ref: 0eabd603f8768063fb423d7b065fe1124837e2f2
dir: /libnpe_sdl2/mixer.c/
#include "_sdl.h" #include <SDL2/SDL_mixer.h> int audiofd = -1; int musicpipe[2] = {-1, -1}; static int forkerpid = -1; static int audiopid = -1; void musicproc(void *); static int musicvol = 128; static int musicpaused = 0; /* FIXME proper chains per channel */ Mix_EffectFunc_t effunc = nil; static int doneinit = 0; static int devopen = 0; enum { Maxchan = 16 }; SDL_AudioSpec channels[Maxchan]; int nchannels = 0; int Mix_OpenAudio(int freq, Uint16 format, int nch, int chunk) { SDL_AudioSpec *as; int sz; if(devopen) return 0; switch(format){ case 1: case 2: sz = 1; break; case 3: case 4: sz = 2; break; default: werrstr("unsupported format"); return -1; } as = &channels[nchannels++]; assert(nchannels < Maxchan); as->freq = freq; as->format = format; as->channels = nch; as->samples = chunk / sz; return 0; } char* Mix_GetError(void) { return ""; } static void translate(void *arg, Uint8 *buf, int len) { Mix_EffectFunc_t f; f = (Mix_EffectFunc_t)arg; f(0, buf, len, nil); } int Mix_RegisterEffect(int chan, Mix_EffectFunc_t f, Mix_EffectDone_t d, void *arg) { SDL_AudioSpec *as; int n; USED(arg); USED(d); as = channels + chan; as->userdata = f; as->callback = translate; if(devopen){ werrstr("device already open"); return -1; } n = SDL_OpenAudioDevice(nil, 0, as, nil, 0); assert(n >= 0); SDL_PauseAudioDevice(n, 0); return 1; } Mix_Chunk* Mix_QuickLoad_RAW(Uint8 *mem, Uint32 len) { USED(mem); USED(len); return nil; } int Mix_PlayChannel(int chan, Mix_Chunk *chunk, int loops) { USED(chan); USED(chunk); USED(loops); return -1; } int Mix_HaltChannel(int channel) { USED(channel); return 0; } void Mix_FreeChunk(Mix_Chunk *c) { USED(c); } void Mix_CloseAudio(void) { if(audiopid > 0) postnote(PNPROC, audiopid, "quit"); audiopid = -1; } int Mix_Init(int flags) { if(doneinit) return flags; doneinit = 1; memset(channels, 0, sizeof channels); rfork(RFNAMEG); if(fork() == 0){ execl("/bin/audio/mixfs", "mixfs", nil); sysfatal("exec: %r\n"); } waitpid(); pipe(musicpipe); if(fork() == 0){ musicproc(nil); sysfatal("exec musicproc: %r"); } return flags; } int Mix_VolumeMusic(int vol) { if(vol < 0) vol = 0; else if(vol > 128) vol = 128; musicvol = vol; return 0; } int Mix_PlayingMusic(void) { return forkerpid > 0 && !musicpaused; } int Mix_PausedMusic(void) { return musicpaused; } void Mix_ResumeMusic(void) { musicpaused = 0; } void Mix_PauseMusic(void) { musicpaused = 1; } int Mix_HaltMusic(void) { if(forkerpid < 0) return 0; postnote(PNGROUP, forkerpid, "halt"); forkerpid = -1; return 0; } int Mix_PlayMusic(Mix_Music *music, int loops) { Waitmsg *wm; int n; if(forkerpid > 0) Mix_HaltMusic(); if((forkerpid = rfork(RFPROC|RFNOTEG)) != 0) return 0; n = loops; while(loops == -1 || n-- > 0){ switch(rfork(RFPROC|RFFDG)){ case 0: dup(musicpipe[1], 1); close(musicpipe[1]); close(musicpipe[0]); execl("/bin/games/midi", "midi", "-c", music->loc, nil); sysfatal("exec: %r"); break; default: wm = wait(); if(wm->msg != nil && wm->msg[0] != '\0'){ fprint(2, "playmusic: %s\n", wm->msg); threadexits(nil); } free(wm); break; } } threadexits(nil); return -1; } Mix_Music* Mix_LoadMUS(char *filename) { Mix_Music *m; m = calloc(1, sizeof(*m)); m->loc = strdup(filename); m->fd = open(filename, OREAD); if(m->fd < 0) sysfatal("LoadMUS: %r"); return m; } Mix_Music* Mix_LoadMUS_RW(SDL_RWops *src, int freesrc) { Mix_Music *m; char buf[1024]; int n; m = calloc(1, sizeof(*m)); m->loc = smprint("/tmp/npesdl.mus.%d", getpid()); m->fd = create(m->loc, ORDWR|ORCLOSE, 0666); while((n = SDL_RWread(src, buf, 1, sizeof buf)) > 0) write(m->fd, buf, n); seek(m->fd, 0, 0); if(freesrc) SDL_RWclose(src); return m; } void musicproc(void *) { int fd; static char buf[8192]; int n; fd = open("/dev/audio", OWRITE); if(fd < 0) sysfatal("musicproc: %r"); close(musicpipe[1]); threadsetname("musicproc"); for(;;){ n = read(musicpipe[0], buf, sizeof buf); if(n < 0) threadexits(nil); write(fd, buf, n); } }