#include "sound.h" #include "music.h" #include "files.h" // F_findres F_getreslen #include "memory.h" // M_lock M_unlock #include "misc.h" // int2host #include "error.h" // logo #ifdef __APPLE__ # include # include #else # include # include #endif #include "SDL.h" // SDL_BuildAudioCVT SDL_ConvertAudio #include #include // malloc #include // memcpy #define TAG_OAL1 0x4F414C31 #define MAX_CHANNELS 8 #pragma pack(1) typedef struct dmi { dword len; dword rate; dword lstart; dword llen; byte data[]; } dmi; #pragma pack() typedef struct openal_snd { snd_t base; ALuint buffer; } openal_snd; typedef struct openal_channel { ALuint source; } openal_channel; short snd_vol; short mus_vol; char music_random; int music_time; int music_fade; static ALCdevice *device; static ALCcontext *context; static ALuint sources[MAX_CHANNELS]; /* Music */ void S_initmusic (void) { } void S_donemusic (void) { } void S_startmusic (int time) { } void S_stopmusic (void) { } void S_volumemusic (int v) { } void F_loadmus (char n[8]) { } void F_freemus (void) { } void S_updatemusic (void) { } /* Sound */ static void convert_this_ext (Uint32 src_format, int src_chan, int src_rate, Uint32 dst_format, int dst_chan, int dst_rate, const void *buf, int len, void **maxbuf, int *maxlen) { SDL_AudioCVT cvt; *maxlen = 0; *maxbuf = NULL; if (SDL_BuildAudioCVT(&cvt, src_format, src_chan, src_rate, dst_format, dst_chan, dst_rate) != -1) { *maxlen = len * cvt.len_mult; *maxbuf = malloc(*maxlen); if (*maxbuf != NULL) { memcpy(*maxbuf, buf, len); cvt.buf = *maxbuf; cvt.len = len; if (SDL_ConvertAudio(&cvt) == 0) { *maxlen = len * cvt.len_ratio; } else { free(*maxbuf); *maxbuf = NULL; *maxlen = 0; } } } } static openal_snd *new_openal_snd (const void *data, dword len, dword rate, dword lstart, dword llen, int sign) { assert(data); ALuint buffer = 0; openal_snd *snd = NULL; void *newdata = NULL; int newlen = 0; // for some reason 8bit formats makes psshshshsh // TODO do this without SDL convert_this_ext(sign ? AUDIO_S8 : AUDIO_U8, 1, rate, AUDIO_S16SYS, 1, rate, data, len, &newdata, &newlen); if (newdata != NULL) { alGenBuffers(1, &buffer); if (alGetError() == AL_NO_ERROR) { alBufferData(buffer, AL_FORMAT_MONO16, newdata, newlen, rate); if (alGetError() == AL_NO_ERROR) { snd = malloc(sizeof(openal_snd)); if (snd != NULL) { snd->base.tag = TAG_OAL1; snd->buffer = buffer; // TODO loops } else { alDeleteBuffers(1, &buffer); } } else { alDeleteBuffers(1, &buffer); } } free(newdata); } return snd; } snd_t *S_get (int id) { void *handle; openal_snd *snd = NULL; if (context != NULL) { handle = M_lock(id); if (handle != NULL) { void *data = handle; dword len = F_getreslen(id); dword rate = 11025; dword lstart = 0; dword llen = 0; int sign = 0; if (len > 16) { dmi *hdr = handle; dword hdr_len = int2host(hdr->len); dword hdr_rate = int2host(hdr->rate); dword hdr_lstart = int2host(hdr->lstart); dword hdr_llen = int2host(hdr->llen); if (hdr_len <= len - 8 && hdr_lstart + hdr_llen <= len - 16) { data = hdr->data; len = hdr_len; rate = hdr_rate; lstart = hdr_lstart; llen = hdr_llen; sign = 1; } } snd = new_openal_snd(data, len, rate, lstart, llen, sign); M_unlock(handle); } } return (snd_t*)snd; } snd_t *S_load (const char name[8]) { return S_get(F_findres(name)); } void S_free (snd_t *s) { int i; ALint h; openal_snd *snd = (openal_snd*)s; if (snd != NULL) { assert(snd->base.tag == TAG_OAL1); if (context != NULL) { for (i = 0; i < MAX_CHANNELS; i++) { alGetSourcei(sources[i], AL_BUFFER, &h); if (h == snd->buffer) { alSourceStop(sources[i]); alSourcei(sources[i], AL_BUFFER, 0); } } alDeleteBuffers(1, &snd->buffer); assert(alGetError() == AL_NO_ERROR); } snd->base.tag = 0; free(s); } } void S_init (void) { assert(device == NULL && context == NULL); const ALCint attrs[] = {ALC_MONO_SOURCES, MAX_CHANNELS, 0}; device = alcOpenDevice(NULL); if (device != NULL) { context = alcCreateContext(device, attrs); if (context != NULL) { if (alcMakeContextCurrent(context)) { alGenSources(MAX_CHANNELS, sources); if (alGetError() == AL_NO_ERROR) { alListenerf(AL_GAIN, 1); alListener3f(AL_POSITION, 0, 0, 0); alListener3f(AL_VELOCITY, 0, 0, 0); } else { logo("S_init: unable to create OpenAL sources\n"); alcDestroyContext(context); alcCloseDevice(device); context = NULL; device = NULL; } } else { logo("S_init: unable to make OpenAL context current\n"); alcDestroyContext(context); alcCloseDevice(device); context = NULL; device = NULL; } } else { logo("S_init: unable to create OpenAL context\n"); alcCloseDevice(device); device = NULL; } } else { logo("S_init: unable to open OpenAL device\n"); } } void S_done (void) { if (context != NULL) { alcMakeContextCurrent(NULL); alcDestroyContext(context); alcCloseDevice(device); } context = NULL; device = NULL; } short S_play (snd_t *s, short c, short v) { assert(c >= 0 && c <= MAX_CHANNELS); assert(v >= 0 && v < 256); ALuint source; ALint state; int channel; if (context != NULL && s != NULL) { openal_snd *snd = (openal_snd*)s; assert(snd->base.tag == TAG_OAL1); if (c == 0) { for (channel = 0; channel < MAX_CHANNELS; channel++) { state = AL_PLAYING; alGetSourcei(sources[channel], AL_SOURCE_STATE, &state); if (state == AL_STOPPED || state == AL_INITIAL) { break; // !!! } } } else { channel = c - 1; } if (channel < MAX_CHANNELS) { source = sources[channel]; alSourceStop(source); alSourcei(source, AL_BUFFER, snd->buffer); alSourcef(source, AL_PITCH, 1); alSourcef(source, AL_GAIN, v / 255.0); alSource3f(source, AL_POSITION, 0, 0, 0); alSource3f(source, AL_VELOCITY, 0, 0, 0); alSourcei(source, AL_LOOPING, AL_FALSE); alSourcePlay(source); } } return 0; } void S_stop (short c) { assert(c >= 0 && c <= MAX_CHANNELS); if (context != NULL) { if (c != 0) { alSourceStop(sources[c - 1]); } } } void S_volume (int v) { assert(v >= 0 && v <= 128); snd_vol = v; if (context != NULL) { alListenerf(AL_GAIN, v / 128.0); } } void S_wait (void) { int i; ALint state; if (context != NULL) { for (i = 0; i < MAX_CHANNELS; i++) { do { state = AL_STOPPED; alGetSourcei(sources[i], AL_SOURCE_STATE, &state); } while (state == AL_PLAYING); } } }