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/* Copyright (c) 1997-2001 Guenter Geiger, Miller Puckette, Larry Troxler,
* Winfried Ritsch, Karl MacMillan, and others.
* For information on usage and redistribution, and for a DISCLAIMER OF ALL
* WARRANTIES, see the file, "LICENSE.txt," in this distribution. */
/* this file implements the sys_ functions profiled in m_imp.h for
audio and MIDI I/O on Macintosh OS X.
Audio simply calls routines in s_portaudio.c, which in turn call the
portaudio package. s_portaudio.c is also intended for use from NT.
MIDI is handled by "portmidi".
*/
#include "m_imp.h"
#include <stdio.h>
#ifdef UNIX
#include <unistd.h>
#endif
#ifndef MACOSX
#include <stdlib.h>
#else
#include <stdlib.h>
#include "portaudio.h"
#include "portmidi.h"
#include "porttime.h"
#include "pminternal.h"
#endif
#include <string.h>
#include <sys/time.h>
#include <sys/resource.h>
#include <errno.h>
/* Defines */
#define DEBUG(x) x
#define DEBUG2(x) {x;}
#define PA_DEFAULTCH 2 /* portaudio specific? */
#define PA_MAXCH 100
#define PA_DEFAULTSRATE 44100
typedef short t_pa_sample;
#define PA_SAMPLEWIDTH sizeof(t_pa_sample)
#define PA_BYTESPERCHAN (DACBLKSIZE * PA_SAMPLEWIDTH)
#define PA_XFERSAMPS (PA_DEFAULTCH*DACBLKSIZE)
#define PA_XFERSIZE (PA_SAMPLEWIDTH * PA_XFERSAMPS)
static int mac_whichapi = API_PORTAUDIO;
static int mac_inchannels;
static int mac_outchannels;
static int mac_advance_samples; /* scheduler advance in samples */
static int mac_meters; /* true if we're metering */
static float mac_inmax; /* max input amplitude */
static float mac_outmax; /* max output amplitude */
static int mac_blocksize = 256; /* audio I/O block size in sample frames */
/* exported variables */
int sys_schedadvance = 50000; /* scheduler advance in microseconds */
float sys_dacsr;
int sys_hipriority = 0;
t_sample *sys_soundout;
t_sample *sys_soundin;
static PmStream *mac_midiindevlist[MAXMIDIINDEV];
static PmStream *mac_midioutdevlist[MAXMIDIOUTDEV];
static int mac_nmidiindev;
static int mac_nmidioutdev;
/* set channels and sample rate. */
static void mac_setchsr(int chin, int chout, int sr)
{
int nblk;
int inbytes = chin * (DACBLKSIZE*sizeof(float));
int outbytes = chout * (DACBLKSIZE*sizeof(float));
mac_inchannels = chin;
mac_outchannels = chout;
sys_dacsr = sr;
mac_advance_samples = (sys_schedadvance * sys_dacsr) / (1000000.);
if (mac_advance_samples < 3 * DACBLKSIZE)
mac_advance_samples = 3 * DACBLKSIZE;
if (sys_soundin)
free(sys_soundin);
sys_soundin = (t_float *)malloc(inbytes);
memset(sys_soundin, 0, inbytes);
if (sys_soundout)
free(sys_soundout);
sys_soundout = (t_float *)malloc(outbytes);
memset(sys_soundout, 0, outbytes);
if (sys_verbose)
post("input channels = %d, output channels = %d",
mac_inchannels, mac_outchannels);
}
/* ----------------------- public routines ----------------------- */
void sys_open_audio(int naudioindev, int *audioindev, int nchindev,
int *chindev, int naudiooutdev, int *audiooutdev, int nchoutdev,
int *choutdev, int rate) /* IOhannes */
{
int inchans=
(nchindev > 0 ? chindev[0] : (nchindev == 0 ? 0 : PA_DEFAULTCH));
int outchans=
(nchoutdev > 0 ? choutdev[0] : (nchoutdev == 0 ? 0 : PA_DEFAULTCH));
int soundindev = (naudioindev <= 0 ? -1 : (audioindev[0]-1));
int soundoutdev = (naudiooutdev <= 0 ? -1 : (audiooutdev[0]-1));
int sounddev = (inchans > 0 ? soundindev : soundoutdev);
if (naudioindev > 1 || nchindev > 1 || naudiooutdev > 1 || nchoutdev > 1)
post("sorry, only one portaudio device can be open at once.\n");
/* post("nindev %d, noutdev %d", naudioindev, naudiooutdev);
post("soundindev %d, soundoutdev %d", soundindev, soundoutdev); */
if (sys_verbose)
post("channels in %d, out %d", inchans, outchans);
if (rate < 1)
rate = PA_DEFAULTSRATE;
mac_setchsr(inchans, outchans, rate);
pa_open_audio(inchans, outchans, rate, sys_soundin, sys_soundout,
mac_blocksize, mac_advance_samples/mac_blocksize,
soundindev, soundoutdev);
}
void sys_close_audio(void)
{
pa_close_audio();
}
int sys_send_dacs(void)
{
if (mac_meters)
{
int i, n;
float maxsamp;
for (i = 0, n = mac_inchannels * DACBLKSIZE, maxsamp = mac_inmax;
i < n; i++)
{
float f = sys_soundin[i];
if (f > maxsamp) maxsamp = f;
else if (-f > maxsamp) maxsamp = -f;
}
mac_inmax = maxsamp;
for (i = 0, n = mac_outchannels * DACBLKSIZE, maxsamp = mac_outmax;
i < n; i++)
{
float f = sys_soundout[i];
if (f > maxsamp) maxsamp = f;
else if (-f > maxsamp) maxsamp = -f;
}
mac_outmax = maxsamp;
}
return pa_send_dacs();
}
float sys_getsr(void)
{
return (sys_dacsr);
}
int sys_get_outchannels(void)
{
return (mac_outchannels);
}
int sys_get_inchannels(void)
{
return (mac_inchannels);
}
void sys_audiobuf(int n)
{
/* set the size, in milliseconds, of the audio FIFO */
if (n < 5) n = 5;
else if (n > 5000) n = 5000;
sys_schedadvance = n * 1000;
}
void sys_getmeters(float *inmax, float *outmax)
{
if (inmax)
{
mac_meters = 1;
*inmax = mac_inmax;
*outmax = mac_outmax;
}
else
mac_meters = 0;
mac_inmax = mac_outmax = 0;
}
void sys_reportidle(void)
{
}
void sys_open_midi(int nmidiin, int *midiinvec,
int nmidiout, int *midioutvec)
{
int i = 0;
int n = 0;
PmError err;
Pt_Start(1, 0, 0); /* start a timer with millisecond accuracy */
mac_nmidiindev = 0;
for (i = 0; i < nmidiin; i++)
{
err = Pm_OpenInput(&mac_midiindevlist[mac_nmidiindev], midiinvec[i],
NULL, 100, NULL, NULL, NULL);
if (err)
post("could not open midi input device number %d: %s",
midiinvec[i], Pm_GetErrorText(err));
else
{
if (sys_verbose)
post("Midi Input opened.\n");
mac_nmidiindev++;
}
}
mac_nmidioutdev = 0;
for (i = 0; i < nmidiout; i++)
{
err = Pm_OpenOutput(&mac_midioutdevlist[mac_nmidioutdev], midioutvec[i],
NULL, 0, NULL, NULL, 0);
if (err)
post("could not open midi output device number %d: %s",
midioutvec[i], Pm_GetErrorText(err));
else
{
if (sys_verbose)
post("Midi Output opened.\n");
mac_nmidioutdev++;
}
}
}
void sys_close_midi( void)
{
int i;
for (i = 0; i < mac_nmidiindev; i++)
Pm_Close(mac_midiindevlist[mac_nmidiindev]);
mac_nmidiindev = 0;
for (i = 0; i < mac_nmidioutdev; i++)
Pm_Close(mac_midioutdevlist[mac_nmidioutdev]);
mac_nmidioutdev = 0;
}
void sys_putmidimess(int portno, int a, int b, int c)
{
PmEvent buffer;
fprintf(stderr, "put 1 msg %d %d\n", portno, mac_nmidioutdev);
if (portno >= 0 && portno < mac_nmidioutdev)
{
buffer.message = Pm_Message(a, b, c);
buffer.timestamp = 0;
fprintf(stderr, "put msg\n");
Pm_Write(mac_midioutdevlist[portno], &buffer, 1);
}
}
void sys_putmidibyte(int portno, int byte)
{
post("sorry, no byte-by-byte MIDI output implemented in MAC OSX");
}
void sys_poll_midi(void)
{
int i, nmess;
PmEvent buffer;
for (i = 0; i < mac_nmidiindev; i++)
{
int nmess = Pm_Read(mac_midiindevlist[i], &buffer, 1);
if (nmess > 0)
{
int status = Pm_MessageStatus(buffer.message);
int data1 = Pm_MessageData1(buffer.message);
int data2 = Pm_MessageData2(buffer.message);
int msgtype = (status >> 4) - 8;
switch (msgtype)
{
case 0:
case 1:
case 2:
case 3:
case 6:
sys_midibytein(i, status);
sys_midibytein(i, data1);
sys_midibytein(i, data2);
break;
case 4:
case 5:
sys_midibytein(i, status);
sys_midibytein(i, data1);
break;
case 7:
sys_midibytein(i, status);
break;
}
}
}
}
void sys_set_priority(int higher)
{
int retval;
errno = 0;
retval = setpriority(PRIO_PROCESS, 0, (higher? -20 : -19));
if (retval == -1 & errno != 0)
{
perror("setpriority");
fprintf(stderr, "priority bost faled.\n");
}
}
void sys_listdevs(void )
{
pa_listdevs();
}
void sys_setblocksize(int n)
{
if (n < 1)
n = 1;
if (n != (1 << ilog2(n)))
warn("blocksize adjusted to power of 2: %d",
(n = (1 << ilog2(n))));
mac_blocksize = n;
}
/* dummy stuff that shouldn't he here */
void nt_soundindev(int which)
{
}
void nt_soundoutdev(int which)
{
}
void nt_midiindev(int which)
{
}
void nt_midioutdev(int which)
{
}
void nt_noresync(void )
{
}
void glob_audio(void *dummy, t_floatarg fadc, t_floatarg fdac)
{
}
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