/* pminternal.h -- header for interface implementations */ /* this file is included by files that implement library internals */ /* Here is a guide to implementers: provide an initialization function similar to pm_winmm_init() add your initialization function to pm_init() Note that your init function should never require not-standard libraries or fail in any way. If the interface is not available, simply do not call pm_add_device. This means that non-standard libraries should try to do dynamic linking at runtime using a DLL and return without error if the DLL cannot be found or if there is any other failure. implement functions as indicated in pm_fns_type to open, read, write, close, etc. call pm_add_device() for each input and output device, passing it a pm_fns_type structure. assumptions about pm_fns_type functions are given below. */ #ifdef __cplusplus extern "C" { #endif /* these are defined in system-specific file */ void *pm_alloc(size_t s); void pm_free(void *ptr); /* if an error occurs while opening or closing a midi stream, set these: */ extern int pm_hosterror; extern char pm_hosterror_text[PM_HOST_ERROR_MSG_LEN]; struct pm_internal_struct; /* these do not use PmInternal because it is not defined yet... */ typedef PmError (*pm_write_short_fn)(struct pm_internal_struct *midi, PmEvent *buffer); typedef PmError (*pm_begin_sysex_fn)(struct pm_internal_struct *midi, PmTimestamp timestamp); typedef PmError (*pm_end_sysex_fn)(struct pm_internal_struct *midi, PmTimestamp timestamp); typedef PmError (*pm_write_byte_fn)(struct pm_internal_struct *midi, unsigned char byte, PmTimestamp timestamp); typedef PmError (*pm_write_realtime_fn)(struct pm_internal_struct *midi, PmEvent *buffer); typedef PmError (*pm_write_flush_fn)(struct pm_internal_struct *midi, PmTimestamp timestamp); typedef PmTimestamp (*pm_synchronize_fn)(struct pm_internal_struct *midi); /* pm_open_fn should clean up all memory and close the device if any part of the open fails */ typedef PmError (*pm_open_fn)(struct pm_internal_struct *midi, void *driverInfo); typedef PmError (*pm_abort_fn)(struct pm_internal_struct *midi); /* pm_close_fn should clean up all memory and close the device if any part of the close fails. */ typedef PmError (*pm_close_fn)(struct pm_internal_struct *midi); typedef PmError (*pm_poll_fn)(struct pm_internal_struct *midi); typedef void (*pm_host_error_fn)(struct pm_internal_struct *midi, char * msg, unsigned int len); typedef unsigned int (*pm_has_host_error_fn)(struct pm_internal_struct *midi); typedef struct { pm_write_short_fn write_short; /* output short MIDI msg */ pm_begin_sysex_fn begin_sysex; /* prepare to send a sysex message */ pm_end_sysex_fn end_sysex; /* marks end of sysex message */ pm_write_byte_fn write_byte; /* accumulate one more sysex byte */ pm_write_realtime_fn write_realtime; /* send real-time message within sysex */ pm_write_flush_fn write_flush; /* send any accumulated but unsent data */ pm_synchronize_fn synchronize; /* synchronize portmidi time to stream time */ pm_open_fn open; /* open MIDI device */ pm_abort_fn abort; /* abort */ pm_close_fn close; /* close device */ pm_poll_fn poll; /* read pending midi events into portmidi buffer */ pm_has_host_error_fn has_host_error; /* true when device has had host error message */ pm_host_error_fn host_error; /* provide text readable host error message for device (clears and resets) */ } pm_fns_node, *pm_fns_type; /* when open fails, the dictionary gets this set of functions: */ extern pm_fns_node pm_none_dictionary; typedef struct { PmDeviceInfo pub; /* some portmidi state also saved in here (for autmatic device closing (see PmDeviceInfo struct) */ void *descriptor; /* ID number passed to win32 multimedia API open */ void *internalDescriptor; /* points to PmInternal device, allows automatic device closing */ pm_fns_type dictionary; } descriptor_node, *descriptor_type; extern int pm_descriptor_max; extern descriptor_type descriptors; extern int pm_descriptor_index; typedef unsigned long (*time_get_proc_type)(void *time_info); typedef struct pm_internal_struct { int device_id; /* which device is open (index to descriptors) */ short write_flag; /* MIDI_IN, or MIDI_OUT */ PmTimeProcPtr time_proc; /* where to get the time */ void *time_info; /* pass this to get_time() */ long buffer_len; /* how big is the buffer or queue? */ PmQueue *queue; long latency; /* time delay in ms between timestamps and actual output */ /* set to zero to get immediate, simple blocking output */ /* if latency is zero, timestamps will be ignored; */ /* if midi input device, this field ignored */ int sysex_in_progress; /* when sysex status is seen, this flag becomes * true until EOX is seen. When true, new data is appended to the * stream of outgoing bytes. When overflow occurs, sysex data is * dropped (until an EOX or non-real-timei status byte is seen) so * that, if the overflow condition is cleared, we don't start * sending data from the middle of a sysex message. If a sysex * message is filtered, sysex_in_progress is false, causing the * message to be dropped. */ PmMessage sysex_message; /* buffer for 4 bytes of sysex data */ int sysex_message_count; /* how many bytes in sysex_message so far */ long filters; /* flags that filter incoming message classes */ int channel_mask; /* flter incoming messages based on channel */ PmTimestamp last_msg_time; /* timestamp of last message */ PmTimestamp sync_time; /* time of last synchronization */ PmTimestamp now; /* set by PmWrite to current time */ int first_message; /* initially true, used to run first synchronization */ pm_fns_type dictionary; /* implementation functions */ void *descriptor; /* system-dependent state */ /* the following are used to expedite sysex data */ /* on windows, in debug mode, based on some profiling, these optimizations * cut the time to process sysex bytes from about 7.5 to 0.26 usec/byte, * but this does not count time in the driver, so I don't know if it is * important */ unsigned char *fill_base; /* addr of ptr to sysex data */ unsigned long *fill_offset_ptr; /* offset of next sysex byte */ int fill_length; /* how many sysex bytes to write */ } PmInternal; /* defined by system specific implementation, e.g. pmwinmm, used by PortMidi */ void pm_init(void); void pm_term(void); /* defined by portMidi, used by pmwinmm */ PmError none_write_short(PmInternal *midi, PmEvent *buffer); PmError none_write_byte(PmInternal *midi, unsigned char byte, PmTimestamp timestamp); PmTimestamp none_synchronize(PmInternal *midi); PmError pm_fail_fn(PmInternal *midi); PmError pm_fail_timestamp_fn(PmInternal *midi, PmTimestamp timestamp); PmError pm_success_fn(PmInternal *midi); PmError pm_add_device(char *interf, char *name, int input, void *descriptor, pm_fns_type dictionary); unsigned int pm_read_bytes(PmInternal *midi, unsigned char *data, int len, PmTimestamp timestamp); void pm_read_short(PmInternal *midi, PmEvent *event); #define none_write_flush pm_fail_timestamp_fn #define none_sysex pm_fail_timestamp_fn #define none_poll pm_fail_fn #define success_poll pm_success_fn #define MIDI_REALTIME_MASK 0xf8 #define is_real_time(msg) \ ((Pm_MessageStatus(msg) & MIDI_REALTIME_MASK) == MIDI_REALTIME_MASK) #ifdef __cplusplus } #endif