-- -- This module is auto-generated. Do not edit directly. -- {-# LANGUAGE CPP #-} {-# LANGUAGE ForeignFunctionInterface #-} {-# OPTIONS_GHC -fno-warn-unused-imports #-} {-# OPTIONS_GHC -fno-warn-unused-binds #-} -- | -- Module : Foreign.CUDA.BLAS.Sparse.Convert -- Copyright : [2017] Trevor L. McDonell -- License : BSD3 -- -- Maintainer : Trevor L. McDonell -- Stability : experimental -- Portability : non-portable (GHC extensions) -- -- For more information see the cuSPARSE function reference: -- -- -- module Foreign.CUDA.BLAS.Sparse.Convert ( Direction(..), Action(..), Hybrid, HybridPartition(..), Info_csru2csr, sbsr2csr, dbsr2csr, cbsr2csr, zbsr2csr, sgebsr2gebsc_bufferSize, dgebsr2gebsc_bufferSize, cgebsr2gebsc_bufferSize, zgebsr2gebsc_bufferSize, sgebsr2gebsc, dgebsr2gebsc, cgebsr2gebsc, zgebsr2gebsc, sgebsr2gebsr_bufferSize, dgebsr2gebsr_bufferSize, cgebsr2gebsr_bufferSize, zgebsr2gebsr_bufferSize, sgebsr2gebsr, dgebsr2gebsr, cgebsr2gebsr, zgebsr2gebsr, xgebsr2gebsrNnz, sgebsr2csr, dgebsr2csr, cgebsr2csr, zgebsr2csr, scsr2gebsr_bufferSize, dcsr2gebsr_bufferSize, ccsr2gebsr_bufferSize, zcsr2gebsr_bufferSize, scsr2gebsr, dcsr2gebsr, ccsr2gebsr, zcsr2gebsr, xcsr2gebsrNnz, xcoo2csr, scsc2dense, dcsc2dense, ccsc2dense, zcsc2dense, scsc2hyb, dcsc2hyb, ccsc2hyb, zcsc2hyb, scsr2bsr, dcsr2bsr, ccsr2bsr, zcsr2bsr, xcsr2bsrNnz, xcsr2coo, scsr2csc, dcsr2csc, ccsr2csc, zcsr2csc, scsr2dense, dcsr2dense, ccsr2dense, zcsr2dense, scsr2hyb, dcsr2hyb, ccsr2hyb, zcsr2hyb, sdense2csc, ddense2csc, cdense2csc, zdense2csc, sdense2csr, ddense2csr, cdense2csr, zdense2csr, sdense2hyb, ddense2hyb, cdense2hyb, zdense2hyb, shyb2csc, dhyb2csc, chyb2csc, zhyb2csc, shyb2csr, dhyb2csr, chyb2csr, zhyb2csr, shyb2dense, dhyb2dense, chyb2dense, zhyb2dense, snnz, dnnz, cnnz, znnz, createIdentityPermutation, xcoosort_bufferSizeExt, xcoosortByRow, xcoosortByColumn, xcsrsort_bufferSizeExt, xcsrsort, xcscsort_bufferSizeExt, xcscsort, scsru2csr_bufferSizeExt, dcsru2csr_bufferSizeExt, ccsru2csr_bufferSizeExt, zcsru2csr_bufferSizeExt, scsru2csr, dcsru2csr, ccsru2csr, zcsru2csr, scsr2csru, dcsr2csru, ccsr2csru, zcsr2csru, csr2cscEx, scsr2csr_compress, dcsr2csr_compress, ccsr2csr_compress, zcsr2csr_compress, ) where import Data.Complex import Numeric.Half import Foreign import Foreign.C import Foreign.Storable.Complex () import Foreign.CUDA.Ptr import Foreign.CUDA.BLAS.Sparse.Analysis import Foreign.CUDA.BLAS.Sparse.Context import Foreign.CUDA.BLAS.Sparse.Error import Foreign.CUDA.BLAS.Sparse.Internal.C2HS import Foreign.CUDA.BLAS.Sparse.Internal.Types import Foreign.CUDA.BLAS.Sparse.Matrix.Descriptor import Foreign.CUDA.BLAS.Sparse.Matrix.Hybrid #include "cbits/stubs.h" {# context lib="cusparse" #} {-# INLINE useDevP #-} useDevP :: DevicePtr a -> Ptr b useDevP = useDevicePtr . castDevPtr {-# INLINE useHostP #-} useHostP :: HostPtr a -> Ptr b useHostP = useHostPtr . castHostPtr {-# INLINEABLE sbsr2csr #-} {# fun unsafe cusparseSbsr2csr as sbsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dbsr2csr #-} {# fun unsafe cusparseDbsr2csr as dbsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE cbsr2csr #-} {# fun unsafe cusparseCbsr2csr as cbsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zbsr2csr #-} {# fun unsafe cusparseZbsr2csr as zbsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE sgebsr2gebsc_bufferSize #-} {# fun unsafe cusparseSgebsr2gebsc_bufferSize as sgebsr2gebsc_bufferSize { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE dgebsr2gebsc_bufferSize #-} {# fun unsafe cusparseDgebsr2gebsc_bufferSize as dgebsr2gebsc_bufferSize { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE cgebsr2gebsc_bufferSize #-} {# fun unsafe cusparseCgebsr2gebsc_bufferSize as cgebsr2gebsc_bufferSize { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE zgebsr2gebsc_bufferSize #-} {# fun unsafe cusparseZgebsr2gebsc_bufferSize as zgebsr2gebsc_bufferSize { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE sgebsr2gebsc #-} {# fun unsafe cusparseSgebsr2gebsc as sgebsr2gebsc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE dgebsr2gebsc #-} {# fun unsafe cusparseDgebsr2gebsc as dgebsr2gebsc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE cgebsr2gebsc #-} {# fun unsafe cusparseCgebsr2gebsc as cgebsr2gebsc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE zgebsr2gebsc #-} {# fun unsafe cusparseZgebsr2gebsc as zgebsr2gebsc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE sgebsr2gebsr_bufferSize #-} {# fun unsafe cusparseSgebsr2gebsr_bufferSize as sgebsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE dgebsr2gebsr_bufferSize #-} {# fun unsafe cusparseDgebsr2gebsr_bufferSize as dgebsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE cgebsr2gebsr_bufferSize #-} {# fun unsafe cusparseCgebsr2gebsr_bufferSize as cgebsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE zgebsr2gebsr_bufferSize #-} {# fun unsafe cusparseZgebsr2gebsr_bufferSize as zgebsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE sgebsr2gebsr #-} {# fun unsafe cusparseSgebsr2gebsr as sgebsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE dgebsr2gebsr #-} {# fun unsafe cusparseDgebsr2gebsr as dgebsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE cgebsr2gebsr #-} {# fun unsafe cusparseCgebsr2gebsr as cgebsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE zgebsr2gebsr #-} {# fun unsafe cusparseZgebsr2gebsr as zgebsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xgebsr2gebsrNnz #-} {# fun unsafe cusparseXgebsr2gebsrNnz as xgebsr2gebsrNnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', `Int', `Int', castPtr `Ptr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE sgebsr2csr #-} {# fun unsafe cusparseSgebsr2csr as sgebsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dgebsr2csr #-} {# fun unsafe cusparseDgebsr2csr as dgebsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE cgebsr2csr #-} {# fun unsafe cusparseCgebsr2csr as cgebsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zgebsr2csr #-} {# fun unsafe cusparseZgebsr2csr as zgebsr2csr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2gebsr_bufferSize #-} {# fun unsafe cusparseScsr2gebsr_bufferSize as scsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2gebsr_bufferSize #-} {# fun unsafe cusparseDcsr2gebsr_bufferSize as dcsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2gebsr_bufferSize #-} {# fun unsafe cusparseCcsr2gebsr_bufferSize as ccsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2gebsr_bufferSize #-} {# fun unsafe cusparseZcsr2gebsr_bufferSize as zcsr2gebsr_bufferSize { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE scsr2gebsr #-} {# fun unsafe cusparseScsr2gebsr as scsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2gebsr #-} {# fun unsafe cusparseDcsr2gebsr as dcsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2gebsr #-} {# fun unsafe cusparseCcsr2gebsr as ccsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2gebsr #-} {# fun unsafe cusparseZcsr2gebsr as zcsr2gebsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xcsr2gebsrNnz #-} {# fun unsafe cusparseXcsr2gebsrNnz as xcsr2gebsrNnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', `Int', `Int', castPtr `Ptr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xcoo2csr #-} {# fun unsafe cusparseXcoo2csr as xcoo2csr { useHandle `Handle', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr Int32', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE scsc2dense #-} {# fun unsafe cusparseScsc2dense as scsc2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE dcsc2dense #-} {# fun unsafe cusparseDcsc2dense as dcsc2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE ccsc2dense #-} {# fun unsafe cusparseCcsc2dense as ccsc2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE zcsc2dense #-} {# fun unsafe cusparseZcsc2dense as zcsc2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE scsc2hyb #-} {# fun unsafe cusparseScsc2hyb as scsc2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE dcsc2hyb #-} {# fun unsafe cusparseDcsc2hyb as dcsc2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE ccsc2hyb #-} {# fun unsafe cusparseCcsc2hyb as ccsc2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE zcsc2hyb #-} {# fun unsafe cusparseZcsc2hyb as zcsc2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2bsr #-} {# fun unsafe cusparseScsr2bsr as scsr2bsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2bsr #-} {# fun unsafe cusparseDcsr2bsr as dcsr2bsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2bsr #-} {# fun unsafe cusparseCcsr2bsr as ccsr2bsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2bsr #-} {# fun unsafe cusparseZcsr2bsr as zcsr2bsr { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE xcsr2bsrNnz #-} {# fun unsafe cusparseXcsr2bsrNnz as xcsr2bsrNnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', castPtr `Ptr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE xcsr2coo #-} {# fun unsafe cusparseXcsr2coo as xcsr2coo { useHandle `Handle', useDevP `DevicePtr Int32', `Int', `Int', useDevP `DevicePtr Int32', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2csc #-} {# fun unsafe cusparseScsr2csc as scsr2csc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2csc #-} {# fun unsafe cusparseDcsr2csc as dcsr2csc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2csc #-} {# fun unsafe cusparseCcsr2csc as ccsr2csc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2csc #-} {# fun unsafe cusparseZcsr2csc as zcsr2csc { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2dense #-} {# fun unsafe cusparseScsr2dense as scsr2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2dense #-} {# fun unsafe cusparseDcsr2dense as dcsr2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2dense #-} {# fun unsafe cusparseCcsr2dense as ccsr2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2dense #-} {# fun unsafe cusparseZcsr2dense as zcsr2dense { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2hyb #-} {# fun unsafe cusparseScsr2hyb as scsr2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2hyb #-} {# fun unsafe cusparseDcsr2hyb as dcsr2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2hyb #-} {# fun unsafe cusparseCcsr2hyb as ccsr2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2hyb #-} {# fun unsafe cusparseZcsr2hyb as zcsr2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE sdense2csc #-} {# fun unsafe cusparseSdense2csc as sdense2csc { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE ddense2csc #-} {# fun unsafe cusparseDdense2csc as ddense2csc { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE cdense2csc #-} {# fun unsafe cusparseCdense2csc as cdense2csc { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zdense2csc #-} {# fun unsafe cusparseZdense2csc as zdense2csc { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE sdense2csr #-} {# fun unsafe cusparseSdense2csr as sdense2csr { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE ddense2csr #-} {# fun unsafe cusparseDdense2csr as ddense2csr { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE cdense2csr #-} {# fun unsafe cusparseCdense2csr as cdense2csr { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zdense2csr #-} {# fun unsafe cusparseZdense2csr as zdense2csr { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE sdense2hyb #-} {# fun unsafe cusparseSdense2hyb as sdense2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', `Int', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE ddense2hyb #-} {# fun unsafe cusparseDdense2hyb as ddense2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', `Int', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE cdense2hyb #-} {# fun unsafe cusparseCdense2hyb as cdense2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', `Int', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE zdense2hyb #-} {# fun unsafe cusparseZdense2hyb as zdense2hyb { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', `Int', useDevP `DevicePtr Int32', useHYB `Hybrid', `Int', cFromEnum `HybridPartition' } -> `()' checkStatus*- #} {-# INLINEABLE shyb2csc #-} {# fun unsafe cusparseShyb2csc as shyb2csc { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dhyb2csc #-} {# fun unsafe cusparseDhyb2csc as dhyb2csc { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE chyb2csc #-} {# fun unsafe cusparseChyb2csc as chyb2csc { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zhyb2csc #-} {# fun unsafe cusparseZhyb2csc as zhyb2csc { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE shyb2csr #-} {# fun unsafe cusparseShyb2csr as shyb2csr { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dhyb2csr #-} {# fun unsafe cusparseDhyb2csr as dhyb2csr { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE chyb2csr #-} {# fun unsafe cusparseChyb2csr as chyb2csr { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE zhyb2csr #-} {# fun unsafe cusparseZhyb2csr as zhyb2csr { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE shyb2dense #-} {# fun unsafe cusparseShyb2dense as shyb2dense { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Float', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE dhyb2dense #-} {# fun unsafe cusparseDhyb2dense as dhyb2dense { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr Double', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE chyb2dense #-} {# fun unsafe cusparseChyb2dense as chyb2dense { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Float)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE zhyb2dense #-} {# fun unsafe cusparseZhyb2dense as zhyb2dense { useHandle `Handle', useMatDescr `MatrixDescriptor', useHYB `Hybrid', useDevP `DevicePtr (Complex Double)', `Int' } -> `()' checkStatus*- #} {-# INLINEABLE snnz #-} {# fun unsafe cusparseSnnz as snnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', `Int', useDevP `DevicePtr Int32', castPtr `Ptr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE dnnz #-} {# fun unsafe cusparseDnnz as dnnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', `Int', useDevP `DevicePtr Int32', castPtr `Ptr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE cnnz #-} {# fun unsafe cusparseCnnz as cnnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', `Int', useDevP `DevicePtr Int32', castPtr `Ptr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE znnz #-} {# fun unsafe cusparseZnnz as znnz { useHandle `Handle', cFromEnum `Direction', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', `Int', useDevP `DevicePtr Int32', castPtr `Ptr Int32' } -> `()' checkStatus*- #} #if CUDA_VERSION >= 7000 {-# INLINEABLE createIdentityPermutation #-} {# fun unsafe cusparseCreateIdentityPermutation as createIdentityPermutation { useHandle `Handle', `Int', useDevP `DevicePtr Int32' } -> `()' checkStatus*- #} {-# INLINEABLE xcoosort_bufferSizeExt #-} {# fun unsafe cusparseXcoosort_bufferSizeExt as xcoosort_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE xcoosortByRow #-} {# fun unsafe cusparseXcoosortByRow as xcoosortByRow { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xcoosortByColumn #-} {# fun unsafe cusparseXcoosortByColumn as xcoosortByColumn { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xcsrsort_bufferSizeExt #-} {# fun unsafe cusparseXcsrsort_bufferSizeExt as xcsrsort_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE xcsrsort #-} {# fun unsafe cusparseXcsrsort as xcsrsort { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE xcscsort_bufferSizeExt #-} {# fun unsafe cusparseXcscsort_bufferSizeExt as xcscsort_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE xcscsort #-} {# fun unsafe cusparseXcscsort as xcscsort { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE scsru2csr_bufferSizeExt #-} {# fun unsafe cusparseScsru2csr_bufferSizeExt as scsru2csr_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE dcsru2csr_bufferSizeExt #-} {# fun unsafe cusparseDcsru2csr_bufferSizeExt as dcsru2csr_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE ccsru2csr_bufferSizeExt #-} {# fun unsafe cusparseCcsru2csr_bufferSizeExt as ccsru2csr_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE zcsru2csr_bufferSizeExt #-} {# fun unsafe cusparseZcsru2csr_bufferSizeExt as zcsru2csr_bufferSizeExt { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', alloca- `Int' peekIntConv* } -> `()' checkStatus*- #} {-# INLINEABLE scsru2csr #-} {# fun unsafe cusparseScsru2csr as scsru2csr { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE dcsru2csr #-} {# fun unsafe cusparseDcsru2csr as dcsru2csr { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE ccsru2csr #-} {# fun unsafe cusparseCcsru2csr as ccsru2csr { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE zcsru2csr #-} {# fun unsafe cusparseZcsru2csr as zcsru2csr { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2csru #-} {# fun unsafe cusparseScsr2csru as scsr2csru { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2csru #-} {# fun unsafe cusparseDcsr2csru as dcsr2csru { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2csru #-} {# fun unsafe cusparseCcsr2csru as ccsr2csru { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2csru #-} {# fun unsafe cusparseZcsr2csru as zcsr2csru { useHandle `Handle', `Int', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useInfo_csru2csr `Info_csru2csr', useDevP `DevicePtr ()' } -> `()' checkStatus*- #} #else createIdentityPermutation :: Handle -> Int -> DevicePtr Int32 -> IO () createIdentityPermutation _ _ _ = cusparseError "'createIdentityPermutation' requires at least cuda-7.0" xcoosort_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> IO () xcoosort_bufferSizeExt _ _ _ _ _ _ _ = cusparseError "'xcoosort_bufferSizeExt' requires at least cuda-7.0" xcoosortByRow :: Handle -> Int -> Int -> Int -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr () -> IO () xcoosortByRow _ _ _ _ _ _ _ _ = cusparseError "'xcoosortByRow' requires at least cuda-7.0" xcoosortByColumn :: Handle -> Int -> Int -> Int -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr () -> IO () xcoosortByColumn _ _ _ _ _ _ _ _ = cusparseError "'xcoosortByColumn' requires at least cuda-7.0" xcsrsort_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> IO () xcsrsort_bufferSizeExt _ _ _ _ _ _ _ = cusparseError "'xcsrsort_bufferSizeExt' requires at least cuda-7.0" xcsrsort :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr () -> IO () xcsrsort _ _ _ _ _ _ _ _ _ = cusparseError "'xcsrsort' requires at least cuda-7.0" xcscsort_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> IO () xcscsort_bufferSizeExt _ _ _ _ _ _ _ = cusparseError "'xcscsort_bufferSizeExt' requires at least cuda-7.0" xcscsort :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr () -> IO () xcscsort _ _ _ _ _ _ _ _ _ = cusparseError "'xcscsort' requires at least cuda-7.0" scsru2csr_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr Float -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> Int -> IO () scsru2csr_bufferSizeExt _ _ _ _ _ _ _ _ _ = cusparseError "'scsru2csr_bufferSizeExt' requires at least cuda-7.0" dcsru2csr_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr Double -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> Int -> IO () dcsru2csr_bufferSizeExt _ _ _ _ _ _ _ _ _ = cusparseError "'dcsru2csr_bufferSizeExt' requires at least cuda-7.0" ccsru2csr_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr (Complex Float) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> Int -> IO () ccsru2csr_bufferSizeExt _ _ _ _ _ _ _ _ _ = cusparseError "'ccsru2csr_bufferSizeExt' requires at least cuda-7.0" zcsru2csr_bufferSizeExt :: Handle -> Int -> Int -> Int -> DevicePtr (Complex Double) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> Int -> IO () zcsru2csr_bufferSizeExt _ _ _ _ _ _ _ _ _ = cusparseError "'zcsru2csr_bufferSizeExt' requires at least cuda-7.0" scsru2csr :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Float -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () scsru2csr _ _ _ _ _ _ _ _ _ _ = cusparseError "'scsru2csr' requires at least cuda-7.0" dcsru2csr :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Double -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () dcsru2csr _ _ _ _ _ _ _ _ _ _ = cusparseError "'dcsru2csr' requires at least cuda-7.0" ccsru2csr :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Float) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () ccsru2csr _ _ _ _ _ _ _ _ _ _ = cusparseError "'ccsru2csr' requires at least cuda-7.0" zcsru2csr :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Double) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () zcsru2csr _ _ _ _ _ _ _ _ _ _ = cusparseError "'zcsru2csr' requires at least cuda-7.0" scsr2csru :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Float -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () scsr2csru _ _ _ _ _ _ _ _ _ _ = cusparseError "'scsr2csru' requires at least cuda-7.0" dcsr2csru :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr Double -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () dcsr2csru _ _ _ _ _ _ _ _ _ _ = cusparseError "'dcsr2csru' requires at least cuda-7.0" ccsr2csru :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Float) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () ccsr2csru _ _ _ _ _ _ _ _ _ _ = cusparseError "'ccsr2csru' requires at least cuda-7.0" zcsr2csru :: Handle -> Int -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Double) -> DevicePtr Int32 -> DevicePtr Int32 -> Info_csru2csr -> DevicePtr () -> IO () zcsr2csru _ _ _ _ _ _ _ _ _ _ = cusparseError "'zcsr2csru' requires at least cuda-7.0" #endif #if CUDA_VERSION >= 8000 {-# INLINEABLE csr2cscEx #-} {# fun unsafe cusparseCsr2cscEx as csr2cscEx { useHandle `Handle', `Int', `Int', `Int', useDevP `DevicePtr ()', cFromEnum `Type', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', useDevP `DevicePtr ()', cFromEnum `Type', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', cFromEnum `Action', cFromEnum `IndexBase', cFromEnum `Type' } -> `()' checkStatus*- #} {-# INLINEABLE scsr2csr_compress #-} {# fun unsafe cusparseScsr2csr_compress as scsr2csr_compress { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Float', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', CFloat `Float' } -> `()' checkStatus*- #} {-# INLINEABLE dcsr2csr_compress #-} {# fun unsafe cusparseDcsr2csr_compress as dcsr2csr_compress { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr Double', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', CDouble `Double' } -> `()' checkStatus*- #} {-# INLINEABLE ccsr2csr_compress #-} {# fun unsafe cusparseCcsr2csr_compress as ccsr2csr_compress { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Float)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', withComplex* `(Complex Float)' } -> `()' checkStatus*- #} {-# INLINEABLE zcsr2csr_compress #-} {# fun unsafe cusparseZcsr2csr_compress as zcsr2csr_compress { useHandle `Handle', `Int', `Int', useMatDescr `MatrixDescriptor', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', `Int', useDevP `DevicePtr Int32', useDevP `DevicePtr (Complex Double)', useDevP `DevicePtr Int32', useDevP `DevicePtr Int32', withComplex* `(Complex Double)' } -> `()' checkStatus*- #} #else csr2cscEx :: Handle -> Int -> Int -> Int -> DevicePtr () -> Type -> DevicePtr Int32 -> DevicePtr Int32 -> DevicePtr () -> Type -> DevicePtr Int32 -> DevicePtr Int32 -> Action -> IndexBase -> Type -> IO () csr2cscEx _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ = cusparseError "'csr2cscEx' requires at least cuda-8.0" scsr2csr_compress :: Handle -> Int -> Int -> MatrixDescriptor -> DevicePtr Float -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> DevicePtr Int32 -> DevicePtr Float -> DevicePtr Int32 -> DevicePtr Int32 -> Float -> IO () scsr2csr_compress _ _ _ _ _ _ _ _ _ _ _ _ _ = cusparseError "'scsr2csr_compress' requires at least cuda-8.0" dcsr2csr_compress :: Handle -> Int -> Int -> MatrixDescriptor -> DevicePtr Double -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> DevicePtr Int32 -> DevicePtr Double -> DevicePtr Int32 -> DevicePtr Int32 -> Double -> IO () dcsr2csr_compress _ _ _ _ _ _ _ _ _ _ _ _ _ = cusparseError "'dcsr2csr_compress' requires at least cuda-8.0" ccsr2csr_compress :: Handle -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Float) -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> DevicePtr Int32 -> DevicePtr (Complex Float) -> DevicePtr Int32 -> DevicePtr Int32 -> (Complex Float) -> IO () ccsr2csr_compress _ _ _ _ _ _ _ _ _ _ _ _ _ = cusparseError "'ccsr2csr_compress' requires at least cuda-8.0" zcsr2csr_compress :: Handle -> Int -> Int -> MatrixDescriptor -> DevicePtr (Complex Double) -> DevicePtr Int32 -> DevicePtr Int32 -> Int -> DevicePtr Int32 -> DevicePtr (Complex Double) -> DevicePtr Int32 -> DevicePtr Int32 -> (Complex Double) -> IO () zcsr2csr_compress _ _ _ _ _ _ _ _ _ _ _ _ _ = cusparseError "'zcsr2csr_compress' requires at least cuda-8.0" #endif