namespace cw { namespace midi { namespace device { namespace file_dev { typedef handle handle_t; // // Count of labels determines the count of ports. // Note that port indexes and file indexes are synonomous. rc_t create( handle_t& hRef, cbFunc_t cbFunc, void* cbArg, unsigned baseDevIdx, // device index assigned to packet_t.devIndex in callbacks const char* labelA[], // labelA[ max_file_cnt ] assigns a textual label to each port. unsigned max_file_cnt, const char* dev_name = "file_dev", // name of the file device unsigned read_ahead_micros = 3000); // exec() will xmit events up to 'read_ahead_micros' after the current time rc_t destroy( handle_t& hRef ); // Return true if at least one enabled file exists, otherwise return false. bool is_active( handle_t h ); // Returns create(...,max_file_cnt...) unsigned file_count( handle_t h ); // Assign a MIDI file to an input port. rc_t open_midi_file( handle_t h, unsigned file_idx, const char* fname ); rc_t load_messages( handle_t h, unsigned file_idx, const msg_t* msgA, unsigned msgN ); // Enable and disble the output of the specified file/port. rc_t enable_file( handle_t h, unsigned file_idx, bool enableFl ); rc_t enable_file( handle_t h, unsigned file_idx ); rc_t disable_file( handle_t h,unsigned file_idx ); // Device count: Always 1. unsigned count( handle_t h ); // Device name as set in create() const char* name( handle_t h, unsigned devIdx ); // Returns 0 if deviceName == name() else kInvalidIdx unsigned nameToIndex(handle_t h, const char* deviceName); // The count of ports is determined by count of labels in create(...,labelA[],...). unsigned portCount( handle_t h, unsigned devIdx, unsigned flags ); // Port name are provided by create(...,labelA[],...) // Port indexes and file indexes are the same. 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 ); typedef struct exec_result_str { unsigned next_msg_wait_micros; // microseconds before the next file msg must be transmitted unsigned xmit_cnt; // count of msg's sent to callback during this exec bool eof_fl; // true if there are no more file msg's to transmit } exec_result_t; // Set the next msg to be returned. rc_t seek_to_msg_index( handle_t h, unsigned file_idx, unsigned msg_idx ); rc_t set_end_msg_index( handle_t h, unsigned file_idx, unsigned msg_idx ); // Seek to the start of the file or to the last msg_idx set by seek_to_event(). rc_t rewind( handle_t h ); // Delay the first MIDI msg by 'start_delay_micros'. rc_t set_start_delay( handle_t h, unsigned start_delay_micros ); // Callback create(...,cbFunc,...) with msg's whose time has expired and return the // time delay prior to the next message. exec_result_t exec( handle_t h, unsigned long long elapsed_micros ); 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 ); // Reset the latency measurement process. void latency_measure_reset(handle_t h); latency_meas_result_t latency_measure_result(handle_t h); void report( handle_t h, textBuf::handle_t tbH ); rc_t test( const object_t* cfg ); } } } }