Mercurial > sdl-ios-xcode
view src/audio/mint/SDL_mintaudio.c @ 3230:816a7a65a59a
Fixed compiling SDL_fsaudio.c against fusionsound 1.0.0
author | Couriersud <couriersud@arcor.de> |
---|---|
date | Mon, 03 Aug 2009 18:07:31 +0000 |
parents | 99210400e8b9 |
children |
line wrap: on
line source
/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" /* Audio interrupt variables and callback function Patrice Mandin */ #include <unistd.h> #include <mint/osbind.h> #include <mint/falcon.h> #include <mint/mintbind.h> #include <mint/cookie.h> #include "SDL_audio.h" #include "SDL_mintaudio.h" #include "SDL_mintaudio_stfa.h" /* The audio device */ SDL_AudioDevice *SDL_MintAudio_device; Uint8 *SDL_MintAudio_audiobuf[2]; /* Pointers to buffers */ unsigned long SDL_MintAudio_audiosize; /* Length of audio buffer=spec->size */ volatile unsigned short SDL_MintAudio_numbuf; /* Buffer to play */ volatile unsigned short SDL_MintAudio_mutex; volatile unsigned long SDL_MintAudio_clocktics; cookie_stfa_t *SDL_MintAudio_stfa; /* MiNT thread variables */ SDL_bool SDL_MintAudio_mint_present; SDL_bool SDL_MintAudio_quit_thread; SDL_bool SDL_MintAudio_thread_finished; long SDL_MintAudio_thread_pid; /* The callback function, called by each driver whenever needed */ void SDL_MintAudio_Callback(void) { Uint8 *buffer; SDL_AudioDevice *audio = SDL_MintAudio_device; buffer = SDL_MintAudio_audiobuf[SDL_MintAudio_numbuf]; SDL_memset(buffer, audio->spec.silence, audio->spec.size); if (audio->paused) return; if (audio->convert.needed) { int silence; if (audio->convert.src_format == AUDIO_U8) { silence = 0x80; } else { silence = 0; } SDL_memset(audio->convert.buf, silence, audio->convert.len); audio->spec.callback(audio->spec.userdata, (Uint8 *) audio->convert.buf, audio->convert.len); SDL_ConvertAudio(&audio->convert); SDL_memcpy(buffer, audio->convert.buf, audio->convert.len_cvt); } else { audio->spec.callback(audio->spec.userdata, buffer, audio->spec.size); } } /* Add a new frequency/clock/predivisor to the current list */ void SDL_MintAudio_AddFrequency(_THIS, Uint32 frequency, Uint32 clock, Uint32 prediv, int gpio_bits) { int i, p; if (MINTAUDIO_freqcount == MINTAUDIO_maxfreqs) { return; } /* Search where to insert the frequency (highest first) */ for (p = 0; p < MINTAUDIO_freqcount; p++) { if (frequency > MINTAUDIO_frequencies[p].frequency) { break; } } /* Put all following ones farer */ if (MINTAUDIO_freqcount > 0) { for (i = MINTAUDIO_freqcount; i > p; i--) { SDL_memcpy(&MINTAUDIO_frequencies[i], &MINTAUDIO_frequencies[i - 1], sizeof(mint_frequency_t)); } } /* And insert new one */ MINTAUDIO_frequencies[p].frequency = frequency; MINTAUDIO_frequencies[p].masterclock = clock; MINTAUDIO_frequencies[p].predivisor = prediv; MINTAUDIO_frequencies[p].gpio_bits = gpio_bits; MINTAUDIO_freqcount++; } /* Search for the nearest frequency */ int SDL_MintAudio_SearchFrequency(_THIS, int desired_freq) { int i; /* Only 1 freq ? */ if (MINTAUDIO_freqcount == 1) { return 0; } /* Check the array */ for (i = 0; i < MINTAUDIO_freqcount; i++) { if (desired_freq >= ((MINTAUDIO_frequencies[i].frequency + MINTAUDIO_frequencies[i + 1].frequency) >> 1)) { return i; } } /* Not in the array, give the latest */ return MINTAUDIO_freqcount - 1; } /* Check if FPU is present */ void SDL_MintAudio_CheckFpu(void) { unsigned long cookie_fpu; SDL_MintAudio_hasfpu = 0; if (Getcookie(C__FPU, &cookie_fpu) != C_FOUND) { return; } switch ((cookie_fpu >> 16) & 0xfffe) { case 2: case 4: case 6: case 8: case 16: SDL_MintAudio_hasfpu = 1; break; } } /* The thread function, used under MiNT with xbios */ int SDL_MintAudio_Thread(long param) { SndBufPtr pointers; SDL_bool buffers_filled[2] = { SDL_FALSE, SDL_FALSE }; SDL_MintAudio_thread_finished = SDL_FALSE; while (!SDL_MintAudio_quit_thread) { if (Buffptr(&pointers) != 0) continue; if (((unsigned long) pointers.play >= (unsigned long) SDL_MintAudio_audiobuf[0]) && ((unsigned long) pointers.play <= (unsigned long) SDL_MintAudio_audiobuf[1])) { /* DMA is reading buffer #0, setup buffer #1 if not already done */ if (!buffers_filled[1]) { SDL_MintAudio_numbuf = 1; SDL_MintAudio_Callback(); Setbuffer(0, SDL_MintAudio_audiobuf[1], SDL_MintAudio_audiobuf[1] + SDL_MintAudio_audiosize); buffers_filled[1] = SDL_TRUE; buffers_filled[0] = SDL_FALSE; } } else { /* DMA is reading buffer #1, setup buffer #0 if not already done */ if (!buffers_filled[0]) { SDL_MintAudio_numbuf = 0; SDL_MintAudio_Callback(); Setbuffer(0, SDL_MintAudio_audiobuf[0], SDL_MintAudio_audiobuf[0] + SDL_MintAudio_audiosize); buffers_filled[0] = SDL_TRUE; buffers_filled[1] = SDL_FALSE; } } usleep(100); } SDL_MintAudio_thread_finished = SDL_TRUE; return 0; } void SDL_MintAudio_WaitThread(void) { if (!SDL_MintAudio_mint_present) return; if (SDL_MintAudio_thread_finished) return; SDL_MintAudio_quit_thread = SDL_TRUE; while (!SDL_MintAudio_thread_finished) { Syield(); } } /* vi: set ts=4 sw=4 expandtab: */