libcw/cwMidi.h

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#ifndef cwMidi_h
#define cwMidi_h
namespace cw
{
namespace midi
{
enum
{
kMidiChCnt = 16,
kInvalidMidiByte = 128,
kMidiNoteCnt = kInvalidMidiByte,
kMidiCtlCnt = kInvalidMidiByte,
kMidiPgmCnt = kInvalidMidiByte,
kInvalidMidiPitch = kInvalidMidiByte,
kInvalidMidiVelocity = kInvalidMidiByte,
kInvalidMidiCtl = kInvalidMidiByte,
kInvalidMidiPgm = kInvalidMidiByte,
kMidiSciPitchCharCnt = 5 // A#-1
};
// MIDI status bytes
enum
{
kInvalidStatusMdId = 0x00,
kNoteOffMdId = 0x80,
kNoteOnMdId = 0x90,
kPolyPresMdId = 0xa0,
kCtlMdId = 0xb0,
kPgmMdId = 0xc0,
kChPresMdId = 0xd0,
kPbendMdId = 0xe0,
kSysExMdId = 0xf0,
kSysComMtcMdId = 0xf1,
kSysComSppMdId = 0xf2,
kSysComSelMdId = 0xf3,
kSysComUndef0MdId = 0xf4,
kSysComUndef1MdId = 0xf5,
kSysComTuneMdId = 0xf6,
kSysComEoxMdId = 0xf7,
kSysRtClockMdId = 0xf8,
kSysRtUndef0MdId = 0xf9,
kSysRtStartMdId = 0xfa,
kSysRtContMdId = 0xfb,
kSysRtStopMdId = 0xfc,
kSysRtUndef1MdId = 0xfd,
kSysRtSenseMdId = 0xfe,
kSysRtResetMdId = 0xff,
kMetaStId = 0xff,
kSeqNumbMdId = 0x00,
kTextMdId = 0x01,
kCopyMdId = 0x02,
kTrkNameMdId = 0x03,
kInstrNameMdId = 0x04,
kLyricsMdId = 0x05,
kMarkerMdId = 0x06,
kCuePointMdId = 0x07,
kMidiChMdId = 0x20,
kMidiPortMdId = 0x21,
kEndOfTrkMdId = 0x2f,
kTempoMdId = 0x51,
kSmpteMdId = 0x54,
kTimeSigMdId = 0x58,
kKeySigMdId = 0x59,
kSeqSpecMdId = 0x7f,
kInvalidMetaMdId = 0x80,
kSustainCtlMdId = 0x40,
kPortamentoCtlMdId = 0x41,
kSostenutoCtlMdId = 0x42,
kSoftPedalCtlMdId = 0x43,
kLegatoCtlMdId = 0x44
};
//===============================================================================================
// Utility Functions
//
template< typename T> bool isStatus( T s ) { return (kNoteOffMdId <= (s) /*&& ((unsigned)(s)) <= kSysRtResetMdId*/ ); }
template< typename T> bool isChStatus( T s ) { return (kNoteOffMdId <= (s) && (s) < kSysExMdId); }
template< typename T> bool isNoteOn( T s ) { return ( kNoteOnMdId <= (s) && (s) <= (kNoteOnMdId + kMidiChCnt) ); }
template< typename T> bool isNoteOff( T s, T d1 ) { return ( (isNoteOn(s) && (d1)==0) || (kNoteOffMdId <= (s) && (s) <= (kNoteOffMdId + kMidiChCnt)) ); }
template< typename T> bool isCtl( T s ) { return ( kCtlMdId <= (s) && (s) <= (kCtlMdId + kMidiChCnt) ); }
template< typename T> bool isSustainPedal( T s, T d0 ) { return ( kCtlMdId <= (s) && (s) <= (kCtlMdId + kMidiChCnt) && (d0)== kSustainCtlMdId ); }
template< typename T> bool isSustainPedalDown( T s, T d0, T d1) { return ( isSustainPedal(s,d0) && (d1)>=64 ); }
template< typename T> bool isSustainPedalUp( T s, T d0, T d1) { return ( isSustainPedal(s,d0) && (d1)<64 ); }
template< typename T> bool isSostenutoPedal( T s, T d0 ) { return ( kCtlMdId <= (s) && (s) <= (kCtlMdId + kMidiChCnt) && (d0)== kSostenutoCtlMdId ); }
template< typename T> bool isSostenutoPedalDown( T s, T d0, T d1) { return ( isSostenutoPedal(s,d0) && (d1)>=64 ); }
template< typename T> bool isSostenutoPedalUp( T s, T d0, T d1) { return ( isSostenutoPedal(s,d0) && (d1)<64 ); }
template< typename T> bool isPedal( T s, T d0 ) { return ( kCtlMdId <= (s) && (s) <= (kCtlMdId + kMidiChCnt) && (d0)>=kSustainCtlMdId && (d0)<=kLegatoCtlMdId ); }
template< typename T> bool isPedalDown( T s, T d0, T d1 ) { return ( isPedal(s,d0) && (d1)>=64 ); }
template< typename T> bool isPedalUp( T s, T d0, T d1 ) { return ( isPedal(s,d0) && (d1)<64 ); }
const char* statusToLabel( uint8_t status );
const char* metaStatusToLabel( uint8_t metaStatus );
const char* pedalLabel( uint8_t d0 );
// Returns kInvalidMidiByte if status is not a valid status byte
uint8_t statusToByteCount( uint8_t status );
unsigned to14Bits( uint8_t d0, uint8_t d1 );
void split14Bits( unsigned v, uint8_t& d0Ref, uint8_t& d1Ref );
int toPbend( uint8_t d0, uint8_t d1 );
void splitPbend( int v, uint8_t& d0Ref, uint8_t& d1Ref );
//===============================================================================================
// MIDI Communication data types
//
// Notes: If the sys-ex message can be contained in a single msg then
// then the first msg byte is kSysExMdId and the last is kSysComEoxMdId.
// If the sys-ex message is broken into multiple pieces then only the
// first will begin with kSysExMdId and the last will end with kSysComEoxMdId.
// If label is NULL or labelCharCnt==0 then a pointer to an internal static
// buffer is returned. If label[] is given the it
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// should have at least 5 (kMidiSciPitchCharCnt) char's (including the terminating zero).
// If 'pitch' is outside of the range 0-127 then a blank string is returned.
const char* midiToSciPitch( uint8_t pitch, char* label, unsigned labelCharCnt );
// Convert a scientific pitch to MIDI pitch. acc == 1 == sharp, acc == -1 == flat.
// The pitch character must be in the range 'A' to 'G'. Upper or lower case is valid.
// Return kInvalidMidiPitch if the arguments are not valid.
uint8_t sciPitchToMidiPitch( char pitch, int acc, int octave );
// Scientific pitch string: [A-Ga-g][#b][#] where # may be -1 to 9.
// Return kInvalidMidiPitch if sciPtichStr does not contain a valid
// scientific pitch string. This function will convert C-1 to G9 to
// valid MIDI pitch values 0 to 127. Scientific pitch strings outside
// of this range will be returned as kInvalidMidiPitch.
uint8_t sciPitchToMidi( const char* sciPitchStr );
}
}
#endif