From 19206ed74111711221045dba566d38ff366d6b39 Mon Sep 17 00:00:00 2001 From: "N.N." Date: Sat, 30 May 2009 03:14:52 +0000 Subject: kill SGI support (until someone volunteers for it) svn path=/trunk/; revision=11578 --- desiredata/src/s_audio_sgi.c | 313 ------------------------------------------- 1 file changed, 313 deletions(-) delete mode 100644 desiredata/src/s_audio_sgi.c (limited to 'desiredata/src') diff --git a/desiredata/src/s_audio_sgi.c b/desiredata/src/s_audio_sgi.c deleted file mode 100644 index 878cf255..00000000 --- a/desiredata/src/s_audio_sgi.c +++ /dev/null @@ -1,313 +0,0 @@ -/* ----------------------- Experimental routines for SGI -------------- */ -/* written by Olaf Matthes */ - -#include -#include -#include -#include -#include - -#include -#include -#include -#include - -#define SGI_MAXDEV 4 /* it's just 3, but default counts as well... */ -#define SGI_MAXCH 12 /* max. number of channels - is this enough? */ - -static ALport sgi_iport[SGI_MAXDEV]; -static ALport sgi_oport[SGI_MAXDEV]; -static ALconfig sgi_inconfig; -static ALconfig sgi_outconfig; -static int sgi_nindevs, sgi_noutdevs; -static int sgi_inchannels, sgi_outchannels; -static int sgi_ninchans[SGI_MAXDEV], sgi_noutchans[SGI_MAXDEV]; - -/* set the special "flush zero" but (FS, bit 24) in the Control Status Register of the FPU of R4k and beyond - so that the result of any underflowing operation will be clamped to zero, and no exception of any kind will - be generated on the CPU. thanks to cpirazzi@cp.esd.sgi.com (Chris Pirazzi). */ -static void sgi_flush_all_underflows_to_zero () { - union fpc_csr f; - f.fc_word = get_fpc_csr(); - f.fc_struct.flush = 1; - set_fpc_csr(f.fc_word); -} - -/* convert the most common errors into readable strings */ -static char *sgi_get_error_message(int err) { - switch (err) { - case AL_BAD_CONFIG: return "Invalid config"; - case AL_BAD_DIRECTION: return "Invalid direction (neither \"r\" nor \"w\")"; - case AL_BAD_OUT_OF_MEM: return "Not enough memory"; - case AL_BAD_DEVICE_ACCESS: return "Audio hardware is not available or is improperly configured"; - case AL_BAD_DEVICE: return "Invalid device"; - case AL_BAD_NO_PORTS: return "No audio ports available"; - case AL_BAD_QSIZE: return "Invalid fifo size"; - case AL_BAD_SAMPFMT: return "Invalid sample format"; - case AL_BAD_FLOATMAX: return "Invalid float maximum"; - case AL_BAD_WIDTH: return "Invalid sample width"; - default: return "Unknown error"; - } -} - -int sgi_open_audio(int nindev, int *indev, int nchin, int *chin, -int noutdev, int *outdev, int nchout, int *chout, int rate/*, int dummy*/) { - ALpv pvbuf[2]; - int num_devs = 0; - int in_dev = 0; - int out_dev = 0; - int inchans = 0; - int outchans = 0; - int err, n, gotchannels; - char *indevnames[4] = {"DefaultIn", "AnalogIn", "AESIn", "ADATIn"}; - char *outdevnames[4] = {"DefaultOut", "AnalogOut", "AESOut", "ADATOut"}; - sgi_flush_all_underflows_to_zero(); - if (sys_verbose) post("opening sound input..."); - for (n = 0; n < nindev; n++) { - int gotchannels = 0; - if (indev[n] >= 0 && indev[n] < SGI_MAXDEV) { - if (sys_verbose) post("opening %s", indevnames[indev[n]]); - in_dev = alGetResourceByName(AL_SYSTEM, indevnames[indev[n]], AL_DEVICE_TYPE); - } else { - if(sys_verbose)post("opening %s", indevnames[0]); - in_dev = AL_DEFAULT_INPUT; - } - if (!in_dev) { - error("%s", sgi_get_error_message(in_dev)); - continue; /* try next device, if any */ - } - sgi_inconfig = alNewConfig(); - alSetSampFmt(sgi_inconfig, AL_SAMPFMT_FLOAT); - alSetFloatMax(sgi_outconfig, 1.1f); - alSetChannels(sgi_outconfig, chin[n]); - alSetQueueSize(sgi_inconfig, sys_advance_samples * chin[n]); - alSetDevice(sgi_inconfig, in_dev); - sgi_iport[n] = alOpenPort("Pd input port", "r", sgi_inconfig); - if (!sgi_iport[n]) error("failed to open audio read port"); - /* try to set samplerate */ - pvbuf[0].param = AL_RATE; - pvbuf[0].value.ll = alDoubleToFixed(rate); - if ((err = alSetParams(in_dev, pvbuf, 1)) < 0) { - post("could not set specified sample rate for input (%s)", sgi_get_error_message(err)); - if(pvbuf[0].sizeOut < 0) post("rate was invalid"); - } - /* check how many channels we actually got */ - pvbuf[0].param = AL_CHANNELS; - if (alGetParams(in_dev, pvbuf, 1) < 0) { - post("could not figure out how many input channels we got"); - gotchannels = chin[n]; /* assume we got them all */ - } else { - gotchannels = pvbuf[0].value.i; - } - inchans += gotchannels; /* count total number of channels */ - sgi_ninchans[n] = gotchannels; /* remember channels for this device */ - } - if (sys_verbose) post("opening sound output..."); - for (n = 0; n < noutdev; n++) { - if (outdev[n] >= 0 && outdev[n] < SGI_MAXDEV) { - if(sys_verbose)post("opening %s", outdevnames[outdev[n]]); - out_dev = alGetResourceByName(AL_SYSTEM, outdevnames[outdev[n]], AL_DEVICE_TYPE); - } else { - if (sys_verbose) post("opening %s", outdevnames[0]); - out_dev = AL_DEFAULT_OUTPUT; - } - if (!out_dev) { - error("%s", sgi_get_error_message(out_dev)); - continue; /* try next device, if any */ - } - /* configure the port before opening it */ - sgi_outconfig = alNewConfig(); - alSetSampFmt(sgi_outconfig, AL_SAMPFMT_FLOAT); - alSetFloatMax(sgi_outconfig, 1.1f); - alSetChannels(sgi_outconfig, chout[n]); - alSetQueueSize(sgi_outconfig, sys_advance_samples * chout[n]); - alSetDevice(sgi_outconfig, out_dev); - /* open the port */ - sgi_oport[n] = alOpenPort("Pd ouput port", "w", sgi_outconfig); - if (!sgi_oport[n]) error("failed to open audio write port"); - /* now try to set sample rate */ - pvbuf[0].param = AL_RATE; - pvbuf[0].value.ll = alDoubleToFixed(rate); - if ((err = alSetParams(out_dev, pvbuf, 1)) < 0) { - post("could not set specified sample rate for output (%s)", sgi_get_error_message(err)); - if(pvbuf[0].sizeOut < 0) post("rate was invalid"); - } - /* check how many channels we actually got */ - pvbuf[0].param = AL_CHANNELS; - if (alGetParams(out_dev, pvbuf, 1) < 0) { - post("could not figure out how many output channels we got"); - gotchannels = chout[n]; - } else { - gotchannels = pvbuf[0].value.i; - } - outchans += gotchannels; - sgi_noutchans[n] = gotchannels; - } - sgi_noutdevs = noutdev; - sgi_nindevs = nindev; - sgi_inchannels = inchans; - sgi_outchannels = outchans; - return !(inchans || outchans); -} - -void sgi_close_audio() { - int err, n; - for (n = 0; n < sgi_nindevs; n++) { - if (sgi_iport[n]) { - err = alClosePort(sgi_iport[n]); - if (err < 0) error("closing input %d: %s (%d)", n + 1, alGetErrorString(oserror()), err); - } - } - for (n = 0; n < sgi_noutdevs; n++) { - if (sgi_oport[n]) { - err = alClosePort(sgi_oport[n]); - if (err < 0) error("closing output %d: %s (%d)", n + 1, alGetErrorString(oserror()), err); - } - } -} - -/* call this only if both input and output are open */ -static void sgi_checkiosync() { -// int i, result, checkit = 1, giveup = 1000, alreadylogged = 0; -// long indelay, outdelay, defect; -// if (!(sgi_outchannels && sgi_inchannels)) return; -} - -int sgi_send_dacs() { - float buf[SGI_MAXCH * sys_dacblocksize], *fp1, *fp2, *fp3, *fp4; - static int xferno = 0; - static int callno = 0; - static double timenow; - double timelast; - int inchannels = min(sys_inchannels, sgi_inchannels); - int outchannels = min(sys_outchannels,sgi_outchannels); - long outfill[SGI_MAXDEV], infill[SGI_MAXDEV]; - int outdevchannels, indevchannels; - int i, n, channel; - int result; - unsigned int outtransfersize = sys_dacblocksize; - unsigned int intransfersize = sys_dacblocksize; - /* no audio channels open, return */ - if (!inchannels && !outchannels) return SENDDACS_NO; - timelast = timenow; - timenow = sys_getrealtime(); -#ifdef DEBUG_SGI_XFER - if (timenow - timelast > 0.050) post("(%d)", (int)(1000 * (timenow - timelast))); -#endif - callno++; - sgi_checkiosync(); /* check I/O are in sync and data not late */ - /* check whether there is enough space in buffers */ - if (sgi_nindevs) { - for (n = 0; n < sgi_nindevs; n++) { - if (alGetFilled(sgi_iport[n]) < intransfersize) - return SENDDACS_NO; - } - } - if (sgi_noutdevs) { - for(n = 0; n < sgi_noutdevs; n++) { - if (alGetFillable(sgi_oport[n]) < outtransfersize) - return SENDDACS_NO; - } - } - /* output audio data, if we use audio out */ - if (sgi_noutdevs) { - fp2 = sys_soundout; /* point to current output position in buffer */ - for(n = 0; n < sgi_noutdevs; n++) { - outdevchannels = sgi_noutchans[n]; /* channels supported by this device */ - for (channel = 0, fp1 = buf; channel < outdevchannels; channel++, fp1++, fp2 += sys_dacblocksize) { - for (i = 0, fp3 = fp1, fp4 = fp2; i < sys_dacblocksize; i++, fp3 += outdevchannels, fp4++) *fp3 = *fp4, *fp4 = 0; - } - alWriteFrames(sgi_oport[n], buf, sys_dacblocksize); - } - } - /* zero out the output buffer */ - memset(sys_soundout, 0, sys_dacblocksize * sizeof(*sys_soundout) * sys_outchannels); - if (sys_getrealtime() - timenow > 0.002) { - #ifdef DEBUG_SGI_XFER - post("output %d took %d msec", callno, (int)(1000 * (timenow - timelast))); - #endif - timenow = sys_getrealtime(); - sys_log_error(ERR_DACSLEPT); - } - /* get audio data from input, if we use audio in */ - if (sgi_nindevs) { - fp2 = sys_soundin; /* point to current input position in buffer */ - for (n = 0; n < sgi_nindevs; n++) { - indevchannels = sgi_ninchans[n]; /* channels supported by this device */ - if (alGetFilled(sgi_iport[n]) > sys_dacblocksize) { - alReadFrames(sgi_iport[n], buf, sys_dacblocksize); - } else /* have to read but nothing's there... */ { - // if (sys_verbose) post("extra ADC buf"); - /* set buffer to silence */ - memset(buf, 0, intransfersize * sizeof(*sys_soundout) * sgi_ninchans[n]); - } - for (channel = 0, fp1 = buf; channel < indevchannels; channel++, fp1++, fp2 += sys_dacblocksize) { - for (i = 0, fp3 = fp1, fp4 = fp2; i < sys_dacblocksize; i++, fp3 += indevchannels, fp4++) *fp4 = *fp3; - } - } - } - xferno++; - if (sys_getrealtime() - timenow > 0.002) { -#ifdef DEBUG_SGI_XFER - post("routine took %d msec", int(1000 * (sys_getrealtime() - timenow))); -#endif - sys_log_error(ERR_ADCSLEPT); - } - return SENDDACS_YES; -} - -void sgi_getdevs(char *indevlist, int *nindevs, char *outdevlist, int *noutdevs, int *canmulti, int maxndev, int devdescsize) { -#if 0 - ALpv pvs[1]; - char name[32]; - int i, ndev, err; - *canmulti = 3; /* supports multiple devices */ - /* get max. number of audio ports from system */ - pvs[0].param = AL_DEVICES; - err = alGetParams(AL_SYSTEM, pvs, 1); - if (err < 0) { - sprintf("alGetParams failed: %s\n", alGetErrorString(oserror())); - } - ndev = pvs[0].value.i; - for (i = 0; i < ndev; i++) { - pvs[0].param = AL_NAME; /* a string parameter */ - pvs[0].value.ptr = name; /* the string we've allocated */ - pvs[0].sizeIn = 32; /* the array size, in characters, including space for NULL */ - if (alGetParams(i, pvs, 1) < 0) { - sprintf("alGetParams failed: %s\n", alGetErrorString(oserror())); - } - sprintf(indevlist + i * devdescsize, "%d: %s", i + 1, name); - sprintf(outdevlist + i * devdescsize, "%d: %s", i + 1, name); - } - *nindevs = ndev; - *noutdevs = ndev; -#else - sprintf( indevlist + 0 * devdescsize, "Default In"); - sprintf(outdevlist + 0 * devdescsize, "Default Out"); - sprintf( indevlist + 1 * devdescsize, "Analog In"); - sprintf(outdevlist + 1 * devdescsize, "Analog Out"); - sprintf( indevlist + 2 * devdescsize, "AES In"); - sprintf(outdevlist + 2 * devdescsize, "AES Out"); - sprintf( indevlist + 3 * devdescsize, "ADAT In"); - sprintf(outdevlist + 3 * devdescsize, "ADAT Out"); - *nindevs = 4; - *noutdevs = 4; - *canmulti = 3; /* supports multiple devices */ -#endif -} - -/* list devices: only reflect the most common setup (Octane) */ -void sgi_listaudiodevs() { - post("common devices on SGI machines:"); - post("#-1 - Default In/Out selected in Audio Panel"); - post("#1 - Analog In/Out"); - post("#2 - AES In/Out"); - post("#3 - ADAT I/O"); -} - -struct t_audioapi sgi_api = { - sgi_open_audio, - sgi_close_audio, - sgi_send_dacs, - sgi_getdevs, -}; -- cgit v1.2.1