle <- vkGetProc @VkDeviceWaitIdle -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDeviceWaitIdle" vkDeviceWaitIdle :: VkDevice -- ^ device -> IO VkResult ##else vkDeviceWaitIdle :: VkDevice -- ^ device -> IO VkResult vkDeviceWaitIdle = unsafeDupablePerformIO (vkGetProc @VkDeviceWaitIdle) {-# NOINLINE vkDeviceWaitIdle #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkDeviceWaitIdle -- > ( VkDevice device -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDeviceWaitIdle <- vkGetDeviceProc @VkDeviceWaitIdle vkDevice -- -- or less efficient: -- -- > myDeviceWaitIdle <- vkGetProc @VkDeviceWaitIdle -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDeviceWaitIdle" vkDeviceWaitIdleSafe :: VkDevice -- ^ device -> IO VkResult ##else vkDeviceWaitIdleSafe :: VkDevice -- ^ device -> IO VkResult vkDeviceWaitIdleSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDeviceWaitIdle) {-# NOINLINE vkDeviceWaitIdleSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkDeviceWaitIdle -- > ( VkDevice device -- > ) -- -- type HS_vkDeviceWaitIdle = VkDevice -- ^ device -> IO VkResult type PFN_vkDeviceWaitIdle = FunPtr HS_vkDeviceWaitIdle foreign import ccall unsafe "dynamic" unwrapVkDeviceWaitIdle :: PFN_vkDeviceWaitIdle -> HS_vkDeviceWaitIdle foreign import ccall safe "dynamic" unwrapVkDeviceWaitIdleSafe :: PFN_vkDeviceWaitIdle -> HS_vkDeviceWaitIdle instance VulkanProc "vkDeviceWaitIdle" where type VkProcType "vkDeviceWaitIdle" = HS_vkDeviceWaitIdle vkProcSymbol = _VkDeviceWaitIdle {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDeviceWaitIdle {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDeviceWaitIdleSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkAllocateMemory :: CString pattern VkAllocateMemory <- (is_VkAllocateMemory -> True) where VkAllocateMemory = _VkAllocateMemory {-# INLINE _VkAllocateMemory #-} _VkAllocateMemory :: CString _VkAllocateMemory = Ptr "vkAllocateMemory\NUL"## {-# INLINE is_VkAllocateMemory #-} is_VkAllocateMemory :: CString -> Bool is_VkAllocateMemory = (EQ ==) . cmpCStrings _VkAllocateMemory type VkAllocateMemory = "vkAllocateMemory" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_INVALID_EXTERNAL_HANDLE'. -- -- > VkResult vkAllocateMemory -- > ( VkDevice device -- > , const VkMemoryAllocateInfo* pAllocateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDeviceMemory* pMemory -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateMemory <- vkGetDeviceProc @VkAllocateMemory vkDevice -- -- or less efficient: -- -- > myAllocateMemory <- vkGetProc @VkAllocateMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkAllocateMemory" vkAllocateMemory :: VkDevice -- ^ device -> Ptr VkMemoryAllocateInfo -- ^ pAllocateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDeviceMemory -- ^ pMemory -> IO VkResult ##else vkAllocateMemory :: VkDevice -- ^ device -> Ptr VkMemoryAllocateInfo -- ^ pAllocateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDeviceMemory -- ^ pMemory -> IO VkResult vkAllocateMemory = unsafeDupablePerformIO (vkGetProc @VkAllocateMemory) {-# NOINLINE vkAllocateMemory #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_INVALID_EXTERNAL_HANDLE'. -- -- > VkResult vkAllocateMemory -- > ( VkDevice device -- > , const VkMemoryAllocateInfo* pAllocateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDeviceMemory* pMemory -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateMemory <- vkGetDeviceProc @VkAllocateMemory vkDevice -- -- or less efficient: -- -- > myAllocateMemory <- vkGetProc @VkAllocateMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkAllocateMemory" vkAllocateMemorySafe :: VkDevice -- ^ device -> Ptr VkMemoryAllocateInfo -- ^ pAllocateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDeviceMemory -- ^ pMemory -> IO VkResult ##else vkAllocateMemorySafe :: VkDevice -- ^ device -> Ptr VkMemoryAllocateInfo -- ^ pAllocateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDeviceMemory -- ^ pMemory -> IO VkResult vkAllocateMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkAllocateMemory) {-# NOINLINE vkAllocateMemorySafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS', 'VK_ERROR_INVALID_EXTERNAL_HANDLE'. -- -- > VkResult vkAllocateMemory -- > ( VkDevice device -- > , const VkMemoryAllocateInfo* pAllocateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDeviceMemory* pMemory -- > ) -- -- type HS_vkAllocateMemory = VkDevice -- ^ device -> Ptr VkMemoryAllocateInfo -- ^ pAllocateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDeviceMemory -- ^ pMemory -> IO VkResult type PFN_vkAllocateMemory = FunPtr HS_vkAllocateMemory foreign import ccall unsafe "dynamic" unwrapVkAllocateMemory :: PFN_vkAllocateMemory -> HS_vkAllocateMemory foreign import ccall safe "dynamic" unwrapVkAllocateMemorySafe :: PFN_vkAllocateMemory -> HS_vkAllocateMemory instance VulkanProc "vkAllocateMemory" where type VkProcType "vkAllocateMemory" = HS_vkAllocateMemory vkProcSymbol = _VkAllocateMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkAllocateMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkAllocateMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkFreeMemory :: CString pattern VkFreeMemory <- (is_VkFreeMemory -> True) where VkFreeMemory = _VkFreeMemory {-# INLINE _VkFreeMemory #-} _VkFreeMemory :: CString _VkFreeMemory = Ptr "vkFreeMemory\NUL"## {-# INLINE is_VkFreeMemory #-} is_VkFreeMemory :: CString -> Bool is_VkFreeMemory = (EQ ==) . cmpCStrings _VkFreeMemory type VkFreeMemory = "vkFreeMemory" -- | -- > void vkFreeMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeMemory <- vkGetDeviceProc @VkFreeMemory vkDevice -- -- or less efficient: -- -- > myFreeMemory <- vkGetProc @VkFreeMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkFreeMemory" vkFreeMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkFreeMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkFreeMemory = unsafeDupablePerformIO (vkGetProc @VkFreeMemory) {-# NOINLINE vkFreeMemory #-} ##endif -- | -- > void vkFreeMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeMemory <- vkGetDeviceProc @VkFreeMemory vkDevice -- -- or less efficient: -- -- > myFreeMemory <- vkGetProc @VkFreeMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkFreeMemory" vkFreeMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkFreeMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkFreeMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkFreeMemory) {-# NOINLINE vkFreeMemorySafe #-} ##endif -- | > void vkFreeMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkFreeMemory = VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkFreeMemory = FunPtr HS_vkFreeMemory foreign import ccall unsafe "dynamic" unwrapVkFreeMemory :: PFN_vkFreeMemory -> HS_vkFreeMemory foreign import ccall safe "dynamic" unwrapVkFreeMemorySafe :: PFN_vkFreeMemory -> HS_vkFreeMemory instance VulkanProc "vkFreeMemory" where type VkProcType "vkFreeMemory" = HS_vkFreeMemory vkProcSymbol = _VkFreeMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkFreeMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkFreeMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkMapMemory :: CString pattern VkMapMemory <- (is_VkMapMemory -> True) where VkMapMemory = _VkMapMemory {-# INLINE _VkMapMemory #-} _VkMapMemory :: CString _VkMapMemory = Ptr "vkMapMemory\NUL"## {-# INLINE is_VkMapMemory #-} is_VkMapMemory :: CString -> Bool is_VkMapMemory = (EQ ==) . cmpCStrings _VkMapMemory type VkMapMemory = "vkMapMemory" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_MEMORY_MAP_FAILED'. -- -- > VkResult vkMapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize offset -- > , VkDeviceSize size -- > , VkMemoryMapFlags flags -- > , void** ppData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myMapMemory <- vkGetDeviceProc @VkMapMemory vkDevice -- -- or less efficient: -- -- > myMapMemory <- vkGetProc @VkMapMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkMapMemory" vkMapMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ offset -> VkDeviceSize -- ^ size -> VkMemoryMapFlags -- ^ flags -> Ptr (Ptr Void) -- ^ ppData -> IO VkResult ##else vkMapMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ offset -> VkDeviceSize -- ^ size -> VkMemoryMapFlags -- ^ flags -> Ptr (Ptr Void) -- ^ ppData -> IO VkResult vkMapMemory = unsafeDupablePerformIO (vkGetProc @VkMapMemory) {-# NOINLINE vkMapMemory #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_MEMORY_MAP_FAILED'. -- -- > VkResult vkMapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize offset -- > , VkDeviceSize size -- > , VkMemoryMapFlags flags -- > , void** ppData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myMapMemory <- vkGetDeviceProc @VkMapMemory vkDevice -- -- or less efficient: -- -- > myMapMemory <- vkGetProc @VkMapMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkMapMemory" vkMapMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ offset -> VkDeviceSize -- ^ size -> VkMemoryMapFlags -- ^ flags -> Ptr (Ptr Void) -- ^ ppData -> IO VkResult ##else vkMapMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ offset -> VkDeviceSize -- ^ size -> VkMemoryMapFlags -- ^ flags -> Ptr (Ptr Void) -- ^ ppData -> IO VkResult vkMapMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkMapMemory) {-# NOINLINE vkMapMemorySafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_MEMORY_MAP_FAILED'. -- -- > VkResult vkMapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize offset -- > , VkDeviceSize size -- > , VkMemoryMapFlags flags -- > , void** ppData -- > ) -- -- type HS_vkMapMemory = VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ offset -> VkDeviceSize -- ^ size -> VkMemoryMapFlags -- ^ flags -> Ptr (Ptr Void) -- ^ ppData -> IO VkResult type PFN_vkMapMemory = FunPtr HS_vkMapMemory foreign import ccall unsafe "dynamic" unwrapVkMapMemory :: PFN_vkMapMemory -> HS_vkMapMemory foreign import ccall safe "dynamic" unwrapVkMapMemorySafe :: PFN_vkMapMemory -> HS_vkMapMemory instance VulkanProc "vkMapMemory" where type VkProcType "vkMapMemory" = HS_vkMapMemory vkProcSymbol = _VkMapMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkMapMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkMapMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkUnmapMemory :: CString pattern VkUnmapMemory <- (is_VkUnmapMemory -> True) where VkUnmapMemory = _VkUnmapMemory {-# INLINE _VkUnmapMemory #-} _VkUnmapMemory :: CString _VkUnmapMemory = Ptr "vkUnmapMemory\NUL"## {-# INLINE is_VkUnmapMemory #-} is_VkUnmapMemory :: CString -> Bool is_VkUnmapMemory = (EQ ==) . cmpCStrings _VkUnmapMemory type VkUnmapMemory = "vkUnmapMemory" -- | -- > void vkUnmapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myUnmapMemory <- vkGetDeviceProc @VkUnmapMemory vkDevice -- -- or less efficient: -- -- > myUnmapMemory <- vkGetProc @VkUnmapMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkUnmapMemory" vkUnmapMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> IO () ##else vkUnmapMemory :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> IO () vkUnmapMemory = unsafeDupablePerformIO (vkGetProc @VkUnmapMemory) {-# NOINLINE vkUnmapMemory #-} ##endif -- | -- > void vkUnmapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myUnmapMemory <- vkGetDeviceProc @VkUnmapMemory vkDevice -- -- or less efficient: -- -- > myUnmapMemory <- vkGetProc @VkUnmapMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkUnmapMemory" vkUnmapMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> IO () ##else vkUnmapMemorySafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> IO () vkUnmapMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkUnmapMemory) {-# NOINLINE vkUnmapMemorySafe #-} ##endif -- | > void vkUnmapMemory -- > ( VkDevice device -- > , VkDeviceMemory memory -- > ) -- -- type HS_vkUnmapMemory = VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> IO () type PFN_vkUnmapMemory = FunPtr HS_vkUnmapMemory foreign import ccall unsafe "dynamic" unwrapVkUnmapMemory :: PFN_vkUnmapMemory -> HS_vkUnmapMemory foreign import ccall safe "dynamic" unwrapVkUnmapMemorySafe :: PFN_vkUnmapMemory -> HS_vkUnmapMemory instance VulkanProc "vkUnmapMemory" where type VkProcType "vkUnmapMemory" = HS_vkUnmapMemory vkProcSymbol = _VkUnmapMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkUnmapMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkUnmapMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkFlushMappedMemoryRanges :: CString pattern VkFlushMappedMemoryRanges <- (is_VkFlushMappedMemoryRanges -> True) where VkFlushMappedMemoryRanges = _VkFlushMappedMemoryRanges {-# INLINE _VkFlushMappedMemoryRanges #-} _VkFlushMappedMemoryRanges :: CString _VkFlushMappedMemoryRanges = Ptr "vkFlushMappedMemoryRanges\NUL"## {-# INLINE is_VkFlushMappedMemoryRanges #-} is_VkFlushMappedMemoryRanges :: CString -> Bool is_VkFlushMappedMemoryRanges = (EQ ==) . cmpCStrings _VkFlushMappedMemoryRanges type VkFlushMappedMemoryRanges = "vkFlushMappedMemoryRanges" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFlushMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFlushMappedMemoryRanges <- vkGetDeviceProc @VkFlushMappedMemoryRanges vkDevice -- -- or less efficient: -- -- > myFlushMappedMemoryRanges <- vkGetProc @VkFlushMappedMemoryRanges -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkFlushMappedMemoryRanges" vkFlushMappedMemoryRanges :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult ##else vkFlushMappedMemoryRanges :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult vkFlushMappedMemoryRanges = unsafeDupablePerformIO (vkGetProc @VkFlushMappedMemoryRanges) {-# NOINLINE vkFlushMappedMemoryRanges #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFlushMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFlushMappedMemoryRanges <- vkGetDeviceProc @VkFlushMappedMemoryRanges vkDevice -- -- or less efficient: -- -- > myFlushMappedMemoryRanges <- vkGetProc @VkFlushMappedMemoryRanges -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkFlushMappedMemoryRanges" vkFlushMappedMemoryRangesSafe :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult ##else vkFlushMappedMemoryRangesSafe :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult vkFlushMappedMemoryRangesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkFlushMappedMemoryRanges) {-# NOINLINE vkFlushMappedMemoryRangesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFlushMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- type HS_vkFlushMappedMemoryRanges = VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult type PFN_vkFlushMappedMemoryRanges = FunPtr HS_vkFlushMappedMemoryRanges foreign import ccall unsafe "dynamic" unwrapVkFlushMappedMemoryRanges :: PFN_vkFlushMappedMemoryRanges -> HS_vkFlushMappedMemoryRanges foreign import ccall safe "dynamic" unwrapVkFlushMappedMemoryRangesSafe :: PFN_vkFlushMappedMemoryRanges -> HS_vkFlushMappedMemoryRanges instance VulkanProc "vkFlushMappedMemoryRanges" where type VkProcType "vkFlushMappedMemoryRanges" = HS_vkFlushMappedMemoryRanges vkProcSymbol = _VkFlushMappedMemoryRanges {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkFlushMappedMemoryRanges {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkFlushMappedMemoryRangesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkInvalidateMappedMemoryRanges :: CString pattern VkInvalidateMappedMemoryRanges <- (is_VkInvalidateMappedMemoryRanges -> True) where VkInvalidateMappedMemoryRanges = _VkInvalidateMappedMemoryRanges {-# INLINE _VkInvalidateMappedMemoryRanges #-} _VkInvalidateMappedMemoryRanges :: CString _VkInvalidateMappedMemoryRanges = Ptr "vkInvalidateMappedMemoryRanges\NUL"## {-# INLINE is_VkInvalidateMappedMemoryRanges #-} is_VkInvalidateMappedMemoryRanges :: CString -> Bool is_VkInvalidateMappedMemoryRanges = (EQ ==) . cmpCStrings _VkInvalidateMappedMemoryRanges type VkInvalidateMappedMemoryRanges = "vkInvalidateMappedMemoryRanges" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkInvalidateMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myInvalidateMappedMemoryRanges <- vkGetDeviceProc @VkInvalidateMappedMemoryRanges vkDevice -- -- or less efficient: -- -- > myInvalidateMappedMemoryRanges <- vkGetProc @VkInvalidateMappedMemoryRanges -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkInvalidateMappedMemoryRanges" vkInvalidateMappedMemoryRanges :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult ##else vkInvalidateMappedMemoryRanges :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult vkInvalidateMappedMemoryRanges = unsafeDupablePerformIO (vkGetProc @VkInvalidateMappedMemoryRanges) {-# NOINLINE vkInvalidateMappedMemoryRanges #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkInvalidateMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myInvalidateMappedMemoryRanges <- vkGetDeviceProc @VkInvalidateMappedMemoryRanges vkDevice -- -- or less efficient: -- -- > myInvalidateMappedMemoryRanges <- vkGetProc @VkInvalidateMappedMemoryRanges -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkInvalidateMappedMemoryRanges" vkInvalidateMappedMemoryRangesSafe :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult ##else vkInvalidateMappedMemoryRangesSafe :: VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult vkInvalidateMappedMemoryRangesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkInvalidateMappedMemoryRanges) {-# NOINLINE vkInvalidateMappedMemoryRangesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkInvalidateMappedMemoryRanges -- > ( VkDevice device -- > , uint32_t memoryRangeCount -- > , const VkMappedMemoryRange* pMemoryRanges -- > ) -- -- type HS_vkInvalidateMappedMemoryRanges = VkDevice -- ^ device -> Word32 -- ^ memoryRangeCount -> Ptr VkMappedMemoryRange -- ^ pMemoryRanges -> IO VkResult type PFN_vkInvalidateMappedMemoryRanges = FunPtr HS_vkInvalidateMappedMemoryRanges foreign import ccall unsafe "dynamic" unwrapVkInvalidateMappedMemoryRanges :: PFN_vkInvalidateMappedMemoryRanges -> HS_vkInvalidateMappedMemoryRanges foreign import ccall safe "dynamic" unwrapVkInvalidateMappedMemoryRangesSafe :: PFN_vkInvalidateMappedMemoryRanges -> HS_vkInvalidateMappedMemoryRanges instance VulkanProc "vkInvalidateMappedMemoryRanges" where type VkProcType "vkInvalidateMappedMemoryRanges" = HS_vkInvalidateMappedMemoryRanges vkProcSymbol = _VkInvalidateMappedMemoryRanges {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkInvalidateMappedMemoryRanges {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkInvalidateMappedMemoryRangesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetDeviceMemoryCommitment :: CString pattern VkGetDeviceMemoryCommitment <- (is_VkGetDeviceMemoryCommitment -> True) where VkGetDeviceMemoryCommitment = _VkGetDeviceMemoryCommitment {-# INLINE _VkGetDeviceMemoryCommitment #-} _VkGetDeviceMemoryCommitment :: CString _VkGetDeviceMemoryCommitment = Ptr "vkGetDeviceMemoryCommitment\NUL"## {-# INLINE is_VkGetDeviceMemoryCommitment #-} is_VkGetDeviceMemoryCommitment :: CString -> Bool is_VkGetDeviceMemoryCommitment = (EQ ==) . cmpCStrings _VkGetDeviceMemoryCommitment type VkGetDeviceMemoryCommitment = "vkGetDeviceMemoryCommitment" -- | -- > void vkGetDeviceMemoryCommitment -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize* pCommittedMemoryInBytes -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceMemoryCommitment <- vkGetDeviceProc @VkGetDeviceMemoryCommitment vkDevice -- -- or less efficient: -- -- > myGetDeviceMemoryCommitment <- vkGetProc @VkGetDeviceMemoryCommitment -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetDeviceMemoryCommitment" vkGetDeviceMemoryCommitment :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkDeviceSize -- ^ pCommittedMemoryInBytes -> IO () ##else vkGetDeviceMemoryCommitment :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkDeviceSize -- ^ pCommittedMemoryInBytes -> IO () vkGetDeviceMemoryCommitment = unsafeDupablePerformIO (vkGetProc @VkGetDeviceMemoryCommitment) {-# NOINLINE vkGetDeviceMemoryCommitment #-} ##endif -- | -- > void vkGetDeviceMemoryCommitment -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize* pCommittedMemoryInBytes -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetDeviceMemoryCommitment <- vkGetDeviceProc @VkGetDeviceMemoryCommitment vkDevice -- -- or less efficient: -- -- > myGetDeviceMemoryCommitment <- vkGetProc @VkGetDeviceMemoryCommitment -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetDeviceMemoryCommitment" vkGetDeviceMemoryCommitmentSafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkDeviceSize -- ^ pCommittedMemoryInBytes -> IO () ##else vkGetDeviceMemoryCommitmentSafe :: VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkDeviceSize -- ^ pCommittedMemoryInBytes -> IO () vkGetDeviceMemoryCommitmentSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetDeviceMemoryCommitment) {-# NOINLINE vkGetDeviceMemoryCommitmentSafe #-} ##endif -- | > void vkGetDeviceMemoryCommitment -- > ( VkDevice device -- > , VkDeviceMemory memory -- > , VkDeviceSize* pCommittedMemoryInBytes -- > ) -- -- type HS_vkGetDeviceMemoryCommitment = VkDevice -- ^ device -> VkDeviceMemory -- ^ memory -> Ptr VkDeviceSize -- ^ pCommittedMemoryInBytes -> IO () type PFN_vkGetDeviceMemoryCommitment = FunPtr HS_vkGetDeviceMemoryCommitment foreign import ccall unsafe "dynamic" unwrapVkGetDeviceMemoryCommitment :: PFN_vkGetDeviceMemoryCommitment -> HS_vkGetDeviceMemoryCommitment foreign import ccall safe "dynamic" unwrapVkGetDeviceMemoryCommitmentSafe :: PFN_vkGetDeviceMemoryCommitment -> HS_vkGetDeviceMemoryCommitment instance VulkanProc "vkGetDeviceMemoryCommitment" where type VkProcType "vkGetDeviceMemoryCommitment" = HS_vkGetDeviceMemoryCommitment vkProcSymbol = _VkGetDeviceMemoryCommitment {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetDeviceMemoryCommitment {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetDeviceMemoryCommitmentSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkBindBufferMemory :: CString pattern VkBindBufferMemory <- (is_VkBindBufferMemory -> True) where VkBindBufferMemory = _VkBindBufferMemory {-# INLINE _VkBindBufferMemory #-} _VkBindBufferMemory :: CString _VkBindBufferMemory = Ptr "vkBindBufferMemory\NUL"## {-# INLINE is_VkBindBufferMemory #-} is_VkBindBufferMemory :: CString -> Bool is_VkBindBufferMemory = (EQ ==) . cmpCStrings _VkBindBufferMemory type VkBindBufferMemory = "vkBindBufferMemory" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindBufferMemory -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBindBufferMemory <- vkGetDeviceProc @VkBindBufferMemory vkDevice -- -- or less efficient: -- -- > myBindBufferMemory <- vkGetProc @VkBindBufferMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkBindBufferMemory" vkBindBufferMemory :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult ##else vkBindBufferMemory :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult vkBindBufferMemory = unsafeDupablePerformIO (vkGetProc @VkBindBufferMemory) {-# NOINLINE vkBindBufferMemory #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindBufferMemory -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBindBufferMemory <- vkGetDeviceProc @VkBindBufferMemory vkDevice -- -- or less efficient: -- -- > myBindBufferMemory <- vkGetProc @VkBindBufferMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkBindBufferMemory" vkBindBufferMemorySafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult ##else vkBindBufferMemorySafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult vkBindBufferMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkBindBufferMemory) {-# NOINLINE vkBindBufferMemorySafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindBufferMemory -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- type HS_vkBindBufferMemory = VkDevice -- ^ device -> VkBuffer -- ^ buffer -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult type PFN_vkBindBufferMemory = FunPtr HS_vkBindBufferMemory foreign import ccall unsafe "dynamic" unwrapVkBindBufferMemory :: PFN_vkBindBufferMemory -> HS_vkBindBufferMemory foreign import ccall safe "dynamic" unwrapVkBindBufferMemorySafe :: PFN_vkBindBufferMemory -> HS_vkBindBufferMemory instance VulkanProc "vkBindBufferMemory" where type VkProcType "vkBindBufferMemory" = HS_vkBindBufferMemory vkProcSymbol = _VkBindBufferMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkBindBufferMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkBindBufferMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkBindImageMemory :: CString pattern VkBindImageMemory <- (is_VkBindImageMemory -> True) where VkBindImageMemory = _VkBindImageMemory {-# INLINE _VkBindImageMemory #-} _VkBindImageMemory :: CString _VkBindImageMemory = Ptr "vkBindImageMemory\NUL"## {-# INLINE is_VkBindImageMemory #-} is_VkBindImageMemory :: CString -> Bool is_VkBindImageMemory = (EQ ==) . cmpCStrings _VkBindImageMemory type VkBindImageMemory = "vkBindImageMemory" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindImageMemory -- > ( VkDevice device -- > , VkImage image -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBindImageMemory <- vkGetDeviceProc @VkBindImageMemory vkDevice -- -- or less efficient: -- -- > myBindImageMemory <- vkGetProc @VkBindImageMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkBindImageMemory" vkBindImageMemory :: VkDevice -- ^ device -> VkImage -- ^ image -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult ##else vkBindImageMemory :: VkDevice -- ^ device -> VkImage -- ^ image -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult vkBindImageMemory = unsafeDupablePerformIO (vkGetProc @VkBindImageMemory) {-# NOINLINE vkBindImageMemory #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindImageMemory -- > ( VkDevice device -- > , VkImage image -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBindImageMemory <- vkGetDeviceProc @VkBindImageMemory vkDevice -- -- or less efficient: -- -- > myBindImageMemory <- vkGetProc @VkBindImageMemory -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkBindImageMemory" vkBindImageMemorySafe :: VkDevice -- ^ device -> VkImage -- ^ image -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult ##else vkBindImageMemorySafe :: VkDevice -- ^ device -> VkImage -- ^ image -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult vkBindImageMemorySafe = unsafeDupablePerformIO (vkGetProcSafe @VkBindImageMemory) {-# NOINLINE vkBindImageMemorySafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBindImageMemory -- > ( VkDevice device -- > , VkImage image -- > , VkDeviceMemory memory -- > , VkDeviceSize memoryOffset -- > ) -- -- type HS_vkBindImageMemory = VkDevice -- ^ device -> VkImage -- ^ image -> VkDeviceMemory -- ^ memory -> VkDeviceSize -- ^ memoryOffset -> IO VkResult type PFN_vkBindImageMemory = FunPtr HS_vkBindImageMemory foreign import ccall unsafe "dynamic" unwrapVkBindImageMemory :: PFN_vkBindImageMemory -> HS_vkBindImageMemory foreign import ccall safe "dynamic" unwrapVkBindImageMemorySafe :: PFN_vkBindImageMemory -> HS_vkBindImageMemory instance VulkanProc "vkBindImageMemory" where type VkProcType "vkBindImageMemory" = HS_vkBindImageMemory vkProcSymbol = _VkBindImageMemory {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkBindImageMemory {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkBindImageMemorySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetBufferMemoryRequirements :: CString pattern VkGetBufferMemoryRequirements <- (is_VkGetBufferMemoryRequirements -> True) where VkGetBufferMemoryRequirements = _VkGetBufferMemoryRequirements {-# INLINE _VkGetBufferMemoryRequirements #-} _VkGetBufferMemoryRequirements :: CString _VkGetBufferMemoryRequirements = Ptr "vkGetBufferMemoryRequirements\NUL"## {-# INLINE is_VkGetBufferMemoryRequirements #-} is_VkGetBufferMemoryRequirements :: CString -> Bool is_VkGetBufferMemoryRequirements = (EQ ==) . cmpCStrings _VkGetBufferMemoryRequirements type VkGetBufferMemoryRequirements = "vkGetBufferMemoryRequirements" -- | -- > void vkGetBufferMemoryRequirements -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetBufferMemoryRequirements <- vkGetDeviceProc @VkGetBufferMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetBufferMemoryRequirements <- vkGetProc @VkGetBufferMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetBufferMemoryRequirements" vkGetBufferMemoryRequirements :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () ##else vkGetBufferMemoryRequirements :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () vkGetBufferMemoryRequirements = unsafeDupablePerformIO (vkGetProc @VkGetBufferMemoryRequirements) {-# NOINLINE vkGetBufferMemoryRequirements #-} ##endif -- | -- > void vkGetBufferMemoryRequirements -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetBufferMemoryRequirements <- vkGetDeviceProc @VkGetBufferMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetBufferMemoryRequirements <- vkGetProc @VkGetBufferMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetBufferMemoryRequirements" vkGetBufferMemoryRequirementsSafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () ##else vkGetBufferMemoryRequirementsSafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () vkGetBufferMemoryRequirementsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetBufferMemoryRequirements) {-# NOINLINE vkGetBufferMemoryRequirementsSafe #-} ##endif -- | > void vkGetBufferMemoryRequirements -- > ( VkDevice device -- > , VkBuffer buffer -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- type HS_vkGetBufferMemoryRequirements = VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () type PFN_vkGetBufferMemoryRequirements = FunPtr HS_vkGetBufferMemoryRequirements foreign import ccall unsafe "dynamic" unwrapVkGetBufferMemoryRequirements :: PFN_vkGetBufferMemoryRequirements -> HS_vkGetBufferMemoryRequirements foreign import ccall safe "dynamic" unwrapVkGetBufferMemoryRequirementsSafe :: PFN_vkGetBufferMemoryRequirements -> HS_vkGetBufferMemoryRequirements instance VulkanProc "vkGetBufferMemoryRequirements" where type VkProcType "vkGetBufferMemoryRequirements" = HS_vkGetBufferMemoryRequirements vkProcSymbol = _VkGetBufferMemoryRequirements {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetBufferMemoryRequirements {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetBufferMemoryRequirementsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetImageMemoryRequirements :: CString pattern VkGetImageMemoryRequirements <- (is_VkGetImageMemoryRequirements -> True) where VkGetImageMemoryRequirements = _VkGetImageMemoryRequirements {-# INLINE _VkGetImageMemoryRequirements #-} _VkGetImageMemoryRequirements :: CString _VkGetImageMemoryRequirements = Ptr "vkGetImageMemoryRequirements\NUL"## {-# INLINE is_VkGetImageMemoryRequirements #-} is_VkGetImageMemoryRequirements :: CString -> Bool is_VkGetImageMemoryRequirements = (EQ ==) . cmpCStrings _VkGetImageMemoryRequirements type VkGetImageMemoryRequirements = "vkGetImageMemoryRequirements" -- | -- > void vkGetImageMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageMemoryRequirements <- vkGetDeviceProc @VkGetImageMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetImageMemoryRequirements <- vkGetProc @VkGetImageMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetImageMemoryRequirements" vkGetImageMemoryRequirements :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () ##else vkGetImageMemoryRequirements :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () vkGetImageMemoryRequirements = unsafeDupablePerformIO (vkGetProc @VkGetImageMemoryRequirements) {-# NOINLINE vkGetImageMemoryRequirements #-} ##endif -- | -- > void vkGetImageMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageMemoryRequirements <- vkGetDeviceProc @VkGetImageMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetImageMemoryRequirements <- vkGetProc @VkGetImageMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetImageMemoryRequirements" vkGetImageMemoryRequirementsSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () ##else vkGetImageMemoryRequirementsSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () vkGetImageMemoryRequirementsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetImageMemoryRequirements) {-# NOINLINE vkGetImageMemoryRequirementsSafe #-} ##endif -- | > void vkGetImageMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , VkMemoryRequirements* pMemoryRequirements -- > ) -- -- type HS_vkGetImageMemoryRequirements = VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkMemoryRequirements -- ^ pMemoryRequirements -> IO () type PFN_vkGetImageMemoryRequirements = FunPtr HS_vkGetImageMemoryRequirements foreign import ccall unsafe "dynamic" unwrapVkGetImageMemoryRequirements :: PFN_vkGetImageMemoryRequirements -> HS_vkGetImageMemoryRequirements foreign import ccall safe "dynamic" unwrapVkGetImageMemoryRequirementsSafe :: PFN_vkGetImageMemoryRequirements -> HS_vkGetImageMemoryRequirements instance VulkanProc "vkGetImageMemoryRequirements" where type VkProcType "vkGetImageMemoryRequirements" = HS_vkGetImageMemoryRequirements vkProcSymbol = _VkGetImageMemoryRequirements {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetImageMemoryRequirements {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetImageMemoryRequirementsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetImageSparseMemoryRequirements :: CString pattern VkGetImageSparseMemoryRequirements <- (is_VkGetImageSparseMemoryRequirements -> True) where VkGetImageSparseMemoryRequirements = _VkGetImageSparseMemoryRequirements {-# INLINE _VkGetImageSparseMemoryRequirements #-} _VkGetImageSparseMemoryRequirements :: CString _VkGetImageSparseMemoryRequirements = Ptr "vkGetImageSparseMemoryRequirements\NUL"## {-# INLINE is_VkGetImageSparseMemoryRequirements #-} is_VkGetImageSparseMemoryRequirements :: CString -> Bool is_VkGetImageSparseMemoryRequirements = (EQ ==) . cmpCStrings _VkGetImageSparseMemoryRequirements type VkGetImageSparseMemoryRequirements = "vkGetImageSparseMemoryRequirements" -- | -- > void vkGetImageSparseMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , uint32_t* pSparseMemoryRequirementCount -- > , VkSparseImageMemoryRequirements* pSparseMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageSparseMemoryRequirements <- vkGetDeviceProc @VkGetImageSparseMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetImageSparseMemoryRequirements <- vkGetProc @VkGetImageSparseMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetImageSparseMemoryRequirements" vkGetImageSparseMemoryRequirements :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr Word32 -- ^ pSparseMemoryRequirementCount -> Ptr VkSparseImageMemoryRequirements -- ^ pSparseMemoryRequirements -> IO () ##else vkGetImageSparseMemoryRequirements :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr Word32 -- ^ pSparseMemoryRequirementCount -> Ptr VkSparseImageMemoryRequirements -- ^ pSparseMemoryRequirements -> IO () vkGetImageSparseMemoryRequirements = unsafeDupablePerformIO (vkGetProc @VkGetImageSparseMemoryRequirements) {-# NOINLINE vkGetImageSparseMemoryRequirements #-} ##endif -- | -- > void vkGetImageSparseMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , uint32_t* pSparseMemoryRequirementCount -- > , VkSparseImageMemoryRequirements* pSparseMemoryRequirements -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageSparseMemoryRequirements <- vkGetDeviceProc @VkGetImageSparseMemoryRequirements vkDevice -- -- or less efficient: -- -- > myGetImageSparseMemoryRequirements <- vkGetProc @VkGetImageSparseMemoryRequirements -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetImageSparseMemoryRequirements" vkGetImageSparseMemoryRequirementsSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr Word32 -- ^ pSparseMemoryRequirementCount -> Ptr VkSparseImageMemoryRequirements -- ^ pSparseMemoryRequirements -> IO () ##else vkGetImageSparseMemoryRequirementsSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr Word32 -- ^ pSparseMemoryRequirementCount -> Ptr VkSparseImageMemoryRequirements -- ^ pSparseMemoryRequirements -> IO () vkGetImageSparseMemoryRequirementsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetImageSparseMemoryRequirements) {-# NOINLINE vkGetImageSparseMemoryRequirementsSafe #-} ##endif -- | > void vkGetImageSparseMemoryRequirements -- > ( VkDevice device -- > , VkImage image -- > , uint32_t* pSparseMemoryRequirementCount -- > , VkSparseImageMemoryRequirements* pSparseMemoryRequirements -- > ) -- -- type HS_vkGetImageSparseMemoryRequirements = VkDevice -- ^ device -> VkImage -- ^ image -> Ptr Word32 -- ^ pSparseMemoryRequirementCount -> Ptr VkSparseImageMemoryRequirements -- ^ pSparseMemoryRequirements -> IO () type PFN_vkGetImageSparseMemoryRequirements = FunPtr HS_vkGetImageSparseMemoryRequirements foreign import ccall unsafe "dynamic" unwrapVkGetImageSparseMemoryRequirements :: PFN_vkGetImageSparseMemoryRequirements -> HS_vkGetImageSparseMemoryRequirements foreign import ccall safe "dynamic" unwrapVkGetImageSparseMemoryRequirementsSafe :: PFN_vkGetImageSparseMemoryRequirements -> HS_vkGetImageSparseMemoryRequirements instance VulkanProc "vkGetImageSparseMemoryRequirements" where type VkProcType "vkGetImageSparseMemoryRequirements" = HS_vkGetImageSparseMemoryRequirements vkProcSymbol = _VkGetImageSparseMemoryRequirements {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetImageSparseMemoryRequirements {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetImageSparseMemoryRequirementsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPhysicalDeviceSparseImageFormatProperties :: CString pattern VkGetPhysicalDeviceSparseImageFormatProperties <- (is_VkGetPhysicalDeviceSparseImageFormatProperties -> True) where VkGetPhysicalDeviceSparseImageFormatProperties = _VkGetPhysicalDeviceSparseImageFormatProperties {-# INLINE _VkGetPhysicalDeviceSparseImageFormatProperties #-} _VkGetPhysicalDeviceSparseImageFormatProperties :: CString _VkGetPhysicalDeviceSparseImageFormatProperties = Ptr "vkGetPhysicalDeviceSparseImageFormatProperties\NUL"## {-# INLINE is_VkGetPhysicalDeviceSparseImageFormatProperties #-} is_VkGetPhysicalDeviceSparseImageFormatProperties :: CString -> Bool is_VkGetPhysicalDeviceSparseImageFormatProperties = (EQ ==) . cmpCStrings _VkGetPhysicalDeviceSparseImageFormatProperties type VkGetPhysicalDeviceSparseImageFormatProperties = "vkGetPhysicalDeviceSparseImageFormatProperties" -- | -- > void vkGetPhysicalDeviceSparseImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkSampleCountFlagBits samples -- > , VkImageUsageFlags usage -- > , VkImageTiling tiling -- > , uint32_t* pPropertyCount -- > , VkSparseImageFormatProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceSparseImageFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceSparseImageFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceSparseImageFormatProperties <- vkGetProc @VkGetPhysicalDeviceSparseImageFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPhysicalDeviceSparseImageFormatProperties" vkGetPhysicalDeviceSparseImageFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkSampleCountFlagBits -- ^ samples -> VkImageUsageFlags -- ^ usage -> VkImageTiling -- ^ tiling -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkSparseImageFormatProperties -- ^ pProperties -> IO () ##else vkGetPhysicalDeviceSparseImageFormatProperties :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkSampleCountFlagBits -- ^ samples -> VkImageUsageFlags -- ^ usage -> VkImageTiling -- ^ tiling -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkSparseImageFormatProperties -- ^ pProperties -> IO () vkGetPhysicalDeviceSparseImageFormatProperties = unsafeDupablePerformIO (vkGetProc @VkGetPhysicalDeviceSparseImageFormatProperties) {-# NOINLINE vkGetPhysicalDeviceSparseImageFormatProperties #-} ##endif -- | -- > void vkGetPhysicalDeviceSparseImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkSampleCountFlagBits samples -- > , VkImageUsageFlags usage -- > , VkImageTiling tiling -- > , uint32_t* pPropertyCount -- > , VkSparseImageFormatProperties* pProperties -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPhysicalDeviceSparseImageFormatProperties <- vkGetInstanceProc @VkGetPhysicalDeviceSparseImageFormatProperties vkInstance -- -- or less efficient: -- -- > myGetPhysicalDeviceSparseImageFormatProperties <- vkGetProc @VkGetPhysicalDeviceSparseImageFormatProperties -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPhysicalDeviceSparseImageFormatProperties" vkGetPhysicalDeviceSparseImageFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkSampleCountFlagBits -- ^ samples -> VkImageUsageFlags -- ^ usage -> VkImageTiling -- ^ tiling -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkSparseImageFormatProperties -- ^ pProperties -> IO () ##else vkGetPhysicalDeviceSparseImageFormatPropertiesSafe :: VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkSampleCountFlagBits -- ^ samples -> VkImageUsageFlags -- ^ usage -> VkImageTiling -- ^ tiling -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkSparseImageFormatProperties -- ^ pProperties -> IO () vkGetPhysicalDeviceSparseImageFormatPropertiesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPhysicalDeviceSparseImageFormatProperties) {-# NOINLINE vkGetPhysicalDeviceSparseImageFormatPropertiesSafe #-} ##endif -- | > void vkGetPhysicalDeviceSparseImageFormatProperties -- > ( VkPhysicalDevice physicalDevice -- > , VkFormat format -- > , VkImageType type -- > , VkSampleCountFlagBits samples -- > , VkImageUsageFlags usage -- > , VkImageTiling tiling -- > , uint32_t* pPropertyCount -- > , VkSparseImageFormatProperties* pProperties -- > ) -- -- type HS_vkGetPhysicalDeviceSparseImageFormatProperties = VkPhysicalDevice -- ^ physicalDevice -> VkFormat -- ^ format -> VkImageType -- ^ type -> VkSampleCountFlagBits -- ^ samples -> VkImageUsageFlags -- ^ usage -> VkImageTiling -- ^ tiling -> Ptr Word32 -- ^ pPropertyCount -> Ptr VkSparseImageFormatProperties -- ^ pProperties -> IO () type PFN_vkGetPhysicalDeviceSparseImageFormatProperties = FunPtr HS_vkGetPhysicalDeviceSparseImageFormatProperties foreign import ccall unsafe "dynamic" unwrapVkGetPhysicalDeviceSparseImageFormatProperties :: PFN_vkGetPhysicalDeviceSparseImageFormatProperties -> HS_vkGetPhysicalDeviceSparseImageFormatProperties foreign import ccall safe "dynamic" unwrapVkGetPhysicalDeviceSparseImageFormatPropertiesSafe :: PFN_vkGetPhysicalDeviceSparseImageFormatProperties -> HS_vkGetPhysicalDeviceSparseImageFormatProperties instance VulkanProc "vkGetPhysicalDeviceSparseImageFormatProperties" where type VkProcType "vkGetPhysicalDeviceSparseImageFormatProperties" = HS_vkGetPhysicalDeviceSparseImageFormatProperties vkProcSymbol = _VkGetPhysicalDeviceSparseImageFormatProperties {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPhysicalDeviceSparseImageFormatProperties {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPhysicalDeviceSparseImageFormatPropertiesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkQueueBindSparse :: CString pattern VkQueueBindSparse <- (is_VkQueueBindSparse -> True) where VkQueueBindSparse = _VkQueueBindSparse {-# INLINE _VkQueueBindSparse #-} _VkQueueBindSparse :: CString _VkQueueBindSparse = Ptr "vkQueueBindSparse\NUL"## {-# INLINE is_VkQueueBindSparse #-} is_VkQueueBindSparse :: CString -> Bool is_VkQueueBindSparse = (EQ ==) . cmpCStrings _VkQueueBindSparse type VkQueueBindSparse = "vkQueueBindSparse" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- Queues: 'sparse_binding'. -- -- > VkResult vkQueueBindSparse -- > ( VkQueue queue -- > , uint32_t bindInfoCount -- > , const VkBindSparseInfo* pBindInfo -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueBindSparse <- vkGetInstanceProc @VkQueueBindSparse vkInstance -- -- or less efficient: -- -- > myQueueBindSparse <- vkGetProc @VkQueueBindSparse -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkQueueBindSparse" vkQueueBindSparse :: VkQueue -- ^ queue -> Word32 -- ^ bindInfoCount -> Ptr VkBindSparseInfo -- ^ pBindInfo -> VkFence -- ^ fence -> IO VkResult ##else vkQueueBindSparse :: VkQueue -- ^ queue -> Word32 -- ^ bindInfoCount -> Ptr VkBindSparseInfo -- ^ pBindInfo -> VkFence -- ^ fence -> IO VkResult vkQueueBindSparse = unsafeDupablePerformIO (vkGetProc @VkQueueBindSparse) {-# NOINLINE vkQueueBindSparse #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- Queues: 'sparse_binding'. -- -- > VkResult vkQueueBindSparse -- > ( VkQueue queue -- > , uint32_t bindInfoCount -- > , const VkBindSparseInfo* pBindInfo -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myQueueBindSparse <- vkGetInstanceProc @VkQueueBindSparse vkInstance -- -- or less efficient: -- -- > myQueueBindSparse <- vkGetProc @VkQueueBindSparse -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkQueueBindSparse" vkQueueBindSparseSafe :: VkQueue -- ^ queue -> Word32 -- ^ bindInfoCount -> Ptr VkBindSparseInfo -- ^ pBindInfo -> VkFence -- ^ fence -> IO VkResult ##else vkQueueBindSparseSafe :: VkQueue -- ^ queue -> Word32 -- ^ bindInfoCount -> Ptr VkBindSparseInfo -- ^ pBindInfo -> VkFence -- ^ fence -> IO VkResult vkQueueBindSparseSafe = unsafeDupablePerformIO (vkGetProcSafe @VkQueueBindSparse) {-# NOINLINE vkQueueBindSparseSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- Queues: 'sparse_binding'. -- -- > VkResult vkQueueBindSparse -- > ( VkQueue queue -- > , uint32_t bindInfoCount -- > , const VkBindSparseInfo* pBindInfo -- > , VkFence fence -- > ) -- -- type HS_vkQueueBindSparse = VkQueue -- ^ queue -> Word32 -- ^ bindInfoCount -> Ptr VkBindSparseInfo -- ^ pBindInfo -> VkFence -- ^ fence -> IO VkResult type PFN_vkQueueBindSparse = FunPtr HS_vkQueueBindSparse foreign import ccall unsafe "dynamic" unwrapVkQueueBindSparse :: PFN_vkQueueBindSparse -> HS_vkQueueBindSparse foreign import ccall safe "dynamic" unwrapVkQueueBindSparseSafe :: PFN_vkQueueBindSparse -> HS_vkQueueBindSparse instance VulkanProc "vkQueueBindSparse" where type VkProcType "vkQueueBindSparse" = HS_vkQueueBindSparse vkProcSymbol = _VkQueueBindSparse {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkQueueBindSparse {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkQueueBindSparseSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateFence :: CString pattern VkCreateFence <- (is_VkCreateFence -> True) where VkCreateFence = _VkCreateFence {-# INLINE _VkCreateFence #-} _VkCreateFence :: CString _VkCreateFence = Ptr "vkCreateFence\NUL"## {-# INLINE is_VkCreateFence #-} is_VkCreateFence :: CString -> Bool is_VkCreateFence = (EQ ==) . cmpCStrings _VkCreateFence type VkCreateFence = "vkCreateFence" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFence -- > ( VkDevice device -- > , const VkFenceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFence* pFence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateFence <- vkGetDeviceProc @VkCreateFence vkDevice -- -- or less efficient: -- -- > myCreateFence <- vkGetProc @VkCreateFence -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateFence" vkCreateFence :: VkDevice -- ^ device -> Ptr VkFenceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFence -- ^ pFence -> IO VkResult ##else vkCreateFence :: VkDevice -- ^ device -> Ptr VkFenceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFence -- ^ pFence -> IO VkResult vkCreateFence = unsafeDupablePerformIO (vkGetProc @VkCreateFence) {-# NOINLINE vkCreateFence #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFence -- > ( VkDevice device -- > , const VkFenceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFence* pFence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateFence <- vkGetDeviceProc @VkCreateFence vkDevice -- -- or less efficient: -- -- > myCreateFence <- vkGetProc @VkCreateFence -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateFence" vkCreateFenceSafe :: VkDevice -- ^ device -> Ptr VkFenceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFence -- ^ pFence -> IO VkResult ##else vkCreateFenceSafe :: VkDevice -- ^ device -> Ptr VkFenceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFence -- ^ pFence -> IO VkResult vkCreateFenceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateFence) {-# NOINLINE vkCreateFenceSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFence -- > ( VkDevice device -- > , const VkFenceCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFence* pFence -- > ) -- -- type HS_vkCreateFence = VkDevice -- ^ device -> Ptr VkFenceCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFence -- ^ pFence -> IO VkResult type PFN_vkCreateFence = FunPtr HS_vkCreateFence foreign import ccall unsafe "dynamic" unwrapVkCreateFence :: PFN_vkCreateFence -> HS_vkCreateFence foreign import ccall safe "dynamic" unwrapVkCreateFenceSafe :: PFN_vkCreateFence -> HS_vkCreateFence instance VulkanProc "vkCreateFence" where type VkProcType "vkCreateFence" = HS_vkCreateFence vkProcSymbol = _VkCreateFence {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateFence {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateFenceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyFence :: CString pattern VkDestroyFence <- (is_VkDestroyFence -> True) where VkDestroyFence = _VkDestroyFence {-# INLINE _VkDestroyFence #-} _VkDestroyFence :: CString _VkDestroyFence = Ptr "vkDestroyFence\NUL"## {-# INLINE is_VkDestroyFence #-} is_VkDestroyFence :: CString -> Bool is_VkDestroyFence = (EQ ==) . cmpCStrings _VkDestroyFence type VkDestroyFence = "vkDestroyFence" -- | -- > void vkDestroyFence -- > ( VkDevice device -- > , VkFence fence -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyFence <- vkGetDeviceProc @VkDestroyFence vkDevice -- -- or less efficient: -- -- > myDestroyFence <- vkGetProc @VkDestroyFence -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyFence" vkDestroyFence :: VkDevice -- ^ device -> VkFence -- ^ fence -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyFence :: VkDevice -- ^ device -> VkFence -- ^ fence -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyFence = unsafeDupablePerformIO (vkGetProc @VkDestroyFence) {-# NOINLINE vkDestroyFence #-} ##endif -- | -- > void vkDestroyFence -- > ( VkDevice device -- > , VkFence fence -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyFence <- vkGetDeviceProc @VkDestroyFence vkDevice -- -- or less efficient: -- -- > myDestroyFence <- vkGetProc @VkDestroyFence -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyFence" vkDestroyFenceSafe :: VkDevice -- ^ device -> VkFence -- ^ fence -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyFenceSafe :: VkDevice -- ^ device -> VkFence -- ^ fence -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyFenceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyFence) {-# NOINLINE vkDestroyFenceSafe #-} ##endif -- | > void vkDestroyFence -- > ( VkDevice device -- > , VkFence fence -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyFence = VkDevice -- ^ device -> VkFence -- ^ fence -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyFence = FunPtr HS_vkDestroyFence foreign import ccall unsafe "dynamic" unwrapVkDestroyFence :: PFN_vkDestroyFence -> HS_vkDestroyFence foreign import ccall safe "dynamic" unwrapVkDestroyFenceSafe :: PFN_vkDestroyFence -> HS_vkDestroyFence instance VulkanProc "vkDestroyFence" where type VkProcType "vkDestroyFence" = HS_vkDestroyFence vkProcSymbol = _VkDestroyFence {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyFence {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyFenceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkResetFences :: CString pattern VkResetFences <- (is_VkResetFences -> True) where VkResetFences = _VkResetFences {-# INLINE _VkResetFences #-} _VkResetFences :: CString _VkResetFences = Ptr "vkResetFences\NUL"## {-# INLINE is_VkResetFences #-} is_VkResetFences :: CString -> Bool is_VkResetFences = (EQ ==) . cmpCStrings _VkResetFences type VkResetFences = "vkResetFences" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetFences <- vkGetDeviceProc @VkResetFences vkDevice -- -- or less efficient: -- -- > myResetFences <- vkGetProc @VkResetFences -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkResetFences" vkResetFences :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> IO VkResult ##else vkResetFences :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> IO VkResult vkResetFences = unsafeDupablePerformIO (vkGetProc @VkResetFences) {-# NOINLINE vkResetFences #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetFences <- vkGetDeviceProc @VkResetFences vkDevice -- -- or less efficient: -- -- > myResetFences <- vkGetProc @VkResetFences -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkResetFences" vkResetFencesSafe :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> IO VkResult ##else vkResetFencesSafe :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> IO VkResult vkResetFencesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkResetFences) {-# NOINLINE vkResetFencesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > ) -- -- type HS_vkResetFences = VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> IO VkResult type PFN_vkResetFences = FunPtr HS_vkResetFences foreign import ccall unsafe "dynamic" unwrapVkResetFences :: PFN_vkResetFences -> HS_vkResetFences foreign import ccall safe "dynamic" unwrapVkResetFencesSafe :: PFN_vkResetFences -> HS_vkResetFences instance VulkanProc "vkResetFences" where type VkProcType "vkResetFences" = HS_vkResetFences vkProcSymbol = _VkResetFences {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkResetFences {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkResetFencesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetFenceStatus :: CString pattern VkGetFenceStatus <- (is_VkGetFenceStatus -> True) where VkGetFenceStatus = _VkGetFenceStatus {-# INLINE _VkGetFenceStatus #-} _VkGetFenceStatus :: CString _VkGetFenceStatus = Ptr "vkGetFenceStatus\NUL"## {-# INLINE is_VkGetFenceStatus #-} is_VkGetFenceStatus :: CString -> Bool is_VkGetFenceStatus = (EQ ==) . cmpCStrings _VkGetFenceStatus type VkGetFenceStatus = "vkGetFenceStatus" -- | -- Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetFenceStatus -- > ( VkDevice device -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetFenceStatus <- vkGetDeviceProc @VkGetFenceStatus vkDevice -- -- or less efficient: -- -- > myGetFenceStatus <- vkGetProc @VkGetFenceStatus -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetFenceStatus" vkGetFenceStatus :: VkDevice -- ^ device -> VkFence -- ^ fence -> IO VkResult ##else vkGetFenceStatus :: VkDevice -- ^ device -> VkFence -- ^ fence -> IO VkResult vkGetFenceStatus = unsafeDupablePerformIO (vkGetProc @VkGetFenceStatus) {-# NOINLINE vkGetFenceStatus #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetFenceStatus -- > ( VkDevice device -- > , VkFence fence -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetFenceStatus <- vkGetDeviceProc @VkGetFenceStatus vkDevice -- -- or less efficient: -- -- > myGetFenceStatus <- vkGetProc @VkGetFenceStatus -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetFenceStatus" vkGetFenceStatusSafe :: VkDevice -- ^ device -> VkFence -- ^ fence -> IO VkResult ##else vkGetFenceStatusSafe :: VkDevice -- ^ device -> VkFence -- ^ fence -> IO VkResult vkGetFenceStatusSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetFenceStatus) {-# NOINLINE vkGetFenceStatusSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetFenceStatus -- > ( VkDevice device -- > , VkFence fence -- > ) -- -- type HS_vkGetFenceStatus = VkDevice -- ^ device -> VkFence -- ^ fence -> IO VkResult type PFN_vkGetFenceStatus = FunPtr HS_vkGetFenceStatus foreign import ccall unsafe "dynamic" unwrapVkGetFenceStatus :: PFN_vkGetFenceStatus -> HS_vkGetFenceStatus foreign import ccall safe "dynamic" unwrapVkGetFenceStatusSafe :: PFN_vkGetFenceStatus -> HS_vkGetFenceStatus instance VulkanProc "vkGetFenceStatus" where type VkProcType "vkGetFenceStatus" = HS_vkGetFenceStatus vkProcSymbol = _VkGetFenceStatus {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetFenceStatus {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetFenceStatusSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkWaitForFences :: CString pattern VkWaitForFences <- (is_VkWaitForFences -> True) where VkWaitForFences = _VkWaitForFences {-# INLINE _VkWaitForFences #-} _VkWaitForFences :: CString _VkWaitForFences = Ptr "vkWaitForFences\NUL"## {-# INLINE is_VkWaitForFences #-} is_VkWaitForFences :: CString -> Bool is_VkWaitForFences = (EQ ==) . cmpCStrings _VkWaitForFences type VkWaitForFences = "vkWaitForFences" -- | -- Success codes: 'VK_SUCCESS', 'VK_TIMEOUT'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkWaitForFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > , VkBool32 waitAll -- > , uint64_t timeout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myWaitForFences <- vkGetDeviceProc @VkWaitForFences vkDevice -- -- or less efficient: -- -- > myWaitForFences <- vkGetProc @VkWaitForFences -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkWaitForFences" vkWaitForFences :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> VkBool32 -- ^ waitAll -> Word64 -- ^ timeout -> IO VkResult ##else vkWaitForFences :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> VkBool32 -- ^ waitAll -> Word64 -- ^ timeout -> IO VkResult vkWaitForFences = unsafeDupablePerformIO (vkGetProc @VkWaitForFences) {-# NOINLINE vkWaitForFences #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_TIMEOUT'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkWaitForFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > , VkBool32 waitAll -- > , uint64_t timeout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myWaitForFences <- vkGetDeviceProc @VkWaitForFences vkDevice -- -- or less efficient: -- -- > myWaitForFences <- vkGetProc @VkWaitForFences -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkWaitForFences" vkWaitForFencesSafe :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> VkBool32 -- ^ waitAll -> Word64 -- ^ timeout -> IO VkResult ##else vkWaitForFencesSafe :: VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> VkBool32 -- ^ waitAll -> Word64 -- ^ timeout -> IO VkResult vkWaitForFencesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkWaitForFences) {-# NOINLINE vkWaitForFencesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_TIMEOUT'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkWaitForFences -- > ( VkDevice device -- > , uint32_t fenceCount -- > , const VkFence* pFences -- > , VkBool32 waitAll -- > , uint64_t timeout -- > ) -- -- type HS_vkWaitForFences = VkDevice -- ^ device -> Word32 -- ^ fenceCount -> Ptr VkFence -- ^ pFences -> VkBool32 -- ^ waitAll -> Word64 -- ^ timeout -> IO VkResult type PFN_vkWaitForFences = FunPtr HS_vkWaitForFences foreign import ccall unsafe "dynamic" unwrapVkWaitForFences :: PFN_vkWaitForFences -> HS_vkWaitForFences foreign import ccall safe "dynamic" unwrapVkWaitForFencesSafe :: PFN_vkWaitForFences -> HS_vkWaitForFences instance VulkanProc "vkWaitForFences" where type VkProcType "vkWaitForFences" = HS_vkWaitForFences vkProcSymbol = _VkWaitForFences {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkWaitForFences {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkWaitForFencesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateSemaphore :: CString pattern VkCreateSemaphore <- (is_VkCreateSemaphore -> True) where VkCreateSemaphore = _VkCreateSemaphore {-# INLINE _VkCreateSemaphore #-} _VkCreateSemaphore :: CString _VkCreateSemaphore = Ptr "vkCreateSemaphore\NUL"## {-# INLINE is_VkCreateSemaphore #-} is_VkCreateSemaphore :: CString -> Bool is_VkCreateSemaphore = (EQ ==) . cmpCStrings _VkCreateSemaphore type VkCreateSemaphore = "vkCreateSemaphore" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateSemaphore -- > ( VkDevice device -- > , const VkSemaphoreCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSemaphore* pSemaphore -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateSemaphore <- vkGetDeviceProc @VkCreateSemaphore vkDevice -- -- or less efficient: -- -- > myCreateSemaphore <- vkGetProc @VkCreateSemaphore -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateSemaphore" vkCreateSemaphore :: VkDevice -- ^ device -> Ptr VkSemaphoreCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSemaphore -- ^ pSemaphore -> IO VkResult ##else vkCreateSemaphore :: VkDevice -- ^ device -> Ptr VkSemaphoreCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSemaphore -- ^ pSemaphore -> IO VkResult vkCreateSemaphore = unsafeDupablePerformIO (vkGetProc @VkCreateSemaphore) {-# NOINLINE vkCreateSemaphore #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateSemaphore -- > ( VkDevice device -- > , const VkSemaphoreCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSemaphore* pSemaphore -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateSemaphore <- vkGetDeviceProc @VkCreateSemaphore vkDevice -- -- or less efficient: -- -- > myCreateSemaphore <- vkGetProc @VkCreateSemaphore -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateSemaphore" vkCreateSemaphoreSafe :: VkDevice -- ^ device -> Ptr VkSemaphoreCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSemaphore -- ^ pSemaphore -> IO VkResult ##else vkCreateSemaphoreSafe :: VkDevice -- ^ device -> Ptr VkSemaphoreCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSemaphore -- ^ pSemaphore -> IO VkResult vkCreateSemaphoreSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateSemaphore) {-# NOINLINE vkCreateSemaphoreSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateSemaphore -- > ( VkDevice device -- > , const VkSemaphoreCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSemaphore* pSemaphore -- > ) -- -- type HS_vkCreateSemaphore = VkDevice -- ^ device -> Ptr VkSemaphoreCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSemaphore -- ^ pSemaphore -> IO VkResult type PFN_vkCreateSemaphore = FunPtr HS_vkCreateSemaphore foreign import ccall unsafe "dynamic" unwrapVkCreateSemaphore :: PFN_vkCreateSemaphore -> HS_vkCreateSemaphore foreign import ccall safe "dynamic" unwrapVkCreateSemaphoreSafe :: PFN_vkCreateSemaphore -> HS_vkCreateSemaphore instance VulkanProc "vkCreateSemaphore" where type VkProcType "vkCreateSemaphore" = HS_vkCreateSemaphore vkProcSymbol = _VkCreateSemaphore {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateSemaphore {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateSemaphoreSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroySemaphore :: CString pattern VkDestroySemaphore <- (is_VkDestroySemaphore -> True) where VkDestroySemaphore = _VkDestroySemaphore {-# INLINE _VkDestroySemaphore #-} _VkDestroySemaphore :: CString _VkDestroySemaphore = Ptr "vkDestroySemaphore\NUL"## {-# INLINE is_VkDestroySemaphore #-} is_VkDestroySemaphore :: CString -> Bool is_VkDestroySemaphore = (EQ ==) . cmpCStrings _VkDestroySemaphore type VkDestroySemaphore = "vkDestroySemaphore" -- | -- > void vkDestroySemaphore -- > ( VkDevice device -- > , VkSemaphore semaphore -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroySemaphore <- vkGetDeviceProc @VkDestroySemaphore vkDevice -- -- or less efficient: -- -- > myDestroySemaphore <- vkGetProc @VkDestroySemaphore -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroySemaphore" vkDestroySemaphore :: VkDevice -- ^ device -> VkSemaphore -- ^ semaphore -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroySemaphore :: VkDevice -- ^ device -> VkSemaphore -- ^ semaphore -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroySemaphore = unsafeDupablePerformIO (vkGetProc @VkDestroySemaphore) {-# NOINLINE vkDestroySemaphore #-} ##endif -- | -- > void vkDestroySemaphore -- > ( VkDevice device -- > , VkSemaphore semaphore -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroySemaphore <- vkGetDeviceProc @VkDestroySemaphore vkDevice -- -- or less efficient: -- -- > myDestroySemaphore <- vkGetProc @VkDestroySemaphore -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroySemaphore" vkDestroySemaphoreSafe :: VkDevice -- ^ device -> VkSemaphore -- ^ semaphore -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroySemaphoreSafe :: VkDevice -- ^ device -> VkSemaphore -- ^ semaphore -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroySemaphoreSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroySemaphore) {-# NOINLINE vkDestroySemaphoreSafe #-} ##endif -- | > void vkDestroySemaphore -- > ( VkDevice device -- > , VkSemaphore semaphore -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroySemaphore = VkDevice -- ^ device -> VkSemaphore -- ^ semaphore -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroySemaphore = FunPtr HS_vkDestroySemaphore foreign import ccall unsafe "dynamic" unwrapVkDestroySemaphore :: PFN_vkDestroySemaphore -> HS_vkDestroySemaphore foreign import ccall safe "dynamic" unwrapVkDestroySemaphoreSafe :: PFN_vkDestroySemaphore -> HS_vkDestroySemaphore instance VulkanProc "vkDestroySemaphore" where type VkProcType "vkDestroySemaphore" = HS_vkDestroySemaphore vkProcSymbol = _VkDestroySemaphore {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroySemaphore {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroySemaphoreSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateEvent :: CString pattern VkCreateEvent <- (is_VkCreateEvent -> True) where VkCreateEvent = _VkCreateEvent {-# INLINE _VkCreateEvent #-} _VkCreateEvent :: CString _VkCreateEvent = Ptr "vkCreateEvent\NUL"## {-# INLINE is_VkCreateEvent #-} is_VkCreateEvent :: CString -> Bool is_VkCreateEvent = (EQ ==) . cmpCStrings _VkCreateEvent type VkCreateEvent = "vkCreateEvent" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateEvent -- > ( VkDevice device -- > , const VkEventCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkEvent* pEvent -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateEvent <- vkGetDeviceProc @VkCreateEvent vkDevice -- -- or less efficient: -- -- > myCreateEvent <- vkGetProc @VkCreateEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateEvent" vkCreateEvent :: VkDevice -- ^ device -> Ptr VkEventCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkEvent -- ^ pEvent -> IO VkResult ##else vkCreateEvent :: VkDevice -- ^ device -> Ptr VkEventCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkEvent -- ^ pEvent -> IO VkResult vkCreateEvent = unsafeDupablePerformIO (vkGetProc @VkCreateEvent) {-# NOINLINE vkCreateEvent #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateEvent -- > ( VkDevice device -- > , const VkEventCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkEvent* pEvent -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateEvent <- vkGetDeviceProc @VkCreateEvent vkDevice -- -- or less efficient: -- -- > myCreateEvent <- vkGetProc @VkCreateEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateEvent" vkCreateEventSafe :: VkDevice -- ^ device -> Ptr VkEventCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkEvent -- ^ pEvent -> IO VkResult ##else vkCreateEventSafe :: VkDevice -- ^ device -> Ptr VkEventCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkEvent -- ^ pEvent -> IO VkResult vkCreateEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateEvent) {-# NOINLINE vkCreateEventSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateEvent -- > ( VkDevice device -- > , const VkEventCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkEvent* pEvent -- > ) -- -- type HS_vkCreateEvent = VkDevice -- ^ device -> Ptr VkEventCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkEvent -- ^ pEvent -> IO VkResult type PFN_vkCreateEvent = FunPtr HS_vkCreateEvent foreign import ccall unsafe "dynamic" unwrapVkCreateEvent :: PFN_vkCreateEvent -> HS_vkCreateEvent foreign import ccall safe "dynamic" unwrapVkCreateEventSafe :: PFN_vkCreateEvent -> HS_vkCreateEvent instance VulkanProc "vkCreateEvent" where type VkProcType "vkCreateEvent" = HS_vkCreateEvent vkProcSymbol = _VkCreateEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyEvent :: CString pattern VkDestroyEvent <- (is_VkDestroyEvent -> True) where VkDestroyEvent = _VkDestroyEvent {-# INLINE _VkDestroyEvent #-} _VkDestroyEvent :: CString _VkDestroyEvent = Ptr "vkDestroyEvent\NUL"## {-# INLINE is_VkDestroyEvent #-} is_VkDestroyEvent :: CString -> Bool is_VkDestroyEvent = (EQ ==) . cmpCStrings _VkDestroyEvent type VkDestroyEvent = "vkDestroyEvent" -- | -- > void vkDestroyEvent -- > ( VkDevice device -- > , VkEvent event -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyEvent <- vkGetDeviceProc @VkDestroyEvent vkDevice -- -- or less efficient: -- -- > myDestroyEvent <- vkGetProc @VkDestroyEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyEvent" vkDestroyEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyEvent = unsafeDupablePerformIO (vkGetProc @VkDestroyEvent) {-# NOINLINE vkDestroyEvent #-} ##endif -- | -- > void vkDestroyEvent -- > ( VkDevice device -- > , VkEvent event -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyEvent <- vkGetDeviceProc @VkDestroyEvent vkDevice -- -- or less efficient: -- -- > myDestroyEvent <- vkGetProc @VkDestroyEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyEvent" vkDestroyEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyEvent) {-# NOINLINE vkDestroyEventSafe #-} ##endif -- | > void vkDestroyEvent -- > ( VkDevice device -- > , VkEvent event -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyEvent = VkDevice -- ^ device -> VkEvent -- ^ event -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyEvent = FunPtr HS_vkDestroyEvent foreign import ccall unsafe "dynamic" unwrapVkDestroyEvent :: PFN_vkDestroyEvent -> HS_vkDestroyEvent foreign import ccall safe "dynamic" unwrapVkDestroyEventSafe :: PFN_vkDestroyEvent -> HS_vkDestroyEvent instance VulkanProc "vkDestroyEvent" where type VkProcType "vkDestroyEvent" = HS_vkDestroyEvent vkProcSymbol = _VkDestroyEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetEventStatus :: CString pattern VkGetEventStatus <- (is_VkGetEventStatus -> True) where VkGetEventStatus = _VkGetEventStatus {-# INLINE _VkGetEventStatus #-} _VkGetEventStatus :: CString _VkGetEventStatus = Ptr "vkGetEventStatus\NUL"## {-# INLINE is_VkGetEventStatus #-} is_VkGetEventStatus :: CString -> Bool is_VkGetEventStatus = (EQ ==) . cmpCStrings _VkGetEventStatus type VkGetEventStatus = "vkGetEventStatus" -- | -- Success codes: 'VK_EVENT_SET', 'VK_EVENT_RESET'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetEventStatus -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetEventStatus <- vkGetDeviceProc @VkGetEventStatus vkDevice -- -- or less efficient: -- -- > myGetEventStatus <- vkGetProc @VkGetEventStatus -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetEventStatus" vkGetEventStatus :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkGetEventStatus :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkGetEventStatus = unsafeDupablePerformIO (vkGetProc @VkGetEventStatus) {-# NOINLINE vkGetEventStatus #-} ##endif -- | -- Success codes: 'VK_EVENT_SET', 'VK_EVENT_RESET'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetEventStatus -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetEventStatus <- vkGetDeviceProc @VkGetEventStatus vkDevice -- -- or less efficient: -- -- > myGetEventStatus <- vkGetProc @VkGetEventStatus -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetEventStatus" vkGetEventStatusSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkGetEventStatusSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkGetEventStatusSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetEventStatus) {-# NOINLINE vkGetEventStatusSafe #-} ##endif -- | Success codes: 'VK_EVENT_SET', 'VK_EVENT_RESET'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetEventStatus -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- type HS_vkGetEventStatus = VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult type PFN_vkGetEventStatus = FunPtr HS_vkGetEventStatus foreign import ccall unsafe "dynamic" unwrapVkGetEventStatus :: PFN_vkGetEventStatus -> HS_vkGetEventStatus foreign import ccall safe "dynamic" unwrapVkGetEventStatusSafe :: PFN_vkGetEventStatus -> HS_vkGetEventStatus instance VulkanProc "vkGetEventStatus" where type VkProcType "vkGetEventStatus" = HS_vkGetEventStatus vkProcSymbol = _VkGetEventStatus {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetEventStatus {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetEventStatusSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkSetEvent :: CString pattern VkSetEvent <- (is_VkSetEvent -> True) where VkSetEvent = _VkSetEvent {-# INLINE _VkSetEvent #-} _VkSetEvent :: CString _VkSetEvent = Ptr "vkSetEvent\NUL"## {-# INLINE is_VkSetEvent #-} is_VkSetEvent :: CString -> Bool is_VkSetEvent = (EQ ==) . cmpCStrings _VkSetEvent type VkSetEvent = "vkSetEvent" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkSetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > mySetEvent <- vkGetDeviceProc @VkSetEvent vkDevice -- -- or less efficient: -- -- > mySetEvent <- vkGetProc @VkSetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkSetEvent" vkSetEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkSetEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkSetEvent = unsafeDupablePerformIO (vkGetProc @VkSetEvent) {-# NOINLINE vkSetEvent #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkSetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > mySetEvent <- vkGetDeviceProc @VkSetEvent vkDevice -- -- or less efficient: -- -- > mySetEvent <- vkGetProc @VkSetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkSetEvent" vkSetEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkSetEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkSetEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkSetEvent) {-# NOINLINE vkSetEventSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkSetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- type HS_vkSetEvent = VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult type PFN_vkSetEvent = FunPtr HS_vkSetEvent foreign import ccall unsafe "dynamic" unwrapVkSetEvent :: PFN_vkSetEvent -> HS_vkSetEvent foreign import ccall safe "dynamic" unwrapVkSetEventSafe :: PFN_vkSetEvent -> HS_vkSetEvent instance VulkanProc "vkSetEvent" where type VkProcType "vkSetEvent" = HS_vkSetEvent vkProcSymbol = _VkSetEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkSetEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkSetEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkResetEvent :: CString pattern VkResetEvent <- (is_VkResetEvent -> True) where VkResetEvent = _VkResetEvent {-# INLINE _VkResetEvent #-} _VkResetEvent :: CString _VkResetEvent = Ptr "vkResetEvent\NUL"## {-# INLINE is_VkResetEvent #-} is_VkResetEvent :: CString -> Bool is_VkResetEvent = (EQ ==) . cmpCStrings _VkResetEvent type VkResetEvent = "vkResetEvent" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetEvent <- vkGetDeviceProc @VkResetEvent vkDevice -- -- or less efficient: -- -- > myResetEvent <- vkGetProc @VkResetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkResetEvent" vkResetEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkResetEvent :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkResetEvent = unsafeDupablePerformIO (vkGetProc @VkResetEvent) {-# NOINLINE vkResetEvent #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetEvent <- vkGetDeviceProc @VkResetEvent vkDevice -- -- or less efficient: -- -- > myResetEvent <- vkGetProc @VkResetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkResetEvent" vkResetEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult ##else vkResetEventSafe :: VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult vkResetEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkResetEvent) {-# NOINLINE vkResetEventSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetEvent -- > ( VkDevice device -- > , VkEvent event -- > ) -- -- type HS_vkResetEvent = VkDevice -- ^ device -> VkEvent -- ^ event -> IO VkResult type PFN_vkResetEvent = FunPtr HS_vkResetEvent foreign import ccall unsafe "dynamic" unwrapVkResetEvent :: PFN_vkResetEvent -> HS_vkResetEvent foreign import ccall safe "dynamic" unwrapVkResetEventSafe :: PFN_vkResetEvent -> HS_vkResetEvent instance VulkanProc "vkResetEvent" where type VkProcType "vkResetEvent" = HS_vkResetEvent vkProcSymbol = _VkResetEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkResetEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkResetEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateQueryPool :: CString pattern VkCreateQueryPool <- (is_VkCreateQueryPool -> True) where VkCreateQueryPool = _VkCreateQueryPool {-# INLINE _VkCreateQueryPool #-} _VkCreateQueryPool :: CString _VkCreateQueryPool = Ptr "vkCreateQueryPool\NUL"## {-# INLINE is_VkCreateQueryPool #-} is_VkCreateQueryPool :: CString -> Bool is_VkCreateQueryPool = (EQ ==) . cmpCStrings _VkCreateQueryPool type VkCreateQueryPool = "vkCreateQueryPool" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateQueryPool -- > ( VkDevice device -- > , const VkQueryPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkQueryPool* pQueryPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateQueryPool <- vkGetDeviceProc @VkCreateQueryPool vkDevice -- -- or less efficient: -- -- > myCreateQueryPool <- vkGetProc @VkCreateQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateQueryPool" vkCreateQueryPool :: VkDevice -- ^ device -> Ptr VkQueryPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkQueryPool -- ^ pQueryPool -> IO VkResult ##else vkCreateQueryPool :: VkDevice -- ^ device -> Ptr VkQueryPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkQueryPool -- ^ pQueryPool -> IO VkResult vkCreateQueryPool = unsafeDupablePerformIO (vkGetProc @VkCreateQueryPool) {-# NOINLINE vkCreateQueryPool #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateQueryPool -- > ( VkDevice device -- > , const VkQueryPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkQueryPool* pQueryPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateQueryPool <- vkGetDeviceProc @VkCreateQueryPool vkDevice -- -- or less efficient: -- -- > myCreateQueryPool <- vkGetProc @VkCreateQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateQueryPool" vkCreateQueryPoolSafe :: VkDevice -- ^ device -> Ptr VkQueryPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkQueryPool -- ^ pQueryPool -> IO VkResult ##else vkCreateQueryPoolSafe :: VkDevice -- ^ device -> Ptr VkQueryPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkQueryPool -- ^ pQueryPool -> IO VkResult vkCreateQueryPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateQueryPool) {-# NOINLINE vkCreateQueryPoolSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateQueryPool -- > ( VkDevice device -- > , const VkQueryPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkQueryPool* pQueryPool -- > ) -- -- type HS_vkCreateQueryPool = VkDevice -- ^ device -> Ptr VkQueryPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkQueryPool -- ^ pQueryPool -> IO VkResult type PFN_vkCreateQueryPool = FunPtr HS_vkCreateQueryPool foreign import ccall unsafe "dynamic" unwrapVkCreateQueryPool :: PFN_vkCreateQueryPool -> HS_vkCreateQueryPool foreign import ccall safe "dynamic" unwrapVkCreateQueryPoolSafe :: PFN_vkCreateQueryPool -> HS_vkCreateQueryPool instance VulkanProc "vkCreateQueryPool" where type VkProcType "vkCreateQueryPool" = HS_vkCreateQueryPool vkProcSymbol = _VkCreateQueryPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateQueryPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateQueryPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyQueryPool :: CString pattern VkDestroyQueryPool <- (is_VkDestroyQueryPool -> True) where VkDestroyQueryPool = _VkDestroyQueryPool {-# INLINE _VkDestroyQueryPool #-} _VkDestroyQueryPool :: CString _VkDestroyQueryPool = Ptr "vkDestroyQueryPool\NUL"## {-# INLINE is_VkDestroyQueryPool #-} is_VkDestroyQueryPool :: CString -> Bool is_VkDestroyQueryPool = (EQ ==) . cmpCStrings _VkDestroyQueryPool type VkDestroyQueryPool = "vkDestroyQueryPool" -- | -- > void vkDestroyQueryPool -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyQueryPool <- vkGetDeviceProc @VkDestroyQueryPool vkDevice -- -- or less efficient: -- -- > myDestroyQueryPool <- vkGetProc @VkDestroyQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyQueryPool" vkDestroyQueryPool :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyQueryPool :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyQueryPool = unsafeDupablePerformIO (vkGetProc @VkDestroyQueryPool) {-# NOINLINE vkDestroyQueryPool #-} ##endif -- | -- > void vkDestroyQueryPool -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyQueryPool <- vkGetDeviceProc @VkDestroyQueryPool vkDevice -- -- or less efficient: -- -- > myDestroyQueryPool <- vkGetProc @VkDestroyQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyQueryPool" vkDestroyQueryPoolSafe :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyQueryPoolSafe :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyQueryPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyQueryPool) {-# NOINLINE vkDestroyQueryPoolSafe #-} ##endif -- | > void vkDestroyQueryPool -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyQueryPool = VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyQueryPool = FunPtr HS_vkDestroyQueryPool foreign import ccall unsafe "dynamic" unwrapVkDestroyQueryPool :: PFN_vkDestroyQueryPool -> HS_vkDestroyQueryPool foreign import ccall safe "dynamic" unwrapVkDestroyQueryPoolSafe :: PFN_vkDestroyQueryPool -> HS_vkDestroyQueryPool instance VulkanProc "vkDestroyQueryPool" where type VkProcType "vkDestroyQueryPool" = HS_vkDestroyQueryPool vkProcSymbol = _VkDestroyQueryPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyQueryPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyQueryPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetQueryPoolResults :: CString pattern VkGetQueryPoolResults <- (is_VkGetQueryPoolResults -> True) where VkGetQueryPoolResults = _VkGetQueryPoolResults {-# INLINE _VkGetQueryPoolResults #-} _VkGetQueryPoolResults :: CString _VkGetQueryPoolResults = Ptr "vkGetQueryPoolResults\NUL"## {-# INLINE is_VkGetQueryPoolResults #-} is_VkGetQueryPoolResults :: CString -> Bool is_VkGetQueryPoolResults = (EQ ==) . cmpCStrings _VkGetQueryPoolResults type VkGetQueryPoolResults = "vkGetQueryPoolResults" -- | -- Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetQueryPoolResults -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , size_t dataSize -- > , void* pData -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetQueryPoolResults <- vkGetDeviceProc @VkGetQueryPoolResults vkDevice -- -- or less efficient: -- -- > myGetQueryPoolResults <- vkGetProc @VkGetQueryPoolResults -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetQueryPoolResults" vkGetQueryPoolResults :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> CSize -- ^ dataSize -> Ptr Void -- ^ pData -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO VkResult ##else vkGetQueryPoolResults :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> CSize -- ^ dataSize -> Ptr Void -- ^ pData -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO VkResult vkGetQueryPoolResults = unsafeDupablePerformIO (vkGetProc @VkGetQueryPoolResults) {-# NOINLINE vkGetQueryPoolResults #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetQueryPoolResults -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , size_t dataSize -- > , void* pData -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetQueryPoolResults <- vkGetDeviceProc @VkGetQueryPoolResults vkDevice -- -- or less efficient: -- -- > myGetQueryPoolResults <- vkGetProc @VkGetQueryPoolResults -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetQueryPoolResults" vkGetQueryPoolResultsSafe :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> CSize -- ^ dataSize -> Ptr Void -- ^ pData -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO VkResult ##else vkGetQueryPoolResultsSafe :: VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> CSize -- ^ dataSize -> Ptr Void -- ^ pData -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO VkResult vkGetQueryPoolResultsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetQueryPoolResults) {-# NOINLINE vkGetQueryPoolResultsSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_NOT_READY'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_DEVICE_LOST'. -- -- > VkResult vkGetQueryPoolResults -- > ( VkDevice device -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , size_t dataSize -- > , void* pData -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- type HS_vkGetQueryPoolResults = VkDevice -- ^ device -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> CSize -- ^ dataSize -> Ptr Void -- ^ pData -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO VkResult type PFN_vkGetQueryPoolResults = FunPtr HS_vkGetQueryPoolResults foreign import ccall unsafe "dynamic" unwrapVkGetQueryPoolResults :: PFN_vkGetQueryPoolResults -> HS_vkGetQueryPoolResults foreign import ccall safe "dynamic" unwrapVkGetQueryPoolResultsSafe :: PFN_vkGetQueryPoolResults -> HS_vkGetQueryPoolResults instance VulkanProc "vkGetQueryPoolResults" where type VkProcType "vkGetQueryPoolResults" = HS_vkGetQueryPoolResults vkProcSymbol = _VkGetQueryPoolResults {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetQueryPoolResults {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetQueryPoolResultsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateBuffer :: CString pattern VkCreateBuffer <- (is_VkCreateBuffer -> True) where VkCreateBuffer = _VkCreateBuffer {-# INLINE _VkCreateBuffer #-} _VkCreateBuffer :: CString _VkCreateBuffer = Ptr "vkCreateBuffer\NUL"## {-# INLINE is_VkCreateBuffer #-} is_VkCreateBuffer :: CString -> Bool is_VkCreateBuffer = (EQ ==) . cmpCStrings _VkCreateBuffer type VkCreateBuffer = "vkCreateBuffer" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBuffer -- > ( VkDevice device -- > , const VkBufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBuffer* pBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateBuffer <- vkGetDeviceProc @VkCreateBuffer vkDevice -- -- or less efficient: -- -- > myCreateBuffer <- vkGetProc @VkCreateBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateBuffer" vkCreateBuffer :: VkDevice -- ^ device -> Ptr VkBufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBuffer -- ^ pBuffer -> IO VkResult ##else vkCreateBuffer :: VkDevice -- ^ device -> Ptr VkBufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBuffer -- ^ pBuffer -> IO VkResult vkCreateBuffer = unsafeDupablePerformIO (vkGetProc @VkCreateBuffer) {-# NOINLINE vkCreateBuffer #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBuffer -- > ( VkDevice device -- > , const VkBufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBuffer* pBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateBuffer <- vkGetDeviceProc @VkCreateBuffer vkDevice -- -- or less efficient: -- -- > myCreateBuffer <- vkGetProc @VkCreateBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateBuffer" vkCreateBufferSafe :: VkDevice -- ^ device -> Ptr VkBufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBuffer -- ^ pBuffer -> IO VkResult ##else vkCreateBufferSafe :: VkDevice -- ^ device -> Ptr VkBufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBuffer -- ^ pBuffer -> IO VkResult vkCreateBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateBuffer) {-# NOINLINE vkCreateBufferSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBuffer -- > ( VkDevice device -- > , const VkBufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBuffer* pBuffer -- > ) -- -- type HS_vkCreateBuffer = VkDevice -- ^ device -> Ptr VkBufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBuffer -- ^ pBuffer -> IO VkResult type PFN_vkCreateBuffer = FunPtr HS_vkCreateBuffer foreign import ccall unsafe "dynamic" unwrapVkCreateBuffer :: PFN_vkCreateBuffer -> HS_vkCreateBuffer foreign import ccall safe "dynamic" unwrapVkCreateBufferSafe :: PFN_vkCreateBuffer -> HS_vkCreateBuffer instance VulkanProc "vkCreateBuffer" where type VkProcType "vkCreateBuffer" = HS_vkCreateBuffer vkProcSymbol = _VkCreateBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyBuffer :: CString pattern VkDestroyBuffer <- (is_VkDestroyBuffer -> True) where VkDestroyBuffer = _VkDestroyBuffer {-# INLINE _VkDestroyBuffer #-} _VkDestroyBuffer :: CString _VkDestroyBuffer = Ptr "vkDestroyBuffer\NUL"## {-# INLINE is_VkDestroyBuffer #-} is_VkDestroyBuffer :: CString -> Bool is_VkDestroyBuffer = (EQ ==) . cmpCStrings _VkDestroyBuffer type VkDestroyBuffer = "vkDestroyBuffer" -- | -- > void vkDestroyBuffer -- > ( VkDevice device -- > , VkBuffer buffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyBuffer <- vkGetDeviceProc @VkDestroyBuffer vkDevice -- -- or less efficient: -- -- > myDestroyBuffer <- vkGetProc @VkDestroyBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyBuffer" vkDestroyBuffer :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyBuffer :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyBuffer = unsafeDupablePerformIO (vkGetProc @VkDestroyBuffer) {-# NOINLINE vkDestroyBuffer #-} ##endif -- | -- > void vkDestroyBuffer -- > ( VkDevice device -- > , VkBuffer buffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyBuffer <- vkGetDeviceProc @VkDestroyBuffer vkDevice -- -- or less efficient: -- -- > myDestroyBuffer <- vkGetProc @VkDestroyBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyBuffer" vkDestroyBufferSafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyBufferSafe :: VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyBuffer) {-# NOINLINE vkDestroyBufferSafe #-} ##endif -- | > void vkDestroyBuffer -- > ( VkDevice device -- > , VkBuffer buffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyBuffer = VkDevice -- ^ device -> VkBuffer -- ^ buffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyBuffer = FunPtr HS_vkDestroyBuffer foreign import ccall unsafe "dynamic" unwrapVkDestroyBuffer :: PFN_vkDestroyBuffer -> HS_vkDestroyBuffer foreign import ccall safe "dynamic" unwrapVkDestroyBufferSafe :: PFN_vkDestroyBuffer -> HS_vkDestroyBuffer instance VulkanProc "vkDestroyBuffer" where type VkProcType "vkDestroyBuffer" = HS_vkDestroyBuffer vkProcSymbol = _VkDestroyBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateBufferView :: CString pattern VkCreateBufferView <- (is_VkCreateBufferView -> True) where VkCreateBufferView = _VkCreateBufferView {-# INLINE _VkCreateBufferView #-} _VkCreateBufferView :: CString _VkCreateBufferView = Ptr "vkCreateBufferView\NUL"## {-# INLINE is_VkCreateBufferView #-} is_VkCreateBufferView :: CString -> Bool is_VkCreateBufferView = (EQ ==) . cmpCStrings _VkCreateBufferView type VkCreateBufferView = "vkCreateBufferView" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBufferView -- > ( VkDevice device -- > , const VkBufferViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBufferView* pView -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateBufferView <- vkGetDeviceProc @VkCreateBufferView vkDevice -- -- or less efficient: -- -- > myCreateBufferView <- vkGetProc @VkCreateBufferView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateBufferView" vkCreateBufferView :: VkDevice -- ^ device -> Ptr VkBufferViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBufferView -- ^ pView -> IO VkResult ##else vkCreateBufferView :: VkDevice -- ^ device -> Ptr VkBufferViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBufferView -- ^ pView -> IO VkResult vkCreateBufferView = unsafeDupablePerformIO (vkGetProc @VkCreateBufferView) {-# NOINLINE vkCreateBufferView #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBufferView -- > ( VkDevice device -- > , const VkBufferViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBufferView* pView -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateBufferView <- vkGetDeviceProc @VkCreateBufferView vkDevice -- -- or less efficient: -- -- > myCreateBufferView <- vkGetProc @VkCreateBufferView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateBufferView" vkCreateBufferViewSafe :: VkDevice -- ^ device -> Ptr VkBufferViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBufferView -- ^ pView -> IO VkResult ##else vkCreateBufferViewSafe :: VkDevice -- ^ device -> Ptr VkBufferViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBufferView -- ^ pView -> IO VkResult vkCreateBufferViewSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateBufferView) {-# NOINLINE vkCreateBufferViewSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateBufferView -- > ( VkDevice device -- > , const VkBufferViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkBufferView* pView -- > ) -- -- type HS_vkCreateBufferView = VkDevice -- ^ device -> Ptr VkBufferViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkBufferView -- ^ pView -> IO VkResult type PFN_vkCreateBufferView = FunPtr HS_vkCreateBufferView foreign import ccall unsafe "dynamic" unwrapVkCreateBufferView :: PFN_vkCreateBufferView -> HS_vkCreateBufferView foreign import ccall safe "dynamic" unwrapVkCreateBufferViewSafe :: PFN_vkCreateBufferView -> HS_vkCreateBufferView instance VulkanProc "vkCreateBufferView" where type VkProcType "vkCreateBufferView" = HS_vkCreateBufferView vkProcSymbol = _VkCreateBufferView {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateBufferView {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateBufferViewSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyBufferView :: CString pattern VkDestroyBufferView <- (is_VkDestroyBufferView -> True) where VkDestroyBufferView = _VkDestroyBufferView {-# INLINE _VkDestroyBufferView #-} _VkDestroyBufferView :: CString _VkDestroyBufferView = Ptr "vkDestroyBufferView\NUL"## {-# INLINE is_VkDestroyBufferView #-} is_VkDestroyBufferView :: CString -> Bool is_VkDestroyBufferView = (EQ ==) . cmpCStrings _VkDestroyBufferView type VkDestroyBufferView = "vkDestroyBufferView" -- | -- > void vkDestroyBufferView -- > ( VkDevice device -- > , VkBufferView bufferView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyBufferView <- vkGetDeviceProc @VkDestroyBufferView vkDevice -- -- or less efficient: -- -- > myDestroyBufferView <- vkGetProc @VkDestroyBufferView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyBufferView" vkDestroyBufferView :: VkDevice -- ^ device -> VkBufferView -- ^ bufferView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyBufferView :: VkDevice -- ^ device -> VkBufferView -- ^ bufferView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyBufferView = unsafeDupablePerformIO (vkGetProc @VkDestroyBufferView) {-# NOINLINE vkDestroyBufferView #-} ##endif -- | -- > void vkDestroyBufferView -- > ( VkDevice device -- > , VkBufferView bufferView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyBufferView <- vkGetDeviceProc @VkDestroyBufferView vkDevice -- -- or less efficient: -- -- > myDestroyBufferView <- vkGetProc @VkDestroyBufferView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyBufferView" vkDestroyBufferViewSafe :: VkDevice -- ^ device -> VkBufferView -- ^ bufferView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyBufferViewSafe :: VkDevice -- ^ device -> VkBufferView -- ^ bufferView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyBufferViewSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyBufferView) {-# NOINLINE vkDestroyBufferViewSafe #-} ##endif -- | > void vkDestroyBufferView -- > ( VkDevice device -- > , VkBufferView bufferView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyBufferView = VkDevice -- ^ device -> VkBufferView -- ^ bufferView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyBufferView = FunPtr HS_vkDestroyBufferView foreign import ccall unsafe "dynamic" unwrapVkDestroyBufferView :: PFN_vkDestroyBufferView -> HS_vkDestroyBufferView foreign import ccall safe "dynamic" unwrapVkDestroyBufferViewSafe :: PFN_vkDestroyBufferView -> HS_vkDestroyBufferView instance VulkanProc "vkDestroyBufferView" where type VkProcType "vkDestroyBufferView" = HS_vkDestroyBufferView vkProcSymbol = _VkDestroyBufferView {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyBufferView {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyBufferViewSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateImage :: CString pattern VkCreateImage <- (is_VkCreateImage -> True) where VkCreateImage = _VkCreateImage {-# INLINE _VkCreateImage #-} _VkCreateImage :: CString _VkCreateImage = Ptr "vkCreateImage\NUL"## {-# INLINE is_VkCreateImage #-} is_VkCreateImage :: CString -> Bool is_VkCreateImage = (EQ ==) . cmpCStrings _VkCreateImage type VkCreateImage = "vkCreateImage" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImage -- > ( VkDevice device -- > , const VkImageCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImage* pImage -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateImage <- vkGetDeviceProc @VkCreateImage vkDevice -- -- or less efficient: -- -- > myCreateImage <- vkGetProc @VkCreateImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateImage" vkCreateImage :: VkDevice -- ^ device -> Ptr VkImageCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImage -- ^ pImage -> IO VkResult ##else vkCreateImage :: VkDevice -- ^ device -> Ptr VkImageCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImage -- ^ pImage -> IO VkResult vkCreateImage = unsafeDupablePerformIO (vkGetProc @VkCreateImage) {-# NOINLINE vkCreateImage #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImage -- > ( VkDevice device -- > , const VkImageCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImage* pImage -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateImage <- vkGetDeviceProc @VkCreateImage vkDevice -- -- or less efficient: -- -- > myCreateImage <- vkGetProc @VkCreateImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateImage" vkCreateImageSafe :: VkDevice -- ^ device -> Ptr VkImageCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImage -- ^ pImage -> IO VkResult ##else vkCreateImageSafe :: VkDevice -- ^ device -> Ptr VkImageCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImage -- ^ pImage -> IO VkResult vkCreateImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateImage) {-# NOINLINE vkCreateImageSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImage -- > ( VkDevice device -- > , const VkImageCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImage* pImage -- > ) -- -- type HS_vkCreateImage = VkDevice -- ^ device -> Ptr VkImageCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImage -- ^ pImage -> IO VkResult type PFN_vkCreateImage = FunPtr HS_vkCreateImage foreign import ccall unsafe "dynamic" unwrapVkCreateImage :: PFN_vkCreateImage -> HS_vkCreateImage foreign import ccall safe "dynamic" unwrapVkCreateImageSafe :: PFN_vkCreateImage -> HS_vkCreateImage instance VulkanProc "vkCreateImage" where type VkProcType "vkCreateImage" = HS_vkCreateImage vkProcSymbol = _VkCreateImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyImage :: CString pattern VkDestroyImage <- (is_VkDestroyImage -> True) where VkDestroyImage = _VkDestroyImage {-# INLINE _VkDestroyImage #-} _VkDestroyImage :: CString _VkDestroyImage = Ptr "vkDestroyImage\NUL"## {-# INLINE is_VkDestroyImage #-} is_VkDestroyImage :: CString -> Bool is_VkDestroyImage = (EQ ==) . cmpCStrings _VkDestroyImage type VkDestroyImage = "vkDestroyImage" -- | -- > void vkDestroyImage -- > ( VkDevice device -- > , VkImage image -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyImage <- vkGetDeviceProc @VkDestroyImage vkDevice -- -- or less efficient: -- -- > myDestroyImage <- vkGetProc @VkDestroyImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyImage" vkDestroyImage :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyImage :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyImage = unsafeDupablePerformIO (vkGetProc @VkDestroyImage) {-# NOINLINE vkDestroyImage #-} ##endif -- | -- > void vkDestroyImage -- > ( VkDevice device -- > , VkImage image -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyImage <- vkGetDeviceProc @VkDestroyImage vkDevice -- -- or less efficient: -- -- > myDestroyImage <- vkGetProc @VkDestroyImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyImage" vkDestroyImageSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyImageSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyImage) {-# NOINLINE vkDestroyImageSafe #-} ##endif -- | > void vkDestroyImage -- > ( VkDevice device -- > , VkImage image -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyImage = VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyImage = FunPtr HS_vkDestroyImage foreign import ccall unsafe "dynamic" unwrapVkDestroyImage :: PFN_vkDestroyImage -> HS_vkDestroyImage foreign import ccall safe "dynamic" unwrapVkDestroyImageSafe :: PFN_vkDestroyImage -> HS_vkDestroyImage instance VulkanProc "vkDestroyImage" where type VkProcType "vkDestroyImage" = HS_vkDestroyImage vkProcSymbol = _VkDestroyImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetImageSubresourceLayout :: CString pattern VkGetImageSubresourceLayout <- (is_VkGetImageSubresourceLayout -> True) where VkGetImageSubresourceLayout = _VkGetImageSubresourceLayout {-# INLINE _VkGetImageSubresourceLayout #-} _VkGetImageSubresourceLayout :: CString _VkGetImageSubresourceLayout = Ptr "vkGetImageSubresourceLayout\NUL"## {-# INLINE is_VkGetImageSubresourceLayout #-} is_VkGetImageSubresourceLayout :: CString -> Bool is_VkGetImageSubresourceLayout = (EQ ==) . cmpCStrings _VkGetImageSubresourceLayout type VkGetImageSubresourceLayout = "vkGetImageSubresourceLayout" -- | -- > void vkGetImageSubresourceLayout -- > ( VkDevice device -- > , VkImage image -- > , const VkImageSubresource* pSubresource -- > , VkSubresourceLayout* pLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageSubresourceLayout <- vkGetDeviceProc @VkGetImageSubresourceLayout vkDevice -- -- or less efficient: -- -- > myGetImageSubresourceLayout <- vkGetProc @VkGetImageSubresourceLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetImageSubresourceLayout" vkGetImageSubresourceLayout :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkImageSubresource -- ^ pSubresource -> Ptr VkSubresourceLayout -- ^ pLayout -> IO () ##else vkGetImageSubresourceLayout :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkImageSubresource -- ^ pSubresource -> Ptr VkSubresourceLayout -- ^ pLayout -> IO () vkGetImageSubresourceLayout = unsafeDupablePerformIO (vkGetProc @VkGetImageSubresourceLayout) {-# NOINLINE vkGetImageSubresourceLayout #-} ##endif -- | -- > void vkGetImageSubresourceLayout -- > ( VkDevice device -- > , VkImage image -- > , const VkImageSubresource* pSubresource -- > , VkSubresourceLayout* pLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetImageSubresourceLayout <- vkGetDeviceProc @VkGetImageSubresourceLayout vkDevice -- -- or less efficient: -- -- > myGetImageSubresourceLayout <- vkGetProc @VkGetImageSubresourceLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetImageSubresourceLayout" vkGetImageSubresourceLayoutSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkImageSubresource -- ^ pSubresource -> Ptr VkSubresourceLayout -- ^ pLayout -> IO () ##else vkGetImageSubresourceLayoutSafe :: VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkImageSubresource -- ^ pSubresource -> Ptr VkSubresourceLayout -- ^ pLayout -> IO () vkGetImageSubresourceLayoutSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetImageSubresourceLayout) {-# NOINLINE vkGetImageSubresourceLayoutSafe #-} ##endif -- | > void vkGetImageSubresourceLayout -- > ( VkDevice device -- > , VkImage image -- > , const VkImageSubresource* pSubresource -- > , VkSubresourceLayout* pLayout -- > ) -- -- type HS_vkGetImageSubresourceLayout = VkDevice -- ^ device -> VkImage -- ^ image -> Ptr VkImageSubresource -- ^ pSubresource -> Ptr VkSubresourceLayout -- ^ pLayout -> IO () type PFN_vkGetImageSubresourceLayout = FunPtr HS_vkGetImageSubresourceLayout foreign import ccall unsafe "dynamic" unwrapVkGetImageSubresourceLayout :: PFN_vkGetImageSubresourceLayout -> HS_vkGetImageSubresourceLayout foreign import ccall safe "dynamic" unwrapVkGetImageSubresourceLayoutSafe :: PFN_vkGetImageSubresourceLayout -> HS_vkGetImageSubresourceLayout instance VulkanProc "vkGetImageSubresourceLayout" where type VkProcType "vkGetImageSubresourceLayout" = HS_vkGetImageSubresourceLayout vkProcSymbol = _VkGetImageSubresourceLayout {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetImageSubresourceLayout {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetImageSubresourceLayoutSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateImageView :: CString pattern VkCreateImageView <- (is_VkCreateImageView -> True) where VkCreateImageView = _VkCreateImageView {-# INLINE _VkCreateImageView #-} _VkCreateImageView :: CString _VkCreateImageView = Ptr "vkCreateImageView\NUL"## {-# INLINE is_VkCreateImageView #-} is_VkCreateImageView :: CString -> Bool is_VkCreateImageView = (EQ ==) . cmpCStrings _VkCreateImageView type VkCreateImageView = "vkCreateImageView" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImageView -- > ( VkDevice device -- > , const VkImageViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImageView* pView -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateImageView <- vkGetDeviceProc @VkCreateImageView vkDevice -- -- or less efficient: -- -- > myCreateImageView <- vkGetProc @VkCreateImageView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateImageView" vkCreateImageView :: VkDevice -- ^ device -> Ptr VkImageViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImageView -- ^ pView -> IO VkResult ##else vkCreateImageView :: VkDevice -- ^ device -> Ptr VkImageViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImageView -- ^ pView -> IO VkResult vkCreateImageView = unsafeDupablePerformIO (vkGetProc @VkCreateImageView) {-# NOINLINE vkCreateImageView #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImageView -- > ( VkDevice device -- > , const VkImageViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImageView* pView -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateImageView <- vkGetDeviceProc @VkCreateImageView vkDevice -- -- or less efficient: -- -- > myCreateImageView <- vkGetProc @VkCreateImageView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateImageView" vkCreateImageViewSafe :: VkDevice -- ^ device -> Ptr VkImageViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImageView -- ^ pView -> IO VkResult ##else vkCreateImageViewSafe :: VkDevice -- ^ device -> Ptr VkImageViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImageView -- ^ pView -> IO VkResult vkCreateImageViewSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateImageView) {-# NOINLINE vkCreateImageViewSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateImageView -- > ( VkDevice device -- > , const VkImageViewCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkImageView* pView -- > ) -- -- type HS_vkCreateImageView = VkDevice -- ^ device -> Ptr VkImageViewCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkImageView -- ^ pView -> IO VkResult type PFN_vkCreateImageView = FunPtr HS_vkCreateImageView foreign import ccall unsafe "dynamic" unwrapVkCreateImageView :: PFN_vkCreateImageView -> HS_vkCreateImageView foreign import ccall safe "dynamic" unwrapVkCreateImageViewSafe :: PFN_vkCreateImageView -> HS_vkCreateImageView instance VulkanProc "vkCreateImageView" where type VkProcType "vkCreateImageView" = HS_vkCreateImageView vkProcSymbol = _VkCreateImageView {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateImageView {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateImageViewSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyImageView :: CString pattern VkDestroyImageView <- (is_VkDestroyImageView -> True) where VkDestroyImageView = _VkDestroyImageView {-# INLINE _VkDestroyImageView #-} _VkDestroyImageView :: CString _VkDestroyImageView = Ptr "vkDestroyImageView\NUL"## {-# INLINE is_VkDestroyImageView #-} is_VkDestroyImageView :: CString -> Bool is_VkDestroyImageView = (EQ ==) . cmpCStrings _VkDestroyImageView type VkDestroyImageView = "vkDestroyImageView" -- | -- > void vkDestroyImageView -- > ( VkDevice device -- > , VkImageView imageView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyImageView <- vkGetDeviceProc @VkDestroyImageView vkDevice -- -- or less efficient: -- -- > myDestroyImageView <- vkGetProc @VkDestroyImageView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyImageView" vkDestroyImageView :: VkDevice -- ^ device -> VkImageView -- ^ imageView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyImageView :: VkDevice -- ^ device -> VkImageView -- ^ imageView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyImageView = unsafeDupablePerformIO (vkGetProc @VkDestroyImageView) {-# NOINLINE vkDestroyImageView #-} ##endif -- | -- > void vkDestroyImageView -- > ( VkDevice device -- > , VkImageView imageView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyImageView <- vkGetDeviceProc @VkDestroyImageView vkDevice -- -- or less efficient: -- -- > myDestroyImageView <- vkGetProc @VkDestroyImageView -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyImageView" vkDestroyImageViewSafe :: VkDevice -- ^ device -> VkImageView -- ^ imageView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyImageViewSafe :: VkDevice -- ^ device -> VkImageView -- ^ imageView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyImageViewSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyImageView) {-# NOINLINE vkDestroyImageViewSafe #-} ##endif -- | > void vkDestroyImageView -- > ( VkDevice device -- > , VkImageView imageView -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyImageView = VkDevice -- ^ device -> VkImageView -- ^ imageView -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyImageView = FunPtr HS_vkDestroyImageView foreign import ccall unsafe "dynamic" unwrapVkDestroyImageView :: PFN_vkDestroyImageView -> HS_vkDestroyImageView foreign import ccall safe "dynamic" unwrapVkDestroyImageViewSafe :: PFN_vkDestroyImageView -> HS_vkDestroyImageView instance VulkanProc "vkDestroyImageView" where type VkProcType "vkDestroyImageView" = HS_vkDestroyImageView vkProcSymbol = _VkDestroyImageView {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyImageView {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyImageViewSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateShaderModule :: CString pattern VkCreateShaderModule <- (is_VkCreateShaderModule -> True) where VkCreateShaderModule = _VkCreateShaderModule {-# INLINE _VkCreateShaderModule #-} _VkCreateShaderModule :: CString _VkCreateShaderModule = Ptr "vkCreateShaderModule\NUL"## {-# INLINE is_VkCreateShaderModule #-} is_VkCreateShaderModule :: CString -> Bool is_VkCreateShaderModule = (EQ ==) . cmpCStrings _VkCreateShaderModule type VkCreateShaderModule = "vkCreateShaderModule" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateShaderModule -- > ( VkDevice device -- > , const VkShaderModuleCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkShaderModule* pShaderModule -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateShaderModule <- vkGetDeviceProc @VkCreateShaderModule vkDevice -- -- or less efficient: -- -- > myCreateShaderModule <- vkGetProc @VkCreateShaderModule -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateShaderModule" vkCreateShaderModule :: VkDevice -- ^ device -> Ptr VkShaderModuleCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkShaderModule -- ^ pShaderModule -> IO VkResult ##else vkCreateShaderModule :: VkDevice -- ^ device -> Ptr VkShaderModuleCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkShaderModule -- ^ pShaderModule -> IO VkResult vkCreateShaderModule = unsafeDupablePerformIO (vkGetProc @VkCreateShaderModule) {-# NOINLINE vkCreateShaderModule #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateShaderModule -- > ( VkDevice device -- > , const VkShaderModuleCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkShaderModule* pShaderModule -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateShaderModule <- vkGetDeviceProc @VkCreateShaderModule vkDevice -- -- or less efficient: -- -- > myCreateShaderModule <- vkGetProc @VkCreateShaderModule -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateShaderModule" vkCreateShaderModuleSafe :: VkDevice -- ^ device -> Ptr VkShaderModuleCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkShaderModule -- ^ pShaderModule -> IO VkResult ##else vkCreateShaderModuleSafe :: VkDevice -- ^ device -> Ptr VkShaderModuleCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkShaderModule -- ^ pShaderModule -> IO VkResult vkCreateShaderModuleSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateShaderModule) {-# NOINLINE vkCreateShaderModuleSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateShaderModule -- > ( VkDevice device -- > , const VkShaderModuleCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkShaderModule* pShaderModule -- > ) -- -- type HS_vkCreateShaderModule = VkDevice -- ^ device -> Ptr VkShaderModuleCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkShaderModule -- ^ pShaderModule -> IO VkResult type PFN_vkCreateShaderModule = FunPtr HS_vkCreateShaderModule foreign import ccall unsafe "dynamic" unwrapVkCreateShaderModule :: PFN_vkCreateShaderModule -> HS_vkCreateShaderModule foreign import ccall safe "dynamic" unwrapVkCreateShaderModuleSafe :: PFN_vkCreateShaderModule -> HS_vkCreateShaderModule instance VulkanProc "vkCreateShaderModule" where type VkProcType "vkCreateShaderModule" = HS_vkCreateShaderModule vkProcSymbol = _VkCreateShaderModule {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateShaderModule {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateShaderModuleSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyShaderModule :: CString pattern VkDestroyShaderModule <- (is_VkDestroyShaderModule -> True) where VkDestroyShaderModule = _VkDestroyShaderModule {-# INLINE _VkDestroyShaderModule #-} _VkDestroyShaderModule :: CString _VkDestroyShaderModule = Ptr "vkDestroyShaderModule\NUL"## {-# INLINE is_VkDestroyShaderModule #-} is_VkDestroyShaderModule :: CString -> Bool is_VkDestroyShaderModule = (EQ ==) . cmpCStrings _VkDestroyShaderModule type VkDestroyShaderModule = "vkDestroyShaderModule" -- | -- > void vkDestroyShaderModule -- > ( VkDevice device -- > , VkShaderModule shaderModule -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyShaderModule <- vkGetDeviceProc @VkDestroyShaderModule vkDevice -- -- or less efficient: -- -- > myDestroyShaderModule <- vkGetProc @VkDestroyShaderModule -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyShaderModule" vkDestroyShaderModule :: VkDevice -- ^ device -> VkShaderModule -- ^ shaderModule -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyShaderModule :: VkDevice -- ^ device -> VkShaderModule -- ^ shaderModule -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyShaderModule = unsafeDupablePerformIO (vkGetProc @VkDestroyShaderModule) {-# NOINLINE vkDestroyShaderModule #-} ##endif -- | -- > void vkDestroyShaderModule -- > ( VkDevice device -- > , VkShaderModule shaderModule -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyShaderModule <- vkGetDeviceProc @VkDestroyShaderModule vkDevice -- -- or less efficient: -- -- > myDestroyShaderModule <- vkGetProc @VkDestroyShaderModule -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyShaderModule" vkDestroyShaderModuleSafe :: VkDevice -- ^ device -> VkShaderModule -- ^ shaderModule -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyShaderModuleSafe :: VkDevice -- ^ device -> VkShaderModule -- ^ shaderModule -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyShaderModuleSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyShaderModule) {-# NOINLINE vkDestroyShaderModuleSafe #-} ##endif -- | > void vkDestroyShaderModule -- > ( VkDevice device -- > , VkShaderModule shaderModule -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyShaderModule = VkDevice -- ^ device -> VkShaderModule -- ^ shaderModule -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyShaderModule = FunPtr HS_vkDestroyShaderModule foreign import ccall unsafe "dynamic" unwrapVkDestroyShaderModule :: PFN_vkDestroyShaderModule -> HS_vkDestroyShaderModule foreign import ccall safe "dynamic" unwrapVkDestroyShaderModuleSafe :: PFN_vkDestroyShaderModule -> HS_vkDestroyShaderModule instance VulkanProc "vkDestroyShaderModule" where type VkProcType "vkDestroyShaderModule" = HS_vkDestroyShaderModule vkProcSymbol = _VkDestroyShaderModule {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyShaderModule {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyShaderModuleSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreatePipelineCache :: CString pattern VkCreatePipelineCache <- (is_VkCreatePipelineCache -> True) where VkCreatePipelineCache = _VkCreatePipelineCache {-# INLINE _VkCreatePipelineCache #-} _VkCreatePipelineCache :: CString _VkCreatePipelineCache = Ptr "vkCreatePipelineCache\NUL"## {-# INLINE is_VkCreatePipelineCache #-} is_VkCreatePipelineCache :: CString -> Bool is_VkCreatePipelineCache = (EQ ==) . cmpCStrings _VkCreatePipelineCache type VkCreatePipelineCache = "vkCreatePipelineCache" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineCache -- > ( VkDevice device -- > , const VkPipelineCacheCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineCache* pPipelineCache -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreatePipelineCache <- vkGetDeviceProc @VkCreatePipelineCache vkDevice -- -- or less efficient: -- -- > myCreatePipelineCache <- vkGetProc @VkCreatePipelineCache -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreatePipelineCache" vkCreatePipelineCache :: VkDevice -- ^ device -> Ptr VkPipelineCacheCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineCache -- ^ pPipelineCache -> IO VkResult ##else vkCreatePipelineCache :: VkDevice -- ^ device -> Ptr VkPipelineCacheCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineCache -- ^ pPipelineCache -> IO VkResult vkCreatePipelineCache = unsafeDupablePerformIO (vkGetProc @VkCreatePipelineCache) {-# NOINLINE vkCreatePipelineCache #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineCache -- > ( VkDevice device -- > , const VkPipelineCacheCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineCache* pPipelineCache -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreatePipelineCache <- vkGetDeviceProc @VkCreatePipelineCache vkDevice -- -- or less efficient: -- -- > myCreatePipelineCache <- vkGetProc @VkCreatePipelineCache -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreatePipelineCache" vkCreatePipelineCacheSafe :: VkDevice -- ^ device -> Ptr VkPipelineCacheCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineCache -- ^ pPipelineCache -> IO VkResult ##else vkCreatePipelineCacheSafe :: VkDevice -- ^ device -> Ptr VkPipelineCacheCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineCache -- ^ pPipelineCache -> IO VkResult vkCreatePipelineCacheSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreatePipelineCache) {-# NOINLINE vkCreatePipelineCacheSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineCache -- > ( VkDevice device -- > , const VkPipelineCacheCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineCache* pPipelineCache -- > ) -- -- type HS_vkCreatePipelineCache = VkDevice -- ^ device -> Ptr VkPipelineCacheCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineCache -- ^ pPipelineCache -> IO VkResult type PFN_vkCreatePipelineCache = FunPtr HS_vkCreatePipelineCache foreign import ccall unsafe "dynamic" unwrapVkCreatePipelineCache :: PFN_vkCreatePipelineCache -> HS_vkCreatePipelineCache foreign import ccall safe "dynamic" unwrapVkCreatePipelineCacheSafe :: PFN_vkCreatePipelineCache -> HS_vkCreatePipelineCache instance VulkanProc "vkCreatePipelineCache" where type VkProcType "vkCreatePipelineCache" = HS_vkCreatePipelineCache vkProcSymbol = _VkCreatePipelineCache {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreatePipelineCache {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreatePipelineCacheSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyPipelineCache :: CString pattern VkDestroyPipelineCache <- (is_VkDestroyPipelineCache -> True) where VkDestroyPipelineCache = _VkDestroyPipelineCache {-# INLINE _VkDestroyPipelineCache #-} _VkDestroyPipelineCache :: CString _VkDestroyPipelineCache = Ptr "vkDestroyPipelineCache\NUL"## {-# INLINE is_VkDestroyPipelineCache #-} is_VkDestroyPipelineCache :: CString -> Bool is_VkDestroyPipelineCache = (EQ ==) . cmpCStrings _VkDestroyPipelineCache type VkDestroyPipelineCache = "vkDestroyPipelineCache" -- | -- > void vkDestroyPipelineCache -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipelineCache <- vkGetDeviceProc @VkDestroyPipelineCache vkDevice -- -- or less efficient: -- -- > myDestroyPipelineCache <- vkGetProc @VkDestroyPipelineCache -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyPipelineCache" vkDestroyPipelineCache :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipelineCache :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipelineCache = unsafeDupablePerformIO (vkGetProc @VkDestroyPipelineCache) {-# NOINLINE vkDestroyPipelineCache #-} ##endif -- | -- > void vkDestroyPipelineCache -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipelineCache <- vkGetDeviceProc @VkDestroyPipelineCache vkDevice -- -- or less efficient: -- -- > myDestroyPipelineCache <- vkGetProc @VkDestroyPipelineCache -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyPipelineCache" vkDestroyPipelineCacheSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipelineCacheSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipelineCacheSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyPipelineCache) {-# NOINLINE vkDestroyPipelineCacheSafe #-} ##endif -- | > void vkDestroyPipelineCache -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyPipelineCache = VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyPipelineCache = FunPtr HS_vkDestroyPipelineCache foreign import ccall unsafe "dynamic" unwrapVkDestroyPipelineCache :: PFN_vkDestroyPipelineCache -> HS_vkDestroyPipelineCache foreign import ccall safe "dynamic" unwrapVkDestroyPipelineCacheSafe :: PFN_vkDestroyPipelineCache -> HS_vkDestroyPipelineCache instance VulkanProc "vkDestroyPipelineCache" where type VkProcType "vkDestroyPipelineCache" = HS_vkDestroyPipelineCache vkProcSymbol = _VkDestroyPipelineCache {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyPipelineCache {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyPipelineCacheSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetPipelineCacheData :: CString pattern VkGetPipelineCacheData <- (is_VkGetPipelineCacheData -> True) where VkGetPipelineCacheData = _VkGetPipelineCacheData {-# INLINE _VkGetPipelineCacheData #-} _VkGetPipelineCacheData :: CString _VkGetPipelineCacheData = Ptr "vkGetPipelineCacheData\NUL"## {-# INLINE is_VkGetPipelineCacheData #-} is_VkGetPipelineCacheData :: CString -> Bool is_VkGetPipelineCacheData = (EQ ==) . cmpCStrings _VkGetPipelineCacheData type VkGetPipelineCacheData = "vkGetPipelineCacheData" -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkGetPipelineCacheData -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , size_t* pDataSize -- > , void* pData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPipelineCacheData <- vkGetDeviceProc @VkGetPipelineCacheData vkDevice -- -- or less efficient: -- -- > myGetPipelineCacheData <- vkGetProc @VkGetPipelineCacheData -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetPipelineCacheData" vkGetPipelineCacheData :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr CSize -- ^ pDataSize -> Ptr Void -- ^ pData -> IO VkResult ##else vkGetPipelineCacheData :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr CSize -- ^ pDataSize -> Ptr Void -- ^ pData -> IO VkResult vkGetPipelineCacheData = unsafeDupablePerformIO (vkGetProc @VkGetPipelineCacheData) {-# NOINLINE vkGetPipelineCacheData #-} ##endif -- | -- Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkGetPipelineCacheData -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , size_t* pDataSize -- > , void* pData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetPipelineCacheData <- vkGetDeviceProc @VkGetPipelineCacheData vkDevice -- -- or less efficient: -- -- > myGetPipelineCacheData <- vkGetProc @VkGetPipelineCacheData -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetPipelineCacheData" vkGetPipelineCacheDataSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr CSize -- ^ pDataSize -> Ptr Void -- ^ pData -> IO VkResult ##else vkGetPipelineCacheDataSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr CSize -- ^ pDataSize -> Ptr Void -- ^ pData -> IO VkResult vkGetPipelineCacheDataSafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetPipelineCacheData) {-# NOINLINE vkGetPipelineCacheDataSafe #-} ##endif -- | Success codes: 'VK_SUCCESS', 'VK_INCOMPLETE'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkGetPipelineCacheData -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , size_t* pDataSize -- > , void* pData -- > ) -- -- type HS_vkGetPipelineCacheData = VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Ptr CSize -- ^ pDataSize -> Ptr Void -- ^ pData -> IO VkResult type PFN_vkGetPipelineCacheData = FunPtr HS_vkGetPipelineCacheData foreign import ccall unsafe "dynamic" unwrapVkGetPipelineCacheData :: PFN_vkGetPipelineCacheData -> HS_vkGetPipelineCacheData foreign import ccall safe "dynamic" unwrapVkGetPipelineCacheDataSafe :: PFN_vkGetPipelineCacheData -> HS_vkGetPipelineCacheData instance VulkanProc "vkGetPipelineCacheData" where type VkProcType "vkGetPipelineCacheData" = HS_vkGetPipelineCacheData vkProcSymbol = _VkGetPipelineCacheData {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetPipelineCacheData {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetPipelineCacheDataSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkMergePipelineCaches :: CString pattern VkMergePipelineCaches <- (is_VkMergePipelineCaches -> True) where VkMergePipelineCaches = _VkMergePipelineCaches {-# INLINE _VkMergePipelineCaches #-} _VkMergePipelineCaches :: CString _VkMergePipelineCaches = Ptr "vkMergePipelineCaches\NUL"## {-# INLINE is_VkMergePipelineCaches #-} is_VkMergePipelineCaches :: CString -> Bool is_VkMergePipelineCaches = (EQ ==) . cmpCStrings _VkMergePipelineCaches type VkMergePipelineCaches = "vkMergePipelineCaches" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkMergePipelineCaches -- > ( VkDevice device -- > , VkPipelineCache dstCache -- > , uint32_t srcCacheCount -- > , const VkPipelineCache* pSrcCaches -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myMergePipelineCaches <- vkGetDeviceProc @VkMergePipelineCaches vkDevice -- -- or less efficient: -- -- > myMergePipelineCaches <- vkGetProc @VkMergePipelineCaches -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkMergePipelineCaches" vkMergePipelineCaches :: VkDevice -- ^ device -> VkPipelineCache -- ^ dstCache -> Word32 -- ^ srcCacheCount -> Ptr VkPipelineCache -- ^ pSrcCaches -> IO VkResult ##else vkMergePipelineCaches :: VkDevice -- ^ device -> VkPipelineCache -- ^ dstCache -> Word32 -- ^ srcCacheCount -> Ptr VkPipelineCache -- ^ pSrcCaches -> IO VkResult vkMergePipelineCaches = unsafeDupablePerformIO (vkGetProc @VkMergePipelineCaches) {-# NOINLINE vkMergePipelineCaches #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkMergePipelineCaches -- > ( VkDevice device -- > , VkPipelineCache dstCache -- > , uint32_t srcCacheCount -- > , const VkPipelineCache* pSrcCaches -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myMergePipelineCaches <- vkGetDeviceProc @VkMergePipelineCaches vkDevice -- -- or less efficient: -- -- > myMergePipelineCaches <- vkGetProc @VkMergePipelineCaches -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkMergePipelineCaches" vkMergePipelineCachesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ dstCache -> Word32 -- ^ srcCacheCount -> Ptr VkPipelineCache -- ^ pSrcCaches -> IO VkResult ##else vkMergePipelineCachesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ dstCache -> Word32 -- ^ srcCacheCount -> Ptr VkPipelineCache -- ^ pSrcCaches -> IO VkResult vkMergePipelineCachesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkMergePipelineCaches) {-# NOINLINE vkMergePipelineCachesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkMergePipelineCaches -- > ( VkDevice device -- > , VkPipelineCache dstCache -- > , uint32_t srcCacheCount -- > , const VkPipelineCache* pSrcCaches -- > ) -- -- type HS_vkMergePipelineCaches = VkDevice -- ^ device -> VkPipelineCache -- ^ dstCache -> Word32 -- ^ srcCacheCount -> Ptr VkPipelineCache -- ^ pSrcCaches -> IO VkResult type PFN_vkMergePipelineCaches = FunPtr HS_vkMergePipelineCaches foreign import ccall unsafe "dynamic" unwrapVkMergePipelineCaches :: PFN_vkMergePipelineCaches -> HS_vkMergePipelineCaches foreign import ccall safe "dynamic" unwrapVkMergePipelineCachesSafe :: PFN_vkMergePipelineCaches -> HS_vkMergePipelineCaches instance VulkanProc "vkMergePipelineCaches" where type VkProcType "vkMergePipelineCaches" = HS_vkMergePipelineCaches vkProcSymbol = _VkMergePipelineCaches {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkMergePipelineCaches {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkMergePipelineCachesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateGraphicsPipelines :: CString pattern VkCreateGraphicsPipelines <- (is_VkCreateGraphicsPipelines -> True) where VkCreateGraphicsPipelines = _VkCreateGraphicsPipelines {-# INLINE _VkCreateGraphicsPipelines #-} _VkCreateGraphicsPipelines :: CString _VkCreateGraphicsPipelines = Ptr "vkCreateGraphicsPipelines\NUL"## {-# INLINE is_VkCreateGraphicsPipelines #-} is_VkCreateGraphicsPipelines :: CString -> Bool is_VkCreateGraphicsPipelines = (EQ ==) . cmpCStrings _VkCreateGraphicsPipelines type VkCreateGraphicsPipelines = "vkCreateGraphicsPipelines" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateGraphicsPipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkGraphicsPipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateGraphicsPipelines <- vkGetDeviceProc @VkCreateGraphicsPipelines vkDevice -- -- or less efficient: -- -- > myCreateGraphicsPipelines <- vkGetProc @VkCreateGraphicsPipelines -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateGraphicsPipelines" vkCreateGraphicsPipelines :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkGraphicsPipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult ##else vkCreateGraphicsPipelines :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkGraphicsPipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult vkCreateGraphicsPipelines = unsafeDupablePerformIO (vkGetProc @VkCreateGraphicsPipelines) {-# NOINLINE vkCreateGraphicsPipelines #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateGraphicsPipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkGraphicsPipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateGraphicsPipelines <- vkGetDeviceProc @VkCreateGraphicsPipelines vkDevice -- -- or less efficient: -- -- > myCreateGraphicsPipelines <- vkGetProc @VkCreateGraphicsPipelines -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateGraphicsPipelines" vkCreateGraphicsPipelinesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkGraphicsPipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult ##else vkCreateGraphicsPipelinesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkGraphicsPipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult vkCreateGraphicsPipelinesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateGraphicsPipelines) {-# NOINLINE vkCreateGraphicsPipelinesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateGraphicsPipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkGraphicsPipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- type HS_vkCreateGraphicsPipelines = VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkGraphicsPipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult type PFN_vkCreateGraphicsPipelines = FunPtr HS_vkCreateGraphicsPipelines foreign import ccall unsafe "dynamic" unwrapVkCreateGraphicsPipelines :: PFN_vkCreateGraphicsPipelines -> HS_vkCreateGraphicsPipelines foreign import ccall safe "dynamic" unwrapVkCreateGraphicsPipelinesSafe :: PFN_vkCreateGraphicsPipelines -> HS_vkCreateGraphicsPipelines instance VulkanProc "vkCreateGraphicsPipelines" where type VkProcType "vkCreateGraphicsPipelines" = HS_vkCreateGraphicsPipelines vkProcSymbol = _VkCreateGraphicsPipelines {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateGraphicsPipelines {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateGraphicsPipelinesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateComputePipelines :: CString pattern VkCreateComputePipelines <- (is_VkCreateComputePipelines -> True) where VkCreateComputePipelines = _VkCreateComputePipelines {-# INLINE _VkCreateComputePipelines #-} _VkCreateComputePipelines :: CString _VkCreateComputePipelines = Ptr "vkCreateComputePipelines\NUL"## {-# INLINE is_VkCreateComputePipelines #-} is_VkCreateComputePipelines :: CString -> Bool is_VkCreateComputePipelines = (EQ ==) . cmpCStrings _VkCreateComputePipelines type VkCreateComputePipelines = "vkCreateComputePipelines" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateComputePipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkComputePipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateComputePipelines <- vkGetDeviceProc @VkCreateComputePipelines vkDevice -- -- or less efficient: -- -- > myCreateComputePipelines <- vkGetProc @VkCreateComputePipelines -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateComputePipelines" vkCreateComputePipelines :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkComputePipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult ##else vkCreateComputePipelines :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkComputePipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult vkCreateComputePipelines = unsafeDupablePerformIO (vkGetProc @VkCreateComputePipelines) {-# NOINLINE vkCreateComputePipelines #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateComputePipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkComputePipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateComputePipelines <- vkGetDeviceProc @VkCreateComputePipelines vkDevice -- -- or less efficient: -- -- > myCreateComputePipelines <- vkGetProc @VkCreateComputePipelines -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateComputePipelines" vkCreateComputePipelinesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkComputePipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult ##else vkCreateComputePipelinesSafe :: VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkComputePipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult vkCreateComputePipelinesSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateComputePipelines) {-# NOINLINE vkCreateComputePipelinesSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_INVALID_SHADER_NV'. -- -- > VkResult vkCreateComputePipelines -- > ( VkDevice device -- > , VkPipelineCache pipelineCache -- > , uint32_t createInfoCount -- > , const VkComputePipelineCreateInfo* pCreateInfos -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipeline* pPipelines -- > ) -- -- type HS_vkCreateComputePipelines = VkDevice -- ^ device -> VkPipelineCache -- ^ pipelineCache -> Word32 -- ^ createInfoCount -> Ptr VkComputePipelineCreateInfo -- ^ pCreateInfos -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipeline -- ^ pPipelines -> IO VkResult type PFN_vkCreateComputePipelines = FunPtr HS_vkCreateComputePipelines foreign import ccall unsafe "dynamic" unwrapVkCreateComputePipelines :: PFN_vkCreateComputePipelines -> HS_vkCreateComputePipelines foreign import ccall safe "dynamic" unwrapVkCreateComputePipelinesSafe :: PFN_vkCreateComputePipelines -> HS_vkCreateComputePipelines instance VulkanProc "vkCreateComputePipelines" where type VkProcType "vkCreateComputePipelines" = HS_vkCreateComputePipelines vkProcSymbol = _VkCreateComputePipelines {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateComputePipelines {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateComputePipelinesSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyPipeline :: CString pattern VkDestroyPipeline <- (is_VkDestroyPipeline -> True) where VkDestroyPipeline = _VkDestroyPipeline {-# INLINE _VkDestroyPipeline #-} _VkDestroyPipeline :: CString _VkDestroyPipeline = Ptr "vkDestroyPipeline\NUL"## {-# INLINE is_VkDestroyPipeline #-} is_VkDestroyPipeline :: CString -> Bool is_VkDestroyPipeline = (EQ ==) . cmpCStrings _VkDestroyPipeline type VkDestroyPipeline = "vkDestroyPipeline" -- | -- > void vkDestroyPipeline -- > ( VkDevice device -- > , VkPipeline pipeline -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipeline <- vkGetDeviceProc @VkDestroyPipeline vkDevice -- -- or less efficient: -- -- > myDestroyPipeline <- vkGetProc @VkDestroyPipeline -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyPipeline" vkDestroyPipeline :: VkDevice -- ^ device -> VkPipeline -- ^ pipeline -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipeline :: VkDevice -- ^ device -> VkPipeline -- ^ pipeline -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipeline = unsafeDupablePerformIO (vkGetProc @VkDestroyPipeline) {-# NOINLINE vkDestroyPipeline #-} ##endif -- | -- > void vkDestroyPipeline -- > ( VkDevice device -- > , VkPipeline pipeline -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipeline <- vkGetDeviceProc @VkDestroyPipeline vkDevice -- -- or less efficient: -- -- > myDestroyPipeline <- vkGetProc @VkDestroyPipeline -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyPipeline" vkDestroyPipelineSafe :: VkDevice -- ^ device -> VkPipeline -- ^ pipeline -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipelineSafe :: VkDevice -- ^ device -> VkPipeline -- ^ pipeline -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipelineSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyPipeline) {-# NOINLINE vkDestroyPipelineSafe #-} ##endif -- | > void vkDestroyPipeline -- > ( VkDevice device -- > , VkPipeline pipeline -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyPipeline = VkDevice -- ^ device -> VkPipeline -- ^ pipeline -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyPipeline = FunPtr HS_vkDestroyPipeline foreign import ccall unsafe "dynamic" unwrapVkDestroyPipeline :: PFN_vkDestroyPipeline -> HS_vkDestroyPipeline foreign import ccall safe "dynamic" unwrapVkDestroyPipelineSafe :: PFN_vkDestroyPipeline -> HS_vkDestroyPipeline instance VulkanProc "vkDestroyPipeline" where type VkProcType "vkDestroyPipeline" = HS_vkDestroyPipeline vkProcSymbol = _VkDestroyPipeline {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyPipeline {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyPipelineSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreatePipelineLayout :: CString pattern VkCreatePipelineLayout <- (is_VkCreatePipelineLayout -> True) where VkCreatePipelineLayout = _VkCreatePipelineLayout {-# INLINE _VkCreatePipelineLayout #-} _VkCreatePipelineLayout :: CString _VkCreatePipelineLayout = Ptr "vkCreatePipelineLayout\NUL"## {-# INLINE is_VkCreatePipelineLayout #-} is_VkCreatePipelineLayout :: CString -> Bool is_VkCreatePipelineLayout = (EQ ==) . cmpCStrings _VkCreatePipelineLayout type VkCreatePipelineLayout = "vkCreatePipelineLayout" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineLayout -- > ( VkDevice device -- > , const VkPipelineLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineLayout* pPipelineLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreatePipelineLayout <- vkGetDeviceProc @VkCreatePipelineLayout vkDevice -- -- or less efficient: -- -- > myCreatePipelineLayout <- vkGetProc @VkCreatePipelineLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreatePipelineLayout" vkCreatePipelineLayout :: VkDevice -- ^ device -> Ptr VkPipelineLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineLayout -- ^ pPipelineLayout -> IO VkResult ##else vkCreatePipelineLayout :: VkDevice -- ^ device -> Ptr VkPipelineLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineLayout -- ^ pPipelineLayout -> IO VkResult vkCreatePipelineLayout = unsafeDupablePerformIO (vkGetProc @VkCreatePipelineLayout) {-# NOINLINE vkCreatePipelineLayout #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineLayout -- > ( VkDevice device -- > , const VkPipelineLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineLayout* pPipelineLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreatePipelineLayout <- vkGetDeviceProc @VkCreatePipelineLayout vkDevice -- -- or less efficient: -- -- > myCreatePipelineLayout <- vkGetProc @VkCreatePipelineLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreatePipelineLayout" vkCreatePipelineLayoutSafe :: VkDevice -- ^ device -> Ptr VkPipelineLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineLayout -- ^ pPipelineLayout -> IO VkResult ##else vkCreatePipelineLayoutSafe :: VkDevice -- ^ device -> Ptr VkPipelineLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineLayout -- ^ pPipelineLayout -> IO VkResult vkCreatePipelineLayoutSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreatePipelineLayout) {-# NOINLINE vkCreatePipelineLayoutSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreatePipelineLayout -- > ( VkDevice device -- > , const VkPipelineLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkPipelineLayout* pPipelineLayout -- > ) -- -- type HS_vkCreatePipelineLayout = VkDevice -- ^ device -> Ptr VkPipelineLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkPipelineLayout -- ^ pPipelineLayout -> IO VkResult type PFN_vkCreatePipelineLayout = FunPtr HS_vkCreatePipelineLayout foreign import ccall unsafe "dynamic" unwrapVkCreatePipelineLayout :: PFN_vkCreatePipelineLayout -> HS_vkCreatePipelineLayout foreign import ccall safe "dynamic" unwrapVkCreatePipelineLayoutSafe :: PFN_vkCreatePipelineLayout -> HS_vkCreatePipelineLayout instance VulkanProc "vkCreatePipelineLayout" where type VkProcType "vkCreatePipelineLayout" = HS_vkCreatePipelineLayout vkProcSymbol = _VkCreatePipelineLayout {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreatePipelineLayout {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreatePipelineLayoutSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyPipelineLayout :: CString pattern VkDestroyPipelineLayout <- (is_VkDestroyPipelineLayout -> True) where VkDestroyPipelineLayout = _VkDestroyPipelineLayout {-# INLINE _VkDestroyPipelineLayout #-} _VkDestroyPipelineLayout :: CString _VkDestroyPipelineLayout = Ptr "vkDestroyPipelineLayout\NUL"## {-# INLINE is_VkDestroyPipelineLayout #-} is_VkDestroyPipelineLayout :: CString -> Bool is_VkDestroyPipelineLayout = (EQ ==) . cmpCStrings _VkDestroyPipelineLayout type VkDestroyPipelineLayout = "vkDestroyPipelineLayout" -- | -- > void vkDestroyPipelineLayout -- > ( VkDevice device -- > , VkPipelineLayout pipelineLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipelineLayout <- vkGetDeviceProc @VkDestroyPipelineLayout vkDevice -- -- or less efficient: -- -- > myDestroyPipelineLayout <- vkGetProc @VkDestroyPipelineLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyPipelineLayout" vkDestroyPipelineLayout :: VkDevice -- ^ device -> VkPipelineLayout -- ^ pipelineLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipelineLayout :: VkDevice -- ^ device -> VkPipelineLayout -- ^ pipelineLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipelineLayout = unsafeDupablePerformIO (vkGetProc @VkDestroyPipelineLayout) {-# NOINLINE vkDestroyPipelineLayout #-} ##endif -- | -- > void vkDestroyPipelineLayout -- > ( VkDevice device -- > , VkPipelineLayout pipelineLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyPipelineLayout <- vkGetDeviceProc @VkDestroyPipelineLayout vkDevice -- -- or less efficient: -- -- > myDestroyPipelineLayout <- vkGetProc @VkDestroyPipelineLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyPipelineLayout" vkDestroyPipelineLayoutSafe :: VkDevice -- ^ device -> VkPipelineLayout -- ^ pipelineLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyPipelineLayoutSafe :: VkDevice -- ^ device -> VkPipelineLayout -- ^ pipelineLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyPipelineLayoutSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyPipelineLayout) {-# NOINLINE vkDestroyPipelineLayoutSafe #-} ##endif -- | > void vkDestroyPipelineLayout -- > ( VkDevice device -- > , VkPipelineLayout pipelineLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyPipelineLayout = VkDevice -- ^ device -> VkPipelineLayout -- ^ pipelineLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyPipelineLayout = FunPtr HS_vkDestroyPipelineLayout foreign import ccall unsafe "dynamic" unwrapVkDestroyPipelineLayout :: PFN_vkDestroyPipelineLayout -> HS_vkDestroyPipelineLayout foreign import ccall safe "dynamic" unwrapVkDestroyPipelineLayoutSafe :: PFN_vkDestroyPipelineLayout -> HS_vkDestroyPipelineLayout instance VulkanProc "vkDestroyPipelineLayout" where type VkProcType "vkDestroyPipelineLayout" = HS_vkDestroyPipelineLayout vkProcSymbol = _VkDestroyPipelineLayout {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyPipelineLayout {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyPipelineLayoutSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateSampler :: CString pattern VkCreateSampler <- (is_VkCreateSampler -> True) where VkCreateSampler = _VkCreateSampler {-# INLINE _VkCreateSampler #-} _VkCreateSampler :: CString _VkCreateSampler = Ptr "vkCreateSampler\NUL"## {-# INLINE is_VkCreateSampler #-} is_VkCreateSampler :: CString -> Bool is_VkCreateSampler = (EQ ==) . cmpCStrings _VkCreateSampler type VkCreateSampler = "vkCreateSampler" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS'. -- -- > VkResult vkCreateSampler -- > ( VkDevice device -- > , const VkSamplerCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSampler* pSampler -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateSampler <- vkGetDeviceProc @VkCreateSampler vkDevice -- -- or less efficient: -- -- > myCreateSampler <- vkGetProc @VkCreateSampler -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateSampler" vkCreateSampler :: VkDevice -- ^ device -> Ptr VkSamplerCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSampler -- ^ pSampler -> IO VkResult ##else vkCreateSampler :: VkDevice -- ^ device -> Ptr VkSamplerCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSampler -- ^ pSampler -> IO VkResult vkCreateSampler = unsafeDupablePerformIO (vkGetProc @VkCreateSampler) {-# NOINLINE vkCreateSampler #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS'. -- -- > VkResult vkCreateSampler -- > ( VkDevice device -- > , const VkSamplerCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSampler* pSampler -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateSampler <- vkGetDeviceProc @VkCreateSampler vkDevice -- -- or less efficient: -- -- > myCreateSampler <- vkGetProc @VkCreateSampler -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateSampler" vkCreateSamplerSafe :: VkDevice -- ^ device -> Ptr VkSamplerCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSampler -- ^ pSampler -> IO VkResult ##else vkCreateSamplerSafe :: VkDevice -- ^ device -> Ptr VkSamplerCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSampler -- ^ pSampler -> IO VkResult vkCreateSamplerSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateSampler) {-# NOINLINE vkCreateSamplerSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_TOO_MANY_OBJECTS'. -- -- > VkResult vkCreateSampler -- > ( VkDevice device -- > , const VkSamplerCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkSampler* pSampler -- > ) -- -- type HS_vkCreateSampler = VkDevice -- ^ device -> Ptr VkSamplerCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkSampler -- ^ pSampler -> IO VkResult type PFN_vkCreateSampler = FunPtr HS_vkCreateSampler foreign import ccall unsafe "dynamic" unwrapVkCreateSampler :: PFN_vkCreateSampler -> HS_vkCreateSampler foreign import ccall safe "dynamic" unwrapVkCreateSamplerSafe :: PFN_vkCreateSampler -> HS_vkCreateSampler instance VulkanProc "vkCreateSampler" where type VkProcType "vkCreateSampler" = HS_vkCreateSampler vkProcSymbol = _VkCreateSampler {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateSampler {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateSamplerSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroySampler :: CString pattern VkDestroySampler <- (is_VkDestroySampler -> True) where VkDestroySampler = _VkDestroySampler {-# INLINE _VkDestroySampler #-} _VkDestroySampler :: CString _VkDestroySampler = Ptr "vkDestroySampler\NUL"## {-# INLINE is_VkDestroySampler #-} is_VkDestroySampler :: CString -> Bool is_VkDestroySampler = (EQ ==) . cmpCStrings _VkDestroySampler type VkDestroySampler = "vkDestroySampler" -- | -- > void vkDestroySampler -- > ( VkDevice device -- > , VkSampler sampler -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroySampler <- vkGetDeviceProc @VkDestroySampler vkDevice -- -- or less efficient: -- -- > myDestroySampler <- vkGetProc @VkDestroySampler -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroySampler" vkDestroySampler :: VkDevice -- ^ device -> VkSampler -- ^ sampler -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroySampler :: VkDevice -- ^ device -> VkSampler -- ^ sampler -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroySampler = unsafeDupablePerformIO (vkGetProc @VkDestroySampler) {-# NOINLINE vkDestroySampler #-} ##endif -- | -- > void vkDestroySampler -- > ( VkDevice device -- > , VkSampler sampler -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroySampler <- vkGetDeviceProc @VkDestroySampler vkDevice -- -- or less efficient: -- -- > myDestroySampler <- vkGetProc @VkDestroySampler -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroySampler" vkDestroySamplerSafe :: VkDevice -- ^ device -> VkSampler -- ^ sampler -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroySamplerSafe :: VkDevice -- ^ device -> VkSampler -- ^ sampler -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroySamplerSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroySampler) {-# NOINLINE vkDestroySamplerSafe #-} ##endif -- | > void vkDestroySampler -- > ( VkDevice device -- > , VkSampler sampler -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroySampler = VkDevice -- ^ device -> VkSampler -- ^ sampler -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroySampler = FunPtr HS_vkDestroySampler foreign import ccall unsafe "dynamic" unwrapVkDestroySampler :: PFN_vkDestroySampler -> HS_vkDestroySampler foreign import ccall safe "dynamic" unwrapVkDestroySamplerSafe :: PFN_vkDestroySampler -> HS_vkDestroySampler instance VulkanProc "vkDestroySampler" where type VkProcType "vkDestroySampler" = HS_vkDestroySampler vkProcSymbol = _VkDestroySampler {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroySampler {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroySamplerSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateDescriptorSetLayout :: CString pattern VkCreateDescriptorSetLayout <- (is_VkCreateDescriptorSetLayout -> True) where VkCreateDescriptorSetLayout = _VkCreateDescriptorSetLayout {-# INLINE _VkCreateDescriptorSetLayout #-} _VkCreateDescriptorSetLayout :: CString _VkCreateDescriptorSetLayout = Ptr "vkCreateDescriptorSetLayout\NUL"## {-# INLINE is_VkCreateDescriptorSetLayout #-} is_VkCreateDescriptorSetLayout :: CString -> Bool is_VkCreateDescriptorSetLayout = (EQ ==) . cmpCStrings _VkCreateDescriptorSetLayout type VkCreateDescriptorSetLayout = "vkCreateDescriptorSetLayout" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateDescriptorSetLayout -- > ( VkDevice device -- > , const VkDescriptorSetLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorSetLayout* pSetLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDescriptorSetLayout <- vkGetDeviceProc @VkCreateDescriptorSetLayout vkDevice -- -- or less efficient: -- -- > myCreateDescriptorSetLayout <- vkGetProc @VkCreateDescriptorSetLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateDescriptorSetLayout" vkCreateDescriptorSetLayout :: VkDevice -- ^ device -> Ptr VkDescriptorSetLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorSetLayout -- ^ pSetLayout -> IO VkResult ##else vkCreateDescriptorSetLayout :: VkDevice -- ^ device -> Ptr VkDescriptorSetLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorSetLayout -- ^ pSetLayout -> IO VkResult vkCreateDescriptorSetLayout = unsafeDupablePerformIO (vkGetProc @VkCreateDescriptorSetLayout) {-# NOINLINE vkCreateDescriptorSetLayout #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateDescriptorSetLayout -- > ( VkDevice device -- > , const VkDescriptorSetLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorSetLayout* pSetLayout -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDescriptorSetLayout <- vkGetDeviceProc @VkCreateDescriptorSetLayout vkDevice -- -- or less efficient: -- -- > myCreateDescriptorSetLayout <- vkGetProc @VkCreateDescriptorSetLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateDescriptorSetLayout" vkCreateDescriptorSetLayoutSafe :: VkDevice -- ^ device -> Ptr VkDescriptorSetLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorSetLayout -- ^ pSetLayout -> IO VkResult ##else vkCreateDescriptorSetLayoutSafe :: VkDevice -- ^ device -> Ptr VkDescriptorSetLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorSetLayout -- ^ pSetLayout -> IO VkResult vkCreateDescriptorSetLayoutSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateDescriptorSetLayout) {-# NOINLINE vkCreateDescriptorSetLayoutSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateDescriptorSetLayout -- > ( VkDevice device -- > , const VkDescriptorSetLayoutCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorSetLayout* pSetLayout -- > ) -- -- type HS_vkCreateDescriptorSetLayout = VkDevice -- ^ device -> Ptr VkDescriptorSetLayoutCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorSetLayout -- ^ pSetLayout -> IO VkResult type PFN_vkCreateDescriptorSetLayout = FunPtr HS_vkCreateDescriptorSetLayout foreign import ccall unsafe "dynamic" unwrapVkCreateDescriptorSetLayout :: PFN_vkCreateDescriptorSetLayout -> HS_vkCreateDescriptorSetLayout foreign import ccall safe "dynamic" unwrapVkCreateDescriptorSetLayoutSafe :: PFN_vkCreateDescriptorSetLayout -> HS_vkCreateDescriptorSetLayout instance VulkanProc "vkCreateDescriptorSetLayout" where type VkProcType "vkCreateDescriptorSetLayout" = HS_vkCreateDescriptorSetLayout vkProcSymbol = _VkCreateDescriptorSetLayout {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateDescriptorSetLayout {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateDescriptorSetLayoutSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyDescriptorSetLayout :: CString pattern VkDestroyDescriptorSetLayout <- (is_VkDestroyDescriptorSetLayout -> True) where VkDestroyDescriptorSetLayout = _VkDestroyDescriptorSetLayout {-# INLINE _VkDestroyDescriptorSetLayout #-} _VkDestroyDescriptorSetLayout :: CString _VkDestroyDescriptorSetLayout = Ptr "vkDestroyDescriptorSetLayout\NUL"## {-# INLINE is_VkDestroyDescriptorSetLayout #-} is_VkDestroyDescriptorSetLayout :: CString -> Bool is_VkDestroyDescriptorSetLayout = (EQ ==) . cmpCStrings _VkDestroyDescriptorSetLayout type VkDestroyDescriptorSetLayout = "vkDestroyDescriptorSetLayout" -- | -- > void vkDestroyDescriptorSetLayout -- > ( VkDevice device -- > , VkDescriptorSetLayout descriptorSetLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDescriptorSetLayout <- vkGetDeviceProc @VkDestroyDescriptorSetLayout vkDevice -- -- or less efficient: -- -- > myDestroyDescriptorSetLayout <- vkGetProc @VkDestroyDescriptorSetLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyDescriptorSetLayout" vkDestroyDescriptorSetLayout :: VkDevice -- ^ device -> VkDescriptorSetLayout -- ^ descriptorSetLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDescriptorSetLayout :: VkDevice -- ^ device -> VkDescriptorSetLayout -- ^ descriptorSetLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDescriptorSetLayout = unsafeDupablePerformIO (vkGetProc @VkDestroyDescriptorSetLayout) {-# NOINLINE vkDestroyDescriptorSetLayout #-} ##endif -- | -- > void vkDestroyDescriptorSetLayout -- > ( VkDevice device -- > , VkDescriptorSetLayout descriptorSetLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDescriptorSetLayout <- vkGetDeviceProc @VkDestroyDescriptorSetLayout vkDevice -- -- or less efficient: -- -- > myDestroyDescriptorSetLayout <- vkGetProc @VkDestroyDescriptorSetLayout -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyDescriptorSetLayout" vkDestroyDescriptorSetLayoutSafe :: VkDevice -- ^ device -> VkDescriptorSetLayout -- ^ descriptorSetLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDescriptorSetLayoutSafe :: VkDevice -- ^ device -> VkDescriptorSetLayout -- ^ descriptorSetLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDescriptorSetLayoutSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyDescriptorSetLayout) {-# NOINLINE vkDestroyDescriptorSetLayoutSafe #-} ##endif -- | > void vkDestroyDescriptorSetLayout -- > ( VkDevice device -- > , VkDescriptorSetLayout descriptorSetLayout -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyDescriptorSetLayout = VkDevice -- ^ device -> VkDescriptorSetLayout -- ^ descriptorSetLayout -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyDescriptorSetLayout = FunPtr HS_vkDestroyDescriptorSetLayout foreign import ccall unsafe "dynamic" unwrapVkDestroyDescriptorSetLayout :: PFN_vkDestroyDescriptorSetLayout -> HS_vkDestroyDescriptorSetLayout foreign import ccall safe "dynamic" unwrapVkDestroyDescriptorSetLayoutSafe :: PFN_vkDestroyDescriptorSetLayout -> HS_vkDestroyDescriptorSetLayout instance VulkanProc "vkDestroyDescriptorSetLayout" where type VkProcType "vkDestroyDescriptorSetLayout" = HS_vkDestroyDescriptorSetLayout vkProcSymbol = _VkDestroyDescriptorSetLayout {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyDescriptorSetLayout {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyDescriptorSetLayoutSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateDescriptorPool :: CString pattern VkCreateDescriptorPool <- (is_VkCreateDescriptorPool -> True) where VkCreateDescriptorPool = _VkCreateDescriptorPool {-# INLINE _VkCreateDescriptorPool #-} _VkCreateDescriptorPool :: CString _VkCreateDescriptorPool = Ptr "vkCreateDescriptorPool\NUL"## {-# INLINE is_VkCreateDescriptorPool #-} is_VkCreateDescriptorPool :: CString -> Bool is_VkCreateDescriptorPool = (EQ ==) . cmpCStrings _VkCreateDescriptorPool type VkCreateDescriptorPool = "vkCreateDescriptorPool" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTATION_EXT'. -- -- > VkResult vkCreateDescriptorPool -- > ( VkDevice device -- > , const VkDescriptorPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorPool* pDescriptorPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDescriptorPool <- vkGetDeviceProc @VkCreateDescriptorPool vkDevice -- -- or less efficient: -- -- > myCreateDescriptorPool <- vkGetProc @VkCreateDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateDescriptorPool" vkCreateDescriptorPool :: VkDevice -- ^ device -> Ptr VkDescriptorPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorPool -- ^ pDescriptorPool -> IO VkResult ##else vkCreateDescriptorPool :: VkDevice -- ^ device -> Ptr VkDescriptorPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorPool -- ^ pDescriptorPool -> IO VkResult vkCreateDescriptorPool = unsafeDupablePerformIO (vkGetProc @VkCreateDescriptorPool) {-# NOINLINE vkCreateDescriptorPool #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTATION_EXT'. -- -- > VkResult vkCreateDescriptorPool -- > ( VkDevice device -- > , const VkDescriptorPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorPool* pDescriptorPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateDescriptorPool <- vkGetDeviceProc @VkCreateDescriptorPool vkDevice -- -- or less efficient: -- -- > myCreateDescriptorPool <- vkGetProc @VkCreateDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateDescriptorPool" vkCreateDescriptorPoolSafe :: VkDevice -- ^ device -> Ptr VkDescriptorPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorPool -- ^ pDescriptorPool -> IO VkResult ##else vkCreateDescriptorPoolSafe :: VkDevice -- ^ device -> Ptr VkDescriptorPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorPool -- ^ pDescriptorPool -> IO VkResult vkCreateDescriptorPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateDescriptorPool) {-# NOINLINE vkCreateDescriptorPoolSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTATION_EXT'. -- -- > VkResult vkCreateDescriptorPool -- > ( VkDevice device -- > , const VkDescriptorPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkDescriptorPool* pDescriptorPool -- > ) -- -- type HS_vkCreateDescriptorPool = VkDevice -- ^ device -> Ptr VkDescriptorPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkDescriptorPool -- ^ pDescriptorPool -> IO VkResult type PFN_vkCreateDescriptorPool = FunPtr HS_vkCreateDescriptorPool foreign import ccall unsafe "dynamic" unwrapVkCreateDescriptorPool :: PFN_vkCreateDescriptorPool -> HS_vkCreateDescriptorPool foreign import ccall safe "dynamic" unwrapVkCreateDescriptorPoolSafe :: PFN_vkCreateDescriptorPool -> HS_vkCreateDescriptorPool instance VulkanProc "vkCreateDescriptorPool" where type VkProcType "vkCreateDescriptorPool" = HS_vkCreateDescriptorPool vkProcSymbol = _VkCreateDescriptorPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateDescriptorPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateDescriptorPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyDescriptorPool :: CString pattern VkDestroyDescriptorPool <- (is_VkDestroyDescriptorPool -> True) where VkDestroyDescriptorPool = _VkDestroyDescriptorPool {-# INLINE _VkDestroyDescriptorPool #-} _VkDestroyDescriptorPool :: CString _VkDestroyDescriptorPool = Ptr "vkDestroyDescriptorPool\NUL"## {-# INLINE is_VkDestroyDescriptorPool #-} is_VkDestroyDescriptorPool :: CString -> Bool is_VkDestroyDescriptorPool = (EQ ==) . cmpCStrings _VkDestroyDescriptorPool type VkDestroyDescriptorPool = "vkDestroyDescriptorPool" -- | -- > void vkDestroyDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDescriptorPool <- vkGetDeviceProc @VkDestroyDescriptorPool vkDevice -- -- or less efficient: -- -- > myDestroyDescriptorPool <- vkGetProc @VkDestroyDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyDescriptorPool" vkDestroyDescriptorPool :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDescriptorPool :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDescriptorPool = unsafeDupablePerformIO (vkGetProc @VkDestroyDescriptorPool) {-# NOINLINE vkDestroyDescriptorPool #-} ##endif -- | -- > void vkDestroyDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyDescriptorPool <- vkGetDeviceProc @VkDestroyDescriptorPool vkDevice -- -- or less efficient: -- -- > myDestroyDescriptorPool <- vkGetProc @VkDestroyDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyDescriptorPool" vkDestroyDescriptorPoolSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyDescriptorPoolSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyDescriptorPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyDescriptorPool) {-# NOINLINE vkDestroyDescriptorPoolSafe #-} ##endif -- | > void vkDestroyDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyDescriptorPool = VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyDescriptorPool = FunPtr HS_vkDestroyDescriptorPool foreign import ccall unsafe "dynamic" unwrapVkDestroyDescriptorPool :: PFN_vkDestroyDescriptorPool -> HS_vkDestroyDescriptorPool foreign import ccall safe "dynamic" unwrapVkDestroyDescriptorPoolSafe :: PFN_vkDestroyDescriptorPool -> HS_vkDestroyDescriptorPool instance VulkanProc "vkDestroyDescriptorPool" where type VkProcType "vkDestroyDescriptorPool" = HS_vkDestroyDescriptorPool vkProcSymbol = _VkDestroyDescriptorPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyDescriptorPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyDescriptorPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkResetDescriptorPool :: CString pattern VkResetDescriptorPool <- (is_VkResetDescriptorPool -> True) where VkResetDescriptorPool = _VkResetDescriptorPool {-# INLINE _VkResetDescriptorPool #-} _VkResetDescriptorPool :: CString _VkResetDescriptorPool = Ptr "vkResetDescriptorPool\NUL"## {-# INLINE is_VkResetDescriptorPool #-} is_VkResetDescriptorPool :: CString -> Bool is_VkResetDescriptorPool = (EQ ==) . cmpCStrings _VkResetDescriptorPool type VkResetDescriptorPool = "vkResetDescriptorPool" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , VkDescriptorPoolResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetDescriptorPool <- vkGetDeviceProc @VkResetDescriptorPool vkDevice -- -- or less efficient: -- -- > myResetDescriptorPool <- vkGetProc @VkResetDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkResetDescriptorPool" vkResetDescriptorPool :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> VkDescriptorPoolResetFlags -- ^ flags -> IO VkResult ##else vkResetDescriptorPool :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> VkDescriptorPoolResetFlags -- ^ flags -> IO VkResult vkResetDescriptorPool = unsafeDupablePerformIO (vkGetProc @VkResetDescriptorPool) {-# NOINLINE vkResetDescriptorPool #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , VkDescriptorPoolResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetDescriptorPool <- vkGetDeviceProc @VkResetDescriptorPool vkDevice -- -- or less efficient: -- -- > myResetDescriptorPool <- vkGetProc @VkResetDescriptorPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkResetDescriptorPool" vkResetDescriptorPoolSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> VkDescriptorPoolResetFlags -- ^ flags -> IO VkResult ##else vkResetDescriptorPoolSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> VkDescriptorPoolResetFlags -- ^ flags -> IO VkResult vkResetDescriptorPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkResetDescriptorPool) {-# NOINLINE vkResetDescriptorPoolSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetDescriptorPool -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , VkDescriptorPoolResetFlags flags -- > ) -- -- type HS_vkResetDescriptorPool = VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> VkDescriptorPoolResetFlags -- ^ flags -> IO VkResult type PFN_vkResetDescriptorPool = FunPtr HS_vkResetDescriptorPool foreign import ccall unsafe "dynamic" unwrapVkResetDescriptorPool :: PFN_vkResetDescriptorPool -> HS_vkResetDescriptorPool foreign import ccall safe "dynamic" unwrapVkResetDescriptorPoolSafe :: PFN_vkResetDescriptorPool -> HS_vkResetDescriptorPool instance VulkanProc "vkResetDescriptorPool" where type VkProcType "vkResetDescriptorPool" = HS_vkResetDescriptorPool vkProcSymbol = _VkResetDescriptorPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkResetDescriptorPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkResetDescriptorPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkAllocateDescriptorSets :: CString pattern VkAllocateDescriptorSets <- (is_VkAllocateDescriptorSets -> True) where VkAllocateDescriptorSets = _VkAllocateDescriptorSets {-# INLINE _VkAllocateDescriptorSets #-} _VkAllocateDescriptorSets :: CString _VkAllocateDescriptorSets = Ptr "vkAllocateDescriptorSets\NUL"## {-# INLINE is_VkAllocateDescriptorSets #-} is_VkAllocateDescriptorSets :: CString -> Bool is_VkAllocateDescriptorSets = (EQ ==) . cmpCStrings _VkAllocateDescriptorSets type VkAllocateDescriptorSets = "vkAllocateDescriptorSets" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTED_POOL', 'VK_ERROR_OUT_OF_POOL_MEMORY'. -- -- > VkResult vkAllocateDescriptorSets -- > ( VkDevice device -- > , const VkDescriptorSetAllocateInfo* pAllocateInfo -- > , VkDescriptorSet* pDescriptorSets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateDescriptorSets <- vkGetDeviceProc @VkAllocateDescriptorSets vkDevice -- -- or less efficient: -- -- > myAllocateDescriptorSets <- vkGetProc @VkAllocateDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkAllocateDescriptorSets" vkAllocateDescriptorSets :: VkDevice -- ^ device -> Ptr VkDescriptorSetAllocateInfo -- ^ pAllocateInfo -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult ##else vkAllocateDescriptorSets :: VkDevice -- ^ device -> Ptr VkDescriptorSetAllocateInfo -- ^ pAllocateInfo -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult vkAllocateDescriptorSets = unsafeDupablePerformIO (vkGetProc @VkAllocateDescriptorSets) {-# NOINLINE vkAllocateDescriptorSets #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTED_POOL', 'VK_ERROR_OUT_OF_POOL_MEMORY'. -- -- > VkResult vkAllocateDescriptorSets -- > ( VkDevice device -- > , const VkDescriptorSetAllocateInfo* pAllocateInfo -- > , VkDescriptorSet* pDescriptorSets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateDescriptorSets <- vkGetDeviceProc @VkAllocateDescriptorSets vkDevice -- -- or less efficient: -- -- > myAllocateDescriptorSets <- vkGetProc @VkAllocateDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkAllocateDescriptorSets" vkAllocateDescriptorSetsSafe :: VkDevice -- ^ device -> Ptr VkDescriptorSetAllocateInfo -- ^ pAllocateInfo -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult ##else vkAllocateDescriptorSetsSafe :: VkDevice -- ^ device -> Ptr VkDescriptorSetAllocateInfo -- ^ pAllocateInfo -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult vkAllocateDescriptorSetsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkAllocateDescriptorSets) {-# NOINLINE vkAllocateDescriptorSetsSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY', 'VK_ERROR_FRAGMENTED_POOL', 'VK_ERROR_OUT_OF_POOL_MEMORY'. -- -- > VkResult vkAllocateDescriptorSets -- > ( VkDevice device -- > , const VkDescriptorSetAllocateInfo* pAllocateInfo -- > , VkDescriptorSet* pDescriptorSets -- > ) -- -- type HS_vkAllocateDescriptorSets = VkDevice -- ^ device -> Ptr VkDescriptorSetAllocateInfo -- ^ pAllocateInfo -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult type PFN_vkAllocateDescriptorSets = FunPtr HS_vkAllocateDescriptorSets foreign import ccall unsafe "dynamic" unwrapVkAllocateDescriptorSets :: PFN_vkAllocateDescriptorSets -> HS_vkAllocateDescriptorSets foreign import ccall safe "dynamic" unwrapVkAllocateDescriptorSetsSafe :: PFN_vkAllocateDescriptorSets -> HS_vkAllocateDescriptorSets instance VulkanProc "vkAllocateDescriptorSets" where type VkProcType "vkAllocateDescriptorSets" = HS_vkAllocateDescriptorSets vkProcSymbol = _VkAllocateDescriptorSets {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkAllocateDescriptorSets {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkAllocateDescriptorSetsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkFreeDescriptorSets :: CString pattern VkFreeDescriptorSets <- (is_VkFreeDescriptorSets -> True) where VkFreeDescriptorSets = _VkFreeDescriptorSets {-# INLINE _VkFreeDescriptorSets #-} _VkFreeDescriptorSets :: CString _VkFreeDescriptorSets = Ptr "vkFreeDescriptorSets\NUL"## {-# INLINE is_VkFreeDescriptorSets #-} is_VkFreeDescriptorSets :: CString -> Bool is_VkFreeDescriptorSets = (EQ ==) . cmpCStrings _VkFreeDescriptorSets type VkFreeDescriptorSets = "vkFreeDescriptorSets" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFreeDescriptorSets -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeDescriptorSets <- vkGetDeviceProc @VkFreeDescriptorSets vkDevice -- -- or less efficient: -- -- > myFreeDescriptorSets <- vkGetProc @VkFreeDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkFreeDescriptorSets" vkFreeDescriptorSets :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult ##else vkFreeDescriptorSets :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult vkFreeDescriptorSets = unsafeDupablePerformIO (vkGetProc @VkFreeDescriptorSets) {-# NOINLINE vkFreeDescriptorSets #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFreeDescriptorSets -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeDescriptorSets <- vkGetDeviceProc @VkFreeDescriptorSets vkDevice -- -- or less efficient: -- -- > myFreeDescriptorSets <- vkGetProc @VkFreeDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkFreeDescriptorSets" vkFreeDescriptorSetsSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult ##else vkFreeDescriptorSetsSafe :: VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult vkFreeDescriptorSetsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkFreeDescriptorSets) {-# NOINLINE vkFreeDescriptorSetsSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkFreeDescriptorSets -- > ( VkDevice device -- > , VkDescriptorPool descriptorPool -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > ) -- -- type HS_vkFreeDescriptorSets = VkDevice -- ^ device -> VkDescriptorPool -- ^ descriptorPool -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> IO VkResult type PFN_vkFreeDescriptorSets = FunPtr HS_vkFreeDescriptorSets foreign import ccall unsafe "dynamic" unwrapVkFreeDescriptorSets :: PFN_vkFreeDescriptorSets -> HS_vkFreeDescriptorSets foreign import ccall safe "dynamic" unwrapVkFreeDescriptorSetsSafe :: PFN_vkFreeDescriptorSets -> HS_vkFreeDescriptorSets instance VulkanProc "vkFreeDescriptorSets" where type VkProcType "vkFreeDescriptorSets" = HS_vkFreeDescriptorSets vkProcSymbol = _VkFreeDescriptorSets {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkFreeDescriptorSets {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkFreeDescriptorSetsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkUpdateDescriptorSets :: CString pattern VkUpdateDescriptorSets <- (is_VkUpdateDescriptorSets -> True) where VkUpdateDescriptorSets = _VkUpdateDescriptorSets {-# INLINE _VkUpdateDescriptorSets #-} _VkUpdateDescriptorSets :: CString _VkUpdateDescriptorSets = Ptr "vkUpdateDescriptorSets\NUL"## {-# INLINE is_VkUpdateDescriptorSets #-} is_VkUpdateDescriptorSets :: CString -> Bool is_VkUpdateDescriptorSets = (EQ ==) . cmpCStrings _VkUpdateDescriptorSets type VkUpdateDescriptorSets = "vkUpdateDescriptorSets" -- | -- > void vkUpdateDescriptorSets -- > ( VkDevice device -- > , uint32_t descriptorWriteCount -- > , const VkWriteDescriptorSet* pDescriptorWrites -- > , uint32_t descriptorCopyCount -- > , const VkCopyDescriptorSet* pDescriptorCopies -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myUpdateDescriptorSets <- vkGetDeviceProc @VkUpdateDescriptorSets vkDevice -- -- or less efficient: -- -- > myUpdateDescriptorSets <- vkGetProc @VkUpdateDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkUpdateDescriptorSets" vkUpdateDescriptorSets :: VkDevice -- ^ device -> Word32 -- ^ descriptorWriteCount -> Ptr VkWriteDescriptorSet -- ^ pDescriptorWrites -> Word32 -- ^ descriptorCopyCount -> Ptr VkCopyDescriptorSet -- ^ pDescriptorCopies -> IO () ##else vkUpdateDescriptorSets :: VkDevice -- ^ device -> Word32 -- ^ descriptorWriteCount -> Ptr VkWriteDescriptorSet -- ^ pDescriptorWrites -> Word32 -- ^ descriptorCopyCount -> Ptr VkCopyDescriptorSet -- ^ pDescriptorCopies -> IO () vkUpdateDescriptorSets = unsafeDupablePerformIO (vkGetProc @VkUpdateDescriptorSets) {-# NOINLINE vkUpdateDescriptorSets #-} ##endif -- | -- > void vkUpdateDescriptorSets -- > ( VkDevice device -- > , uint32_t descriptorWriteCount -- > , const VkWriteDescriptorSet* pDescriptorWrites -- > , uint32_t descriptorCopyCount -- > , const VkCopyDescriptorSet* pDescriptorCopies -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myUpdateDescriptorSets <- vkGetDeviceProc @VkUpdateDescriptorSets vkDevice -- -- or less efficient: -- -- > myUpdateDescriptorSets <- vkGetProc @VkUpdateDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkUpdateDescriptorSets" vkUpdateDescriptorSetsSafe :: VkDevice -- ^ device -> Word32 -- ^ descriptorWriteCount -> Ptr VkWriteDescriptorSet -- ^ pDescriptorWrites -> Word32 -- ^ descriptorCopyCount -> Ptr VkCopyDescriptorSet -- ^ pDescriptorCopies -> IO () ##else vkUpdateDescriptorSetsSafe :: VkDevice -- ^ device -> Word32 -- ^ descriptorWriteCount -> Ptr VkWriteDescriptorSet -- ^ pDescriptorWrites -> Word32 -- ^ descriptorCopyCount -> Ptr VkCopyDescriptorSet -- ^ pDescriptorCopies -> IO () vkUpdateDescriptorSetsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkUpdateDescriptorSets) {-# NOINLINE vkUpdateDescriptorSetsSafe #-} ##endif -- | > void vkUpdateDescriptorSets -- > ( VkDevice device -- > , uint32_t descriptorWriteCount -- > , const VkWriteDescriptorSet* pDescriptorWrites -- > , uint32_t descriptorCopyCount -- > , const VkCopyDescriptorSet* pDescriptorCopies -- > ) -- -- type HS_vkUpdateDescriptorSets = VkDevice -- ^ device -> Word32 -- ^ descriptorWriteCount -> Ptr VkWriteDescriptorSet -- ^ pDescriptorWrites -> Word32 -- ^ descriptorCopyCount -> Ptr VkCopyDescriptorSet -- ^ pDescriptorCopies -> IO () type PFN_vkUpdateDescriptorSets = FunPtr HS_vkUpdateDescriptorSets foreign import ccall unsafe "dynamic" unwrapVkUpdateDescriptorSets :: PFN_vkUpdateDescriptorSets -> HS_vkUpdateDescriptorSets foreign import ccall safe "dynamic" unwrapVkUpdateDescriptorSetsSafe :: PFN_vkUpdateDescriptorSets -> HS_vkUpdateDescriptorSets instance VulkanProc "vkUpdateDescriptorSets" where type VkProcType "vkUpdateDescriptorSets" = HS_vkUpdateDescriptorSets vkProcSymbol = _VkUpdateDescriptorSets {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkUpdateDescriptorSets {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkUpdateDescriptorSetsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateFramebuffer :: CString pattern VkCreateFramebuffer <- (is_VkCreateFramebuffer -> True) where VkCreateFramebuffer = _VkCreateFramebuffer {-# INLINE _VkCreateFramebuffer #-} _VkCreateFramebuffer :: CString _VkCreateFramebuffer = Ptr "vkCreateFramebuffer\NUL"## {-# INLINE is_VkCreateFramebuffer #-} is_VkCreateFramebuffer :: CString -> Bool is_VkCreateFramebuffer = (EQ ==) . cmpCStrings _VkCreateFramebuffer type VkCreateFramebuffer = "vkCreateFramebuffer" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFramebuffer -- > ( VkDevice device -- > , const VkFramebufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFramebuffer* pFramebuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateFramebuffer <- vkGetDeviceProc @VkCreateFramebuffer vkDevice -- -- or less efficient: -- -- > myCreateFramebuffer <- vkGetProc @VkCreateFramebuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateFramebuffer" vkCreateFramebuffer :: VkDevice -- ^ device -> Ptr VkFramebufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFramebuffer -- ^ pFramebuffer -> IO VkResult ##else vkCreateFramebuffer :: VkDevice -- ^ device -> Ptr VkFramebufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFramebuffer -- ^ pFramebuffer -> IO VkResult vkCreateFramebuffer = unsafeDupablePerformIO (vkGetProc @VkCreateFramebuffer) {-# NOINLINE vkCreateFramebuffer #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFramebuffer -- > ( VkDevice device -- > , const VkFramebufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFramebuffer* pFramebuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateFramebuffer <- vkGetDeviceProc @VkCreateFramebuffer vkDevice -- -- or less efficient: -- -- > myCreateFramebuffer <- vkGetProc @VkCreateFramebuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateFramebuffer" vkCreateFramebufferSafe :: VkDevice -- ^ device -> Ptr VkFramebufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFramebuffer -- ^ pFramebuffer -> IO VkResult ##else vkCreateFramebufferSafe :: VkDevice -- ^ device -> Ptr VkFramebufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFramebuffer -- ^ pFramebuffer -> IO VkResult vkCreateFramebufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateFramebuffer) {-# NOINLINE vkCreateFramebufferSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateFramebuffer -- > ( VkDevice device -- > , const VkFramebufferCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkFramebuffer* pFramebuffer -- > ) -- -- type HS_vkCreateFramebuffer = VkDevice -- ^ device -> Ptr VkFramebufferCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkFramebuffer -- ^ pFramebuffer -> IO VkResult type PFN_vkCreateFramebuffer = FunPtr HS_vkCreateFramebuffer foreign import ccall unsafe "dynamic" unwrapVkCreateFramebuffer :: PFN_vkCreateFramebuffer -> HS_vkCreateFramebuffer foreign import ccall safe "dynamic" unwrapVkCreateFramebufferSafe :: PFN_vkCreateFramebuffer -> HS_vkCreateFramebuffer instance VulkanProc "vkCreateFramebuffer" where type VkProcType "vkCreateFramebuffer" = HS_vkCreateFramebuffer vkProcSymbol = _VkCreateFramebuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateFramebuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateFramebufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyFramebuffer :: CString pattern VkDestroyFramebuffer <- (is_VkDestroyFramebuffer -> True) where VkDestroyFramebuffer = _VkDestroyFramebuffer {-# INLINE _VkDestroyFramebuffer #-} _VkDestroyFramebuffer :: CString _VkDestroyFramebuffer = Ptr "vkDestroyFramebuffer\NUL"## {-# INLINE is_VkDestroyFramebuffer #-} is_VkDestroyFramebuffer :: CString -> Bool is_VkDestroyFramebuffer = (EQ ==) . cmpCStrings _VkDestroyFramebuffer type VkDestroyFramebuffer = "vkDestroyFramebuffer" -- | -- > void vkDestroyFramebuffer -- > ( VkDevice device -- > , VkFramebuffer framebuffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyFramebuffer <- vkGetDeviceProc @VkDestroyFramebuffer vkDevice -- -- or less efficient: -- -- > myDestroyFramebuffer <- vkGetProc @VkDestroyFramebuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyFramebuffer" vkDestroyFramebuffer :: VkDevice -- ^ device -> VkFramebuffer -- ^ framebuffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyFramebuffer :: VkDevice -- ^ device -> VkFramebuffer -- ^ framebuffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyFramebuffer = unsafeDupablePerformIO (vkGetProc @VkDestroyFramebuffer) {-# NOINLINE vkDestroyFramebuffer #-} ##endif -- | -- > void vkDestroyFramebuffer -- > ( VkDevice device -- > , VkFramebuffer framebuffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyFramebuffer <- vkGetDeviceProc @VkDestroyFramebuffer vkDevice -- -- or less efficient: -- -- > myDestroyFramebuffer <- vkGetProc @VkDestroyFramebuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyFramebuffer" vkDestroyFramebufferSafe :: VkDevice -- ^ device -> VkFramebuffer -- ^ framebuffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyFramebufferSafe :: VkDevice -- ^ device -> VkFramebuffer -- ^ framebuffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyFramebufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyFramebuffer) {-# NOINLINE vkDestroyFramebufferSafe #-} ##endif -- | > void vkDestroyFramebuffer -- > ( VkDevice device -- > , VkFramebuffer framebuffer -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyFramebuffer = VkDevice -- ^ device -> VkFramebuffer -- ^ framebuffer -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyFramebuffer = FunPtr HS_vkDestroyFramebuffer foreign import ccall unsafe "dynamic" unwrapVkDestroyFramebuffer :: PFN_vkDestroyFramebuffer -> HS_vkDestroyFramebuffer foreign import ccall safe "dynamic" unwrapVkDestroyFramebufferSafe :: PFN_vkDestroyFramebuffer -> HS_vkDestroyFramebuffer instance VulkanProc "vkDestroyFramebuffer" where type VkProcType "vkDestroyFramebuffer" = HS_vkDestroyFramebuffer vkProcSymbol = _VkDestroyFramebuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyFramebuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyFramebufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateRenderPass :: CString pattern VkCreateRenderPass <- (is_VkCreateRenderPass -> True) where VkCreateRenderPass = _VkCreateRenderPass {-# INLINE _VkCreateRenderPass #-} _VkCreateRenderPass :: CString _VkCreateRenderPass = Ptr "vkCreateRenderPass\NUL"## {-# INLINE is_VkCreateRenderPass #-} is_VkCreateRenderPass :: CString -> Bool is_VkCreateRenderPass = (EQ ==) . cmpCStrings _VkCreateRenderPass type VkCreateRenderPass = "vkCreateRenderPass" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateRenderPass -- > ( VkDevice device -- > , const VkRenderPassCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkRenderPass* pRenderPass -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateRenderPass <- vkGetDeviceProc @VkCreateRenderPass vkDevice -- -- or less efficient: -- -- > myCreateRenderPass <- vkGetProc @VkCreateRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateRenderPass" vkCreateRenderPass :: VkDevice -- ^ device -> Ptr VkRenderPassCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkRenderPass -- ^ pRenderPass -> IO VkResult ##else vkCreateRenderPass :: VkDevice -- ^ device -> Ptr VkRenderPassCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkRenderPass -- ^ pRenderPass -> IO VkResult vkCreateRenderPass = unsafeDupablePerformIO (vkGetProc @VkCreateRenderPass) {-# NOINLINE vkCreateRenderPass #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateRenderPass -- > ( VkDevice device -- > , const VkRenderPassCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkRenderPass* pRenderPass -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateRenderPass <- vkGetDeviceProc @VkCreateRenderPass vkDevice -- -- or less efficient: -- -- > myCreateRenderPass <- vkGetProc @VkCreateRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateRenderPass" vkCreateRenderPassSafe :: VkDevice -- ^ device -> Ptr VkRenderPassCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkRenderPass -- ^ pRenderPass -> IO VkResult ##else vkCreateRenderPassSafe :: VkDevice -- ^ device -> Ptr VkRenderPassCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkRenderPass -- ^ pRenderPass -> IO VkResult vkCreateRenderPassSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateRenderPass) {-# NOINLINE vkCreateRenderPassSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateRenderPass -- > ( VkDevice device -- > , const VkRenderPassCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkRenderPass* pRenderPass -- > ) -- -- type HS_vkCreateRenderPass = VkDevice -- ^ device -> Ptr VkRenderPassCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkRenderPass -- ^ pRenderPass -> IO VkResult type PFN_vkCreateRenderPass = FunPtr HS_vkCreateRenderPass foreign import ccall unsafe "dynamic" unwrapVkCreateRenderPass :: PFN_vkCreateRenderPass -> HS_vkCreateRenderPass foreign import ccall safe "dynamic" unwrapVkCreateRenderPassSafe :: PFN_vkCreateRenderPass -> HS_vkCreateRenderPass instance VulkanProc "vkCreateRenderPass" where type VkProcType "vkCreateRenderPass" = HS_vkCreateRenderPass vkProcSymbol = _VkCreateRenderPass {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateRenderPass {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateRenderPassSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyRenderPass :: CString pattern VkDestroyRenderPass <- (is_VkDestroyRenderPass -> True) where VkDestroyRenderPass = _VkDestroyRenderPass {-# INLINE _VkDestroyRenderPass #-} _VkDestroyRenderPass :: CString _VkDestroyRenderPass = Ptr "vkDestroyRenderPass\NUL"## {-# INLINE is_VkDestroyRenderPass #-} is_VkDestroyRenderPass :: CString -> Bool is_VkDestroyRenderPass = (EQ ==) . cmpCStrings _VkDestroyRenderPass type VkDestroyRenderPass = "vkDestroyRenderPass" -- | -- > void vkDestroyRenderPass -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyRenderPass <- vkGetDeviceProc @VkDestroyRenderPass vkDevice -- -- or less efficient: -- -- > myDestroyRenderPass <- vkGetProc @VkDestroyRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyRenderPass" vkDestroyRenderPass :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyRenderPass :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyRenderPass = unsafeDupablePerformIO (vkGetProc @VkDestroyRenderPass) {-# NOINLINE vkDestroyRenderPass #-} ##endif -- | -- > void vkDestroyRenderPass -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyRenderPass <- vkGetDeviceProc @VkDestroyRenderPass vkDevice -- -- or less efficient: -- -- > myDestroyRenderPass <- vkGetProc @VkDestroyRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyRenderPass" vkDestroyRenderPassSafe :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyRenderPassSafe :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyRenderPassSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyRenderPass) {-# NOINLINE vkDestroyRenderPassSafe #-} ##endif -- | > void vkDestroyRenderPass -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyRenderPass = VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyRenderPass = FunPtr HS_vkDestroyRenderPass foreign import ccall unsafe "dynamic" unwrapVkDestroyRenderPass :: PFN_vkDestroyRenderPass -> HS_vkDestroyRenderPass foreign import ccall safe "dynamic" unwrapVkDestroyRenderPassSafe :: PFN_vkDestroyRenderPass -> HS_vkDestroyRenderPass instance VulkanProc "vkDestroyRenderPass" where type VkProcType "vkDestroyRenderPass" = HS_vkDestroyRenderPass vkProcSymbol = _VkDestroyRenderPass {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyRenderPass {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyRenderPassSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkGetRenderAreaGranularity :: CString pattern VkGetRenderAreaGranularity <- (is_VkGetRenderAreaGranularity -> True) where VkGetRenderAreaGranularity = _VkGetRenderAreaGranularity {-# INLINE _VkGetRenderAreaGranularity #-} _VkGetRenderAreaGranularity :: CString _VkGetRenderAreaGranularity = Ptr "vkGetRenderAreaGranularity\NUL"## {-# INLINE is_VkGetRenderAreaGranularity #-} is_VkGetRenderAreaGranularity :: CString -> Bool is_VkGetRenderAreaGranularity = (EQ ==) . cmpCStrings _VkGetRenderAreaGranularity type VkGetRenderAreaGranularity = "vkGetRenderAreaGranularity" -- | -- > void vkGetRenderAreaGranularity -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , VkExtent2D* pGranularity -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetRenderAreaGranularity <- vkGetDeviceProc @VkGetRenderAreaGranularity vkDevice -- -- or less efficient: -- -- > myGetRenderAreaGranularity <- vkGetProc @VkGetRenderAreaGranularity -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkGetRenderAreaGranularity" vkGetRenderAreaGranularity :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkExtent2D -- ^ pGranularity -> IO () ##else vkGetRenderAreaGranularity :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkExtent2D -- ^ pGranularity -> IO () vkGetRenderAreaGranularity = unsafeDupablePerformIO (vkGetProc @VkGetRenderAreaGranularity) {-# NOINLINE vkGetRenderAreaGranularity #-} ##endif -- | -- > void vkGetRenderAreaGranularity -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , VkExtent2D* pGranularity -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myGetRenderAreaGranularity <- vkGetDeviceProc @VkGetRenderAreaGranularity vkDevice -- -- or less efficient: -- -- > myGetRenderAreaGranularity <- vkGetProc @VkGetRenderAreaGranularity -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkGetRenderAreaGranularity" vkGetRenderAreaGranularitySafe :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkExtent2D -- ^ pGranularity -> IO () ##else vkGetRenderAreaGranularitySafe :: VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkExtent2D -- ^ pGranularity -> IO () vkGetRenderAreaGranularitySafe = unsafeDupablePerformIO (vkGetProcSafe @VkGetRenderAreaGranularity) {-# NOINLINE vkGetRenderAreaGranularitySafe #-} ##endif -- | > void vkGetRenderAreaGranularity -- > ( VkDevice device -- > , VkRenderPass renderPass -- > , VkExtent2D* pGranularity -- > ) -- -- type HS_vkGetRenderAreaGranularity = VkDevice -- ^ device -> VkRenderPass -- ^ renderPass -> Ptr VkExtent2D -- ^ pGranularity -> IO () type PFN_vkGetRenderAreaGranularity = FunPtr HS_vkGetRenderAreaGranularity foreign import ccall unsafe "dynamic" unwrapVkGetRenderAreaGranularity :: PFN_vkGetRenderAreaGranularity -> HS_vkGetRenderAreaGranularity foreign import ccall safe "dynamic" unwrapVkGetRenderAreaGranularitySafe :: PFN_vkGetRenderAreaGranularity -> HS_vkGetRenderAreaGranularity instance VulkanProc "vkGetRenderAreaGranularity" where type VkProcType "vkGetRenderAreaGranularity" = HS_vkGetRenderAreaGranularity vkProcSymbol = _VkGetRenderAreaGranularity {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkGetRenderAreaGranularity {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkGetRenderAreaGranularitySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCreateCommandPool :: CString pattern VkCreateCommandPool <- (is_VkCreateCommandPool -> True) where VkCreateCommandPool = _VkCreateCommandPool {-# INLINE _VkCreateCommandPool #-} _VkCreateCommandPool :: CString _VkCreateCommandPool = Ptr "vkCreateCommandPool\NUL"## {-# INLINE is_VkCreateCommandPool #-} is_VkCreateCommandPool :: CString -> Bool is_VkCreateCommandPool = (EQ ==) . cmpCStrings _VkCreateCommandPool type VkCreateCommandPool = "vkCreateCommandPool" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateCommandPool -- > ( VkDevice device -- > , const VkCommandPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkCommandPool* pCommandPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateCommandPool <- vkGetDeviceProc @VkCreateCommandPool vkDevice -- -- or less efficient: -- -- > myCreateCommandPool <- vkGetProc @VkCreateCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCreateCommandPool" vkCreateCommandPool :: VkDevice -- ^ device -> Ptr VkCommandPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkCommandPool -- ^ pCommandPool -> IO VkResult ##else vkCreateCommandPool :: VkDevice -- ^ device -> Ptr VkCommandPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkCommandPool -- ^ pCommandPool -> IO VkResult vkCreateCommandPool = unsafeDupablePerformIO (vkGetProc @VkCreateCommandPool) {-# NOINLINE vkCreateCommandPool #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateCommandPool -- > ( VkDevice device -- > , const VkCommandPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkCommandPool* pCommandPool -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCreateCommandPool <- vkGetDeviceProc @VkCreateCommandPool vkDevice -- -- or less efficient: -- -- > myCreateCommandPool <- vkGetProc @VkCreateCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCreateCommandPool" vkCreateCommandPoolSafe :: VkDevice -- ^ device -> Ptr VkCommandPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkCommandPool -- ^ pCommandPool -> IO VkResult ##else vkCreateCommandPoolSafe :: VkDevice -- ^ device -> Ptr VkCommandPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkCommandPool -- ^ pCommandPool -> IO VkResult vkCreateCommandPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCreateCommandPool) {-# NOINLINE vkCreateCommandPoolSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkCreateCommandPool -- > ( VkDevice device -- > , const VkCommandPoolCreateInfo* pCreateInfo -- > , const VkAllocationCallbacks* pAllocator -- > , VkCommandPool* pCommandPool -- > ) -- -- type HS_vkCreateCommandPool = VkDevice -- ^ device -> Ptr VkCommandPoolCreateInfo -- ^ pCreateInfo -> Ptr VkAllocationCallbacks -- ^ pAllocator -> Ptr VkCommandPool -- ^ pCommandPool -> IO VkResult type PFN_vkCreateCommandPool = FunPtr HS_vkCreateCommandPool foreign import ccall unsafe "dynamic" unwrapVkCreateCommandPool :: PFN_vkCreateCommandPool -> HS_vkCreateCommandPool foreign import ccall safe "dynamic" unwrapVkCreateCommandPoolSafe :: PFN_vkCreateCommandPool -> HS_vkCreateCommandPool instance VulkanProc "vkCreateCommandPool" where type VkProcType "vkCreateCommandPool" = HS_vkCreateCommandPool vkProcSymbol = _VkCreateCommandPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCreateCommandPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCreateCommandPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkDestroyCommandPool :: CString pattern VkDestroyCommandPool <- (is_VkDestroyCommandPool -> True) where VkDestroyCommandPool = _VkDestroyCommandPool {-# INLINE _VkDestroyCommandPool #-} _VkDestroyCommandPool :: CString _VkDestroyCommandPool = Ptr "vkDestroyCommandPool\NUL"## {-# INLINE is_VkDestroyCommandPool #-} is_VkDestroyCommandPool :: CString -> Bool is_VkDestroyCommandPool = (EQ ==) . cmpCStrings _VkDestroyCommandPool type VkDestroyCommandPool = "vkDestroyCommandPool" -- | -- > void vkDestroyCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyCommandPool <- vkGetDeviceProc @VkDestroyCommandPool vkDevice -- -- or less efficient: -- -- > myDestroyCommandPool <- vkGetProc @VkDestroyCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkDestroyCommandPool" vkDestroyCommandPool :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyCommandPool :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyCommandPool = unsafeDupablePerformIO (vkGetProc @VkDestroyCommandPool) {-# NOINLINE vkDestroyCommandPool #-} ##endif -- | -- > void vkDestroyCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myDestroyCommandPool <- vkGetDeviceProc @VkDestroyCommandPool vkDevice -- -- or less efficient: -- -- > myDestroyCommandPool <- vkGetProc @VkDestroyCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkDestroyCommandPool" vkDestroyCommandPoolSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () ##else vkDestroyCommandPoolSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () vkDestroyCommandPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkDestroyCommandPool) {-# NOINLINE vkDestroyCommandPoolSafe #-} ##endif -- | > void vkDestroyCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , const VkAllocationCallbacks* pAllocator -- > ) -- -- type HS_vkDestroyCommandPool = VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Ptr VkAllocationCallbacks -- ^ pAllocator -> IO () type PFN_vkDestroyCommandPool = FunPtr HS_vkDestroyCommandPool foreign import ccall unsafe "dynamic" unwrapVkDestroyCommandPool :: PFN_vkDestroyCommandPool -> HS_vkDestroyCommandPool foreign import ccall safe "dynamic" unwrapVkDestroyCommandPoolSafe :: PFN_vkDestroyCommandPool -> HS_vkDestroyCommandPool instance VulkanProc "vkDestroyCommandPool" where type VkProcType "vkDestroyCommandPool" = HS_vkDestroyCommandPool vkProcSymbol = _VkDestroyCommandPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkDestroyCommandPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkDestroyCommandPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkResetCommandPool :: CString pattern VkResetCommandPool <- (is_VkResetCommandPool -> True) where VkResetCommandPool = _VkResetCommandPool {-# INLINE _VkResetCommandPool #-} _VkResetCommandPool :: CString _VkResetCommandPool = Ptr "vkResetCommandPool\NUL"## {-# INLINE is_VkResetCommandPool #-} is_VkResetCommandPool :: CString -> Bool is_VkResetCommandPool = (EQ ==) . cmpCStrings _VkResetCommandPool type VkResetCommandPool = "vkResetCommandPool" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , VkCommandPoolResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetCommandPool <- vkGetDeviceProc @VkResetCommandPool vkDevice -- -- or less efficient: -- -- > myResetCommandPool <- vkGetProc @VkResetCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkResetCommandPool" vkResetCommandPool :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> VkCommandPoolResetFlags -- ^ flags -> IO VkResult ##else vkResetCommandPool :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> VkCommandPoolResetFlags -- ^ flags -> IO VkResult vkResetCommandPool = unsafeDupablePerformIO (vkGetProc @VkResetCommandPool) {-# NOINLINE vkResetCommandPool #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , VkCommandPoolResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetCommandPool <- vkGetDeviceProc @VkResetCommandPool vkDevice -- -- or less efficient: -- -- > myResetCommandPool <- vkGetProc @VkResetCommandPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkResetCommandPool" vkResetCommandPoolSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> VkCommandPoolResetFlags -- ^ flags -> IO VkResult ##else vkResetCommandPoolSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> VkCommandPoolResetFlags -- ^ flags -> IO VkResult vkResetCommandPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkResetCommandPool) {-# NOINLINE vkResetCommandPoolSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandPool -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , VkCommandPoolResetFlags flags -- > ) -- -- type HS_vkResetCommandPool = VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> VkCommandPoolResetFlags -- ^ flags -> IO VkResult type PFN_vkResetCommandPool = FunPtr HS_vkResetCommandPool foreign import ccall unsafe "dynamic" unwrapVkResetCommandPool :: PFN_vkResetCommandPool -> HS_vkResetCommandPool foreign import ccall safe "dynamic" unwrapVkResetCommandPoolSafe :: PFN_vkResetCommandPool -> HS_vkResetCommandPool instance VulkanProc "vkResetCommandPool" where type VkProcType "vkResetCommandPool" = HS_vkResetCommandPool vkProcSymbol = _VkResetCommandPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkResetCommandPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkResetCommandPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkAllocateCommandBuffers :: CString pattern VkAllocateCommandBuffers <- (is_VkAllocateCommandBuffers -> True) where VkAllocateCommandBuffers = _VkAllocateCommandBuffers {-# INLINE _VkAllocateCommandBuffers #-} _VkAllocateCommandBuffers :: CString _VkAllocateCommandBuffers = Ptr "vkAllocateCommandBuffers\NUL"## {-# INLINE is_VkAllocateCommandBuffers #-} is_VkAllocateCommandBuffers :: CString -> Bool is_VkAllocateCommandBuffers = (EQ ==) . cmpCStrings _VkAllocateCommandBuffers type VkAllocateCommandBuffers = "vkAllocateCommandBuffers" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkAllocateCommandBuffers -- > ( VkDevice device -- > , const VkCommandBufferAllocateInfo* pAllocateInfo -- > , VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateCommandBuffers <- vkGetDeviceProc @VkAllocateCommandBuffers vkDevice -- -- or less efficient: -- -- > myAllocateCommandBuffers <- vkGetProc @VkAllocateCommandBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkAllocateCommandBuffers" vkAllocateCommandBuffers :: VkDevice -- ^ device -> Ptr VkCommandBufferAllocateInfo -- ^ pAllocateInfo -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO VkResult ##else vkAllocateCommandBuffers :: VkDevice -- ^ device -> Ptr VkCommandBufferAllocateInfo -- ^ pAllocateInfo -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO VkResult vkAllocateCommandBuffers = unsafeDupablePerformIO (vkGetProc @VkAllocateCommandBuffers) {-# NOINLINE vkAllocateCommandBuffers #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkAllocateCommandBuffers -- > ( VkDevice device -- > , const VkCommandBufferAllocateInfo* pAllocateInfo -- > , VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myAllocateCommandBuffers <- vkGetDeviceProc @VkAllocateCommandBuffers vkDevice -- -- or less efficient: -- -- > myAllocateCommandBuffers <- vkGetProc @VkAllocateCommandBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkAllocateCommandBuffers" vkAllocateCommandBuffersSafe :: VkDevice -- ^ device -> Ptr VkCommandBufferAllocateInfo -- ^ pAllocateInfo -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO VkResult ##else vkAllocateCommandBuffersSafe :: VkDevice -- ^ device -> Ptr VkCommandBufferAllocateInfo -- ^ pAllocateInfo -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO VkResult vkAllocateCommandBuffersSafe = unsafeDupablePerformIO (vkGetProcSafe @VkAllocateCommandBuffers) {-# NOINLINE vkAllocateCommandBuffersSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkAllocateCommandBuffers -- > ( VkDevice device -- > , const VkCommandBufferAllocateInfo* pAllocateInfo -- > , VkCommandBuffer* pCommandBuffers -- > ) -- -- type HS_vkAllocateCommandBuffers = VkDevice -- ^ device -> Ptr VkCommandBufferAllocateInfo -- ^ pAllocateInfo -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO VkResult type PFN_vkAllocateCommandBuffers = FunPtr HS_vkAllocateCommandBuffers foreign import ccall unsafe "dynamic" unwrapVkAllocateCommandBuffers :: PFN_vkAllocateCommandBuffers -> HS_vkAllocateCommandBuffers foreign import ccall safe "dynamic" unwrapVkAllocateCommandBuffersSafe :: PFN_vkAllocateCommandBuffers -> HS_vkAllocateCommandBuffers instance VulkanProc "vkAllocateCommandBuffers" where type VkProcType "vkAllocateCommandBuffers" = HS_vkAllocateCommandBuffers vkProcSymbol = _VkAllocateCommandBuffers {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkAllocateCommandBuffers {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkAllocateCommandBuffersSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkFreeCommandBuffers :: CString pattern VkFreeCommandBuffers <- (is_VkFreeCommandBuffers -> True) where VkFreeCommandBuffers = _VkFreeCommandBuffers {-# INLINE _VkFreeCommandBuffers #-} _VkFreeCommandBuffers :: CString _VkFreeCommandBuffers = Ptr "vkFreeCommandBuffers\NUL"## {-# INLINE is_VkFreeCommandBuffers #-} is_VkFreeCommandBuffers :: CString -> Bool is_VkFreeCommandBuffers = (EQ ==) . cmpCStrings _VkFreeCommandBuffers type VkFreeCommandBuffers = "vkFreeCommandBuffers" -- | -- > void vkFreeCommandBuffers -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeCommandBuffers <- vkGetDeviceProc @VkFreeCommandBuffers vkDevice -- -- or less efficient: -- -- > myFreeCommandBuffers <- vkGetProc @VkFreeCommandBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkFreeCommandBuffers" vkFreeCommandBuffers :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () ##else vkFreeCommandBuffers :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () vkFreeCommandBuffers = unsafeDupablePerformIO (vkGetProc @VkFreeCommandBuffers) {-# NOINLINE vkFreeCommandBuffers #-} ##endif -- | -- > void vkFreeCommandBuffers -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myFreeCommandBuffers <- vkGetDeviceProc @VkFreeCommandBuffers vkDevice -- -- or less efficient: -- -- > myFreeCommandBuffers <- vkGetProc @VkFreeCommandBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkFreeCommandBuffers" vkFreeCommandBuffersSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () ##else vkFreeCommandBuffersSafe :: VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () vkFreeCommandBuffersSafe = unsafeDupablePerformIO (vkGetProcSafe @VkFreeCommandBuffers) {-# NOINLINE vkFreeCommandBuffersSafe #-} ##endif -- | > void vkFreeCommandBuffers -- > ( VkDevice device -- > , VkCommandPool commandPool -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- type HS_vkFreeCommandBuffers = VkDevice -- ^ device -> VkCommandPool -- ^ commandPool -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () type PFN_vkFreeCommandBuffers = FunPtr HS_vkFreeCommandBuffers foreign import ccall unsafe "dynamic" unwrapVkFreeCommandBuffers :: PFN_vkFreeCommandBuffers -> HS_vkFreeCommandBuffers foreign import ccall safe "dynamic" unwrapVkFreeCommandBuffersSafe :: PFN_vkFreeCommandBuffers -> HS_vkFreeCommandBuffers instance VulkanProc "vkFreeCommandBuffers" where type VkProcType "vkFreeCommandBuffers" = HS_vkFreeCommandBuffers vkProcSymbol = _VkFreeCommandBuffers {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkFreeCommandBuffers {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkFreeCommandBuffersSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkBeginCommandBuffer :: CString pattern VkBeginCommandBuffer <- (is_VkBeginCommandBuffer -> True) where VkBeginCommandBuffer = _VkBeginCommandBuffer {-# INLINE _VkBeginCommandBuffer #-} _VkBeginCommandBuffer :: CString _VkBeginCommandBuffer = Ptr "vkBeginCommandBuffer\NUL"## {-# INLINE is_VkBeginCommandBuffer #-} is_VkBeginCommandBuffer :: CString -> Bool is_VkBeginCommandBuffer = (EQ ==) . cmpCStrings _VkBeginCommandBuffer type VkBeginCommandBuffer = "vkBeginCommandBuffer" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBeginCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , const VkCommandBufferBeginInfo* pBeginInfo -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBeginCommandBuffer <- vkGetInstanceProc @VkBeginCommandBuffer vkInstance -- -- or less efficient: -- -- > myBeginCommandBuffer <- vkGetProc @VkBeginCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkBeginCommandBuffer" vkBeginCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkCommandBufferBeginInfo -- ^ pBeginInfo -> IO VkResult ##else vkBeginCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkCommandBufferBeginInfo -- ^ pBeginInfo -> IO VkResult vkBeginCommandBuffer = unsafeDupablePerformIO (vkGetProc @VkBeginCommandBuffer) {-# NOINLINE vkBeginCommandBuffer #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBeginCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , const VkCommandBufferBeginInfo* pBeginInfo -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myBeginCommandBuffer <- vkGetInstanceProc @VkBeginCommandBuffer vkInstance -- -- or less efficient: -- -- > myBeginCommandBuffer <- vkGetProc @VkBeginCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkBeginCommandBuffer" vkBeginCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkCommandBufferBeginInfo -- ^ pBeginInfo -> IO VkResult ##else vkBeginCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkCommandBufferBeginInfo -- ^ pBeginInfo -> IO VkResult vkBeginCommandBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkBeginCommandBuffer) {-# NOINLINE vkBeginCommandBufferSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkBeginCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , const VkCommandBufferBeginInfo* pBeginInfo -- > ) -- -- type HS_vkBeginCommandBuffer = VkCommandBuffer -- ^ commandBuffer -> Ptr VkCommandBufferBeginInfo -- ^ pBeginInfo -> IO VkResult type PFN_vkBeginCommandBuffer = FunPtr HS_vkBeginCommandBuffer foreign import ccall unsafe "dynamic" unwrapVkBeginCommandBuffer :: PFN_vkBeginCommandBuffer -> HS_vkBeginCommandBuffer foreign import ccall safe "dynamic" unwrapVkBeginCommandBufferSafe :: PFN_vkBeginCommandBuffer -> HS_vkBeginCommandBuffer instance VulkanProc "vkBeginCommandBuffer" where type VkProcType "vkBeginCommandBuffer" = HS_vkBeginCommandBuffer vkProcSymbol = _VkBeginCommandBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkBeginCommandBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkBeginCommandBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkEndCommandBuffer :: CString pattern VkEndCommandBuffer <- (is_VkEndCommandBuffer -> True) where VkEndCommandBuffer = _VkEndCommandBuffer {-# INLINE _VkEndCommandBuffer #-} _VkEndCommandBuffer :: CString _VkEndCommandBuffer = Ptr "vkEndCommandBuffer\NUL"## {-# INLINE is_VkEndCommandBuffer #-} is_VkEndCommandBuffer :: CString -> Bool is_VkEndCommandBuffer = (EQ ==) . cmpCStrings _VkEndCommandBuffer type VkEndCommandBuffer = "vkEndCommandBuffer" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEndCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEndCommandBuffer <- vkGetInstanceProc @VkEndCommandBuffer vkInstance -- -- or less efficient: -- -- > myEndCommandBuffer <- vkGetProc @VkEndCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkEndCommandBuffer" vkEndCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> IO VkResult ##else vkEndCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> IO VkResult vkEndCommandBuffer = unsafeDupablePerformIO (vkGetProc @VkEndCommandBuffer) {-# NOINLINE vkEndCommandBuffer #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEndCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myEndCommandBuffer <- vkGetInstanceProc @VkEndCommandBuffer vkInstance -- -- or less efficient: -- -- > myEndCommandBuffer <- vkGetProc @VkEndCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkEndCommandBuffer" vkEndCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> IO VkResult ##else vkEndCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> IO VkResult vkEndCommandBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkEndCommandBuffer) {-# NOINLINE vkEndCommandBufferSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkEndCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > ) -- -- type HS_vkEndCommandBuffer = VkCommandBuffer -- ^ commandBuffer -> IO VkResult type PFN_vkEndCommandBuffer = FunPtr HS_vkEndCommandBuffer foreign import ccall unsafe "dynamic" unwrapVkEndCommandBuffer :: PFN_vkEndCommandBuffer -> HS_vkEndCommandBuffer foreign import ccall safe "dynamic" unwrapVkEndCommandBufferSafe :: PFN_vkEndCommandBuffer -> HS_vkEndCommandBuffer instance VulkanProc "vkEndCommandBuffer" where type VkProcType "vkEndCommandBuffer" = HS_vkEndCommandBuffer vkProcSymbol = _VkEndCommandBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkEndCommandBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkEndCommandBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkResetCommandBuffer :: CString pattern VkResetCommandBuffer <- (is_VkResetCommandBuffer -> True) where VkResetCommandBuffer = _VkResetCommandBuffer {-# INLINE _VkResetCommandBuffer #-} _VkResetCommandBuffer :: CString _VkResetCommandBuffer = Ptr "vkResetCommandBuffer\NUL"## {-# INLINE is_VkResetCommandBuffer #-} is_VkResetCommandBuffer :: CString -> Bool is_VkResetCommandBuffer = (EQ ==) . cmpCStrings _VkResetCommandBuffer type VkResetCommandBuffer = "vkResetCommandBuffer" -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkCommandBufferResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetCommandBuffer <- vkGetInstanceProc @VkResetCommandBuffer vkInstance -- -- or less efficient: -- -- > myResetCommandBuffer <- vkGetProc @VkResetCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkResetCommandBuffer" vkResetCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkCommandBufferResetFlags -- ^ flags -> IO VkResult ##else vkResetCommandBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkCommandBufferResetFlags -- ^ flags -> IO VkResult vkResetCommandBuffer = unsafeDupablePerformIO (vkGetProc @VkResetCommandBuffer) {-# NOINLINE vkResetCommandBuffer #-} ##endif -- | -- Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkCommandBufferResetFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myResetCommandBuffer <- vkGetInstanceProc @VkResetCommandBuffer vkInstance -- -- or less efficient: -- -- > myResetCommandBuffer <- vkGetProc @VkResetCommandBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkResetCommandBuffer" vkResetCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkCommandBufferResetFlags -- ^ flags -> IO VkResult ##else vkResetCommandBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkCommandBufferResetFlags -- ^ flags -> IO VkResult vkResetCommandBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkResetCommandBuffer) {-# NOINLINE vkResetCommandBufferSafe #-} ##endif -- | Success codes: 'VK_SUCCESS'. -- -- Error codes: 'VK_ERROR_OUT_OF_HOST_MEMORY', 'VK_ERROR_OUT_OF_DEVICE_MEMORY'. -- -- > VkResult vkResetCommandBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkCommandBufferResetFlags flags -- > ) -- -- type HS_vkResetCommandBuffer = VkCommandBuffer -- ^ commandBuffer -> VkCommandBufferResetFlags -- ^ flags -> IO VkResult type PFN_vkResetCommandBuffer = FunPtr HS_vkResetCommandBuffer foreign import ccall unsafe "dynamic" unwrapVkResetCommandBuffer :: PFN_vkResetCommandBuffer -> HS_vkResetCommandBuffer foreign import ccall safe "dynamic" unwrapVkResetCommandBufferSafe :: PFN_vkResetCommandBuffer -> HS_vkResetCommandBuffer instance VulkanProc "vkResetCommandBuffer" where type VkProcType "vkResetCommandBuffer" = HS_vkResetCommandBuffer vkProcSymbol = _VkResetCommandBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkResetCommandBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkResetCommandBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBindPipeline :: CString pattern VkCmdBindPipeline <- (is_VkCmdBindPipeline -> True) where VkCmdBindPipeline = _VkCmdBindPipeline {-# INLINE _VkCmdBindPipeline #-} _VkCmdBindPipeline :: CString _VkCmdBindPipeline = Ptr "vkCmdBindPipeline\NUL"## {-# INLINE is_VkCmdBindPipeline #-} is_VkCmdBindPipeline :: CString -> Bool is_VkCmdBindPipeline = (EQ ==) . cmpCStrings _VkCmdBindPipeline type VkCmdBindPipeline = "vkCmdBindPipeline" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindPipeline -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipeline pipeline -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindPipeline <- vkGetInstanceProc @VkCmdBindPipeline vkInstance -- -- or less efficient: -- -- > myCmdBindPipeline <- vkGetProc @VkCmdBindPipeline -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBindPipeline" vkCmdBindPipeline :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipeline -- ^ pipeline -> IO () ##else vkCmdBindPipeline :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipeline -- ^ pipeline -> IO () vkCmdBindPipeline = unsafeDupablePerformIO (vkGetProc @VkCmdBindPipeline) {-# NOINLINE vkCmdBindPipeline #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindPipeline -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipeline pipeline -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindPipeline <- vkGetInstanceProc @VkCmdBindPipeline vkInstance -- -- or less efficient: -- -- > myCmdBindPipeline <- vkGetProc @VkCmdBindPipeline -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBindPipeline" vkCmdBindPipelineSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipeline -- ^ pipeline -> IO () ##else vkCmdBindPipelineSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipeline -- ^ pipeline -> IO () vkCmdBindPipelineSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBindPipeline) {-# NOINLINE vkCmdBindPipelineSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindPipeline -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipeline pipeline -- > ) -- -- type HS_vkCmdBindPipeline = VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipeline -- ^ pipeline -> IO () type PFN_vkCmdBindPipeline = FunPtr HS_vkCmdBindPipeline foreign import ccall unsafe "dynamic" unwrapVkCmdBindPipeline :: PFN_vkCmdBindPipeline -> HS_vkCmdBindPipeline foreign import ccall safe "dynamic" unwrapVkCmdBindPipelineSafe :: PFN_vkCmdBindPipeline -> HS_vkCmdBindPipeline instance VulkanProc "vkCmdBindPipeline" where type VkProcType "vkCmdBindPipeline" = HS_vkCmdBindPipeline vkProcSymbol = _VkCmdBindPipeline {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBindPipeline {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBindPipelineSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetViewport :: CString pattern VkCmdSetViewport <- (is_VkCmdSetViewport -> True) where VkCmdSetViewport = _VkCmdSetViewport {-# INLINE _VkCmdSetViewport #-} _VkCmdSetViewport :: CString _VkCmdSetViewport = Ptr "vkCmdSetViewport\NUL"## {-# INLINE is_VkCmdSetViewport #-} is_VkCmdSetViewport :: CString -> Bool is_VkCmdSetViewport = (EQ ==) . cmpCStrings _VkCmdSetViewport type VkCmdSetViewport = "vkCmdSetViewport" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetViewport -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstViewport -- > , uint32_t viewportCount -- > , const VkViewport* pViewports -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetViewport <- vkGetInstanceProc @VkCmdSetViewport vkInstance -- -- or less efficient: -- -- > myCmdSetViewport <- vkGetProc @VkCmdSetViewport -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetViewport" vkCmdSetViewport :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstViewport -> Word32 -- ^ viewportCount -> Ptr VkViewport -- ^ pViewports -> IO () ##else vkCmdSetViewport :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstViewport -> Word32 -- ^ viewportCount -> Ptr VkViewport -- ^ pViewports -> IO () vkCmdSetViewport = unsafeDupablePerformIO (vkGetProc @VkCmdSetViewport) {-# NOINLINE vkCmdSetViewport #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetViewport -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstViewport -- > , uint32_t viewportCount -- > , const VkViewport* pViewports -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetViewport <- vkGetInstanceProc @VkCmdSetViewport vkInstance -- -- or less efficient: -- -- > myCmdSetViewport <- vkGetProc @VkCmdSetViewport -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetViewport" vkCmdSetViewportSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstViewport -> Word32 -- ^ viewportCount -> Ptr VkViewport -- ^ pViewports -> IO () ##else vkCmdSetViewportSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstViewport -> Word32 -- ^ viewportCount -> Ptr VkViewport -- ^ pViewports -> IO () vkCmdSetViewportSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetViewport) {-# NOINLINE vkCmdSetViewportSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetViewport -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstViewport -- > , uint32_t viewportCount -- > , const VkViewport* pViewports -- > ) -- -- type HS_vkCmdSetViewport = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstViewport -> Word32 -- ^ viewportCount -> Ptr VkViewport -- ^ pViewports -> IO () type PFN_vkCmdSetViewport = FunPtr HS_vkCmdSetViewport foreign import ccall unsafe "dynamic" unwrapVkCmdSetViewport :: PFN_vkCmdSetViewport -> HS_vkCmdSetViewport foreign import ccall safe "dynamic" unwrapVkCmdSetViewportSafe :: PFN_vkCmdSetViewport -> HS_vkCmdSetViewport instance VulkanProc "vkCmdSetViewport" where type VkProcType "vkCmdSetViewport" = HS_vkCmdSetViewport vkProcSymbol = _VkCmdSetViewport {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetViewport {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetViewportSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetScissor :: CString pattern VkCmdSetScissor <- (is_VkCmdSetScissor -> True) where VkCmdSetScissor = _VkCmdSetScissor {-# INLINE _VkCmdSetScissor #-} _VkCmdSetScissor :: CString _VkCmdSetScissor = Ptr "vkCmdSetScissor\NUL"## {-# INLINE is_VkCmdSetScissor #-} is_VkCmdSetScissor :: CString -> Bool is_VkCmdSetScissor = (EQ ==) . cmpCStrings _VkCmdSetScissor type VkCmdSetScissor = "vkCmdSetScissor" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetScissor -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstScissor -- > , uint32_t scissorCount -- > , const VkRect2D* pScissors -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetScissor <- vkGetInstanceProc @VkCmdSetScissor vkInstance -- -- or less efficient: -- -- > myCmdSetScissor <- vkGetProc @VkCmdSetScissor -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetScissor" vkCmdSetScissor :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstScissor -> Word32 -- ^ scissorCount -> Ptr VkRect2D -- ^ pScissors -> IO () ##else vkCmdSetScissor :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstScissor -> Word32 -- ^ scissorCount -> Ptr VkRect2D -- ^ pScissors -> IO () vkCmdSetScissor = unsafeDupablePerformIO (vkGetProc @VkCmdSetScissor) {-# NOINLINE vkCmdSetScissor #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetScissor -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstScissor -- > , uint32_t scissorCount -- > , const VkRect2D* pScissors -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetScissor <- vkGetInstanceProc @VkCmdSetScissor vkInstance -- -- or less efficient: -- -- > myCmdSetScissor <- vkGetProc @VkCmdSetScissor -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetScissor" vkCmdSetScissorSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstScissor -> Word32 -- ^ scissorCount -> Ptr VkRect2D -- ^ pScissors -> IO () ##else vkCmdSetScissorSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstScissor -> Word32 -- ^ scissorCount -> Ptr VkRect2D -- ^ pScissors -> IO () vkCmdSetScissorSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetScissor) {-# NOINLINE vkCmdSetScissorSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetScissor -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstScissor -- > , uint32_t scissorCount -- > , const VkRect2D* pScissors -- > ) -- -- type HS_vkCmdSetScissor = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstScissor -> Word32 -- ^ scissorCount -> Ptr VkRect2D -- ^ pScissors -> IO () type PFN_vkCmdSetScissor = FunPtr HS_vkCmdSetScissor foreign import ccall unsafe "dynamic" unwrapVkCmdSetScissor :: PFN_vkCmdSetScissor -> HS_vkCmdSetScissor foreign import ccall safe "dynamic" unwrapVkCmdSetScissorSafe :: PFN_vkCmdSetScissor -> HS_vkCmdSetScissor instance VulkanProc "vkCmdSetScissor" where type VkProcType "vkCmdSetScissor" = HS_vkCmdSetScissor vkProcSymbol = _VkCmdSetScissor {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetScissor {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetScissorSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetLineWidth :: CString pattern VkCmdSetLineWidth <- (is_VkCmdSetLineWidth -> True) where VkCmdSetLineWidth = _VkCmdSetLineWidth {-# INLINE _VkCmdSetLineWidth #-} _VkCmdSetLineWidth :: CString _VkCmdSetLineWidth = Ptr "vkCmdSetLineWidth\NUL"## {-# INLINE is_VkCmdSetLineWidth #-} is_VkCmdSetLineWidth :: CString -> Bool is_VkCmdSetLineWidth = (EQ ==) . cmpCStrings _VkCmdSetLineWidth type VkCmdSetLineWidth = "vkCmdSetLineWidth" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetLineWidth -- > ( VkCommandBuffer commandBuffer -- > , float lineWidth -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetLineWidth <- vkGetInstanceProc @VkCmdSetLineWidth vkInstance -- -- or less efficient: -- -- > myCmdSetLineWidth <- vkGetProc @VkCmdSetLineWidth -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetLineWidth" vkCmdSetLineWidth :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> IO () ##else vkCmdSetLineWidth :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> IO () vkCmdSetLineWidth = unsafeDupablePerformIO (vkGetProc @VkCmdSetLineWidth) {-# NOINLINE vkCmdSetLineWidth #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetLineWidth -- > ( VkCommandBuffer commandBuffer -- > , float lineWidth -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetLineWidth <- vkGetInstanceProc @VkCmdSetLineWidth vkInstance -- -- or less efficient: -- -- > myCmdSetLineWidth <- vkGetProc @VkCmdSetLineWidth -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetLineWidth" vkCmdSetLineWidthSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> IO () ##else vkCmdSetLineWidthSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> IO () vkCmdSetLineWidthSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetLineWidth) {-# NOINLINE vkCmdSetLineWidthSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetLineWidth -- > ( VkCommandBuffer commandBuffer -- > , float lineWidth -- > ) -- -- type HS_vkCmdSetLineWidth = VkCommandBuffer -- ^ commandBuffer -> #{type float} -> IO () type PFN_vkCmdSetLineWidth = FunPtr HS_vkCmdSetLineWidth foreign import ccall unsafe "dynamic" unwrapVkCmdSetLineWidth :: PFN_vkCmdSetLineWidth -> HS_vkCmdSetLineWidth foreign import ccall safe "dynamic" unwrapVkCmdSetLineWidthSafe :: PFN_vkCmdSetLineWidth -> HS_vkCmdSetLineWidth instance VulkanProc "vkCmdSetLineWidth" where type VkProcType "vkCmdSetLineWidth" = HS_vkCmdSetLineWidth vkProcSymbol = _VkCmdSetLineWidth {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetLineWidth {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetLineWidthSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetDepthBias :: CString pattern VkCmdSetDepthBias <- (is_VkCmdSetDepthBias -> True) where VkCmdSetDepthBias = _VkCmdSetDepthBias {-# INLINE _VkCmdSetDepthBias #-} _VkCmdSetDepthBias :: CString _VkCmdSetDepthBias = Ptr "vkCmdSetDepthBias\NUL"## {-# INLINE is_VkCmdSetDepthBias #-} is_VkCmdSetDepthBias :: CString -> Bool is_VkCmdSetDepthBias = (EQ ==) . cmpCStrings _VkCmdSetDepthBias type VkCmdSetDepthBias = "vkCmdSetDepthBias" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBias -- > ( VkCommandBuffer commandBuffer -- > , float depthBiasConstantFactor -- > , float depthBiasClamp -- > , float depthBiasSlopeFactor -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetDepthBias <- vkGetInstanceProc @VkCmdSetDepthBias vkInstance -- -- or less efficient: -- -- > myCmdSetDepthBias <- vkGetProc @VkCmdSetDepthBias -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetDepthBias" vkCmdSetDepthBias :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> #{type float} -> IO () ##else vkCmdSetDepthBias :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> #{type float} -> IO () vkCmdSetDepthBias = unsafeDupablePerformIO (vkGetProc @VkCmdSetDepthBias) {-# NOINLINE vkCmdSetDepthBias #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBias -- > ( VkCommandBuffer commandBuffer -- > , float depthBiasConstantFactor -- > , float depthBiasClamp -- > , float depthBiasSlopeFactor -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetDepthBias <- vkGetInstanceProc @VkCmdSetDepthBias vkInstance -- -- or less efficient: -- -- > myCmdSetDepthBias <- vkGetProc @VkCmdSetDepthBias -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetDepthBias" vkCmdSetDepthBiasSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> #{type float} -> IO () ##else vkCmdSetDepthBiasSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> #{type float} -> IO () vkCmdSetDepthBiasSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetDepthBias) {-# NOINLINE vkCmdSetDepthBiasSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBias -- > ( VkCommandBuffer commandBuffer -- > , float depthBiasConstantFactor -- > , float depthBiasClamp -- > , float depthBiasSlopeFactor -- > ) -- -- type HS_vkCmdSetDepthBias = VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> #{type float} -> IO () type PFN_vkCmdSetDepthBias = FunPtr HS_vkCmdSetDepthBias foreign import ccall unsafe "dynamic" unwrapVkCmdSetDepthBias :: PFN_vkCmdSetDepthBias -> HS_vkCmdSetDepthBias foreign import ccall safe "dynamic" unwrapVkCmdSetDepthBiasSafe :: PFN_vkCmdSetDepthBias -> HS_vkCmdSetDepthBias instance VulkanProc "vkCmdSetDepthBias" where type VkProcType "vkCmdSetDepthBias" = HS_vkCmdSetDepthBias vkProcSymbol = _VkCmdSetDepthBias {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetDepthBias {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetDepthBiasSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetBlendConstants :: CString pattern VkCmdSetBlendConstants <- (is_VkCmdSetBlendConstants -> True) where VkCmdSetBlendConstants = _VkCmdSetBlendConstants {-# INLINE _VkCmdSetBlendConstants #-} _VkCmdSetBlendConstants :: CString _VkCmdSetBlendConstants = Ptr "vkCmdSetBlendConstants\NUL"## {-# INLINE is_VkCmdSetBlendConstants #-} is_VkCmdSetBlendConstants :: CString -> Bool is_VkCmdSetBlendConstants = (EQ ==) . cmpCStrings _VkCmdSetBlendConstants type VkCmdSetBlendConstants = "vkCmdSetBlendConstants" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetBlendConstants -- > ( VkCommandBuffer commandBuffer -- > , const float blendConstants[4] -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetBlendConstants <- vkGetInstanceProc @VkCmdSetBlendConstants vkInstance -- -- or less efficient: -- -- > myCmdSetBlendConstants <- vkGetProc @VkCmdSetBlendConstants -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetBlendConstants" vkCmdSetBlendConstants :: VkCommandBuffer -- ^ commandBuffer -> Ptr #{type float} -- ^ blendConstants -> IO () ##else vkCmdSetBlendConstants :: VkCommandBuffer -- ^ commandBuffer -> Ptr #{type float} -- ^ blendConstants -> IO () vkCmdSetBlendConstants = unsafeDupablePerformIO (vkGetProc @VkCmdSetBlendConstants) {-# NOINLINE vkCmdSetBlendConstants #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetBlendConstants -- > ( VkCommandBuffer commandBuffer -- > , const float blendConstants[4] -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetBlendConstants <- vkGetInstanceProc @VkCmdSetBlendConstants vkInstance -- -- or less efficient: -- -- > myCmdSetBlendConstants <- vkGetProc @VkCmdSetBlendConstants -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetBlendConstants" vkCmdSetBlendConstantsSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr #{type float} -- ^ blendConstants -> IO () ##else vkCmdSetBlendConstantsSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr #{type float} -- ^ blendConstants -> IO () vkCmdSetBlendConstantsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetBlendConstants) {-# NOINLINE vkCmdSetBlendConstantsSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetBlendConstants -- > ( VkCommandBuffer commandBuffer -- > , const float blendConstants[4] -- > ) -- -- type HS_vkCmdSetBlendConstants = VkCommandBuffer -- ^ commandBuffer -> Ptr #{type float} -- ^ blendConstants -> IO () type PFN_vkCmdSetBlendConstants = FunPtr HS_vkCmdSetBlendConstants foreign import ccall unsafe "dynamic" unwrapVkCmdSetBlendConstants :: PFN_vkCmdSetBlendConstants -> HS_vkCmdSetBlendConstants foreign import ccall safe "dynamic" unwrapVkCmdSetBlendConstantsSafe :: PFN_vkCmdSetBlendConstants -> HS_vkCmdSetBlendConstants instance VulkanProc "vkCmdSetBlendConstants" where type VkProcType "vkCmdSetBlendConstants" = HS_vkCmdSetBlendConstants vkProcSymbol = _VkCmdSetBlendConstants {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetBlendConstants {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetBlendConstantsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetDepthBounds :: CString pattern VkCmdSetDepthBounds <- (is_VkCmdSetDepthBounds -> True) where VkCmdSetDepthBounds = _VkCmdSetDepthBounds {-# INLINE _VkCmdSetDepthBounds #-} _VkCmdSetDepthBounds :: CString _VkCmdSetDepthBounds = Ptr "vkCmdSetDepthBounds\NUL"## {-# INLINE is_VkCmdSetDepthBounds #-} is_VkCmdSetDepthBounds :: CString -> Bool is_VkCmdSetDepthBounds = (EQ ==) . cmpCStrings _VkCmdSetDepthBounds type VkCmdSetDepthBounds = "vkCmdSetDepthBounds" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBounds -- > ( VkCommandBuffer commandBuffer -- > , float minDepthBounds -- > , float maxDepthBounds -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetDepthBounds <- vkGetInstanceProc @VkCmdSetDepthBounds vkInstance -- -- or less efficient: -- -- > myCmdSetDepthBounds <- vkGetProc @VkCmdSetDepthBounds -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetDepthBounds" vkCmdSetDepthBounds :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> IO () ##else vkCmdSetDepthBounds :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> IO () vkCmdSetDepthBounds = unsafeDupablePerformIO (vkGetProc @VkCmdSetDepthBounds) {-# NOINLINE vkCmdSetDepthBounds #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBounds -- > ( VkCommandBuffer commandBuffer -- > , float minDepthBounds -- > , float maxDepthBounds -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetDepthBounds <- vkGetInstanceProc @VkCmdSetDepthBounds vkInstance -- -- or less efficient: -- -- > myCmdSetDepthBounds <- vkGetProc @VkCmdSetDepthBounds -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetDepthBounds" vkCmdSetDepthBoundsSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> IO () ##else vkCmdSetDepthBoundsSafe :: VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> IO () vkCmdSetDepthBoundsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetDepthBounds) {-# NOINLINE vkCmdSetDepthBoundsSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetDepthBounds -- > ( VkCommandBuffer commandBuffer -- > , float minDepthBounds -- > , float maxDepthBounds -- > ) -- -- type HS_vkCmdSetDepthBounds = VkCommandBuffer -- ^ commandBuffer -> #{type float} -> #{type float} -> IO () type PFN_vkCmdSetDepthBounds = FunPtr HS_vkCmdSetDepthBounds foreign import ccall unsafe "dynamic" unwrapVkCmdSetDepthBounds :: PFN_vkCmdSetDepthBounds -> HS_vkCmdSetDepthBounds foreign import ccall safe "dynamic" unwrapVkCmdSetDepthBoundsSafe :: PFN_vkCmdSetDepthBounds -> HS_vkCmdSetDepthBounds instance VulkanProc "vkCmdSetDepthBounds" where type VkProcType "vkCmdSetDepthBounds" = HS_vkCmdSetDepthBounds vkProcSymbol = _VkCmdSetDepthBounds {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetDepthBounds {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetDepthBoundsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetStencilCompareMask :: CString pattern VkCmdSetStencilCompareMask <- (is_VkCmdSetStencilCompareMask -> True) where VkCmdSetStencilCompareMask = _VkCmdSetStencilCompareMask {-# INLINE _VkCmdSetStencilCompareMask #-} _VkCmdSetStencilCompareMask :: CString _VkCmdSetStencilCompareMask = Ptr "vkCmdSetStencilCompareMask\NUL"## {-# INLINE is_VkCmdSetStencilCompareMask #-} is_VkCmdSetStencilCompareMask :: CString -> Bool is_VkCmdSetStencilCompareMask = (EQ ==) . cmpCStrings _VkCmdSetStencilCompareMask type VkCmdSetStencilCompareMask = "vkCmdSetStencilCompareMask" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilCompareMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t compareMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilCompareMask <- vkGetInstanceProc @VkCmdSetStencilCompareMask vkInstance -- -- or less efficient: -- -- > myCmdSetStencilCompareMask <- vkGetProc @VkCmdSetStencilCompareMask -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetStencilCompareMask" vkCmdSetStencilCompareMask :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ compareMask -> IO () ##else vkCmdSetStencilCompareMask :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ compareMask -> IO () vkCmdSetStencilCompareMask = unsafeDupablePerformIO (vkGetProc @VkCmdSetStencilCompareMask) {-# NOINLINE vkCmdSetStencilCompareMask #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilCompareMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t compareMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilCompareMask <- vkGetInstanceProc @VkCmdSetStencilCompareMask vkInstance -- -- or less efficient: -- -- > myCmdSetStencilCompareMask <- vkGetProc @VkCmdSetStencilCompareMask -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetStencilCompareMask" vkCmdSetStencilCompareMaskSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ compareMask -> IO () ##else vkCmdSetStencilCompareMaskSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ compareMask -> IO () vkCmdSetStencilCompareMaskSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetStencilCompareMask) {-# NOINLINE vkCmdSetStencilCompareMaskSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilCompareMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t compareMask -- > ) -- -- type HS_vkCmdSetStencilCompareMask = VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ compareMask -> IO () type PFN_vkCmdSetStencilCompareMask = FunPtr HS_vkCmdSetStencilCompareMask foreign import ccall unsafe "dynamic" unwrapVkCmdSetStencilCompareMask :: PFN_vkCmdSetStencilCompareMask -> HS_vkCmdSetStencilCompareMask foreign import ccall safe "dynamic" unwrapVkCmdSetStencilCompareMaskSafe :: PFN_vkCmdSetStencilCompareMask -> HS_vkCmdSetStencilCompareMask instance VulkanProc "vkCmdSetStencilCompareMask" where type VkProcType "vkCmdSetStencilCompareMask" = HS_vkCmdSetStencilCompareMask vkProcSymbol = _VkCmdSetStencilCompareMask {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetStencilCompareMask {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetStencilCompareMaskSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetStencilWriteMask :: CString pattern VkCmdSetStencilWriteMask <- (is_VkCmdSetStencilWriteMask -> True) where VkCmdSetStencilWriteMask = _VkCmdSetStencilWriteMask {-# INLINE _VkCmdSetStencilWriteMask #-} _VkCmdSetStencilWriteMask :: CString _VkCmdSetStencilWriteMask = Ptr "vkCmdSetStencilWriteMask\NUL"## {-# INLINE is_VkCmdSetStencilWriteMask #-} is_VkCmdSetStencilWriteMask :: CString -> Bool is_VkCmdSetStencilWriteMask = (EQ ==) . cmpCStrings _VkCmdSetStencilWriteMask type VkCmdSetStencilWriteMask = "vkCmdSetStencilWriteMask" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilWriteMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t writeMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilWriteMask <- vkGetInstanceProc @VkCmdSetStencilWriteMask vkInstance -- -- or less efficient: -- -- > myCmdSetStencilWriteMask <- vkGetProc @VkCmdSetStencilWriteMask -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetStencilWriteMask" vkCmdSetStencilWriteMask :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ writeMask -> IO () ##else vkCmdSetStencilWriteMask :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ writeMask -> IO () vkCmdSetStencilWriteMask = unsafeDupablePerformIO (vkGetProc @VkCmdSetStencilWriteMask) {-# NOINLINE vkCmdSetStencilWriteMask #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilWriteMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t writeMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilWriteMask <- vkGetInstanceProc @VkCmdSetStencilWriteMask vkInstance -- -- or less efficient: -- -- > myCmdSetStencilWriteMask <- vkGetProc @VkCmdSetStencilWriteMask -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetStencilWriteMask" vkCmdSetStencilWriteMaskSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ writeMask -> IO () ##else vkCmdSetStencilWriteMaskSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ writeMask -> IO () vkCmdSetStencilWriteMaskSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetStencilWriteMask) {-# NOINLINE vkCmdSetStencilWriteMaskSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilWriteMask -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t writeMask -- > ) -- -- type HS_vkCmdSetStencilWriteMask = VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ writeMask -> IO () type PFN_vkCmdSetStencilWriteMask = FunPtr HS_vkCmdSetStencilWriteMask foreign import ccall unsafe "dynamic" unwrapVkCmdSetStencilWriteMask :: PFN_vkCmdSetStencilWriteMask -> HS_vkCmdSetStencilWriteMask foreign import ccall safe "dynamic" unwrapVkCmdSetStencilWriteMaskSafe :: PFN_vkCmdSetStencilWriteMask -> HS_vkCmdSetStencilWriteMask instance VulkanProc "vkCmdSetStencilWriteMask" where type VkProcType "vkCmdSetStencilWriteMask" = HS_vkCmdSetStencilWriteMask vkProcSymbol = _VkCmdSetStencilWriteMask {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetStencilWriteMask {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetStencilWriteMaskSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetStencilReference :: CString pattern VkCmdSetStencilReference <- (is_VkCmdSetStencilReference -> True) where VkCmdSetStencilReference = _VkCmdSetStencilReference {-# INLINE _VkCmdSetStencilReference #-} _VkCmdSetStencilReference :: CString _VkCmdSetStencilReference = Ptr "vkCmdSetStencilReference\NUL"## {-# INLINE is_VkCmdSetStencilReference #-} is_VkCmdSetStencilReference :: CString -> Bool is_VkCmdSetStencilReference = (EQ ==) . cmpCStrings _VkCmdSetStencilReference type VkCmdSetStencilReference = "vkCmdSetStencilReference" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilReference -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t reference -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilReference <- vkGetInstanceProc @VkCmdSetStencilReference vkInstance -- -- or less efficient: -- -- > myCmdSetStencilReference <- vkGetProc @VkCmdSetStencilReference -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetStencilReference" vkCmdSetStencilReference :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ reference -> IO () ##else vkCmdSetStencilReference :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ reference -> IO () vkCmdSetStencilReference = unsafeDupablePerformIO (vkGetProc @VkCmdSetStencilReference) {-# NOINLINE vkCmdSetStencilReference #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilReference -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t reference -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetStencilReference <- vkGetInstanceProc @VkCmdSetStencilReference vkInstance -- -- or less efficient: -- -- > myCmdSetStencilReference <- vkGetProc @VkCmdSetStencilReference -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetStencilReference" vkCmdSetStencilReferenceSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ reference -> IO () ##else vkCmdSetStencilReferenceSafe :: VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ reference -> IO () vkCmdSetStencilReferenceSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetStencilReference) {-# NOINLINE vkCmdSetStencilReferenceSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdSetStencilReference -- > ( VkCommandBuffer commandBuffer -- > , VkStencilFaceFlags faceMask -- > , uint32_t reference -- > ) -- -- type HS_vkCmdSetStencilReference = VkCommandBuffer -- ^ commandBuffer -> VkStencilFaceFlags -- ^ faceMask -> Word32 -- ^ reference -> IO () type PFN_vkCmdSetStencilReference = FunPtr HS_vkCmdSetStencilReference foreign import ccall unsafe "dynamic" unwrapVkCmdSetStencilReference :: PFN_vkCmdSetStencilReference -> HS_vkCmdSetStencilReference foreign import ccall safe "dynamic" unwrapVkCmdSetStencilReferenceSafe :: PFN_vkCmdSetStencilReference -> HS_vkCmdSetStencilReference instance VulkanProc "vkCmdSetStencilReference" where type VkProcType "vkCmdSetStencilReference" = HS_vkCmdSetStencilReference vkProcSymbol = _VkCmdSetStencilReference {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetStencilReference {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetStencilReferenceSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBindDescriptorSets :: CString pattern VkCmdBindDescriptorSets <- (is_VkCmdBindDescriptorSets -> True) where VkCmdBindDescriptorSets = _VkCmdBindDescriptorSets {-# INLINE _VkCmdBindDescriptorSets #-} _VkCmdBindDescriptorSets :: CString _VkCmdBindDescriptorSets = Ptr "vkCmdBindDescriptorSets\NUL"## {-# INLINE is_VkCmdBindDescriptorSets #-} is_VkCmdBindDescriptorSets :: CString -> Bool is_VkCmdBindDescriptorSets = (EQ ==) . cmpCStrings _VkCmdBindDescriptorSets type VkCmdBindDescriptorSets = "vkCmdBindDescriptorSets" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindDescriptorSets -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipelineLayout layout -- > , uint32_t firstSet -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > , uint32_t dynamicOffsetCount -- > , const uint32_t* pDynamicOffsets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindDescriptorSets <- vkGetInstanceProc @VkCmdBindDescriptorSets vkInstance -- -- or less efficient: -- -- > myCmdBindDescriptorSets <- vkGetProc @VkCmdBindDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBindDescriptorSets" vkCmdBindDescriptorSets :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipelineLayout -- ^ layout -> Word32 -- ^ firstSet -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> Word32 -- ^ dynamicOffsetCount -> Ptr Word32 -- ^ pDynamicOffsets -> IO () ##else vkCmdBindDescriptorSets :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipelineLayout -- ^ layout -> Word32 -- ^ firstSet -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> Word32 -- ^ dynamicOffsetCount -> Ptr Word32 -- ^ pDynamicOffsets -> IO () vkCmdBindDescriptorSets = unsafeDupablePerformIO (vkGetProc @VkCmdBindDescriptorSets) {-# NOINLINE vkCmdBindDescriptorSets #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindDescriptorSets -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipelineLayout layout -- > , uint32_t firstSet -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > , uint32_t dynamicOffsetCount -- > , const uint32_t* pDynamicOffsets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindDescriptorSets <- vkGetInstanceProc @VkCmdBindDescriptorSets vkInstance -- -- or less efficient: -- -- > myCmdBindDescriptorSets <- vkGetProc @VkCmdBindDescriptorSets -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBindDescriptorSets" vkCmdBindDescriptorSetsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipelineLayout -- ^ layout -> Word32 -- ^ firstSet -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> Word32 -- ^ dynamicOffsetCount -> Ptr Word32 -- ^ pDynamicOffsets -> IO () ##else vkCmdBindDescriptorSetsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipelineLayout -- ^ layout -> Word32 -- ^ firstSet -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> Word32 -- ^ dynamicOffsetCount -> Ptr Word32 -- ^ pDynamicOffsets -> IO () vkCmdBindDescriptorSetsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBindDescriptorSets) {-# NOINLINE vkCmdBindDescriptorSetsSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBindDescriptorSets -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineBindPoint pipelineBindPoint -- > , VkPipelineLayout layout -- > , uint32_t firstSet -- > , uint32_t descriptorSetCount -- > , const VkDescriptorSet* pDescriptorSets -- > , uint32_t dynamicOffsetCount -- > , const uint32_t* pDynamicOffsets -- > ) -- -- type HS_vkCmdBindDescriptorSets = VkCommandBuffer -- ^ commandBuffer -> VkPipelineBindPoint -- ^ pipelineBindPoint -> VkPipelineLayout -- ^ layout -> Word32 -- ^ firstSet -> Word32 -- ^ descriptorSetCount -> Ptr VkDescriptorSet -- ^ pDescriptorSets -> Word32 -- ^ dynamicOffsetCount -> Ptr Word32 -- ^ pDynamicOffsets -> IO () type PFN_vkCmdBindDescriptorSets = FunPtr HS_vkCmdBindDescriptorSets foreign import ccall unsafe "dynamic" unwrapVkCmdBindDescriptorSets :: PFN_vkCmdBindDescriptorSets -> HS_vkCmdBindDescriptorSets foreign import ccall safe "dynamic" unwrapVkCmdBindDescriptorSetsSafe :: PFN_vkCmdBindDescriptorSets -> HS_vkCmdBindDescriptorSets instance VulkanProc "vkCmdBindDescriptorSets" where type VkProcType "vkCmdBindDescriptorSets" = HS_vkCmdBindDescriptorSets vkProcSymbol = _VkCmdBindDescriptorSets {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBindDescriptorSets {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBindDescriptorSetsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBindIndexBuffer :: CString pattern VkCmdBindIndexBuffer <- (is_VkCmdBindIndexBuffer -> True) where VkCmdBindIndexBuffer = _VkCmdBindIndexBuffer {-# INLINE _VkCmdBindIndexBuffer #-} _VkCmdBindIndexBuffer :: CString _VkCmdBindIndexBuffer = Ptr "vkCmdBindIndexBuffer\NUL"## {-# INLINE is_VkCmdBindIndexBuffer #-} is_VkCmdBindIndexBuffer :: CString -> Bool is_VkCmdBindIndexBuffer = (EQ ==) . cmpCStrings _VkCmdBindIndexBuffer type VkCmdBindIndexBuffer = "vkCmdBindIndexBuffer" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindIndexBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , VkIndexType indexType -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindIndexBuffer <- vkGetInstanceProc @VkCmdBindIndexBuffer vkInstance -- -- or less efficient: -- -- > myCmdBindIndexBuffer <- vkGetProc @VkCmdBindIndexBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBindIndexBuffer" vkCmdBindIndexBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> VkIndexType -- ^ indexType -> IO () ##else vkCmdBindIndexBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> VkIndexType -- ^ indexType -> IO () vkCmdBindIndexBuffer = unsafeDupablePerformIO (vkGetProc @VkCmdBindIndexBuffer) {-# NOINLINE vkCmdBindIndexBuffer #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindIndexBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , VkIndexType indexType -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindIndexBuffer <- vkGetInstanceProc @VkCmdBindIndexBuffer vkInstance -- -- or less efficient: -- -- > myCmdBindIndexBuffer <- vkGetProc @VkCmdBindIndexBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBindIndexBuffer" vkCmdBindIndexBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> VkIndexType -- ^ indexType -> IO () ##else vkCmdBindIndexBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> VkIndexType -- ^ indexType -> IO () vkCmdBindIndexBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBindIndexBuffer) {-# NOINLINE vkCmdBindIndexBufferSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindIndexBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , VkIndexType indexType -- > ) -- -- type HS_vkCmdBindIndexBuffer = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> VkIndexType -- ^ indexType -> IO () type PFN_vkCmdBindIndexBuffer = FunPtr HS_vkCmdBindIndexBuffer foreign import ccall unsafe "dynamic" unwrapVkCmdBindIndexBuffer :: PFN_vkCmdBindIndexBuffer -> HS_vkCmdBindIndexBuffer foreign import ccall safe "dynamic" unwrapVkCmdBindIndexBufferSafe :: PFN_vkCmdBindIndexBuffer -> HS_vkCmdBindIndexBuffer instance VulkanProc "vkCmdBindIndexBuffer" where type VkProcType "vkCmdBindIndexBuffer" = HS_vkCmdBindIndexBuffer vkProcSymbol = _VkCmdBindIndexBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBindIndexBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBindIndexBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBindVertexBuffers :: CString pattern VkCmdBindVertexBuffers <- (is_VkCmdBindVertexBuffers -> True) where VkCmdBindVertexBuffers = _VkCmdBindVertexBuffers {-# INLINE _VkCmdBindVertexBuffers #-} _VkCmdBindVertexBuffers :: CString _VkCmdBindVertexBuffers = Ptr "vkCmdBindVertexBuffers\NUL"## {-# INLINE is_VkCmdBindVertexBuffers #-} is_VkCmdBindVertexBuffers :: CString -> Bool is_VkCmdBindVertexBuffers = (EQ ==) . cmpCStrings _VkCmdBindVertexBuffers type VkCmdBindVertexBuffers = "vkCmdBindVertexBuffers" -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindVertexBuffers -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstBinding -- > , uint32_t bindingCount -- > , const VkBuffer* pBuffers -- > , const VkDeviceSize* pOffsets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindVertexBuffers <- vkGetInstanceProc @VkCmdBindVertexBuffers vkInstance -- -- or less efficient: -- -- > myCmdBindVertexBuffers <- vkGetProc @VkCmdBindVertexBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBindVertexBuffers" vkCmdBindVertexBuffers :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstBinding -> Word32 -- ^ bindingCount -> Ptr VkBuffer -- ^ pBuffers -> Ptr VkDeviceSize -- ^ pOffsets -> IO () ##else vkCmdBindVertexBuffers :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstBinding -> Word32 -- ^ bindingCount -> Ptr VkBuffer -- ^ pBuffers -> Ptr VkDeviceSize -- ^ pOffsets -> IO () vkCmdBindVertexBuffers = unsafeDupablePerformIO (vkGetProc @VkCmdBindVertexBuffers) {-# NOINLINE vkCmdBindVertexBuffers #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindVertexBuffers -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstBinding -- > , uint32_t bindingCount -- > , const VkBuffer* pBuffers -- > , const VkDeviceSize* pOffsets -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBindVertexBuffers <- vkGetInstanceProc @VkCmdBindVertexBuffers vkInstance -- -- or less efficient: -- -- > myCmdBindVertexBuffers <- vkGetProc @VkCmdBindVertexBuffers -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBindVertexBuffers" vkCmdBindVertexBuffersSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstBinding -> Word32 -- ^ bindingCount -> Ptr VkBuffer -- ^ pBuffers -> Ptr VkDeviceSize -- ^ pOffsets -> IO () ##else vkCmdBindVertexBuffersSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstBinding -> Word32 -- ^ bindingCount -> Ptr VkBuffer -- ^ pBuffers -> Ptr VkDeviceSize -- ^ pOffsets -> IO () vkCmdBindVertexBuffersSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBindVertexBuffers) {-# NOINLINE vkCmdBindVertexBuffersSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @both@ -- -- > void vkCmdBindVertexBuffers -- > ( VkCommandBuffer commandBuffer -- > , uint32_t firstBinding -- > , uint32_t bindingCount -- > , const VkBuffer* pBuffers -- > , const VkDeviceSize* pOffsets -- > ) -- -- type HS_vkCmdBindVertexBuffers = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ firstBinding -> Word32 -- ^ bindingCount -> Ptr VkBuffer -- ^ pBuffers -> Ptr VkDeviceSize -- ^ pOffsets -> IO () type PFN_vkCmdBindVertexBuffers = FunPtr HS_vkCmdBindVertexBuffers foreign import ccall unsafe "dynamic" unwrapVkCmdBindVertexBuffers :: PFN_vkCmdBindVertexBuffers -> HS_vkCmdBindVertexBuffers foreign import ccall safe "dynamic" unwrapVkCmdBindVertexBuffersSafe :: PFN_vkCmdBindVertexBuffers -> HS_vkCmdBindVertexBuffers instance VulkanProc "vkCmdBindVertexBuffers" where type VkProcType "vkCmdBindVertexBuffers" = HS_vkCmdBindVertexBuffers vkProcSymbol = _VkCmdBindVertexBuffers {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBindVertexBuffers {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBindVertexBuffersSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDraw :: CString pattern VkCmdDraw <- (is_VkCmdDraw -> True) where VkCmdDraw = _VkCmdDraw {-# INLINE _VkCmdDraw #-} _VkCmdDraw :: CString _VkCmdDraw = Ptr "vkCmdDraw\NUL"## {-# INLINE is_VkCmdDraw #-} is_VkCmdDraw :: CString -> Bool is_VkCmdDraw = (EQ ==) . cmpCStrings _VkCmdDraw type VkCmdDraw = "vkCmdDraw" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDraw -- > ( VkCommandBuffer commandBuffer -- > , uint32_t vertexCount -- > , uint32_t instanceCount -- > , uint32_t firstVertex -- > , uint32_t firstInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDraw <- vkGetInstanceProc @VkCmdDraw vkInstance -- -- or less efficient: -- -- > myCmdDraw <- vkGetProc @VkCmdDraw -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDraw" vkCmdDraw :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ vertexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstVertex -> Word32 -- ^ firstInstance -> IO () ##else vkCmdDraw :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ vertexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstVertex -> Word32 -- ^ firstInstance -> IO () vkCmdDraw = unsafeDupablePerformIO (vkGetProc @VkCmdDraw) {-# NOINLINE vkCmdDraw #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDraw -- > ( VkCommandBuffer commandBuffer -- > , uint32_t vertexCount -- > , uint32_t instanceCount -- > , uint32_t firstVertex -- > , uint32_t firstInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDraw <- vkGetInstanceProc @VkCmdDraw vkInstance -- -- or less efficient: -- -- > myCmdDraw <- vkGetProc @VkCmdDraw -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDraw" vkCmdDrawSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ vertexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstVertex -> Word32 -- ^ firstInstance -> IO () ##else vkCmdDrawSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ vertexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstVertex -> Word32 -- ^ firstInstance -> IO () vkCmdDrawSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDraw) {-# NOINLINE vkCmdDrawSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDraw -- > ( VkCommandBuffer commandBuffer -- > , uint32_t vertexCount -- > , uint32_t instanceCount -- > , uint32_t firstVertex -- > , uint32_t firstInstance -- > ) -- -- type HS_vkCmdDraw = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ vertexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstVertex -> Word32 -- ^ firstInstance -> IO () type PFN_vkCmdDraw = FunPtr HS_vkCmdDraw foreign import ccall unsafe "dynamic" unwrapVkCmdDraw :: PFN_vkCmdDraw -> HS_vkCmdDraw foreign import ccall safe "dynamic" unwrapVkCmdDrawSafe :: PFN_vkCmdDraw -> HS_vkCmdDraw instance VulkanProc "vkCmdDraw" where type VkProcType "vkCmdDraw" = HS_vkCmdDraw vkProcSymbol = _VkCmdDraw {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDraw {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDrawSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDrawIndexed :: CString pattern VkCmdDrawIndexed <- (is_VkCmdDrawIndexed -> True) where VkCmdDrawIndexed = _VkCmdDrawIndexed {-# INLINE _VkCmdDrawIndexed #-} _VkCmdDrawIndexed :: CString _VkCmdDrawIndexed = Ptr "vkCmdDrawIndexed\NUL"## {-# INLINE is_VkCmdDrawIndexed #-} is_VkCmdDrawIndexed :: CString -> Bool is_VkCmdDrawIndexed = (EQ ==) . cmpCStrings _VkCmdDrawIndexed type VkCmdDrawIndexed = "vkCmdDrawIndexed" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexed -- > ( VkCommandBuffer commandBuffer -- > , uint32_t indexCount -- > , uint32_t instanceCount -- > , uint32_t firstIndex -- > , int32_t vertexOffset -- > , uint32_t firstInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndexed <- vkGetInstanceProc @VkCmdDrawIndexed vkInstance -- -- or less efficient: -- -- > myCmdDrawIndexed <- vkGetProc @VkCmdDrawIndexed -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDrawIndexed" vkCmdDrawIndexed :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ indexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstIndex -> Int32 -- ^ vertexOffset -> Word32 -- ^ firstInstance -> IO () ##else vkCmdDrawIndexed :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ indexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstIndex -> Int32 -- ^ vertexOffset -> Word32 -- ^ firstInstance -> IO () vkCmdDrawIndexed = unsafeDupablePerformIO (vkGetProc @VkCmdDrawIndexed) {-# NOINLINE vkCmdDrawIndexed #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexed -- > ( VkCommandBuffer commandBuffer -- > , uint32_t indexCount -- > , uint32_t instanceCount -- > , uint32_t firstIndex -- > , int32_t vertexOffset -- > , uint32_t firstInstance -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndexed <- vkGetInstanceProc @VkCmdDrawIndexed vkInstance -- -- or less efficient: -- -- > myCmdDrawIndexed <- vkGetProc @VkCmdDrawIndexed -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDrawIndexed" vkCmdDrawIndexedSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ indexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstIndex -> Int32 -- ^ vertexOffset -> Word32 -- ^ firstInstance -> IO () ##else vkCmdDrawIndexedSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ indexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstIndex -> Int32 -- ^ vertexOffset -> Word32 -- ^ firstInstance -> IO () vkCmdDrawIndexedSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDrawIndexed) {-# NOINLINE vkCmdDrawIndexedSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexed -- > ( VkCommandBuffer commandBuffer -- > , uint32_t indexCount -- > , uint32_t instanceCount -- > , uint32_t firstIndex -- > , int32_t vertexOffset -- > , uint32_t firstInstance -- > ) -- -- type HS_vkCmdDrawIndexed = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ indexCount -> Word32 -- ^ instanceCount -> Word32 -- ^ firstIndex -> Int32 -- ^ vertexOffset -> Word32 -- ^ firstInstance -> IO () type PFN_vkCmdDrawIndexed = FunPtr HS_vkCmdDrawIndexed foreign import ccall unsafe "dynamic" unwrapVkCmdDrawIndexed :: PFN_vkCmdDrawIndexed -> HS_vkCmdDrawIndexed foreign import ccall safe "dynamic" unwrapVkCmdDrawIndexedSafe :: PFN_vkCmdDrawIndexed -> HS_vkCmdDrawIndexed instance VulkanProc "vkCmdDrawIndexed" where type VkProcType "vkCmdDrawIndexed" = HS_vkCmdDrawIndexed vkProcSymbol = _VkCmdDrawIndexed {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDrawIndexed {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDrawIndexedSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDrawIndirect :: CString pattern VkCmdDrawIndirect <- (is_VkCmdDrawIndirect -> True) where VkCmdDrawIndirect = _VkCmdDrawIndirect {-# INLINE _VkCmdDrawIndirect #-} _VkCmdDrawIndirect :: CString _VkCmdDrawIndirect = Ptr "vkCmdDrawIndirect\NUL"## {-# INLINE is_VkCmdDrawIndirect #-} is_VkCmdDrawIndirect :: CString -> Bool is_VkCmdDrawIndirect = (EQ ==) . cmpCStrings _VkCmdDrawIndirect type VkCmdDrawIndirect = "vkCmdDrawIndirect" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndirect <- vkGetInstanceProc @VkCmdDrawIndirect vkInstance -- -- or less efficient: -- -- > myCmdDrawIndirect <- vkGetProc @VkCmdDrawIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDrawIndirect" vkCmdDrawIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () ##else vkCmdDrawIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () vkCmdDrawIndirect = unsafeDupablePerformIO (vkGetProc @VkCmdDrawIndirect) {-# NOINLINE vkCmdDrawIndirect #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndirect <- vkGetInstanceProc @VkCmdDrawIndirect vkInstance -- -- or less efficient: -- -- > myCmdDrawIndirect <- vkGetProc @VkCmdDrawIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDrawIndirect" vkCmdDrawIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () ##else vkCmdDrawIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () vkCmdDrawIndirectSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDrawIndirect) {-# NOINLINE vkCmdDrawIndirectSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- type HS_vkCmdDrawIndirect = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () type PFN_vkCmdDrawIndirect = FunPtr HS_vkCmdDrawIndirect foreign import ccall unsafe "dynamic" unwrapVkCmdDrawIndirect :: PFN_vkCmdDrawIndirect -> HS_vkCmdDrawIndirect foreign import ccall safe "dynamic" unwrapVkCmdDrawIndirectSafe :: PFN_vkCmdDrawIndirect -> HS_vkCmdDrawIndirect instance VulkanProc "vkCmdDrawIndirect" where type VkProcType "vkCmdDrawIndirect" = HS_vkCmdDrawIndirect vkProcSymbol = _VkCmdDrawIndirect {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDrawIndirect {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDrawIndirectSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDrawIndexedIndirect :: CString pattern VkCmdDrawIndexedIndirect <- (is_VkCmdDrawIndexedIndirect -> True) where VkCmdDrawIndexedIndirect = _VkCmdDrawIndexedIndirect {-# INLINE _VkCmdDrawIndexedIndirect #-} _VkCmdDrawIndexedIndirect :: CString _VkCmdDrawIndexedIndirect = Ptr "vkCmdDrawIndexedIndirect\NUL"## {-# INLINE is_VkCmdDrawIndexedIndirect #-} is_VkCmdDrawIndexedIndirect :: CString -> Bool is_VkCmdDrawIndexedIndirect = (EQ ==) . cmpCStrings _VkCmdDrawIndexedIndirect type VkCmdDrawIndexedIndirect = "vkCmdDrawIndexedIndirect" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexedIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndexedIndirect <- vkGetInstanceProc @VkCmdDrawIndexedIndirect vkInstance -- -- or less efficient: -- -- > myCmdDrawIndexedIndirect <- vkGetProc @VkCmdDrawIndexedIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDrawIndexedIndirect" vkCmdDrawIndexedIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () ##else vkCmdDrawIndexedIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () vkCmdDrawIndexedIndirect = unsafeDupablePerformIO (vkGetProc @VkCmdDrawIndexedIndirect) {-# NOINLINE vkCmdDrawIndexedIndirect #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexedIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDrawIndexedIndirect <- vkGetInstanceProc @VkCmdDrawIndexedIndirect vkInstance -- -- or less efficient: -- -- > myCmdDrawIndexedIndirect <- vkGetProc @VkCmdDrawIndexedIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDrawIndexedIndirect" vkCmdDrawIndexedIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () ##else vkCmdDrawIndexedIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () vkCmdDrawIndexedIndirectSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDrawIndexedIndirect) {-# NOINLINE vkCmdDrawIndexedIndirectSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdDrawIndexedIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > , uint32_t drawCount -- > , uint32_t stride -- > ) -- -- type HS_vkCmdDrawIndexedIndirect = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> Word32 -- ^ drawCount -> Word32 -- ^ stride -> IO () type PFN_vkCmdDrawIndexedIndirect = FunPtr HS_vkCmdDrawIndexedIndirect foreign import ccall unsafe "dynamic" unwrapVkCmdDrawIndexedIndirect :: PFN_vkCmdDrawIndexedIndirect -> HS_vkCmdDrawIndexedIndirect foreign import ccall safe "dynamic" unwrapVkCmdDrawIndexedIndirectSafe :: PFN_vkCmdDrawIndexedIndirect -> HS_vkCmdDrawIndexedIndirect instance VulkanProc "vkCmdDrawIndexedIndirect" where type VkProcType "vkCmdDrawIndexedIndirect" = HS_vkCmdDrawIndexedIndirect vkProcSymbol = _VkCmdDrawIndexedIndirect {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDrawIndexedIndirect {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDrawIndexedIndirectSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDispatch :: CString pattern VkCmdDispatch <- (is_VkCmdDispatch -> True) where VkCmdDispatch = _VkCmdDispatch {-# INLINE _VkCmdDispatch #-} _VkCmdDispatch :: CString _VkCmdDispatch = Ptr "vkCmdDispatch\NUL"## {-# INLINE is_VkCmdDispatch #-} is_VkCmdDispatch :: CString -> Bool is_VkCmdDispatch = (EQ ==) . cmpCStrings _VkCmdDispatch type VkCmdDispatch = "vkCmdDispatch" -- | -- Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatch -- > ( VkCommandBuffer commandBuffer -- > , uint32_t groupCountX -- > , uint32_t groupCountY -- > , uint32_t groupCountZ -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDispatch <- vkGetInstanceProc @VkCmdDispatch vkInstance -- -- or less efficient: -- -- > myCmdDispatch <- vkGetProc @VkCmdDispatch -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDispatch" vkCmdDispatch :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ groupCountX -> Word32 -- ^ groupCountY -> Word32 -- ^ groupCountZ -> IO () ##else vkCmdDispatch :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ groupCountX -> Word32 -- ^ groupCountY -> Word32 -- ^ groupCountZ -> IO () vkCmdDispatch = unsafeDupablePerformIO (vkGetProc @VkCmdDispatch) {-# NOINLINE vkCmdDispatch #-} ##endif -- | -- Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatch -- > ( VkCommandBuffer commandBuffer -- > , uint32_t groupCountX -- > , uint32_t groupCountY -- > , uint32_t groupCountZ -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDispatch <- vkGetInstanceProc @VkCmdDispatch vkInstance -- -- or less efficient: -- -- > myCmdDispatch <- vkGetProc @VkCmdDispatch -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDispatch" vkCmdDispatchSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ groupCountX -> Word32 -- ^ groupCountY -> Word32 -- ^ groupCountZ -> IO () ##else vkCmdDispatchSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ groupCountX -> Word32 -- ^ groupCountY -> Word32 -- ^ groupCountZ -> IO () vkCmdDispatchSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDispatch) {-# NOINLINE vkCmdDispatchSafe #-} ##endif -- | Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatch -- > ( VkCommandBuffer commandBuffer -- > , uint32_t groupCountX -- > , uint32_t groupCountY -- > , uint32_t groupCountZ -- > ) -- -- type HS_vkCmdDispatch = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ groupCountX -> Word32 -- ^ groupCountY -> Word32 -- ^ groupCountZ -> IO () type PFN_vkCmdDispatch = FunPtr HS_vkCmdDispatch foreign import ccall unsafe "dynamic" unwrapVkCmdDispatch :: PFN_vkCmdDispatch -> HS_vkCmdDispatch foreign import ccall safe "dynamic" unwrapVkCmdDispatchSafe :: PFN_vkCmdDispatch -> HS_vkCmdDispatch instance VulkanProc "vkCmdDispatch" where type VkProcType "vkCmdDispatch" = HS_vkCmdDispatch vkProcSymbol = _VkCmdDispatch {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDispatch {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDispatchSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdDispatchIndirect :: CString pattern VkCmdDispatchIndirect <- (is_VkCmdDispatchIndirect -> True) where VkCmdDispatchIndirect = _VkCmdDispatchIndirect {-# INLINE _VkCmdDispatchIndirect #-} _VkCmdDispatchIndirect :: CString _VkCmdDispatchIndirect = Ptr "vkCmdDispatchIndirect\NUL"## {-# INLINE is_VkCmdDispatchIndirect #-} is_VkCmdDispatchIndirect :: CString -> Bool is_VkCmdDispatchIndirect = (EQ ==) . cmpCStrings _VkCmdDispatchIndirect type VkCmdDispatchIndirect = "vkCmdDispatchIndirect" -- | -- Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatchIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDispatchIndirect <- vkGetInstanceProc @VkCmdDispatchIndirect vkInstance -- -- or less efficient: -- -- > myCmdDispatchIndirect <- vkGetProc @VkCmdDispatchIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdDispatchIndirect" vkCmdDispatchIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> IO () ##else vkCmdDispatchIndirect :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> IO () vkCmdDispatchIndirect = unsafeDupablePerformIO (vkGetProc @VkCmdDispatchIndirect) {-# NOINLINE vkCmdDispatchIndirect #-} ##endif -- | -- Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatchIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdDispatchIndirect <- vkGetInstanceProc @VkCmdDispatchIndirect vkInstance -- -- or less efficient: -- -- > myCmdDispatchIndirect <- vkGetProc @VkCmdDispatchIndirect -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdDispatchIndirect" vkCmdDispatchIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> IO () ##else vkCmdDispatchIndirectSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> IO () vkCmdDispatchIndirectSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdDispatchIndirect) {-# NOINLINE vkCmdDispatchIndirectSafe #-} ##endif -- | Queues: 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @compute@ -- -- > void vkCmdDispatchIndirect -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer buffer -- > , VkDeviceSize offset -- > ) -- -- type HS_vkCmdDispatchIndirect = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ buffer -> VkDeviceSize -- ^ offset -> IO () type PFN_vkCmdDispatchIndirect = FunPtr HS_vkCmdDispatchIndirect foreign import ccall unsafe "dynamic" unwrapVkCmdDispatchIndirect :: PFN_vkCmdDispatchIndirect -> HS_vkCmdDispatchIndirect foreign import ccall safe "dynamic" unwrapVkCmdDispatchIndirectSafe :: PFN_vkCmdDispatchIndirect -> HS_vkCmdDispatchIndirect instance VulkanProc "vkCmdDispatchIndirect" where type VkProcType "vkCmdDispatchIndirect" = HS_vkCmdDispatchIndirect vkProcSymbol = _VkCmdDispatchIndirect {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdDispatchIndirect {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdDispatchIndirectSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdCopyBuffer :: CString pattern VkCmdCopyBuffer <- (is_VkCmdCopyBuffer -> True) where VkCmdCopyBuffer = _VkCmdCopyBuffer {-# INLINE _VkCmdCopyBuffer #-} _VkCmdCopyBuffer :: CString _VkCmdCopyBuffer = Ptr "vkCmdCopyBuffer\NUL"## {-# INLINE is_VkCmdCopyBuffer #-} is_VkCmdCopyBuffer :: CString -> Bool is_VkCmdCopyBuffer = (EQ ==) . cmpCStrings _VkCmdCopyBuffer type VkCmdCopyBuffer = "vkCmdCopyBuffer" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyBuffer <- vkGetInstanceProc @VkCmdCopyBuffer vkInstance -- -- or less efficient: -- -- > myCmdCopyBuffer <- vkGetProc @VkCmdCopyBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdCopyBuffer" vkCmdCopyBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferCopy -- ^ pRegions -> IO () ##else vkCmdCopyBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferCopy -- ^ pRegions -> IO () vkCmdCopyBuffer = unsafeDupablePerformIO (vkGetProc @VkCmdCopyBuffer) {-# NOINLINE vkCmdCopyBuffer #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyBuffer <- vkGetInstanceProc @VkCmdCopyBuffer vkInstance -- -- or less efficient: -- -- > myCmdCopyBuffer <- vkGetProc @VkCmdCopyBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdCopyBuffer" vkCmdCopyBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferCopy -- ^ pRegions -> IO () ##else vkCmdCopyBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferCopy -- ^ pRegions -> IO () vkCmdCopyBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdCopyBuffer) {-# NOINLINE vkCmdCopyBufferSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferCopy* pRegions -- > ) -- -- type HS_vkCmdCopyBuffer = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferCopy -- ^ pRegions -> IO () type PFN_vkCmdCopyBuffer = FunPtr HS_vkCmdCopyBuffer foreign import ccall unsafe "dynamic" unwrapVkCmdCopyBuffer :: PFN_vkCmdCopyBuffer -> HS_vkCmdCopyBuffer foreign import ccall safe "dynamic" unwrapVkCmdCopyBufferSafe :: PFN_vkCmdCopyBuffer -> HS_vkCmdCopyBuffer instance VulkanProc "vkCmdCopyBuffer" where type VkProcType "vkCmdCopyBuffer" = HS_vkCmdCopyBuffer vkProcSymbol = _VkCmdCopyBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdCopyBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdCopyBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdCopyImage :: CString pattern VkCmdCopyImage <- (is_VkCmdCopyImage -> True) where VkCmdCopyImage = _VkCmdCopyImage {-# INLINE _VkCmdCopyImage #-} _VkCmdCopyImage :: CString _VkCmdCopyImage = Ptr "vkCmdCopyImage\NUL"## {-# INLINE is_VkCmdCopyImage #-} is_VkCmdCopyImage :: CString -> Bool is_VkCmdCopyImage = (EQ ==) . cmpCStrings _VkCmdCopyImage type VkCmdCopyImage = "vkCmdCopyImage" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyImage <- vkGetInstanceProc @VkCmdCopyImage vkInstance -- -- or less efficient: -- -- > myCmdCopyImage <- vkGetProc @VkCmdCopyImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdCopyImage" vkCmdCopyImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageCopy -- ^ pRegions -> IO () vkCmdCopyImage = unsafeDupablePerformIO (vkGetProc @VkCmdCopyImage) {-# NOINLINE vkCmdCopyImage #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyImage <- vkGetInstanceProc @VkCmdCopyImage vkInstance -- -- or less efficient: -- -- > myCmdCopyImage <- vkGetProc @VkCmdCopyImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdCopyImage" vkCmdCopyImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageCopy -- ^ pRegions -> IO () vkCmdCopyImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdCopyImage) {-# NOINLINE vkCmdCopyImageSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageCopy* pRegions -- > ) -- -- type HS_vkCmdCopyImage = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageCopy -- ^ pRegions -> IO () type PFN_vkCmdCopyImage = FunPtr HS_vkCmdCopyImage foreign import ccall unsafe "dynamic" unwrapVkCmdCopyImage :: PFN_vkCmdCopyImage -> HS_vkCmdCopyImage foreign import ccall safe "dynamic" unwrapVkCmdCopyImageSafe :: PFN_vkCmdCopyImage -> HS_vkCmdCopyImage instance VulkanProc "vkCmdCopyImage" where type VkProcType "vkCmdCopyImage" = HS_vkCmdCopyImage vkProcSymbol = _VkCmdCopyImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdCopyImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdCopyImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBlitImage :: CString pattern VkCmdBlitImage <- (is_VkCmdBlitImage -> True) where VkCmdBlitImage = _VkCmdBlitImage {-# INLINE _VkCmdBlitImage #-} _VkCmdBlitImage :: CString _VkCmdBlitImage = Ptr "vkCmdBlitImage\NUL"## {-# INLINE is_VkCmdBlitImage #-} is_VkCmdBlitImage :: CString -> Bool is_VkCmdBlitImage = (EQ ==) . cmpCStrings _VkCmdBlitImage type VkCmdBlitImage = "vkCmdBlitImage" -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdBlitImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageBlit* pRegions -- > , VkFilter filter -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBlitImage <- vkGetInstanceProc @VkCmdBlitImage vkInstance -- -- or less efficient: -- -- > myCmdBlitImage <- vkGetProc @VkCmdBlitImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBlitImage" vkCmdBlitImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageBlit -- ^ pRegions -> VkFilter -- ^ filter -> IO () ##else vkCmdBlitImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageBlit -- ^ pRegions -> VkFilter -- ^ filter -> IO () vkCmdBlitImage = unsafeDupablePerformIO (vkGetProc @VkCmdBlitImage) {-# NOINLINE vkCmdBlitImage #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdBlitImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageBlit* pRegions -- > , VkFilter filter -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBlitImage <- vkGetInstanceProc @VkCmdBlitImage vkInstance -- -- or less efficient: -- -- > myCmdBlitImage <- vkGetProc @VkCmdBlitImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBlitImage" vkCmdBlitImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageBlit -- ^ pRegions -> VkFilter -- ^ filter -> IO () ##else vkCmdBlitImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageBlit -- ^ pRegions -> VkFilter -- ^ filter -> IO () vkCmdBlitImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBlitImage) {-# NOINLINE vkCmdBlitImageSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdBlitImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageBlit* pRegions -- > , VkFilter filter -- > ) -- -- type HS_vkCmdBlitImage = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageBlit -- ^ pRegions -> VkFilter -- ^ filter -> IO () type PFN_vkCmdBlitImage = FunPtr HS_vkCmdBlitImage foreign import ccall unsafe "dynamic" unwrapVkCmdBlitImage :: PFN_vkCmdBlitImage -> HS_vkCmdBlitImage foreign import ccall safe "dynamic" unwrapVkCmdBlitImageSafe :: PFN_vkCmdBlitImage -> HS_vkCmdBlitImage instance VulkanProc "vkCmdBlitImage" where type VkProcType "vkCmdBlitImage" = HS_vkCmdBlitImage vkProcSymbol = _VkCmdBlitImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBlitImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBlitImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdCopyBufferToImage :: CString pattern VkCmdCopyBufferToImage <- (is_VkCmdCopyBufferToImage -> True) where VkCmdCopyBufferToImage = _VkCmdCopyBufferToImage {-# INLINE _VkCmdCopyBufferToImage #-} _VkCmdCopyBufferToImage :: CString _VkCmdCopyBufferToImage = Ptr "vkCmdCopyBufferToImage\NUL"## {-# INLINE is_VkCmdCopyBufferToImage #-} is_VkCmdCopyBufferToImage :: CString -> Bool is_VkCmdCopyBufferToImage = (EQ ==) . cmpCStrings _VkCmdCopyBufferToImage type VkCmdCopyBufferToImage = "vkCmdCopyBufferToImage" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBufferToImage -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyBufferToImage <- vkGetInstanceProc @VkCmdCopyBufferToImage vkInstance -- -- or less efficient: -- -- > myCmdCopyBufferToImage <- vkGetProc @VkCmdCopyBufferToImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdCopyBufferToImage" vkCmdCopyBufferToImage :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyBufferToImage :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () vkCmdCopyBufferToImage = unsafeDupablePerformIO (vkGetProc @VkCmdCopyBufferToImage) {-# NOINLINE vkCmdCopyBufferToImage #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBufferToImage -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyBufferToImage <- vkGetInstanceProc @VkCmdCopyBufferToImage vkInstance -- -- or less efficient: -- -- > myCmdCopyBufferToImage <- vkGetProc @VkCmdCopyBufferToImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdCopyBufferToImage" vkCmdCopyBufferToImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyBufferToImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () vkCmdCopyBufferToImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdCopyBufferToImage) {-# NOINLINE vkCmdCopyBufferToImageSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyBufferToImage -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer srcBuffer -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- type HS_vkCmdCopyBufferToImage = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ srcBuffer -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () type PFN_vkCmdCopyBufferToImage = FunPtr HS_vkCmdCopyBufferToImage foreign import ccall unsafe "dynamic" unwrapVkCmdCopyBufferToImage :: PFN_vkCmdCopyBufferToImage -> HS_vkCmdCopyBufferToImage foreign import ccall safe "dynamic" unwrapVkCmdCopyBufferToImageSafe :: PFN_vkCmdCopyBufferToImage -> HS_vkCmdCopyBufferToImage instance VulkanProc "vkCmdCopyBufferToImage" where type VkProcType "vkCmdCopyBufferToImage" = HS_vkCmdCopyBufferToImage vkProcSymbol = _VkCmdCopyBufferToImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdCopyBufferToImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdCopyBufferToImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdCopyImageToBuffer :: CString pattern VkCmdCopyImageToBuffer <- (is_VkCmdCopyImageToBuffer -> True) where VkCmdCopyImageToBuffer = _VkCmdCopyImageToBuffer {-# INLINE _VkCmdCopyImageToBuffer #-} _VkCmdCopyImageToBuffer :: CString _VkCmdCopyImageToBuffer = Ptr "vkCmdCopyImageToBuffer\NUL"## {-# INLINE is_VkCmdCopyImageToBuffer #-} is_VkCmdCopyImageToBuffer :: CString -> Bool is_VkCmdCopyImageToBuffer = (EQ ==) . cmpCStrings _VkCmdCopyImageToBuffer type VkCmdCopyImageToBuffer = "vkCmdCopyImageToBuffer" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImageToBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyImageToBuffer <- vkGetInstanceProc @VkCmdCopyImageToBuffer vkInstance -- -- or less efficient: -- -- > myCmdCopyImageToBuffer <- vkGetProc @VkCmdCopyImageToBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdCopyImageToBuffer" vkCmdCopyImageToBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyImageToBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () vkCmdCopyImageToBuffer = unsafeDupablePerformIO (vkGetProc @VkCmdCopyImageToBuffer) {-# NOINLINE vkCmdCopyImageToBuffer #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImageToBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyImageToBuffer <- vkGetInstanceProc @VkCmdCopyImageToBuffer vkInstance -- -- or less efficient: -- -- > myCmdCopyImageToBuffer <- vkGetProc @VkCmdCopyImageToBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdCopyImageToBuffer" vkCmdCopyImageToBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () ##else vkCmdCopyImageToBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () vkCmdCopyImageToBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdCopyImageToBuffer) {-# NOINLINE vkCmdCopyImageToBufferSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyImageToBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkBuffer dstBuffer -- > , uint32_t regionCount -- > , const VkBufferImageCopy* pRegions -- > ) -- -- type HS_vkCmdCopyImageToBuffer = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkBuffer -- ^ dstBuffer -> Word32 -- ^ regionCount -> Ptr VkBufferImageCopy -- ^ pRegions -> IO () type PFN_vkCmdCopyImageToBuffer = FunPtr HS_vkCmdCopyImageToBuffer foreign import ccall unsafe "dynamic" unwrapVkCmdCopyImageToBuffer :: PFN_vkCmdCopyImageToBuffer -> HS_vkCmdCopyImageToBuffer foreign import ccall safe "dynamic" unwrapVkCmdCopyImageToBufferSafe :: PFN_vkCmdCopyImageToBuffer -> HS_vkCmdCopyImageToBuffer instance VulkanProc "vkCmdCopyImageToBuffer" where type VkProcType "vkCmdCopyImageToBuffer" = HS_vkCmdCopyImageToBuffer vkProcSymbol = _VkCmdCopyImageToBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdCopyImageToBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdCopyImageToBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdUpdateBuffer :: CString pattern VkCmdUpdateBuffer <- (is_VkCmdUpdateBuffer -> True) where VkCmdUpdateBuffer = _VkCmdUpdateBuffer {-# INLINE _VkCmdUpdateBuffer #-} _VkCmdUpdateBuffer :: CString _VkCmdUpdateBuffer = Ptr "vkCmdUpdateBuffer\NUL"## {-# INLINE is_VkCmdUpdateBuffer #-} is_VkCmdUpdateBuffer :: CString -> Bool is_VkCmdUpdateBuffer = (EQ ==) . cmpCStrings _VkCmdUpdateBuffer type VkCmdUpdateBuffer = "vkCmdUpdateBuffer" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdUpdateBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize dataSize -- > , const void* pData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdUpdateBuffer <- vkGetInstanceProc @VkCmdUpdateBuffer vkInstance -- -- or less efficient: -- -- > myCmdUpdateBuffer <- vkGetProc @VkCmdUpdateBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdUpdateBuffer" vkCmdUpdateBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ dataSize -> Ptr Void -- ^ pData -> IO () ##else vkCmdUpdateBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ dataSize -> Ptr Void -- ^ pData -> IO () vkCmdUpdateBuffer = unsafeDupablePerformIO (vkGetProc @VkCmdUpdateBuffer) {-# NOINLINE vkCmdUpdateBuffer #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdUpdateBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize dataSize -- > , const void* pData -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdUpdateBuffer <- vkGetInstanceProc @VkCmdUpdateBuffer vkInstance -- -- or less efficient: -- -- > myCmdUpdateBuffer <- vkGetProc @VkCmdUpdateBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdUpdateBuffer" vkCmdUpdateBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ dataSize -> Ptr Void -- ^ pData -> IO () ##else vkCmdUpdateBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ dataSize -> Ptr Void -- ^ pData -> IO () vkCmdUpdateBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdUpdateBuffer) {-# NOINLINE vkCmdUpdateBufferSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdUpdateBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize dataSize -- > , const void* pData -- > ) -- -- type HS_vkCmdUpdateBuffer = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ dataSize -> Ptr Void -- ^ pData -> IO () type PFN_vkCmdUpdateBuffer = FunPtr HS_vkCmdUpdateBuffer foreign import ccall unsafe "dynamic" unwrapVkCmdUpdateBuffer :: PFN_vkCmdUpdateBuffer -> HS_vkCmdUpdateBuffer foreign import ccall safe "dynamic" unwrapVkCmdUpdateBufferSafe :: PFN_vkCmdUpdateBuffer -> HS_vkCmdUpdateBuffer instance VulkanProc "vkCmdUpdateBuffer" where type VkProcType "vkCmdUpdateBuffer" = HS_vkCmdUpdateBuffer vkProcSymbol = _VkCmdUpdateBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdUpdateBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdUpdateBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdFillBuffer :: CString pattern VkCmdFillBuffer <- (is_VkCmdFillBuffer -> True) where VkCmdFillBuffer = _VkCmdFillBuffer {-# INLINE _VkCmdFillBuffer #-} _VkCmdFillBuffer :: CString _VkCmdFillBuffer = Ptr "vkCmdFillBuffer\NUL"## {-# INLINE is_VkCmdFillBuffer #-} is_VkCmdFillBuffer :: CString -> Bool is_VkCmdFillBuffer = (EQ ==) . cmpCStrings _VkCmdFillBuffer type VkCmdFillBuffer = "vkCmdFillBuffer" -- | -- transfer support is only available when VK_KHR_maintenance1 is enabled, as documented in valid usage language in the specification -- -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdFillBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize size -- > , uint32_t data -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdFillBuffer <- vkGetInstanceProc @VkCmdFillBuffer vkInstance -- -- or less efficient: -- -- > myCmdFillBuffer <- vkGetProc @VkCmdFillBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdFillBuffer" vkCmdFillBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ size -> Word32 -- ^ data -> IO () ##else vkCmdFillBuffer :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ size -> Word32 -- ^ data -> IO () vkCmdFillBuffer = unsafeDupablePerformIO (vkGetProc @VkCmdFillBuffer) {-# NOINLINE vkCmdFillBuffer #-} ##endif -- | -- transfer support is only available when VK_KHR_maintenance1 is enabled, as documented in valid usage language in the specification -- -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdFillBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize size -- > , uint32_t data -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdFillBuffer <- vkGetInstanceProc @VkCmdFillBuffer vkInstance -- -- or less efficient: -- -- > myCmdFillBuffer <- vkGetProc @VkCmdFillBuffer -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdFillBuffer" vkCmdFillBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ size -> Word32 -- ^ data -> IO () ##else vkCmdFillBufferSafe :: VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ size -> Word32 -- ^ data -> IO () vkCmdFillBufferSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdFillBuffer) {-# NOINLINE vkCmdFillBufferSafe #-} ##endif -- | transfer support is only available when VK_KHR_maintenance1 is enabled, as documented in valid usage language in the specification -- -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdFillBuffer -- > ( VkCommandBuffer commandBuffer -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize size -- > , uint32_t data -- > ) -- -- type HS_vkCmdFillBuffer = VkCommandBuffer -- ^ commandBuffer -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ size -> Word32 -- ^ data -> IO () type PFN_vkCmdFillBuffer = FunPtr HS_vkCmdFillBuffer foreign import ccall unsafe "dynamic" unwrapVkCmdFillBuffer :: PFN_vkCmdFillBuffer -> HS_vkCmdFillBuffer foreign import ccall safe "dynamic" unwrapVkCmdFillBufferSafe :: PFN_vkCmdFillBuffer -> HS_vkCmdFillBuffer instance VulkanProc "vkCmdFillBuffer" where type VkProcType "vkCmdFillBuffer" = HS_vkCmdFillBuffer vkProcSymbol = _VkCmdFillBuffer {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdFillBuffer {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdFillBufferSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdClearColorImage :: CString pattern VkCmdClearColorImage <- (is_VkCmdClearColorImage -> True) where VkCmdClearColorImage = _VkCmdClearColorImage {-# INLINE _VkCmdClearColorImage #-} _VkCmdClearColorImage :: CString _VkCmdClearColorImage = Ptr "vkCmdClearColorImage\NUL"## {-# INLINE is_VkCmdClearColorImage #-} is_VkCmdClearColorImage :: CString -> Bool is_VkCmdClearColorImage = (EQ ==) . cmpCStrings _VkCmdClearColorImage type VkCmdClearColorImage = "vkCmdClearColorImage" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearColorImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearColorValue* pColor -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearColorImage <- vkGetInstanceProc @VkCmdClearColorImage vkInstance -- -- or less efficient: -- -- > myCmdClearColorImage <- vkGetProc @VkCmdClearColorImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdClearColorImage" vkCmdClearColorImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearColorValue -- ^ pColor -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () ##else vkCmdClearColorImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearColorValue -- ^ pColor -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () vkCmdClearColorImage = unsafeDupablePerformIO (vkGetProc @VkCmdClearColorImage) {-# NOINLINE vkCmdClearColorImage #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearColorImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearColorValue* pColor -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearColorImage <- vkGetInstanceProc @VkCmdClearColorImage vkInstance -- -- or less efficient: -- -- > myCmdClearColorImage <- vkGetProc @VkCmdClearColorImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdClearColorImage" vkCmdClearColorImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearColorValue -- ^ pColor -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () ##else vkCmdClearColorImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearColorValue -- ^ pColor -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () vkCmdClearColorImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdClearColorImage) {-# NOINLINE vkCmdClearColorImageSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearColorImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearColorValue* pColor -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- type HS_vkCmdClearColorImage = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearColorValue -- ^ pColor -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () type PFN_vkCmdClearColorImage = FunPtr HS_vkCmdClearColorImage foreign import ccall unsafe "dynamic" unwrapVkCmdClearColorImage :: PFN_vkCmdClearColorImage -> HS_vkCmdClearColorImage foreign import ccall safe "dynamic" unwrapVkCmdClearColorImageSafe :: PFN_vkCmdClearColorImage -> HS_vkCmdClearColorImage instance VulkanProc "vkCmdClearColorImage" where type VkProcType "vkCmdClearColorImage" = HS_vkCmdClearColorImage vkProcSymbol = _VkCmdClearColorImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdClearColorImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdClearColorImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdClearDepthStencilImage :: CString pattern VkCmdClearDepthStencilImage <- (is_VkCmdClearDepthStencilImage -> True) where VkCmdClearDepthStencilImage = _VkCmdClearDepthStencilImage {-# INLINE _VkCmdClearDepthStencilImage #-} _VkCmdClearDepthStencilImage :: CString _VkCmdClearDepthStencilImage = Ptr "vkCmdClearDepthStencilImage\NUL"## {-# INLINE is_VkCmdClearDepthStencilImage #-} is_VkCmdClearDepthStencilImage :: CString -> Bool is_VkCmdClearDepthStencilImage = (EQ ==) . cmpCStrings _VkCmdClearDepthStencilImage type VkCmdClearDepthStencilImage = "vkCmdClearDepthStencilImage" -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearDepthStencilImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearDepthStencilValue* pDepthStencil -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearDepthStencilImage <- vkGetInstanceProc @VkCmdClearDepthStencilImage vkInstance -- -- or less efficient: -- -- > myCmdClearDepthStencilImage <- vkGetProc @VkCmdClearDepthStencilImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdClearDepthStencilImage" vkCmdClearDepthStencilImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearDepthStencilValue -- ^ pDepthStencil -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () ##else vkCmdClearDepthStencilImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearDepthStencilValue -- ^ pDepthStencil -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () vkCmdClearDepthStencilImage = unsafeDupablePerformIO (vkGetProc @VkCmdClearDepthStencilImage) {-# NOINLINE vkCmdClearDepthStencilImage #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearDepthStencilImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearDepthStencilValue* pDepthStencil -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearDepthStencilImage <- vkGetInstanceProc @VkCmdClearDepthStencilImage vkInstance -- -- or less efficient: -- -- > myCmdClearDepthStencilImage <- vkGetProc @VkCmdClearDepthStencilImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdClearDepthStencilImage" vkCmdClearDepthStencilImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearDepthStencilValue -- ^ pDepthStencil -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () ##else vkCmdClearDepthStencilImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearDepthStencilValue -- ^ pDepthStencil -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () vkCmdClearDepthStencilImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdClearDepthStencilImage) {-# NOINLINE vkCmdClearDepthStencilImageSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdClearDepthStencilImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage image -- > , VkImageLayout imageLayout -- > , const VkClearDepthStencilValue* pDepthStencil -- > , uint32_t rangeCount -- > , const VkImageSubresourceRange* pRanges -- > ) -- -- type HS_vkCmdClearDepthStencilImage = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ image -> VkImageLayout -- ^ imageLayout -> Ptr VkClearDepthStencilValue -- ^ pDepthStencil -> Word32 -- ^ rangeCount -> Ptr VkImageSubresourceRange -- ^ pRanges -> IO () type PFN_vkCmdClearDepthStencilImage = FunPtr HS_vkCmdClearDepthStencilImage foreign import ccall unsafe "dynamic" unwrapVkCmdClearDepthStencilImage :: PFN_vkCmdClearDepthStencilImage -> HS_vkCmdClearDepthStencilImage foreign import ccall safe "dynamic" unwrapVkCmdClearDepthStencilImageSafe :: PFN_vkCmdClearDepthStencilImage -> HS_vkCmdClearDepthStencilImage instance VulkanProc "vkCmdClearDepthStencilImage" where type VkProcType "vkCmdClearDepthStencilImage" = HS_vkCmdClearDepthStencilImage vkProcSymbol = _VkCmdClearDepthStencilImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdClearDepthStencilImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdClearDepthStencilImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdClearAttachments :: CString pattern VkCmdClearAttachments <- (is_VkCmdClearAttachments -> True) where VkCmdClearAttachments = _VkCmdClearAttachments {-# INLINE _VkCmdClearAttachments #-} _VkCmdClearAttachments :: CString _VkCmdClearAttachments = Ptr "vkCmdClearAttachments\NUL"## {-# INLINE is_VkCmdClearAttachments #-} is_VkCmdClearAttachments :: CString -> Bool is_VkCmdClearAttachments = (EQ ==) . cmpCStrings _VkCmdClearAttachments type VkCmdClearAttachments = "vkCmdClearAttachments" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdClearAttachments -- > ( VkCommandBuffer commandBuffer -- > , uint32_t attachmentCount -- > , const VkClearAttachment* pAttachments -- > , uint32_t rectCount -- > , const VkClearRect* pRects -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearAttachments <- vkGetInstanceProc @VkCmdClearAttachments vkInstance -- -- or less efficient: -- -- > myCmdClearAttachments <- vkGetProc @VkCmdClearAttachments -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdClearAttachments" vkCmdClearAttachments :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ attachmentCount -> Ptr VkClearAttachment -- ^ pAttachments -> Word32 -- ^ rectCount -> Ptr VkClearRect -- ^ pRects -> IO () ##else vkCmdClearAttachments :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ attachmentCount -> Ptr VkClearAttachment -- ^ pAttachments -> Word32 -- ^ rectCount -> Ptr VkClearRect -- ^ pRects -> IO () vkCmdClearAttachments = unsafeDupablePerformIO (vkGetProc @VkCmdClearAttachments) {-# NOINLINE vkCmdClearAttachments #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdClearAttachments -- > ( VkCommandBuffer commandBuffer -- > , uint32_t attachmentCount -- > , const VkClearAttachment* pAttachments -- > , uint32_t rectCount -- > , const VkClearRect* pRects -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdClearAttachments <- vkGetInstanceProc @VkCmdClearAttachments vkInstance -- -- or less efficient: -- -- > myCmdClearAttachments <- vkGetProc @VkCmdClearAttachments -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdClearAttachments" vkCmdClearAttachmentsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ attachmentCount -> Ptr VkClearAttachment -- ^ pAttachments -> Word32 -- ^ rectCount -> Ptr VkClearRect -- ^ pRects -> IO () ##else vkCmdClearAttachmentsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ attachmentCount -> Ptr VkClearAttachment -- ^ pAttachments -> Word32 -- ^ rectCount -> Ptr VkClearRect -- ^ pRects -> IO () vkCmdClearAttachmentsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdClearAttachments) {-# NOINLINE vkCmdClearAttachmentsSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdClearAttachments -- > ( VkCommandBuffer commandBuffer -- > , uint32_t attachmentCount -- > , const VkClearAttachment* pAttachments -- > , uint32_t rectCount -- > , const VkClearRect* pRects -- > ) -- -- type HS_vkCmdClearAttachments = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ attachmentCount -> Ptr VkClearAttachment -- ^ pAttachments -> Word32 -- ^ rectCount -> Ptr VkClearRect -- ^ pRects -> IO () type PFN_vkCmdClearAttachments = FunPtr HS_vkCmdClearAttachments foreign import ccall unsafe "dynamic" unwrapVkCmdClearAttachments :: PFN_vkCmdClearAttachments -> HS_vkCmdClearAttachments foreign import ccall safe "dynamic" unwrapVkCmdClearAttachmentsSafe :: PFN_vkCmdClearAttachments -> HS_vkCmdClearAttachments instance VulkanProc "vkCmdClearAttachments" where type VkProcType "vkCmdClearAttachments" = HS_vkCmdClearAttachments vkProcSymbol = _VkCmdClearAttachments {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdClearAttachments {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdClearAttachmentsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdResolveImage :: CString pattern VkCmdResolveImage <- (is_VkCmdResolveImage -> True) where VkCmdResolveImage = _VkCmdResolveImage {-# INLINE _VkCmdResolveImage #-} _VkCmdResolveImage :: CString _VkCmdResolveImage = Ptr "vkCmdResolveImage\NUL"## {-# INLINE is_VkCmdResolveImage #-} is_VkCmdResolveImage :: CString -> Bool is_VkCmdResolveImage = (EQ ==) . cmpCStrings _VkCmdResolveImage type VkCmdResolveImage = "vkCmdResolveImage" -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdResolveImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageResolve* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResolveImage <- vkGetInstanceProc @VkCmdResolveImage vkInstance -- -- or less efficient: -- -- > myCmdResolveImage <- vkGetProc @VkCmdResolveImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdResolveImage" vkCmdResolveImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageResolve -- ^ pRegions -> IO () ##else vkCmdResolveImage :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageResolve -- ^ pRegions -> IO () vkCmdResolveImage = unsafeDupablePerformIO (vkGetProc @VkCmdResolveImage) {-# NOINLINE vkCmdResolveImage #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdResolveImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageResolve* pRegions -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResolveImage <- vkGetInstanceProc @VkCmdResolveImage vkInstance -- -- or less efficient: -- -- > myCmdResolveImage <- vkGetProc @VkCmdResolveImage -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdResolveImage" vkCmdResolveImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageResolve -- ^ pRegions -> IO () ##else vkCmdResolveImageSafe :: VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageResolve -- ^ pRegions -> IO () vkCmdResolveImageSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdResolveImage) {-# NOINLINE vkCmdResolveImageSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdResolveImage -- > ( VkCommandBuffer commandBuffer -- > , VkImage srcImage -- > , VkImageLayout srcImageLayout -- > , VkImage dstImage -- > , VkImageLayout dstImageLayout -- > , uint32_t regionCount -- > , const VkImageResolve* pRegions -- > ) -- -- type HS_vkCmdResolveImage = VkCommandBuffer -- ^ commandBuffer -> VkImage -- ^ srcImage -> VkImageLayout -- ^ srcImageLayout -> VkImage -- ^ dstImage -> VkImageLayout -- ^ dstImageLayout -> Word32 -- ^ regionCount -> Ptr VkImageResolve -- ^ pRegions -> IO () type PFN_vkCmdResolveImage = FunPtr HS_vkCmdResolveImage foreign import ccall unsafe "dynamic" unwrapVkCmdResolveImage :: PFN_vkCmdResolveImage -> HS_vkCmdResolveImage foreign import ccall safe "dynamic" unwrapVkCmdResolveImageSafe :: PFN_vkCmdResolveImage -> HS_vkCmdResolveImage instance VulkanProc "vkCmdResolveImage" where type VkProcType "vkCmdResolveImage" = HS_vkCmdResolveImage vkProcSymbol = _VkCmdResolveImage {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdResolveImage {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdResolveImageSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdSetEvent :: CString pattern VkCmdSetEvent <- (is_VkCmdSetEvent -> True) where VkCmdSetEvent = _VkCmdSetEvent {-# INLINE _VkCmdSetEvent #-} _VkCmdSetEvent :: CString _VkCmdSetEvent = Ptr "vkCmdSetEvent\NUL"## {-# INLINE is_VkCmdSetEvent #-} is_VkCmdSetEvent :: CString -> Bool is_VkCmdSetEvent = (EQ ==) . cmpCStrings _VkCmdSetEvent type VkCmdSetEvent = "vkCmdSetEvent" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdSetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetEvent <- vkGetInstanceProc @VkCmdSetEvent vkInstance -- -- or less efficient: -- -- > myCmdSetEvent <- vkGetProc @VkCmdSetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdSetEvent" vkCmdSetEvent :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () ##else vkCmdSetEvent :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () vkCmdSetEvent = unsafeDupablePerformIO (vkGetProc @VkCmdSetEvent) {-# NOINLINE vkCmdSetEvent #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdSetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdSetEvent <- vkGetInstanceProc @VkCmdSetEvent vkInstance -- -- or less efficient: -- -- > myCmdSetEvent <- vkGetProc @VkCmdSetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdSetEvent" vkCmdSetEventSafe :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () ##else vkCmdSetEventSafe :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () vkCmdSetEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdSetEvent) {-# NOINLINE vkCmdSetEventSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdSetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- type HS_vkCmdSetEvent = VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () type PFN_vkCmdSetEvent = FunPtr HS_vkCmdSetEvent foreign import ccall unsafe "dynamic" unwrapVkCmdSetEvent :: PFN_vkCmdSetEvent -> HS_vkCmdSetEvent foreign import ccall safe "dynamic" unwrapVkCmdSetEventSafe :: PFN_vkCmdSetEvent -> HS_vkCmdSetEvent instance VulkanProc "vkCmdSetEvent" where type VkProcType "vkCmdSetEvent" = HS_vkCmdSetEvent vkProcSymbol = _VkCmdSetEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdSetEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdSetEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdResetEvent :: CString pattern VkCmdResetEvent <- (is_VkCmdResetEvent -> True) where VkCmdResetEvent = _VkCmdResetEvent {-# INLINE _VkCmdResetEvent #-} _VkCmdResetEvent :: CString _VkCmdResetEvent = Ptr "vkCmdResetEvent\NUL"## {-# INLINE is_VkCmdResetEvent #-} is_VkCmdResetEvent :: CString -> Bool is_VkCmdResetEvent = (EQ ==) . cmpCStrings _VkCmdResetEvent type VkCmdResetEvent = "vkCmdResetEvent" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResetEvent <- vkGetInstanceProc @VkCmdResetEvent vkInstance -- -- or less efficient: -- -- > myCmdResetEvent <- vkGetProc @VkCmdResetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdResetEvent" vkCmdResetEvent :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () ##else vkCmdResetEvent :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () vkCmdResetEvent = unsafeDupablePerformIO (vkGetProc @VkCmdResetEvent) {-# NOINLINE vkCmdResetEvent #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResetEvent <- vkGetInstanceProc @VkCmdResetEvent vkInstance -- -- or less efficient: -- -- > myCmdResetEvent <- vkGetProc @VkCmdResetEvent -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdResetEvent" vkCmdResetEventSafe :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () ##else vkCmdResetEventSafe :: VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () vkCmdResetEventSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdResetEvent) {-# NOINLINE vkCmdResetEventSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetEvent -- > ( VkCommandBuffer commandBuffer -- > , VkEvent event -- > , VkPipelineStageFlags stageMask -- > ) -- -- type HS_vkCmdResetEvent = VkCommandBuffer -- ^ commandBuffer -> VkEvent -- ^ event -> VkPipelineStageFlags -- ^ stageMask -> IO () type PFN_vkCmdResetEvent = FunPtr HS_vkCmdResetEvent foreign import ccall unsafe "dynamic" unwrapVkCmdResetEvent :: PFN_vkCmdResetEvent -> HS_vkCmdResetEvent foreign import ccall safe "dynamic" unwrapVkCmdResetEventSafe :: PFN_vkCmdResetEvent -> HS_vkCmdResetEvent instance VulkanProc "vkCmdResetEvent" where type VkProcType "vkCmdResetEvent" = HS_vkCmdResetEvent vkProcSymbol = _VkCmdResetEvent {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdResetEvent {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdResetEventSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdWaitEvents :: CString pattern VkCmdWaitEvents <- (is_VkCmdWaitEvents -> True) where VkCmdWaitEvents = _VkCmdWaitEvents {-# INLINE _VkCmdWaitEvents #-} _VkCmdWaitEvents :: CString _VkCmdWaitEvents = Ptr "vkCmdWaitEvents\NUL"## {-# INLINE is_VkCmdWaitEvents #-} is_VkCmdWaitEvents :: CString -> Bool is_VkCmdWaitEvents = (EQ ==) . cmpCStrings _VkCmdWaitEvents type VkCmdWaitEvents = "vkCmdWaitEvents" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdWaitEvents -- > ( VkCommandBuffer commandBuffer -- > , uint32_t eventCount -- > , const VkEvent* pEvents -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdWaitEvents <- vkGetInstanceProc @VkCmdWaitEvents vkInstance -- -- or less efficient: -- -- > myCmdWaitEvents <- vkGetProc @VkCmdWaitEvents -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdWaitEvents" vkCmdWaitEvents :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ eventCount -> Ptr VkEvent -- ^ pEvents -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () ##else vkCmdWaitEvents :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ eventCount -> Ptr VkEvent -- ^ pEvents -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () vkCmdWaitEvents = unsafeDupablePerformIO (vkGetProc @VkCmdWaitEvents) {-# NOINLINE vkCmdWaitEvents #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdWaitEvents -- > ( VkCommandBuffer commandBuffer -- > , uint32_t eventCount -- > , const VkEvent* pEvents -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdWaitEvents <- vkGetInstanceProc @VkCmdWaitEvents vkInstance -- -- or less efficient: -- -- > myCmdWaitEvents <- vkGetProc @VkCmdWaitEvents -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdWaitEvents" vkCmdWaitEventsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ eventCount -> Ptr VkEvent -- ^ pEvents -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () ##else vkCmdWaitEventsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ eventCount -> Ptr VkEvent -- ^ pEvents -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () vkCmdWaitEventsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdWaitEvents) {-# NOINLINE vkCmdWaitEventsSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdWaitEvents -- > ( VkCommandBuffer commandBuffer -- > , uint32_t eventCount -- > , const VkEvent* pEvents -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- type HS_vkCmdWaitEvents = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ eventCount -> Ptr VkEvent -- ^ pEvents -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () type PFN_vkCmdWaitEvents = FunPtr HS_vkCmdWaitEvents foreign import ccall unsafe "dynamic" unwrapVkCmdWaitEvents :: PFN_vkCmdWaitEvents -> HS_vkCmdWaitEvents foreign import ccall safe "dynamic" unwrapVkCmdWaitEventsSafe :: PFN_vkCmdWaitEvents -> HS_vkCmdWaitEvents instance VulkanProc "vkCmdWaitEvents" where type VkProcType "vkCmdWaitEvents" = HS_vkCmdWaitEvents vkProcSymbol = _VkCmdWaitEvents {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdWaitEvents {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdWaitEventsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdPipelineBarrier :: CString pattern VkCmdPipelineBarrier <- (is_VkCmdPipelineBarrier -> True) where VkCmdPipelineBarrier = _VkCmdPipelineBarrier {-# INLINE _VkCmdPipelineBarrier #-} _VkCmdPipelineBarrier :: CString _VkCmdPipelineBarrier = Ptr "vkCmdPipelineBarrier\NUL"## {-# INLINE is_VkCmdPipelineBarrier #-} is_VkCmdPipelineBarrier :: CString -> Bool is_VkCmdPipelineBarrier = (EQ ==) . cmpCStrings _VkCmdPipelineBarrier type VkCmdPipelineBarrier = "vkCmdPipelineBarrier" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPipelineBarrier -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , VkDependencyFlags dependencyFlags -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdPipelineBarrier <- vkGetInstanceProc @VkCmdPipelineBarrier vkInstance -- -- or less efficient: -- -- > myCmdPipelineBarrier <- vkGetProc @VkCmdPipelineBarrier -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdPipelineBarrier" vkCmdPipelineBarrier :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> VkDependencyFlags -- ^ dependencyFlags -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () ##else vkCmdPipelineBarrier :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> VkDependencyFlags -- ^ dependencyFlags -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () vkCmdPipelineBarrier = unsafeDupablePerformIO (vkGetProc @VkCmdPipelineBarrier) {-# NOINLINE vkCmdPipelineBarrier #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPipelineBarrier -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , VkDependencyFlags dependencyFlags -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdPipelineBarrier <- vkGetInstanceProc @VkCmdPipelineBarrier vkInstance -- -- or less efficient: -- -- > myCmdPipelineBarrier <- vkGetProc @VkCmdPipelineBarrier -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdPipelineBarrier" vkCmdPipelineBarrierSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> VkDependencyFlags -- ^ dependencyFlags -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () ##else vkCmdPipelineBarrierSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> VkDependencyFlags -- ^ dependencyFlags -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () vkCmdPipelineBarrierSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdPipelineBarrier) {-# NOINLINE vkCmdPipelineBarrierSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPipelineBarrier -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlags srcStageMask -- > , VkPipelineStageFlags dstStageMask -- > , VkDependencyFlags dependencyFlags -- > , uint32_t memoryBarrierCount -- > , const VkMemoryBarrier* pMemoryBarriers -- > , uint32_t bufferMemoryBarrierCount -- > , const VkBufferMemoryBarrier* pBufferMemoryBarriers -- > , uint32_t imageMemoryBarrierCount -- > , const VkImageMemoryBarrier* pImageMemoryBarriers -- > ) -- -- type HS_vkCmdPipelineBarrier = VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlags -- ^ srcStageMask -> VkPipelineStageFlags -- ^ dstStageMask -> VkDependencyFlags -- ^ dependencyFlags -> Word32 -- ^ memoryBarrierCount -> Ptr VkMemoryBarrier -- ^ pMemoryBarriers -> Word32 -- ^ bufferMemoryBarrierCount -> Ptr VkBufferMemoryBarrier -- ^ pBufferMemoryBarriers -> Word32 -- ^ imageMemoryBarrierCount -> Ptr VkImageMemoryBarrier -- ^ pImageMemoryBarriers -> IO () type PFN_vkCmdPipelineBarrier = FunPtr HS_vkCmdPipelineBarrier foreign import ccall unsafe "dynamic" unwrapVkCmdPipelineBarrier :: PFN_vkCmdPipelineBarrier -> HS_vkCmdPipelineBarrier foreign import ccall safe "dynamic" unwrapVkCmdPipelineBarrierSafe :: PFN_vkCmdPipelineBarrier -> HS_vkCmdPipelineBarrier instance VulkanProc "vkCmdPipelineBarrier" where type VkProcType "vkCmdPipelineBarrier" = HS_vkCmdPipelineBarrier vkProcSymbol = _VkCmdPipelineBarrier {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdPipelineBarrier {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdPipelineBarrierSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBeginQuery :: CString pattern VkCmdBeginQuery <- (is_VkCmdBeginQuery -> True) where VkCmdBeginQuery = _VkCmdBeginQuery {-# INLINE _VkCmdBeginQuery #-} _VkCmdBeginQuery :: CString _VkCmdBeginQuery = Ptr "vkCmdBeginQuery\NUL"## {-# INLINE is_VkCmdBeginQuery #-} is_VkCmdBeginQuery :: CString -> Bool is_VkCmdBeginQuery = (EQ ==) . cmpCStrings _VkCmdBeginQuery type VkCmdBeginQuery = "vkCmdBeginQuery" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBeginQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > , VkQueryControlFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBeginQuery <- vkGetInstanceProc @VkCmdBeginQuery vkInstance -- -- or less efficient: -- -- > myCmdBeginQuery <- vkGetProc @VkCmdBeginQuery -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBeginQuery" vkCmdBeginQuery :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> VkQueryControlFlags -- ^ flags -> IO () ##else vkCmdBeginQuery :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> VkQueryControlFlags -- ^ flags -> IO () vkCmdBeginQuery = unsafeDupablePerformIO (vkGetProc @VkCmdBeginQuery) {-# NOINLINE vkCmdBeginQuery #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBeginQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > , VkQueryControlFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBeginQuery <- vkGetInstanceProc @VkCmdBeginQuery vkInstance -- -- or less efficient: -- -- > myCmdBeginQuery <- vkGetProc @VkCmdBeginQuery -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBeginQuery" vkCmdBeginQuerySafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> VkQueryControlFlags -- ^ flags -> IO () ##else vkCmdBeginQuerySafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> VkQueryControlFlags -- ^ flags -> IO () vkCmdBeginQuerySafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBeginQuery) {-# NOINLINE vkCmdBeginQuerySafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdBeginQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > , VkQueryControlFlags flags -- > ) -- -- type HS_vkCmdBeginQuery = VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> VkQueryControlFlags -- ^ flags -> IO () type PFN_vkCmdBeginQuery = FunPtr HS_vkCmdBeginQuery foreign import ccall unsafe "dynamic" unwrapVkCmdBeginQuery :: PFN_vkCmdBeginQuery -> HS_vkCmdBeginQuery foreign import ccall safe "dynamic" unwrapVkCmdBeginQuerySafe :: PFN_vkCmdBeginQuery -> HS_vkCmdBeginQuery instance VulkanProc "vkCmdBeginQuery" where type VkProcType "vkCmdBeginQuery" = HS_vkCmdBeginQuery vkProcSymbol = _VkCmdBeginQuery {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBeginQuery {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBeginQuerySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdEndQuery :: CString pattern VkCmdEndQuery <- (is_VkCmdEndQuery -> True) where VkCmdEndQuery = _VkCmdEndQuery {-# INLINE _VkCmdEndQuery #-} _VkCmdEndQuery :: CString _VkCmdEndQuery = Ptr "vkCmdEndQuery\NUL"## {-# INLINE is_VkCmdEndQuery #-} is_VkCmdEndQuery :: CString -> Bool is_VkCmdEndQuery = (EQ ==) . cmpCStrings _VkCmdEndQuery type VkCmdEndQuery = "vkCmdEndQuery" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdEndQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdEndQuery <- vkGetInstanceProc @VkCmdEndQuery vkInstance -- -- or less efficient: -- -- > myCmdEndQuery <- vkGetProc @VkCmdEndQuery -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdEndQuery" vkCmdEndQuery :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () ##else vkCmdEndQuery :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () vkCmdEndQuery = unsafeDupablePerformIO (vkGetProc @VkCmdEndQuery) {-# NOINLINE vkCmdEndQuery #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdEndQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdEndQuery <- vkGetInstanceProc @VkCmdEndQuery vkInstance -- -- or less efficient: -- -- > myCmdEndQuery <- vkGetProc @VkCmdEndQuery -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdEndQuery" vkCmdEndQuerySafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () ##else vkCmdEndQuerySafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () vkCmdEndQuerySafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdEndQuery) {-# NOINLINE vkCmdEndQuerySafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdEndQuery -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- type HS_vkCmdEndQuery = VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () type PFN_vkCmdEndQuery = FunPtr HS_vkCmdEndQuery foreign import ccall unsafe "dynamic" unwrapVkCmdEndQuery :: PFN_vkCmdEndQuery -> HS_vkCmdEndQuery foreign import ccall safe "dynamic" unwrapVkCmdEndQuerySafe :: PFN_vkCmdEndQuery -> HS_vkCmdEndQuery instance VulkanProc "vkCmdEndQuery" where type VkProcType "vkCmdEndQuery" = HS_vkCmdEndQuery vkProcSymbol = _VkCmdEndQuery {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdEndQuery {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdEndQuerySafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdResetQueryPool :: CString pattern VkCmdResetQueryPool <- (is_VkCmdResetQueryPool -> True) where VkCmdResetQueryPool = _VkCmdResetQueryPool {-# INLINE _VkCmdResetQueryPool #-} _VkCmdResetQueryPool :: CString _VkCmdResetQueryPool = Ptr "vkCmdResetQueryPool\NUL"## {-# INLINE is_VkCmdResetQueryPool #-} is_VkCmdResetQueryPool :: CString -> Bool is_VkCmdResetQueryPool = (EQ ==) . cmpCStrings _VkCmdResetQueryPool type VkCmdResetQueryPool = "vkCmdResetQueryPool" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetQueryPool -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResetQueryPool <- vkGetInstanceProc @VkCmdResetQueryPool vkInstance -- -- or less efficient: -- -- > myCmdResetQueryPool <- vkGetProc @VkCmdResetQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdResetQueryPool" vkCmdResetQueryPool :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> IO () ##else vkCmdResetQueryPool :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> IO () vkCmdResetQueryPool = unsafeDupablePerformIO (vkGetProc @VkCmdResetQueryPool) {-# NOINLINE vkCmdResetQueryPool #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetQueryPool -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdResetQueryPool <- vkGetInstanceProc @VkCmdResetQueryPool vkInstance -- -- or less efficient: -- -- > myCmdResetQueryPool <- vkGetProc @VkCmdResetQueryPool -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdResetQueryPool" vkCmdResetQueryPoolSafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> IO () ##else vkCmdResetQueryPoolSafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> IO () vkCmdResetQueryPoolSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdResetQueryPool) {-# NOINLINE vkCmdResetQueryPoolSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- > void vkCmdResetQueryPool -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > ) -- -- type HS_vkCmdResetQueryPool = VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> IO () type PFN_vkCmdResetQueryPool = FunPtr HS_vkCmdResetQueryPool foreign import ccall unsafe "dynamic" unwrapVkCmdResetQueryPool :: PFN_vkCmdResetQueryPool -> HS_vkCmdResetQueryPool foreign import ccall safe "dynamic" unwrapVkCmdResetQueryPoolSafe :: PFN_vkCmdResetQueryPool -> HS_vkCmdResetQueryPool instance VulkanProc "vkCmdResetQueryPool" where type VkProcType "vkCmdResetQueryPool" = HS_vkCmdResetQueryPool vkProcSymbol = _VkCmdResetQueryPool {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdResetQueryPool {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdResetQueryPoolSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdWriteTimestamp :: CString pattern VkCmdWriteTimestamp <- (is_VkCmdWriteTimestamp -> True) where VkCmdWriteTimestamp = _VkCmdWriteTimestamp {-# INLINE _VkCmdWriteTimestamp #-} _VkCmdWriteTimestamp :: CString _VkCmdWriteTimestamp = Ptr "vkCmdWriteTimestamp\NUL"## {-# INLINE is_VkCmdWriteTimestamp #-} is_VkCmdWriteTimestamp :: CString -> Bool is_VkCmdWriteTimestamp = (EQ ==) . cmpCStrings _VkCmdWriteTimestamp type VkCmdWriteTimestamp = "vkCmdWriteTimestamp" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- Pipeline: @transfer@ -- -- > void vkCmdWriteTimestamp -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlagBits pipelineStage -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdWriteTimestamp <- vkGetInstanceProc @VkCmdWriteTimestamp vkInstance -- -- or less efficient: -- -- > myCmdWriteTimestamp <- vkGetProc @VkCmdWriteTimestamp -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdWriteTimestamp" vkCmdWriteTimestamp :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlagBits -- ^ pipelineStage -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () ##else vkCmdWriteTimestamp :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlagBits -- ^ pipelineStage -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () vkCmdWriteTimestamp = unsafeDupablePerformIO (vkGetProc @VkCmdWriteTimestamp) {-# NOINLINE vkCmdWriteTimestamp #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- Pipeline: @transfer@ -- -- > void vkCmdWriteTimestamp -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlagBits pipelineStage -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdWriteTimestamp <- vkGetInstanceProc @VkCmdWriteTimestamp vkInstance -- -- or less efficient: -- -- > myCmdWriteTimestamp <- vkGetProc @VkCmdWriteTimestamp -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdWriteTimestamp" vkCmdWriteTimestampSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlagBits -- ^ pipelineStage -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () ##else vkCmdWriteTimestampSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlagBits -- ^ pipelineStage -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () vkCmdWriteTimestampSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdWriteTimestamp) {-# NOINLINE vkCmdWriteTimestampSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- Pipeline: @transfer@ -- -- > void vkCmdWriteTimestamp -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineStageFlagBits pipelineStage -- > , VkQueryPool queryPool -- > , uint32_t query -- > ) -- -- type HS_vkCmdWriteTimestamp = VkCommandBuffer -- ^ commandBuffer -> VkPipelineStageFlagBits -- ^ pipelineStage -> VkQueryPool -- ^ queryPool -> Word32 -- ^ query -> IO () type PFN_vkCmdWriteTimestamp = FunPtr HS_vkCmdWriteTimestamp foreign import ccall unsafe "dynamic" unwrapVkCmdWriteTimestamp :: PFN_vkCmdWriteTimestamp -> HS_vkCmdWriteTimestamp foreign import ccall safe "dynamic" unwrapVkCmdWriteTimestampSafe :: PFN_vkCmdWriteTimestamp -> HS_vkCmdWriteTimestamp instance VulkanProc "vkCmdWriteTimestamp" where type VkProcType "vkCmdWriteTimestamp" = HS_vkCmdWriteTimestamp vkProcSymbol = _VkCmdWriteTimestamp {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdWriteTimestamp {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdWriteTimestampSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdCopyQueryPoolResults :: CString pattern VkCmdCopyQueryPoolResults <- (is_VkCmdCopyQueryPoolResults -> True) where VkCmdCopyQueryPoolResults = _VkCmdCopyQueryPoolResults {-# INLINE _VkCmdCopyQueryPoolResults #-} _VkCmdCopyQueryPoolResults :: CString _VkCmdCopyQueryPoolResults = Ptr "vkCmdCopyQueryPoolResults\NUL"## {-# INLINE is_VkCmdCopyQueryPoolResults #-} is_VkCmdCopyQueryPoolResults :: CString -> Bool is_VkCmdCopyQueryPoolResults = (EQ ==) . cmpCStrings _VkCmdCopyQueryPoolResults type VkCmdCopyQueryPoolResults = "vkCmdCopyQueryPoolResults" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyQueryPoolResults -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyQueryPoolResults <- vkGetInstanceProc @VkCmdCopyQueryPoolResults vkInstance -- -- or less efficient: -- -- > myCmdCopyQueryPoolResults <- vkGetProc @VkCmdCopyQueryPoolResults -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdCopyQueryPoolResults" vkCmdCopyQueryPoolResults :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO () ##else vkCmdCopyQueryPoolResults :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO () vkCmdCopyQueryPoolResults = unsafeDupablePerformIO (vkGetProc @VkCmdCopyQueryPoolResults) {-# NOINLINE vkCmdCopyQueryPoolResults #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyQueryPoolResults -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdCopyQueryPoolResults <- vkGetInstanceProc @VkCmdCopyQueryPoolResults vkInstance -- -- or less efficient: -- -- > myCmdCopyQueryPoolResults <- vkGetProc @VkCmdCopyQueryPoolResults -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdCopyQueryPoolResults" vkCmdCopyQueryPoolResultsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO () ##else vkCmdCopyQueryPoolResultsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO () vkCmdCopyQueryPoolResultsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdCopyQueryPoolResults) {-# NOINLINE vkCmdCopyQueryPoolResultsSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @outside@ -- -- Pipeline: @transfer@ -- -- > void vkCmdCopyQueryPoolResults -- > ( VkCommandBuffer commandBuffer -- > , VkQueryPool queryPool -- > , uint32_t firstQuery -- > , uint32_t queryCount -- > , VkBuffer dstBuffer -- > , VkDeviceSize dstOffset -- > , VkDeviceSize stride -- > , VkQueryResultFlags flags -- > ) -- -- type HS_vkCmdCopyQueryPoolResults = VkCommandBuffer -- ^ commandBuffer -> VkQueryPool -- ^ queryPool -> Word32 -- ^ firstQuery -> Word32 -- ^ queryCount -> VkBuffer -- ^ dstBuffer -> VkDeviceSize -- ^ dstOffset -> VkDeviceSize -- ^ stride -> VkQueryResultFlags -- ^ flags -> IO () type PFN_vkCmdCopyQueryPoolResults = FunPtr HS_vkCmdCopyQueryPoolResults foreign import ccall unsafe "dynamic" unwrapVkCmdCopyQueryPoolResults :: PFN_vkCmdCopyQueryPoolResults -> HS_vkCmdCopyQueryPoolResults foreign import ccall safe "dynamic" unwrapVkCmdCopyQueryPoolResultsSafe :: PFN_vkCmdCopyQueryPoolResults -> HS_vkCmdCopyQueryPoolResults instance VulkanProc "vkCmdCopyQueryPoolResults" where type VkProcType "vkCmdCopyQueryPoolResults" = HS_vkCmdCopyQueryPoolResults vkProcSymbol = _VkCmdCopyQueryPoolResults {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdCopyQueryPoolResults {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdCopyQueryPoolResultsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdPushConstants :: CString pattern VkCmdPushConstants <- (is_VkCmdPushConstants -> True) where VkCmdPushConstants = _VkCmdPushConstants {-# INLINE _VkCmdPushConstants #-} _VkCmdPushConstants :: CString _VkCmdPushConstants = Ptr "vkCmdPushConstants\NUL"## {-# INLINE is_VkCmdPushConstants #-} is_VkCmdPushConstants :: CString -> Bool is_VkCmdPushConstants = (EQ ==) . cmpCStrings _VkCmdPushConstants type VkCmdPushConstants = "vkCmdPushConstants" -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPushConstants -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineLayout layout -- > , VkShaderStageFlags stageFlags -- > , uint32_t offset -- > , uint32_t size -- > , const void* pValues -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdPushConstants <- vkGetInstanceProc @VkCmdPushConstants vkInstance -- -- or less efficient: -- -- > myCmdPushConstants <- vkGetProc @VkCmdPushConstants -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdPushConstants" vkCmdPushConstants :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineLayout -- ^ layout -> VkShaderStageFlags -- ^ stageFlags -> Word32 -- ^ offset -> Word32 -- ^ size -> Ptr Void -- ^ pValues -> IO () ##else vkCmdPushConstants :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineLayout -- ^ layout -> VkShaderStageFlags -- ^ stageFlags -> Word32 -- ^ offset -> Word32 -- ^ size -> Ptr Void -- ^ pValues -> IO () vkCmdPushConstants = unsafeDupablePerformIO (vkGetProc @VkCmdPushConstants) {-# NOINLINE vkCmdPushConstants #-} ##endif -- | -- Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPushConstants -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineLayout layout -- > , VkShaderStageFlags stageFlags -- > , uint32_t offset -- > , uint32_t size -- > , const void* pValues -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdPushConstants <- vkGetInstanceProc @VkCmdPushConstants vkInstance -- -- or less efficient: -- -- > myCmdPushConstants <- vkGetProc @VkCmdPushConstants -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdPushConstants" vkCmdPushConstantsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineLayout -- ^ layout -> VkShaderStageFlags -- ^ stageFlags -> Word32 -- ^ offset -> Word32 -- ^ size -> Ptr Void -- ^ pValues -> IO () ##else vkCmdPushConstantsSafe :: VkCommandBuffer -- ^ commandBuffer -> VkPipelineLayout -- ^ layout -> VkShaderStageFlags -- ^ stageFlags -> Word32 -- ^ offset -> Word32 -- ^ size -> Ptr Void -- ^ pValues -> IO () vkCmdPushConstantsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdPushConstants) {-# NOINLINE vkCmdPushConstantsSafe #-} ##endif -- | Queues: 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdPushConstants -- > ( VkCommandBuffer commandBuffer -- > , VkPipelineLayout layout -- > , VkShaderStageFlags stageFlags -- > , uint32_t offset -- > , uint32_t size -- > , const void* pValues -- > ) -- -- type HS_vkCmdPushConstants = VkCommandBuffer -- ^ commandBuffer -> VkPipelineLayout -- ^ layout -> VkShaderStageFlags -- ^ stageFlags -> Word32 -- ^ offset -> Word32 -- ^ size -> Ptr Void -- ^ pValues -> IO () type PFN_vkCmdPushConstants = FunPtr HS_vkCmdPushConstants foreign import ccall unsafe "dynamic" unwrapVkCmdPushConstants :: PFN_vkCmdPushConstants -> HS_vkCmdPushConstants foreign import ccall safe "dynamic" unwrapVkCmdPushConstantsSafe :: PFN_vkCmdPushConstants -> HS_vkCmdPushConstants instance VulkanProc "vkCmdPushConstants" where type VkProcType "vkCmdPushConstants" = HS_vkCmdPushConstants vkProcSymbol = _VkCmdPushConstants {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdPushConstants {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdPushConstantsSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdBeginRenderPass :: CString pattern VkCmdBeginRenderPass <- (is_VkCmdBeginRenderPass -> True) where VkCmdBeginRenderPass = _VkCmdBeginRenderPass {-# INLINE _VkCmdBeginRenderPass #-} _VkCmdBeginRenderPass :: CString _VkCmdBeginRenderPass = Ptr "vkCmdBeginRenderPass\NUL"## {-# INLINE is_VkCmdBeginRenderPass #-} is_VkCmdBeginRenderPass :: CString -> Bool is_VkCmdBeginRenderPass = (EQ ==) . cmpCStrings _VkCmdBeginRenderPass type VkCmdBeginRenderPass = "vkCmdBeginRenderPass" -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdBeginRenderPass -- > ( VkCommandBuffer commandBuffer -- > , const VkRenderPassBeginInfo* pRenderPassBegin -- > , VkSubpassContents contents -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBeginRenderPass <- vkGetInstanceProc @VkCmdBeginRenderPass vkInstance -- -- or less efficient: -- -- > myCmdBeginRenderPass <- vkGetProc @VkCmdBeginRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdBeginRenderPass" vkCmdBeginRenderPass :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkRenderPassBeginInfo -- ^ pRenderPassBegin -> VkSubpassContents -- ^ contents -> IO () ##else vkCmdBeginRenderPass :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkRenderPassBeginInfo -- ^ pRenderPassBegin -> VkSubpassContents -- ^ contents -> IO () vkCmdBeginRenderPass = unsafeDupablePerformIO (vkGetProc @VkCmdBeginRenderPass) {-# NOINLINE vkCmdBeginRenderPass #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdBeginRenderPass -- > ( VkCommandBuffer commandBuffer -- > , const VkRenderPassBeginInfo* pRenderPassBegin -- > , VkSubpassContents contents -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdBeginRenderPass <- vkGetInstanceProc @VkCmdBeginRenderPass vkInstance -- -- or less efficient: -- -- > myCmdBeginRenderPass <- vkGetProc @VkCmdBeginRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdBeginRenderPass" vkCmdBeginRenderPassSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkRenderPassBeginInfo -- ^ pRenderPassBegin -> VkSubpassContents -- ^ contents -> IO () ##else vkCmdBeginRenderPassSafe :: VkCommandBuffer -- ^ commandBuffer -> Ptr VkRenderPassBeginInfo -- ^ pRenderPassBegin -> VkSubpassContents -- ^ contents -> IO () vkCmdBeginRenderPassSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdBeginRenderPass) {-# NOINLINE vkCmdBeginRenderPassSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @outside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdBeginRenderPass -- > ( VkCommandBuffer commandBuffer -- > , const VkRenderPassBeginInfo* pRenderPassBegin -- > , VkSubpassContents contents -- > ) -- -- type HS_vkCmdBeginRenderPass = VkCommandBuffer -- ^ commandBuffer -> Ptr VkRenderPassBeginInfo -- ^ pRenderPassBegin -> VkSubpassContents -- ^ contents -> IO () type PFN_vkCmdBeginRenderPass = FunPtr HS_vkCmdBeginRenderPass foreign import ccall unsafe "dynamic" unwrapVkCmdBeginRenderPass :: PFN_vkCmdBeginRenderPass -> HS_vkCmdBeginRenderPass foreign import ccall safe "dynamic" unwrapVkCmdBeginRenderPassSafe :: PFN_vkCmdBeginRenderPass -> HS_vkCmdBeginRenderPass instance VulkanProc "vkCmdBeginRenderPass" where type VkProcType "vkCmdBeginRenderPass" = HS_vkCmdBeginRenderPass vkProcSymbol = _VkCmdBeginRenderPass {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdBeginRenderPass {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdBeginRenderPassSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdNextSubpass :: CString pattern VkCmdNextSubpass <- (is_VkCmdNextSubpass -> True) where VkCmdNextSubpass = _VkCmdNextSubpass {-# INLINE _VkCmdNextSubpass #-} _VkCmdNextSubpass :: CString _VkCmdNextSubpass = Ptr "vkCmdNextSubpass\NUL"## {-# INLINE is_VkCmdNextSubpass #-} is_VkCmdNextSubpass :: CString -> Bool is_VkCmdNextSubpass = (EQ ==) . cmpCStrings _VkCmdNextSubpass type VkCmdNextSubpass = "vkCmdNextSubpass" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdNextSubpass -- > ( VkCommandBuffer commandBuffer -- > , VkSubpassContents contents -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdNextSubpass <- vkGetInstanceProc @VkCmdNextSubpass vkInstance -- -- or less efficient: -- -- > myCmdNextSubpass <- vkGetProc @VkCmdNextSubpass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdNextSubpass" vkCmdNextSubpass :: VkCommandBuffer -- ^ commandBuffer -> VkSubpassContents -- ^ contents -> IO () ##else vkCmdNextSubpass :: VkCommandBuffer -- ^ commandBuffer -> VkSubpassContents -- ^ contents -> IO () vkCmdNextSubpass = unsafeDupablePerformIO (vkGetProc @VkCmdNextSubpass) {-# NOINLINE vkCmdNextSubpass #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdNextSubpass -- > ( VkCommandBuffer commandBuffer -- > , VkSubpassContents contents -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdNextSubpass <- vkGetInstanceProc @VkCmdNextSubpass vkInstance -- -- or less efficient: -- -- > myCmdNextSubpass <- vkGetProc @VkCmdNextSubpass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdNextSubpass" vkCmdNextSubpassSafe :: VkCommandBuffer -- ^ commandBuffer -> VkSubpassContents -- ^ contents -> IO () ##else vkCmdNextSubpassSafe :: VkCommandBuffer -- ^ commandBuffer -> VkSubpassContents -- ^ contents -> IO () vkCmdNextSubpassSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdNextSubpass) {-# NOINLINE vkCmdNextSubpassSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdNextSubpass -- > ( VkCommandBuffer commandBuffer -- > , VkSubpassContents contents -- > ) -- -- type HS_vkCmdNextSubpass = VkCommandBuffer -- ^ commandBuffer -> VkSubpassContents -- ^ contents -> IO () type PFN_vkCmdNextSubpass = FunPtr HS_vkCmdNextSubpass foreign import ccall unsafe "dynamic" unwrapVkCmdNextSubpass :: PFN_vkCmdNextSubpass -> HS_vkCmdNextSubpass foreign import ccall safe "dynamic" unwrapVkCmdNextSubpassSafe :: PFN_vkCmdNextSubpass -> HS_vkCmdNextSubpass instance VulkanProc "vkCmdNextSubpass" where type VkProcType "vkCmdNextSubpass" = HS_vkCmdNextSubpass vkProcSymbol = _VkCmdNextSubpass {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdNextSubpass {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdNextSubpassSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdEndRenderPass :: CString pattern VkCmdEndRenderPass <- (is_VkCmdEndRenderPass -> True) where VkCmdEndRenderPass = _VkCmdEndRenderPass {-# INLINE _VkCmdEndRenderPass #-} _VkCmdEndRenderPass :: CString _VkCmdEndRenderPass = Ptr "vkCmdEndRenderPass\NUL"## {-# INLINE is_VkCmdEndRenderPass #-} is_VkCmdEndRenderPass :: CString -> Bool is_VkCmdEndRenderPass = (EQ ==) . cmpCStrings _VkCmdEndRenderPass type VkCmdEndRenderPass = "vkCmdEndRenderPass" -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdEndRenderPass -- > ( VkCommandBuffer commandBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdEndRenderPass <- vkGetInstanceProc @VkCmdEndRenderPass vkInstance -- -- or less efficient: -- -- > myCmdEndRenderPass <- vkGetProc @VkCmdEndRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdEndRenderPass" vkCmdEndRenderPass :: VkCommandBuffer -- ^ commandBuffer -> IO () ##else vkCmdEndRenderPass :: VkCommandBuffer -- ^ commandBuffer -> IO () vkCmdEndRenderPass = unsafeDupablePerformIO (vkGetProc @VkCmdEndRenderPass) {-# NOINLINE vkCmdEndRenderPass #-} ##endif -- | -- Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdEndRenderPass -- > ( VkCommandBuffer commandBuffer -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdEndRenderPass <- vkGetInstanceProc @VkCmdEndRenderPass vkInstance -- -- or less efficient: -- -- > myCmdEndRenderPass <- vkGetProc @VkCmdEndRenderPass -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdEndRenderPass" vkCmdEndRenderPassSafe :: VkCommandBuffer -- ^ commandBuffer -> IO () ##else vkCmdEndRenderPassSafe :: VkCommandBuffer -- ^ commandBuffer -> IO () vkCmdEndRenderPassSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdEndRenderPass) {-# NOINLINE vkCmdEndRenderPassSafe #-} ##endif -- | Queues: 'graphics'. -- -- Renderpass: @inside@ -- -- Pipeline: @graphics@ -- -- > void vkCmdEndRenderPass -- > ( VkCommandBuffer commandBuffer -- > ) -- -- type HS_vkCmdEndRenderPass = VkCommandBuffer -- ^ commandBuffer -> IO () type PFN_vkCmdEndRenderPass = FunPtr HS_vkCmdEndRenderPass foreign import ccall unsafe "dynamic" unwrapVkCmdEndRenderPass :: PFN_vkCmdEndRenderPass -> HS_vkCmdEndRenderPass foreign import ccall safe "dynamic" unwrapVkCmdEndRenderPassSafe :: PFN_vkCmdEndRenderPass -> HS_vkCmdEndRenderPass instance VulkanProc "vkCmdEndRenderPass" where type VkProcType "vkCmdEndRenderPass" = HS_vkCmdEndRenderPass vkProcSymbol = _VkCmdEndRenderPass {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdEndRenderPass {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdEndRenderPassSafe {-# INLINE unwrapVkProcPtrSafe #-} pattern VkCmdExecuteCommands :: CString pattern VkCmdExecuteCommands <- (is_VkCmdExecuteCommands -> True) where VkCmdExecuteCommands = _VkCmdExecuteCommands {-# INLINE _VkCmdExecuteCommands #-} _VkCmdExecuteCommands :: CString _VkCmdExecuteCommands = Ptr "vkCmdExecuteCommands\NUL"## {-# INLINE is_VkCmdExecuteCommands #-} is_VkCmdExecuteCommands :: CString -> Bool is_VkCmdExecuteCommands = (EQ ==) . cmpCStrings _VkCmdExecuteCommands type VkCmdExecuteCommands = "vkCmdExecuteCommands" -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdExecuteCommands -- > ( VkCommandBuffer commandBuffer -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdExecuteCommands <- vkGetInstanceProc @VkCmdExecuteCommands vkInstance -- -- or less efficient: -- -- > myCmdExecuteCommands <- vkGetProc @VkCmdExecuteCommands -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall unsafe "vkCmdExecuteCommands" vkCmdExecuteCommands :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () ##else vkCmdExecuteCommands :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () vkCmdExecuteCommands = unsafeDupablePerformIO (vkGetProc @VkCmdExecuteCommands) {-# NOINLINE vkCmdExecuteCommands #-} ##endif -- | -- Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdExecuteCommands -- > ( VkCommandBuffer commandBuffer -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- -- -- __Note:__ When @useNativeFFI-1-0@ cabal flag is enabled, this function is linked statically -- as a @foreign import@ call to C Vulkan loader. -- Otherwise, it is looked up dynamically at runtime using dlsym-like machinery (platform-dependent). -- -- Independently of the flag setting, you can lookup the function manually at runtime: -- -- > myCmdExecuteCommands <- vkGetInstanceProc @VkCmdExecuteCommands vkInstance -- -- or less efficient: -- -- > myCmdExecuteCommands <- vkGetProc @VkCmdExecuteCommands -- -- __Note:__ @vkXxx@ and @vkXxxSafe@ versions of the call refer to -- using @unsafe@ of @safe@ FFI respectively. -- ##ifdef NATIVE_FFI_VK_VERSION_1_0 foreign import ccall safe "vkCmdExecuteCommands" vkCmdExecuteCommandsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () ##else vkCmdExecuteCommandsSafe :: VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () vkCmdExecuteCommandsSafe = unsafeDupablePerformIO (vkGetProcSafe @VkCmdExecuteCommands) {-# NOINLINE vkCmdExecuteCommandsSafe #-} ##endif -- | Queues: 'transfer', 'graphics', 'compute'. -- -- Renderpass: @both@ -- -- > void vkCmdExecuteCommands -- > ( VkCommandBuffer commandBuffer -- > , uint32_t commandBufferCount -- > , const VkCommandBuffer* pCommandBuffers -- > ) -- -- type HS_vkCmdExecuteCommands = VkCommandBuffer -- ^ commandBuffer -> Word32 -- ^ commandBufferCount -> Ptr VkCommandBuffer -- ^ pCommandBuffers -> IO () type PFN_vkCmdExecuteCommands = FunPtr HS_vkCmdExecuteCommands foreign import ccall unsafe "dynamic" unwrapVkCmdExecuteCommands :: PFN_vkCmdExecuteCommands -> HS_vkCmdExecuteCommands foreign import ccall safe "dynamic" unwrapVkCmdExecuteCommandsSafe :: PFN_vkCmdExecuteCommands -> HS_vkCmdExecuteCommands instance VulkanProc "vkCmdExecuteCommands" where type VkProcType "vkCmdExecuteCommands" = HS_vkCmdExecuteCommands vkProcSymbol = _VkCmdExecuteCommands {-# INLINE vkProcSymbol #-} unwrapVkProcPtr = unwrapVkCmdExecuteCommands {-# INLINE unwrapVkProcPtr #-} unwrapVkProcPtrSafe = unwrapVkCmdExecuteCommandsSafe {-# INLINE unwrapVkProcPtrSafe #-}