libcw/cwMidiDevice.h

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//| Copyright: (C) 2020-2024 Kevin Larke <contact AT larke DOT org>
//| License: GNU GPL version 3.0 or above. See the accompanying LICENSE file.
#ifndef cwMidiDevice_H
#define cwMidiDevice_H
namespace cw
{
namespace midi
{
// Flags used to identify input and output ports on MIDI devices
enum
{
kInMpFl = 0x01,
kOutMpFl = 0x02
};
namespace device
{
typedef handle< struct device_str> handle_t;
rc_t create( handle_t& h,
cbFunc_t cbFunc,
void* cbArg,
const char* filePortLabelA[], // filePortLabelA[ maxFileCnt ]
unsigned maxFileCnt, // count of file dev ports
const char* appNameStr,
const char* fileDevName = "file_dev",
unsigned fileDevReadAheadMicros = 3000,
unsigned parserBufByteCnt = 1024,
bool enableBufFl = false, // Enable buffer to hold all incoming msg's until RT thread can pick them up.
unsigned bufferMsgCnt = 4096, // Count of messages in input buffer.
bool filterRtSenseFl = true);
rc_t create( handle_t& h,
cbFunc_t cbFunc,
void* cbArg,
const object_t* args );
rc_t destroy( handle_t& h);
bool isInitialized( handle_t h );
unsigned count( handle_t h );
const char* name( handle_t h, unsigned devIdx );
unsigned nameToIndex(handle_t h, const char* deviceName);
unsigned portCount( handle_t h, unsigned devIdx, unsigned flags );
const char* portName( handle_t h, unsigned devIdx, unsigned flags, unsigned portIdx );
unsigned portNameToIndex( handle_t h, unsigned devIdx, unsigned flags, const char* portName );
rc_t portEnable( handle_t h, unsigned devIdx, unsigned flags, unsigned portIdx, bool enableFl );
rc_t send( handle_t h, unsigned devIdx, unsigned portIdx, uint8_t st, uint8_t d0, uint8_t d1 );
rc_t sendData( handle_t h, unsigned devIdx, unsigned portIdx, const uint8_t* dataPtr, unsigned byteCnt );
rc_t openMidiFile( handle_t h, unsigned devIdx, unsigned portIdx, const char* fname );
rc_t loadMsgPacket(handle_t h, const packet_t& pkt ); // Note: Set devIdx/portIdx via pkt.devIdx/pkt.portIdx
unsigned msgCount( handle_t h, unsigned devIdx, unsigned portIdx );
rc_t seekToMsg( handle_t h, unsigned devIdx, unsigned portIdx, unsigned msgIdx );
rc_t setEndMsg( handle_t h, unsigned devIdx, unsigned portidx, unsigned msgIdx );
unsigned maxBufferMsgCount( handle_t h ); // max number of msg's which will ever be returned in a buffer
const ch_msg_t* getBuffer( handle_t h, unsigned& msgCntRef );
rc_t clearBuffer( handle_t h, unsigned msgCnt );
rc_t start( handle_t h );
rc_t stop( handle_t h );
rc_t pause( handle_t h, bool pause_fl );
typedef struct
{
time::spec_t note_on_input_ts;
time::spec_t note_on_output_ts;
} latency_meas_result_t;
typedef struct
{
latency_meas_result_t alsa_dev;
latency_meas_result_t file_dev;
} latency_meas_combined_result_t;
// Reset the latency measurement process. Record the time of the first
// incoming note-on msg and the first outgoing note-on msg.
void latency_measure_reset(handle_t h);
latency_meas_combined_result_t latency_measure_result(handle_t h);
rc_t report( handle_t h );
void report( handle_t h, textBuf::handle_t tbH);
rc_t testReport();
}
}
}
#endif