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-rw-r--r--desiredata/src/s_audio_oss.c94
1 files changed, 35 insertions, 59 deletions
diff --git a/desiredata/src/s_audio_oss.c b/desiredata/src/s_audio_oss.c
index 2a22da1c..5c795158 100644
--- a/desiredata/src/s_audio_oss.c
+++ b/desiredata/src/s_audio_oss.c
@@ -147,13 +147,11 @@ void oss_configure(t_oss_dev *dev, int srate, int dac, int skipblocksize) {
fragbytes = linux_fragsize * (dev->bytespersamp * nchannels);
logfragsize = ilog2(fragbytes);
if (fragbytes != (1 << logfragsize))
- post("warning: OSS takes only power of 2 blocksize; using %d",
- (1 << logfragsize)/(dev->bytespersamp * nchannels));
+ post("warning: OSS takes only power of 2 blocksize; using %d", (1<<logfragsize)/(dev->bytespersamp*nchannels));
if (sys_verbose) post("setting nfrags = %d, fragsize %d", nfragment, fragbytes);
param = orig = (nfragment<<16) + logfragsize;
- if (ioctl(fd,SNDCTL_DSP_SETFRAGMENT, &param) == -1)
- error("OSS: Could not set or read fragment size");
+ if (ioctl(fd,SNDCTL_DSP_SETFRAGMENT, &param) == -1) error("OSS: Could not set or read fragment size");
if (param != orig) {
nfragment = ((param >> 16) & 0xffff);
logfragsize = (param & 0xffff);
@@ -169,15 +167,13 @@ void oss_configure(t_oss_dev *dev, int srate, int dac, int skipblocksize) {
we should figure out what to do if the requested scheduler advance
is greater than this buffer size; for now, we just print something
out. */
- int defect;
if (ioctl(fd, SOUND_PCM_GETOSPACE,&ainfo) < 0) error("OSS: ioctl on output device failed");
dev->bufsize = ainfo.bytes;
- defect = sys_advance_samples * (dev->bytespersamp * nchannels)
- - dev->bufsize - OSS_XFERSIZE(nchannels, dev->bytespersamp);
- if (defect > 0) {
+ int defect = sys_advance_samples*(dev->bytespersamp*nchannels) - dev->bufsize - OSS_XFERSIZE(nchannels, dev->bytespersamp);
+ if (defect>0) {
if (sys_verbose || defect > (dev->bufsize >> 2))
error("OSS: requested audio buffer size %d limited to %d",
- sys_advance_samples * (dev->bytespersamp * nchannels), dev->bufsize);
+ sys_advance_samples*(dev->bytespersamp*nchannels), dev->bufsize);
sys_advance_samples = (dev->bufsize-OSS_XFERSAMPS(nchannels)) / (dev->bytespersamp*nchannels);
}
}
@@ -217,26 +213,23 @@ int oss_open_audio(int nindev, int *indev, int nchin, int *chin,
int capabilities = 0;
int inchannels = 0, outchannels = 0;
char devname[20];
- int n, i, fd, flags;
+ int fd, flags;
char buf[OSS_MAXSAMPLEWIDTH * sys_dacblocksize * OSS_MAXCHPERDEV];
- int wantmore=0;
-
linux_nindevs = linux_noutdevs = 0;
/* mark devices unopened */
for (int i=0; i<OSS_MAXDEV; i++) linux_adcs[i].fd = linux_dacs[i].fd = -1;
-
/* open output devices */
- wantmore=0;
+ int wantmore=0;
if (noutdev < 0 || nindev < 0) bug("linux_open_audio");
for (int n=0; n<noutdev; n++) {
- int gotchans, j, inindex = -1;
+ int gotchans, inindex = -1;
int thisdevice = (outdev[n] >= 0 ? outdev[n] : 0);
int wantchannels = (nchout>n) ? chout[n] : wantmore;
fd = -1;
if (!wantchannels) goto end_out_loop;
if (thisdevice > 0) sprintf(devname, "/dev/dsp%d", thisdevice); else sprintf(devname, "/dev/dsp");
/* search for input request for same device. Succeed only if the number of channels matches. */
- for (j = 0; j < nindev; j++) if (indev[j] == thisdevice && chin[j] == wantchannels) inindex = j;
+ for (int j=0; j<nindev; j++) if (indev[j] == thisdevice && chin[j] == wantchannels) inindex = j;
/* if the same device is requested for input and output, try to open it read/write */
if (inindex >= 0) {
sys_setalarm(1000000);
@@ -279,15 +272,13 @@ int oss_open_audio(int nindev, int *indev, int nchin, int *chin,
chin[inindex] = gotchans;
}
}
- /* LATER think about spreading large numbers of channels over
- various dsp's and vice-versa */
+ /* LATER think about spreading large numbers of channels over various dsp's and vice-versa */
wantmore = wantchannels - gotchans;
end_out_loop: ;
}
-
/* open input devices */
wantmore = 0;
- for (n = 0; n < nindev; n++) {
+ for (int n=0; n<nindev; n++) {
int gotchans=0;
int thisdevice = (indev[n] >= 0 ? indev[n] : 0);
int wantchannels = (nchin>n)?chin[n]:wantmore;
@@ -334,10 +325,10 @@ int oss_open_audio(int nindev, int *indev, int nchin, int *chin,
if (sys_verbose) post("...done.");
}
/* now go and fill all the output buffers. */
- for (i = 0; i < linux_noutdevs; i++) {
+ for (int i=0; i<linux_noutdevs; i++) {
t_oss_dev &d = linux_dacs[i];
memset(buf, 0, d.bytespersamp * d.nchannels * sys_dacblocksize);
- for (int j = 0; j < sys_advance_samples/sys_dacblocksize; j++)
+ for (int j=0; j<sys_advance_samples/sys_dacblocksize; j++)
write2(d.fd, buf, d.bytespersamp * d.nchannels * sys_dacblocksize);
}
sys_setalarm(0);
@@ -370,14 +361,6 @@ static void oss_calcspace() {
}
}
-void linux_audiostatus() {
- if (!oss_blockmode) {
- oss_calcspace();
- for (int dev=0; dev < linux_noutdevs; dev++) post("dac %d space %d", dev, linux_dacs[dev].space);
- for (int dev=0; dev < linux_nindevs; dev++) post("adc %d space %d", dev, linux_adcs[dev].space);
- }
-}
-
/* this call resyncs audio output and input which will cause discontinuities
in audio output and/or input. */
@@ -401,7 +384,7 @@ static void oss_doresync() {
t_oss_dev d = linux_dacs[dev];
while (d.space > d.bufsize - sys_advance_samples*d.nchannels*d.bytespersamp) {
if (!zeroed) {
- for (unsigned int i = 0; i < OSS_XFERSAMPS(d.nchannels); i++) buf[i] = 0;
+ for (unsigned int i=0; i<OSS_XFERSAMPS(d.nchannels); i++) buf[i] = 0;
zeroed = 1;
}
linux_dacs_write(d.fd, buf, OSS_XFERSIZE(d.nchannels, d.bytespersamp));
@@ -420,10 +403,8 @@ static void oss_doresync() {
int oss_send_dacs() {
float *fp1, *fp2;
- int i, j, rtnval = SENDDACS_YES;
+ int rtnval = SENDDACS_YES;
char buf[OSS_MAXSAMPLEWIDTH * sys_dacblocksize * OSS_MAXCHPERDEV];
- t_oss_int16 *sp;
- t_oss_int32 *lp;
/* the maximum number of samples we should have in the ADC buffer */
int idle = 0;
double timeref, timenow;
@@ -443,11 +424,9 @@ int oss_send_dacs() {
}
}
if (idle && !oss_blockmode) {
- /* sometimes---rarely---when the ADC available-byte-count is
- zero, it's genuine, but usually it's because we're so
- late that the ADC has overrun its entire kernel buffer. We
- distinguish between the two by waiting 2 msec and asking again.
- There should be an error flag we could check instead; look for this someday... */
+ /* sometimes---rarely---when the ADC available-byte-count is zero, it's genuine, but usually it's because we're so
+ late that the ADC has overrun its entire kernel buffer. We distinguish between the two by waiting 2 msec and
+ asking again. There should be an error flag we could check instead; look for this someday... */
for (int dev=0; dev<linux_nindevs; dev++) if (linux_adcs[dev].space == 0) {
sys_microsleep(sys_sleepgrain); /* tb: changed to sys_sleepgrain */
oss_calcspace();
@@ -457,15 +436,12 @@ int oss_send_dacs() {
oss_doresync();
return SENDDACS_NO;
}
- /* check for slippage between devices, either because
- data got lost in the driver from a previous late condition, or
- because the devices aren't synced. When we're idle, no
- input device should have more than one buffer readable and
- no output device should have less than sys_advance_samples-1 */
+ /* check for slippage between devices, either because data got lost in the driver from a previous late condition,
+ or because the devices aren't synced. When we're idle, no input device should have more than one buffer readable
+ and no output device should have less than sys_advance_samples-1 */
for (int dev=0; dev<linux_noutdevs; dev++) {
t_oss_dev d = linux_dacs[dev];
- if (!d.dropcount && (d.bufsize - d.space < (sys_advance_samples - 2)*d.bytespersamp*d.nchannels))
- goto badsync;
+ if (!d.dropcount && (d.bufsize - d.space < (sys_advance_samples - 2)*d.bytespersamp*d.nchannels)) goto badsync;
}
for (int dev=0; dev<linux_nindevs; dev++)
if (linux_adcs[dev].space > 3 * OSS_XFERSIZE(linux_adcs[dev].nchannels, linux_adcs[dev].bytespersamp)) goto badsync;
@@ -478,6 +454,8 @@ int oss_send_dacs() {
}
/* do output */
timeref = sys_getrealtime();
+ t_oss_int16 *sp;
+ t_oss_int32 *lp;
for (int dev=0, thischan = 0; dev < linux_noutdevs; dev++) {
t_oss_dev d = linux_dacs[dev];
int nchannels = d.nchannels;
@@ -485,17 +463,13 @@ int oss_send_dacs() {
else {
fp1 = sys_soundout + sys_dacblocksize*thischan;
if (d.bytespersamp == 4) {
- for (i = sys_dacblocksize * nchannels, lp = (t_oss_int32 *)buf; i--; fp1++, lp++) {
- float f = *fp1 * 2147483648.;
- *lp = int(f >= 2147483647. ? 2147483647. : (f < -2147483648. ? -2147483648. : f));
- }
+ lp = (t_oss_int32 *)buf;
+ for (int i=sys_dacblocksize * nchannels; i--; fp1++, lp++) *lp = int(clip(*fp1*2147483648.,-2147483648.,2147483647.));
} else {
- for (i = sys_dacblocksize, sp = (t_oss_int16 *)buf; i--; fp1++, sp += nchannels) {
- for (j=0, fp2 = fp1; j<nchannels; j++, fp2 += sys_dacblocksize) {
- int s = int(*fp2 * 32767.);
- if (s > 32767) s = 32767; else if (s < -32767) s = -32767;
- sp[j] = s;
- }
+ sp = (t_oss_int16 *)buf;
+ for (int i=sys_dacblocksize; i--; fp1++, sp += nchannels) {
+ fp2 = fp1;
+ for (int j=0; j<nchannels; j++, fp2 += sys_dacblocksize) sp[j] = clip(int(*fp2*32767.),-32768,32767);
}
}
linux_dacs_write(d.fd, buf, OSS_XFERSIZE(nchannels, d.bytespersamp));
@@ -516,11 +490,13 @@ int oss_send_dacs() {
timeref = timenow;
fp1 = sys_soundin + thischan*sys_dacblocksize;
if (linux_adcs[dev].bytespersamp == 4) {
- for (i = sys_dacblocksize*nchannels, lp = (t_oss_int32 *)buf; i--; fp1++, lp++)
+ lp = (t_oss_int32 *)buf;
+ for (int i=sys_dacblocksize*nchannels; i--; fp1++, lp++)
*fp1 = float(*lp)*float(1./2147483648.);
} else {
- for (i = sys_dacblocksize, sp = (t_oss_int16 *)buf; i--; fp1++, sp += nchannels)
- for (j=0; j<nchannels; j++) fp1[j*sys_dacblocksize] = (float)sp[j]*(float)3.051850e-05;
+ sp = (t_oss_int16 *)buf;
+ for (int i=sys_dacblocksize; i--; fp1++, sp += nchannels)
+ for (int j=0; j<nchannels; j++) fp1[j*sys_dacblocksize] = (float)sp[j]*(float)3.051850e-05;
}
thischan += nchannels;
}