From 9c0e19a3be2288db79e2502e5fa450c3e20a668d Mon Sep 17 00:00:00 2001 From: Guenter Geiger Date: Fri, 9 May 2003 16:04:00 +0000 Subject: This commit was generated by cvs2svn to compensate for changes in r610, which included commits to RCS files with non-trunk default branches. svn path=/trunk/; revision=611 --- pd/src/s_midi.c | 405 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 405 insertions(+) create mode 100644 pd/src/s_midi.c (limited to 'pd/src/s_midi.c') diff --git a/pd/src/s_midi.c b/pd/src/s_midi.c new file mode 100644 index 00000000..2bba9a45 --- /dev/null +++ b/pd/src/s_midi.c @@ -0,0 +1,405 @@ +/* Copyright (c) 1997-1999 Miller Puckette and others. +* For information on usage and redistribution, and for a DISCLAIMER OF ALL +* WARRANTIES, see the file, "LICENSE.txt," in this distribution. */ + +/* Clock functions (which should move, but where?) and MIDI queueing */ + +#include "m_pd.h" +#include "s_stuff.h" +#include "m_imp.h" +#ifdef UNIX +#include +#include +#ifdef HAVE_BSTRING_H +#include +#endif +#endif +#ifdef MSW +#include +#include +#include +#include +#endif +#include +#include +#include + +typedef struct _midiqelem +{ + double q_time; + int q_portno; + unsigned char q_onebyte; + unsigned char q_byte1; + unsigned char q_byte2; + unsigned char q_byte3; +} t_midiqelem; + +#define MIDIQSIZE 1024 + +t_midiqelem midi_outqueue[MIDIQSIZE]; +int midi_outhead, midi_outtail; +t_midiqelem midi_inqueue[MIDIQSIZE]; +int midi_inhead, midi_intail; +static double sys_midiinittime; + + /* this is our current estimate for at what "system" real time the + current logical time's output should occur. */ +static double sys_dactimeminusrealtime; + /* same for input, should be schduler advance earlier. */ +static double sys_adctimeminusrealtime; + +static double sys_newdactimeminusrealtime = -1e20; +static double sys_newadctimeminusrealtime = -1e20; +static double sys_whenupdate; + +void sys_initmidiqueue( void) +{ + sys_midiinittime = clock_getlogicaltime(); + sys_dactimeminusrealtime = sys_adctimeminusrealtime = 0; +} + + /* this is called from the OS dependent code from time to time when we + think we know the delay (outbuftime) in seconds, at which the last-output + audio sample will go out the door. */ +void sys_setmiditimediff(double inbuftime, double outbuftime) +{ + double dactimeminusrealtime = + .001 * clock_gettimesince(sys_midiinittime) + - outbuftime - sys_getrealtime(); + double adctimeminusrealtime = + .001 * clock_gettimesince(sys_midiinittime) + + inbuftime - sys_getrealtime(); + if (dactimeminusrealtime > sys_newdactimeminusrealtime) + sys_newdactimeminusrealtime = dactimeminusrealtime; + if (adctimeminusrealtime > sys_newadctimeminusrealtime) + sys_newadctimeminusrealtime = adctimeminusrealtime; + if (sys_getrealtime() > sys_whenupdate) + { + sys_dactimeminusrealtime = sys_newdactimeminusrealtime; + sys_adctimeminusrealtime = sys_newadctimeminusrealtime; + sys_newdactimeminusrealtime = -1e20; + sys_newadctimeminusrealtime = -1e20; + sys_whenupdate = sys_getrealtime() + 1; + } +} + + /* return the logical time of the DAC sample we believe is currently + going out, based on how much "system time" has elapsed since the + last time sys_setmiditimediff got called. */ +static double sys_getmidioutrealtime( void) +{ + return (sys_getrealtime() + sys_dactimeminusrealtime); +} + +static double sys_getmidiinrealtime( void) +{ + return (sys_getrealtime() + sys_adctimeminusrealtime); +} + +static void sys_putnext( void) +{ + int portno = midi_outqueue[midi_outtail].q_portno; + if (midi_outqueue[midi_outtail].q_onebyte) + sys_putmidibyte(portno, midi_outqueue[midi_outtail].q_byte1); + else sys_putmidimess(portno, midi_outqueue[midi_outtail].q_byte1, + midi_outqueue[midi_outtail].q_byte2, + midi_outqueue[midi_outtail].q_byte3); + midi_outtail = (midi_outtail + 1 == MIDIQSIZE ? 0 : midi_outtail + 1); +} + +/* #define TEST_DEJITTER */ + +void sys_pollmidioutqueue( void) +{ +#ifdef TEST_DEJITTER + static int db = 0; +#endif + double midirealtime = sys_getmidioutrealtime(); +#ifdef TEST_DEJITTER + if (midi_outhead == midi_outtail) + db = 0; +#endif + while (midi_outhead != midi_outtail) + { +#ifdef TEST_DEJITTER + if (!db) + { + post("out: del %f, midiRT %f logicaltime %f, RT %f dacminusRT %f", + (midi_outqueue[midi_outtail].q_time - midirealtime), + midirealtime, .001 * clock_gettimesince(sys_midiinittime), + sys_getrealtime(), sys_dactimeminusrealtime); + db = 1; + } +#endif + if (midi_outqueue[midi_outtail].q_time <= midirealtime) + sys_putnext(); + else break; + } +} + +static void sys_queuemidimess(int portno, int onebyte, int a, int b, int c) +{ + t_midiqelem *midiqelem; + int newhead = midi_outhead +1; + if (newhead == MIDIQSIZE) + newhead = 0; + /* if FIFO is full flush an element to make room */ + if (newhead == midi_outtail) + sys_putnext(); + midi_outqueue[midi_outhead].q_portno = portno; + midi_outqueue[midi_outhead].q_onebyte = onebyte; + midi_outqueue[midi_outhead].q_byte1 = a; + midi_outqueue[midi_outhead].q_byte2 = b; + midi_outqueue[midi_outhead].q_byte3 = c; + midi_outqueue[midi_outhead].q_time = + .001 * clock_gettimesince(sys_midiinittime); + midi_outhead = newhead; + sys_pollmidioutqueue(); +} + +#define MIDI_NOTEON 144 +#define MIDI_POLYAFTERTOUCH 160 +#define MIDI_CONTROLCHANGE 176 +#define MIDI_PROGRAMCHANGE 192 +#define MIDI_AFTERTOUCH 208 +#define MIDI_PITCHBEND 224 + +void outmidi_noteon(int portno, int channel, int pitch, int velo) +{ + if (pitch < 0) pitch = 0; + else if (pitch > 127) pitch = 127; + if (velo < 0) velo = 0; + else if (velo > 127) velo = 127; + sys_queuemidimess(portno, 0, MIDI_NOTEON + (channel & 0xf), pitch, velo); +} + +void outmidi_controlchange(int portno, int channel, int ctl, int value) +{ + if (ctl < 0) ctl = 0; + else if (ctl > 127) ctl = 127; + if (value < 0) value = 0; + else if (value > 127) value = 127; + sys_queuemidimess(portno, 0, MIDI_CONTROLCHANGE + (channel & 0xf), + ctl, value); +} + +void outmidi_programchange(int portno, int channel, int value) +{ + if (value < 0) value = 0; + else if (value > 127) value = 127; + sys_queuemidimess(portno, 0, + MIDI_PROGRAMCHANGE + (channel & 0xf), value, 0); +} + +void outmidi_pitchbend(int portno, int channel, int value) +{ + if (value < 0) value = 0; + else if (value > 16383) value = 16383; + sys_queuemidimess(portno, 0, MIDI_PITCHBEND + (channel & 0xf), + (value & 127), ((value>>7) & 127)); +} + +void outmidi_aftertouch(int portno, int channel, int value) +{ + if (value < 0) value = 0; + else if (value > 127) value = 127; + sys_queuemidimess(portno, 0, MIDI_AFTERTOUCH + (channel & 0xf), value, 0); +} + +void outmidi_polyaftertouch(int portno, int channel, int pitch, int value) +{ + if (pitch < 0) pitch = 0; + else if (pitch > 127) pitch = 127; + if (value < 0) value = 0; + else if (value > 127) value = 127; + sys_queuemidimess(portno, 0, MIDI_POLYAFTERTOUCH + (channel & 0xf), + pitch, value); +} + +void outmidi_mclk(int portno) +{ + sys_queuemidimess(portno, 1, 0xf8, 0,0); +} + +/* ------------------------- MIDI input queue handling ------------------ */ +typedef struct midiparser +{ + int mp_status; + int mp_sysex; + int mp_gotbyte1; + int mp_byte1; +} t_midiparser; + +#define MIDINOTEOFF 0x80 +#define MIDINOTEON 0x90 +#define MIDIPOLYTOUCH 0xa0 +#define MIDICONTROLCHANGE 0xb0 +#define MIDIPROGRAMCHANGE 0xc0 +#define MIDICHANNELTOUCH 0xd0 +#define MIDIPITCHBEND 0xe0 + /* functions in x_midi.c */ +void inmidi_realtimein(int portno, int cmd); +void inmidi_byte(int portno, int byte); +void inmidi_sysex(int portno, int byte); +void inmidi_noteon(int portno, int channel, int pitch, int velo); +void inmidi_controlchange(int portno, int channel, int ctlnumber, int value); +void inmidi_programchange(int portno, int channel, int value); +void inmidi_pitchbend(int portno, int channel, int value); +void inmidi_aftertouch(int portno, int channel, int value); +void inmidi_polyaftertouch(int portno, int channel, int pitch, int value); + +static void sys_dispatchnextmidiin( void) +{ + static t_midiparser parser[MAXMIDIINDEV], *parserp; + int portno = midi_inqueue[midi_intail].q_portno, + byte = midi_inqueue[midi_intail].q_byte1; + if (!midi_inqueue[midi_intail].q_onebyte) + bug("sys_dispatchnextmidiin"); + if (portno < 0 || portno >= MAXMIDIINDEV) + bug("sys_dispatchnextmidiin 2"); + parserp = parser + portno; + outlet_setstacklim(); + + if (byte >= 0xf8) + inmidi_realtimein(portno, byte); + else + { + inmidi_byte(portno, byte); + if (byte < 0xf0) + { + if (byte & 0x80) + { + parserp->mp_status = byte; + parserp->mp_gotbyte1 = 0; + } + else + { + int cmd = (parserp->mp_status & 0xf0); + int chan = (parserp->mp_status & 0xf); + int byte1 = parserp->mp_byte1, gotbyte1 = parserp->mp_gotbyte1; + switch (cmd) + { + case MIDINOTEOFF: + if (gotbyte1) + inmidi_noteon(portno, chan, byte1, 0), + parserp->mp_gotbyte1 = 0; + else parserp->mp_byte1 = byte, parserp->mp_gotbyte1 = 1; + break; + case MIDINOTEON: + if (gotbyte1) + inmidi_noteon(portno, chan, byte1, byte), + parserp->mp_gotbyte1 = 0; + else parserp->mp_byte1 = byte, parserp->mp_gotbyte1 = 1; + break; + case MIDIPOLYTOUCH: + if (gotbyte1) + inmidi_polyaftertouch(portno, chan, byte1, byte), + parserp->mp_gotbyte1 = 0; + else parserp->mp_byte1 = byte, parserp->mp_gotbyte1 = 1; + break; + case MIDICONTROLCHANGE: + if (gotbyte1) + inmidi_controlchange(portno, chan, byte1, byte), + parserp->mp_gotbyte1 = 0; + else parserp->mp_byte1 = byte, parserp->mp_gotbyte1 = 1; + break; + case MIDIPROGRAMCHANGE: + inmidi_programchange(portno, chan, byte); + break; + case MIDICHANNELTOUCH: + inmidi_aftertouch(portno, chan, byte); + break; + case MIDIPITCHBEND: + if (gotbyte1) + inmidi_pitchbend(portno, chan, ((byte << 7) + byte1)), + parserp->mp_gotbyte1 = 0; + else parserp->mp_byte1 = byte, parserp->mp_gotbyte1 = 1; + break; + } + } + } + } + midi_intail = (midi_intail + 1 == MIDIQSIZE ? 0 : midi_intail + 1); +} + +void sys_pollmidiinqueue( void) +{ +#ifdef TEST_DEJITTER + static int db = 0; +#endif + double logicaltime = .001 * clock_gettimesince(sys_midiinittime); +#ifdef TEST_DEJITTER + if (midi_inhead == midi_intail) + db = 0; +#endif + while (midi_inhead != midi_intail) + { +#ifdef TEST_DEJITTER + if (!db) + { + post("in del %f, logicaltime %f, RT %f adcminusRT %f", + (midi_inqueue[midi_intail].q_time - logicaltime), + logicaltime, sys_getrealtime(), sys_adctimeminusrealtime); + db = 1; + } +#endif +#if 0 + if (midi_inqueue[midi_intail].q_time <= logicaltime - 0.007) + post("late %f", + 1000 * (logicaltime - midi_inqueue[midi_intail].q_time)); +#endif + if (midi_inqueue[midi_intail].q_time <= logicaltime) + { +#if 0 + post("diff %f", + 1000* (logicaltime - midi_inqueue[midi_intail].q_time)); +#endif + sys_dispatchnextmidiin(); + } + else break; + } +} + + /* this should be called from the system dependent MIDI code when a byte + comes in, as a result of our calling sys_poll_midi. We stick it on a + timetag queue and dispatch it at the appropriate logical time. */ + + +void sys_midibytein(int portno, int byte) +{ + static int warned = 0; + t_midiqelem *midiqelem; + int newhead = midi_inhead +1; + if (newhead == MIDIQSIZE) + newhead = 0; + /* if FIFO is full flush an element to make room */ + if (newhead == midi_intail) + { + if (!warned) + { + post("warning: MIDI timing FIFO overflowed"); + warned = 1; + } + sys_dispatchnextmidiin(); + } + midi_inqueue[midi_inhead].q_portno = portno; + midi_inqueue[midi_inhead].q_onebyte = 1; + midi_inqueue[midi_inhead].q_byte1 = byte; + midi_inqueue[midi_inhead].q_time = sys_getmidiinrealtime(); + midi_inhead = newhead; + sys_pollmidiinqueue(); +} + +void sys_pollmidiqueue( void) +{ +#if 0 + static double lasttime; + double newtime = sys_getrealtime(); + if (newtime - lasttime > 0.007) + post("delay %d", (int)(1000 * (newtime - lasttime))); + lasttime = newtime; +#endif + sys_poll_midi(); /* OS dependent poll for MIDI input */ + sys_pollmidioutqueue(); + sys_pollmidiinqueue(); +} -- cgit v1.2.1