// Emacs style mode select -*- C++ -*- //----------------------------------------------------------------------------- // // $Id: s_sound.c,v 1.3 1998/01/05 16:26:08 pekangas Exp $ // // Copyright (C) 1993-1996 by id Software, Inc. // // This source is available for distribution and/or modification // only under the terms of the DOOM Source Code License as // published by id Software. All rights reserved. // // The source is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // FITNESS FOR A PARTICULAR PURPOSE. See the DOOM Source Code License // for more details. // // // DESCRIPTION: none // Dolby Pro Logic code by Gavino. // //----------------------------------------------------------------------------- #include #include #ifdef _WIN32 #include #endif #include #include "m_alloc.h" #include "i_system.h" #include "i_sound.h" #include "i_music.h" #include "i_cd.h" #include "s_sound.h" #include "s_sndseq.h" #include "s_playlist.h" #include "c_dispatch.h" #include "m_random.h" #include "w_wad.h" #include "doomdef.h" #include "p_local.h" #include "doomstat.h" #include "cmdlib.h" #include "v_video.h" #include "v_text.h" #include "a_sharedglobal.h" #include "gstrings.h" #include "vectors.h" #include "gi.h" #include "templates.h" #include "zstring.h" // MACROS ------------------------------------------------------------------ #ifdef NeXT // NeXT doesn't need a binary flag in open call #define O_BINARY 0 #endif #ifndef O_BINARY #define O_BINARY 0 #endif #define SELECT_ATTEN(a) ((a)==ATTN_NONE ? 0 : (a)==ATTN_SURROUND ? -1 : \ (a)==ATTN_STATIC ? 3 : 1) #ifndef FIXED2FLOAT #define FIXED2FLOAT(f) (((float)(f))/(float)65536) #endif #define PRIORITY_MAX_ADJUST 10 #define DIST_ADJUST (MAX_SND_DIST/PRIORITY_MAX_ADJUST) #define NORM_PITCH 128 #define NORM_PRIORITY 64 #define NORM_SEP 128 #define NONE_SEP -2 #define S_PITCH_PERTURB 1 #define S_STEREO_SWING (96<>1); } else return 0; } static fixed_t P_AproxDistance2 (AActor *listener, fixed_t x, fixed_t y) { return listener ? P_AproxDistance2 (&listener->x, x, y) : 0; } //========================================================================== // // S_NoiseDebug // // [RH] Print sound debug info. Called by status bar. //========================================================================== void S_NoiseDebug (void) { fixed_t ox, oy; int i, y, color; y = 32 * CleanYfac; screen->DrawText (CR_YELLOW, 0, y, "*** SOUND DEBUG INFO ***", TAG_DONE); y += 8; screen->DrawText (CR_GOLD, 0, y, "name", TAG_DONE); screen->DrawText (CR_GOLD, 70, y, "x", TAG_DONE); screen->DrawText (CR_GOLD, 120, y, "y", TAG_DONE); screen->DrawText (CR_GOLD, 170, y, "vol", TAG_DONE); screen->DrawText (CR_GOLD, 200, y, "pri", TAG_DONE); screen->DrawText (CR_GOLD, 240, y, "dist", TAG_DONE); screen->DrawText (CR_GOLD, 280, y, "chan", TAG_DONE); y += 8; for (i = 0; i < numChannels && y < SCREENHEIGHT - 16; i++, y += 8) { if (Channel[i].sfxinfo) { char temp[16]; fixed_t *origin = Channel[i].pt; if (Channel[i].attenuation <= 0) { ox = players[consoleplayer].camera->x; oy = players[consoleplayer].camera->y; } else if (origin) { ox = origin[0]; oy = origin[1]; } else { ox = Channel[i].x; oy = Channel[i].y; } color = Channel[i].loop ? CR_BROWN : CR_GREY; Wads.GetLumpName (temp, Channel[i].sfxinfo->lumpnum); temp[8] = 0; screen->DrawText (color, 0, y, temp, TAG_DONE); sprintf (temp, "%ld", ox / FRACUNIT); screen->DrawText (color, 70, y, temp, TAG_DONE); sprintf (temp, "%ld", oy / FRACUNIT); screen->DrawText (color, 120, y, temp, TAG_DONE); sprintf (temp, "%g", Channel[i].volume); screen->DrawText (color, 170, y, temp, TAG_DONE); sprintf (temp, "%d", Channel[i].priority); screen->DrawText (color, 200, y, temp, TAG_DONE); sprintf (temp, "%ld", P_AproxDistance2 (players[consoleplayer].camera, ox, oy) / FRACUNIT); screen->DrawText (color, 240, y, temp, TAG_DONE); sprintf (temp, "%d", Channel[i].entchannel); screen->DrawText (color, 280, y, temp, TAG_DONE); } else { screen->DrawText (CR_GREY, 0, y, "------", TAG_DONE); } } BorderNeedRefresh = screen->GetPageCount (); } static FString LastLocalSndInfo; static FString LastLocalSndSeq; void S_AddLocalSndInfo(int lump); //========================================================================== // // S_Init // // Initializes sound stuff, including volume. Sets channels, SFX and // music volume, allocates channel buffer, and sets S_sfx lookup. //========================================================================== void S_Init () { int i; int curvelump; Printf ("S_Init\n"); atterm (S_Shutdown); // remove old data (S_Init can be called multiple times!) LastLocalSndInfo = LastLocalSndSeq = ""; if (SoundCurve) delete [] SoundCurve; // Heretic and Hexen have sound curve lookup tables. Doom does not. curvelump = Wads.CheckNumForName ("SNDCURVE"); if (curvelump >= 0) { MAX_SND_DIST = Wads.LumpLength (curvelump); SoundCurve = new BYTE[MAX_SND_DIST]; Wads.ReadLump (curvelump, SoundCurve); // The maximum value in a SNDCURVE lump is 127, so scale it to // fit our sound system's volume levels. for (i = 0; i < S_CLIPPING_DIST; ++i) { SoundCurve[i] = SoundCurve[i] * 255 / 127; } } else { MAX_SND_DIST = S_CLIPPING_DIST; SoundCurve = new BYTE[S_CLIPPING_DIST]; for (i = 0; i < S_CLIPPING_DIST; ++i) { SoundCurve[i] = MIN (255, (S_CLIPPING_DIST - i) * 255 / S_ATTENUATOR); } } // [RH] Read in sound sequences S_ParseSndSeq (-1); // Allocating the virtual channels numChannels = GSnd ? GSnd->SetChannels (snd_channels) : 0; if (Channel != NULL) { delete[] Channel; } Channel = new channel_t[numChannels]; // Free all channels for use for (i = 0; i < numChannels; i++) { Channel[i].pt = NULL; Channel[i].handle = 0; Channel[i].sound_id = -1; Channel[i].priority = 0; Channel[i].sfxinfo = 0; } // no sounds are playing, and they are not paused MusicPaused = false; SoundPaused = false; // Note that sounds have not been cached (yet). // for (i=1; (size_t)i < S_sfx.Size (); i++) // S_sfx[i].usefulness = -1; } //========================================================================== // // S_Shutdown // //========================================================================== void S_Shutdown () { if (Channel != NULL) { delete[] Channel; Channel = NULL; numChannels = 0; } if (SoundCurve != NULL) { delete[] SoundCurve; SoundCurve = NULL; } if (PlayList != NULL) { delete PlayList; PlayList = NULL; } } //========================================================================== // // S_Start // // Per level startup code. Kills playing sounds at start of level // and starts new music. //========================================================================== void S_Start () { int cnum; if (GSnd) { // kill all playing sounds at start of level (trust me - a good idea) for (cnum = 0; cnum < numChannels; cnum++) { if (Channel[cnum].sfxinfo) { S_StopChannel (cnum); } } // Check for local sound definitions. Only reload if they differ // from the previous ones. // To be certain better check whether level is valid! char * LocalSndInfo= level.info? level.info->soundinfo : (char*)""; char * LocalSndSeq = level.info? level.info->sndseq : (char*)""; bool parse_ss=false; // This level uses a different local SNDINFO if (LastLocalSndInfo.CompareNoCase(LocalSndInfo) != 0 || !level.info) { // First delete the old sound list for(unsigned i=1;iUnloadSound(&S_sfx[i]); } // Parse the global SNDINFO S_ParseSndInfo(); if (*LocalSndInfo) { // Now parse the local SNDINFO int j = Wads.CheckNumForName(LocalSndInfo); if (j>=0) S_AddLocalSndInfo(j); } // Also reload the SNDSEQ if the SNDINFO was replaced! parse_ss=true; } else if (LastLocalSndSeq.CompareNoCase(LocalSndSeq) != 0) { parse_ss=true; } if (parse_ss) { S_ParseSndSeq(*LocalSndSeq? Wads.CheckNumForName(LocalSndSeq) : -1); } else LastLocalSndInfo = LocalSndInfo; LastLocalSndSeq = LocalSndSeq; } // start new music for the level MusicPaused = false; SoundPaused = false; // [RH] This is a lot simpler now. if (!savegamerestore) { if (level.cdtrack == 0 || !S_ChangeCDMusic (level.cdtrack, level.cdid)) S_ChangeMusic (level.music, level.musicorder); } nextcleanup = 15; } //========================================================================== // // S_PrecacheLevel // // Like R_PrecacheLevel, but for sounds. // //========================================================================== void S_PrecacheLevel () { unsigned int i; if (GSnd) { for (i = 0; i < S_sfx.Size(); ++i) { S_sfx[i].bUsed = false; } AActor *actor; TThinkerIterator iterator; while ( (actor = iterator.Next ()) != NULL ) { S_sfx[actor->SeeSound].bUsed = true; S_sfx[actor->AttackSound].bUsed = true; S_sfx[actor->PainSound].bUsed = true; S_sfx[actor->DeathSound].bUsed = true; S_sfx[actor->ActiveSound].bUsed = true; S_sfx[actor->UseSound].bUsed = true; } for (i = 1; i < S_sfx.Size(); ++i) { if (S_sfx[i].bUsed) { S_CacheSound (&S_sfx[i]); } } for (i = 1; i < S_sfx.Size(); ++i) { if (!S_sfx[i].bUsed && S_sfx[i].link == sfxinfo_t::NO_LINK) { GSnd->UnloadSound (&S_sfx[i]); } } } } //========================================================================== // // S_CacheSound // //========================================================================== void S_CacheSound (sfxinfo_t *sfx) { if (GSnd) { if (sfx->bPlayerReserve) { return; } else if (sfx->bRandomHeader) { S_CacheRandomSound (sfx); } else { while (sfx->link != sfxinfo_t::NO_LINK) { sfx = &S_sfx[sfx->link]; } sfx->bUsed = true; GSnd->LoadSound (sfx); } } } // [RH] Split S_StartSoundAtVolume into multiple parts so that sounds can // be specified both by id and by name. Also borrowed some stuff from // Hexen and parameters from Quake. //========================================================================== // // CalcPosVel // // Calculates a sounds position and velocity for 3D sounds. //========================================================================= void CalcPosVel (fixed_t *pt, AActor *mover, int constz, float pos[3], float vel[3]) { if (mover != NULL && 0) { vel[0] = FIXED2FLOAT(mover->momx) * TICRATE; vel[1] = FIXED2FLOAT(mover->momz) * TICRATE; vel[2] = FIXED2FLOAT(mover->momy) * TICRATE; } else { vel[0] = vel[1] = vel[2] = 0.f; } pos[0] = FIXED2FLOAT (pt[0]); pos[2] = FIXED2FLOAT (pt[1]); if (constz) { pos[1] = FIXED2FLOAT(players[consoleplayer].camera->z); vel[1] = 0.f; } else { pos[1] = FIXED2FLOAT(pt[2]); } } //========================================================================== // // S_StartSound // // 0 attenuation means full volume over whole level // -1 attenuation means full volume in surround over whole level // 0 0) attenuation = 0; // Give these variables values, although they don't really matter x = y = z = 0; } else { x = pt[0]; y = pt[1]; z = pt[2]; } chanflags = channel & ~7; if (chanflags & CHAN_IMMOBILE) { pt = NULL; } if (i_compatflags & COMPATF_MAGICSILENCE) { // For people who just can't play without a silent BFG. channel = 1; } else { if ((channel & CHAN_MAYBE_LOCAL) && (i_compatflags & COMPATF_SILENTPICKUP)) { if (mover != 0 && mover != players[consoleplayer].camera) { return; } } channel &= 7; } if (volume > 1) volume = 1; if (attenuation == 0) { sep = NONE_SEP; dist = 0; } else if (attenuation < 0) { sep = snd_surround ? -1 : NONE_SEP; dist = 0; } else { // calculate the distance before other stuff so we can throw out // sounds that are beyond the hearing range. dist = (int)(FIXED2FLOAT (P_AproxDistance2 (players[consoleplayer].camera, x, y)) * attenuation); if (dist >= MAX_SND_DIST) { return; // sound is beyond the hearing range... } else if (dist < 0) { dist = 0; } sep = -3; // Calculate separation later on } sfx = &S_sfx[sound_id]; // Resolve player sounds, random sounds, and aliases while (sfx->link != sfxinfo_t::NO_LINK) { if (sfx->bPlayerReserve) { sound_id = S_FindSkinnedSound (mover, sound_id); } else if (sfx->bRandomHeader) { sound_id = S_PickReplacement (sound_id); } else { sound_id = sfx->link; } sfx = &S_sfx[sound_id]; } if (!sfx->data) { GSnd->LoadSound (sfx); if (sfx->link != sfxinfo_t::NO_LINK) { sfx = &S_sfx[sfx->link]; } } if (sfx->lumpnum == sfx_empty) { basepriority = -1000; return; } else if (attenuation <= 0) { basepriority = 200; } else { switch (channel) { case CHAN_WEAPON: basepriority = 100; break; case CHAN_VOICE: basepriority = 75; break; default: case CHAN_BODY: basepriority = 50; break; case CHAN_ITEM: basepriority = 25; break; } if (attenuation == 1) basepriority += 50; if (dist == 0) basepriority += 30; } priority = basepriority * (PRIORITY_MAX_ADJUST - (dist/DIST_ADJUST)); if (pt != NULL && !S_StopSoundID (sound_id, priority, sfx->MaxChannels, sfx->bSingular, x, y)) return; // other sounds have greater priority if (pt) { for (i = 0; i < numChannels; i++) { if (Channel[i].sfxinfo && pt == Channel[i].pt && Channel[i].entchannel == channel) { break; } } if (i < numChannels && channel != CHAN_AUTO) { S_StopChannel (i); } else if (channel == CHAN_AUTO) { int chansused[8], freechan; memset (chansused, 0, sizeof(chansused)); freechan = numChannels; for (i = 0; i < numChannels; i++) { if (!Channel[i].sfxinfo) { freechan = i; } else if (pt == Channel[i].pt) { chansused[Channel[i].entchannel] = 1; } } for (i = 7; i >= 0; i--) { if (!chansused[i]) break; } if (i < 0) return; // entity has no free channels channel = i; i = freechan; } } else { i = numChannels; } if (i >= numChannels) { for (i = 0; i < numChannels; i++) { if (Channel[i].sfxinfo == NULL) { break; } } if (i >= numChannels) { // look for a lower priority sound to replace. sndcount++; if (sndcount >= numChannels) sndcount = 0; for (chan = 0; chan < numChannels; chan++) { i = (sndcount + chan) % numChannels; if (priority > Channel[i].priority) { chan = -1; //denote that sound should be replaced. break; } } if (chan != -1) { return; // no free channels. } else { // replace the lower priority sound. S_StopChannel (i); } } } vol = (int)(SoundCurve[dist]*volume); if (sep == -3) { AActor *listener = players[consoleplayer].camera; if (listener == NULL) { sep = NONE_SEP; } else if (dist == 0) { sep = NORM_SEP; } else { angle = R_PointToAngle2 (listener->x, listener->y, x, y); if (angle > listener->angle) angle = angle - listener->angle; else angle = angle + (ANGLE_MAX - listener->angle); angle >>= ANGLETOFINESHIFT; sep = NORM_SEP - (FixedMul (S_STEREO_SWING, finesine[angle])>>FRACBITS); if (snd_flipstereo) { sep = 255-sep; } if (snd_matrix) { int rearsep = NORM_SEP - (FixedMul (S_STEREO_SWING, finecosine[angle])>>FRACBITS); if (rearsep > 128) { sep = -1; attenuation = -1; } } } } // vary the sfx pitches if (sfx->PitchMask != 0) { Channel[i].pitch = NORM_PITCH-(M_Random()&sfx->PitchMask)+(M_Random()&sfx->PitchMask); } else { Channel[i].pitch = NORM_PITCH; } if (GSnd->Sound3D && attenuation > 0) { float pos[3]; float vel[3]; if (pt) { CalcPosVel (pt, mover, chanflags & CHAN_LISTENERZ, pos, vel); } else { fixed_t pt2[3]; pt2[0] = x; pt2[1] = y; pt2[2] = z; CalcPosVel (pt2, mover, chanflags & CHAN_LISTENERZ, pos, vel); } Channel[i].handle = GSnd->StartSound3D (sfx, volume, Channel[i].pitch, i, looping, pos, vel, !(chanflags & CHAN_NOPAUSE)); Channel[i].is3d = true; Channel[i].constz = !!(chanflags & CHAN_LISTENERZ); } else { Channel[i].handle = GSnd->StartSound (sfx, vol, sep, Channel[i].pitch, i, looping, !(chanflags & CHAN_NOPAUSE)); Channel[i].is3d = false; Channel[i].constz = true; } Channel[i].sound_id = sound_id; Channel[i].org_id = org_id; Channel[i].mover = mover; Channel[i].pt = pt ? pt : &Channel[i].x; Channel[i].sfxinfo = sfx; Channel[i].priority = priority; Channel[i].basepriority = basepriority; Channel[i].entchannel = channel; Channel[i].attenuation = attenuation; Channel[i].volume = volume; Channel[i].x = x; Channel[i].y = y; Channel[i].z = z; Channel[i].loop = looping ? true : false; Channel[i].time = gametic; // if (sfx->usefulness < 0) // sfx->usefulness = 1; // else // sfx->usefulness++; } //========================================================================== // // S_SoundID // //========================================================================== void S_SoundID (int channel, int sound_id, float volume, int attenuation) { S_StartSound ((fixed_t *)NULL, NULL, channel, sound_id, volume, SELECT_ATTEN(attenuation), false); } void S_SoundID (AActor *ent, int channel, int sound_id, float volume, int attenuation) { if (ent->Sector->MoreFlags & SECF_SILENT) return; S_StartSound (&ent->x, ent, channel, sound_id, volume, SELECT_ATTEN(attenuation), false); } void S_SoundID (fixed_t *pt, int channel, int sound_id, float volume, int attenuation) { S_StartSound (pt, NULL, channel, sound_id, volume, SELECT_ATTEN(attenuation), false); } void S_SoundID (fixed_t x, fixed_t y, fixed_t z, int channel, int sound_id, float volume, int attenuation) { fixed_t pt[3]; pt[0] = x; pt[1] = y; pt[2] = z; S_StartSound (pt, NULL, channel|CHAN_IMMOBILE, sound_id, volume, SELECT_ATTEN(attenuation), false); } //========================================================================== // // S_LoopedSoundID // //========================================================================== void S_LoopedSoundID (AActor *ent, int channel, int sound_id, float volume, int attenuation) { if (ent->Sector->MoreFlags & SECF_SILENT) return; S_StartSound (&ent->x, ent, channel, sound_id, volume, SELECT_ATTEN(attenuation), true); } void S_LoopedSoundID (fixed_t *pt, int channel, int sound_id, float volume, int attenuation) { S_StartSound (pt, NULL, channel, sound_id, volume, SELECT_ATTEN(attenuation), true); } //========================================================================== // // S_StartNamedSound // //========================================================================== void S_StartNamedSound (AActor *ent, fixed_t *pt, int channel, const char *name, float volume, float attenuation, bool looping) { int sfx_id; if (name == NULL || (ent != NULL && ent->Sector->MoreFlags & SECF_SILENT)) { return; } sfx_id = S_FindSound (name); if (sfx_id == 0) DPrintf ("Unknown sound %s\n", name); if (ent) S_StartSound (&ent->x, ent, channel, sfx_id, volume, attenuation, looping); else S_StartSound (pt, NULL, channel, sfx_id, volume, attenuation, looping); } //========================================================================== // // S_Sound // //========================================================================== void S_Sound (int channel, const char *name, float volume, int attenuation) { S_StartNamedSound ((AActor *)NULL, NULL, channel, name, volume, SELECT_ATTEN(attenuation), false); } void S_Sound (AActor *ent, int channel, const char *name, float volume, int attenuation) { S_StartNamedSound (ent, NULL, channel, name, volume, SELECT_ATTEN(attenuation), false); } void S_Sound (fixed_t *pt, int channel, const char *name, float volume, int attenuation) { S_StartNamedSound (NULL, pt, channel, name, volume, SELECT_ATTEN(attenuation), false); } void S_Sound (fixed_t x, fixed_t y, int channel, const char *name, float volume, int attenuation) { fixed_t pt[3]; pt[0] = x; pt[1] = y; S_StartNamedSound (NULL, pt, channel|CHAN_LISTENERZ|CHAN_IMMOBILE, name, volume, SELECT_ATTEN(attenuation), false); } //========================================================================== // // S_LoopedSound // //========================================================================== void S_LoopedSound (AActor *ent, int channel, const char *name, float volume, int attenuation) { S_StartNamedSound (ent, NULL, channel, name, volume, SELECT_ATTEN(attenuation), true); } //========================================================================== // // S_StopSoundID // // from Hexen (albeit, modified a bit) // Stops more than copies of the sound from playing at once. //========================================================================== BOOL S_StopSoundID (int sound_id, int priority, int limit, bool singular, fixed_t x, fixed_t y) { int i; int lp; //least priority int found; if (limit <= 0) { return true; } lp = -1; found = 0; for (i = 0; i < numChannels; i++) { if (Channel[i].sound_id == sound_id) { if (singular) { // This sound is already playing, so don't start it again. return false; } if (Channel[i].sfxinfo && P_AproxDistance (Channel[i].pt[0] - x, Channel[i].pt[1] - y) < 256*FRACUNIT) { found++; //found one. Now, should we replace it?? if (priority > Channel[i].priority) { // if we're gonna kill one, then this'll be it lp = i; priority = Channel[i].priority; } } } } if (found < limit) { return true; } if (lp == -1) { return false; // don't replace any sounds } if (Channel[lp].handle) { S_StopChannel (lp); } return true; } //========================================================================== // // S_StopSound // // Stops a sound from a single source playing on a specific channel. //========================================================================== void S_StopSound (fixed_t *pt, int channel) { int i; for (i = 0; i < numChannels; ++i) { if (Channel[i].sfxinfo && ((pt == NULL && Channel[i].pt == &Channel[i].x) || Channel[i].pt == pt) && ((i_compatflags & COMPATF_MAGICSILENCE) || Channel[i].entchannel == channel)) { S_StopChannel (i); } } } void S_StopSound (AActor *ent, int channel) { S_StopSound (&ent->x, channel); } //========================================================================== // // S_StopAllChannels // //========================================================================== void S_StopAllChannels () { SN_StopAllSequences (); for (int i = 0; i < numChannels; i++) if (Channel[i].sfxinfo) S_StopChannel (i); } //========================================================================== // // S_RelinkSound // // Moves all the sounds from one thing to another. If the destination is // NULL, then the sound becomes a positioned sound. //========================================================================== void S_RelinkSound (AActor *from, AActor *to) { int i; if (!from) return; fixed_t *frompt = &from->x; fixed_t *topt = to ? &to->x : NULL; for (i = 0; i < numChannels; i++) { if (Channel[i].pt == frompt) { if (to != NULL || !Channel[i].loop) { Channel[i].pt = topt ? topt : &Channel[i].x; Channel[i].x = frompt[0]; Channel[i].y = frompt[1]; Channel[i].z = frompt[2]; } else { S_StopChannel (i); } } } } //========================================================================== // // S_GetSoundPlayingInfo // // Is a sound being played by a specific actor/point? //========================================================================== bool S_GetSoundPlayingInfo (fixed_t *pt, int sound_id) { int i; if (sound_id != 0) { for (i = 0; i < numChannels; i++) { if (Channel[i].pt == pt && Channel[i].org_id == sound_id) return true; } } return false; } bool S_GetSoundPlayingInfo (AActor *ent, int sound_id) { return S_GetSoundPlayingInfo (ent ? &ent->x : NULL, sound_id); } //========================================================================== // // S_IsActorPlayingSomething // //========================================================================== bool S_IsActorPlayingSomething (AActor *actor, int channel) { int i; if (i_compatflags & COMPATF_MAGICSILENCE) { channel = 0; } for (i = 0; i < numChannels; ++i) { if (Channel[i].pt == &actor->x) { if (channel == 0 || Channel[i].entchannel == channel) { return true; } } } return false; } //========================================================================== // // S_PauseSound // // Stop music and sound effects, during game PAUSE. //========================================================================== void S_PauseSound (bool notmusic) { if (!notmusic && mus_playing.handle && !MusicPaused) { I_PauseSong (mus_playing.handle); MusicPaused = true; } if (GSnd != NULL && !SoundPaused) { GSnd->SetSfxPaused (true); SoundPaused = true; } } //========================================================================== // // S_ResumeSound // // Resume music and sound effects, after game PAUSE. //========================================================================== void S_ResumeSound () { if (mus_playing.handle && MusicPaused) { I_ResumeSong (mus_playing.handle); MusicPaused = false; } if (GSnd != NULL && SoundPaused) { GSnd->SetSfxPaused (false); SoundPaused = false; } } //========================================================================== // // S_UpdateSounds // // Updates music & sounds //========================================================================== void S_UpdateSounds (void *listener_p) { fixed_t *listener; fixed_t x, y; int i, dist, vol; angle_t angle; int sep; if (GSnd == NULL) return; listener = listener_p ? &((AActor *)listener_p)->x : NULL; // [RH] Update playlist if (PlayList && mus_playing.handle && !I_QrySongPlaying (mus_playing.handle)) { PlayList->Advance (); S_ActivatePlayList (false); } for (i = 0; i < numChannels; ++i) { if (!Channel[i].sfxinfo) continue; if (!GSnd->IsPlayingSound (Channel[i].handle)) { S_StopChannel (i); } if (Channel[i].sound_id == -1 || (Channel[i].pt == listener && !GSnd->Sound3D) || Channel[i].attenuation <= 0) { continue; } else { if (!Channel[i].pt) { x = Channel[i].x; y = Channel[i].y; } else { x = Channel[i].pt[0]; y = Channel[i].pt[1]; } dist = (int)(FIXED2FLOAT(P_AproxDistance2 (listener, x, y)) * Channel[i].attenuation); if (dist >= MAX_SND_DIST) { S_StopChannel (i); continue; } else if (dist < 0) { dist = 0; } vol = (int)(SoundCurve[dist]*Channel[i].volume); if (dist > 0) { angle = R_PointToAngle2(listener[0], listener[1], x, y); if (angle > players[consoleplayer].camera->angle) angle = angle - players[consoleplayer].camera->angle; else angle = angle + (ANGLE_MAX - players[consoleplayer].camera->angle); angle >>= ANGLETOFINESHIFT; sep = NORM_SEP - (FixedMul (S_STEREO_SWING, finesine[angle])>>FRACBITS); if (snd_flipstereo) { sep = 255-sep; } if (snd_matrix) { int rearsep = NORM_SEP - (FixedMul (S_STEREO_SWING, finecosine[angle])>>FRACBITS); if (rearsep > 128) { sep = -1; } } } else { sep = NORM_SEP; } if (!Channel[i].is3d) { GSnd->UpdateSoundParams (Channel[i].handle, vol, sep, Channel[i].pitch); } else { float pos[3], vel[3]; CalcPosVel (Channel[i].pt, Channel[i].mover, Channel[i].constz, pos, vel); GSnd->UpdateSoundParams3D (Channel[i].handle, pos, vel); } Channel[i].priority = Channel[i].basepriority * (PRIORITY_MAX_ADJUST-(dist/DIST_ADJUST)); } } SN_UpdateActiveSequences (); if (GSnd->Sound3D && players[consoleplayer].camera) { GSnd->UpdateListener (players[consoleplayer].camera); } GSnd->UpdateSounds (); } //========================================================================== // // S_ActivatePlayList // // Plays the next song in the playlist. If no songs in the playlist can be // played, then it is deleted. //========================================================================== void S_ActivatePlayList (bool goBack) { int startpos, pos; startpos = pos = PlayList->GetPosition (); S_StopMusic (true); while (!S_ChangeMusic (PlayList->GetSong (pos), 0, false, true)) { pos = goBack ? PlayList->Backup () : PlayList->Advance (); if (pos == startpos) { delete PlayList; PlayList = NULL; Printf ("Cannot play anything in the playlist.\n"); return; } } } //========================================================================== // // S_ChangeCDMusic // // Starts a CD track as music. //========================================================================== bool S_ChangeCDMusic (int track, unsigned int id, bool looping) { char temp[32]; if (id) { sprintf (temp, ",CD,%d,%x", track, id); } else { sprintf (temp, ",CD,%d", track); } return S_ChangeMusic (temp, 0, looping); } //========================================================================== // // S_StartMusic // // Starts some music with the given name. //========================================================================== bool S_StartMusic (const char *m_id) { return S_ChangeMusic (m_id, 0, false); } //========================================================================== // // S_ChangeMusic // // Starts playing a music, possibly looping. // // [RH] If music is a MOD, starts it at position order. If name is of the // format ",CD,,[cd id]" song is a CD track, and if [cd id] is // specified, it will only be played if the specified CD is in a drive. //========================================================================== TArray musiccache; bool S_ChangeMusic (const char *musicname, int order, bool looping, bool force) { if (!force && PlayList) { // Don't change if a playlist is active return false; } if (musicname == NULL || musicname[0] == 0) { // Don't choke if the map doesn't have a song attached S_StopMusic (true); return false; } if (!mus_playing.name.IsEmpty() && stricmp (mus_playing.name, musicname) == 0) { if (order != mus_playing.baseorder) { mus_playing.baseorder = (I_SetSongPosition (mus_playing.handle, order) ? order : 0); } return true; } if (strnicmp (musicname, ",CD,", 4) == 0) { int track = strtoul (musicname+4, NULL, 0); const char *more = strchr (musicname+4, ','); unsigned int id = 0; if (more != NULL) { id = strtoul (more+1, NULL, 16); } S_StopMusic (true); mus_playing.handle = I_RegisterCDSong (track, id); } else { int lumpnum = -1; int offset, length; if (!FileExists (musicname)) { if ((lumpnum = Wads.CheckNumForName (musicname, ns_music)) == -1) { if ((lumpnum = Wads.CheckNumForFullName (musicname)) == -1) { Printf ("Music \"%s\" not found\n", musicname); return false; } } if (!Wads.IsUncompressedFile(lumpnum)) { // We must cache the music data and use it from memory. // shut down old music before reallocating and overwriting the cache! S_StopMusic (true); offset = -1; // this tells the low level code that the music // is being used from memory length = Wads.LumpLength (lumpnum); if (length == 0) { offset = 0; return false; } musiccache.Resize(length); Wads.ReadLump(lumpnum, &musiccache[0]); } else { offset = Wads.GetLumpOffset (lumpnum); length = Wads.LumpLength (lumpnum); } } else { offset = 0; length = 0; } // shutdown old music S_StopMusic (true); // load & register it if (offset!=-1) { mus_playing.handle = I_RegisterSong (lumpnum != -1 ? Wads.GetWadFullName (Wads.GetLumpFile (lumpnum)) : musicname, NULL, offset, length); } else { // musiccache is used globally because otherwise I'd have to pass // it as a parameter through several layers of code. mus_playing.handle = I_RegisterSong (NULL, &musiccache[0], -1, length); } } mus_playing.loop = looping; if (mus_playing.handle != 0) { // play it mus_playing.name = musicname; I_PlaySong (mus_playing.handle, looping, S_GetMusicVolume (musicname)); mus_playing.baseorder = (I_SetSongPosition (mus_playing.handle, order) ? order : 0); return true; } return false; } //========================================================================== // // S_RestartMusic // // Must only be called from snd_reset in i_sound.cpp! //========================================================================== void S_RestartMusic () { if (!LastSong.IsEmpty()) { S_ChangeMusic (LastSong, mus_playing.baseorder, mus_playing.loop, true); LastSong = ""; } } //========================================================================== // // S_GetMusic // //========================================================================== int S_GetMusic (char **name) { int order; if (mus_playing.name) { *name = copystring (mus_playing.name); order = mus_playing.baseorder; } else { *name = NULL; order = 0; } return order; } //========================================================================== // // S_StopMusic // //========================================================================== void S_StopMusic (bool force) { // [RH] Don't stop if a playlist is active. if ((force || PlayList == NULL) && !mus_playing.name.IsEmpty()) { if (MusicPaused) I_ResumeSong(mus_playing.handle); I_StopSong(mus_playing.handle); I_UnRegisterSong(mus_playing.handle); LastSong = mus_playing.name; mus_playing.name = ""; mus_playing.handle = 0; } } //========================================================================== // // S_StopChannel // //========================================================================== static void S_StopChannel (int cnum) { // int i; channel_t* c = &Channel[cnum]; if (c->sfxinfo) { // stop the sound playing if (GSnd != NULL) GSnd->StopSound (c->handle); // check to see // if other channels are playing the sound /* for (i = 0; i < numChannels; i++) { if (cnum != i && c->sfxinfo == Channel[i].sfxinfo) { break; } } */ // degrade usefulness of sound data // c->sfxinfo->usefulness--; c->sfxinfo = NULL; c->handle = 0; c->sound_id = -1; c->pt = NULL; } } //========================================================================== // // CCMD playsound // //========================================================================== CCMD (playsound) { if (argv.argc() > 1) { S_Sound (CHAN_AUTO, argv[1], 1.f, ATTN_NONE); } } //========================================================================== // // CCMD idmus // //========================================================================== CCMD (idmus) { level_info_t *info; char *map; int l; if (argv.argc() > 1) { if (gameinfo.flags & GI_MAPxx) { l = atoi (argv[1]); if (l <= 99) map = CalcMapName (0, l); else { Printf ("%s\n", GStrings("STSTR_NOMUS")); return; } } else { map = CalcMapName (argv[1][0] - '0', argv[1][1] - '0'); } if ( (info = FindLevelInfo (map)) ) { if (info->music) { S_ChangeMusic (info->music, info->musicorder); Printf ("%s\n", GStrings("STSTR_MUS")); } } else { Printf ("%s\n", GStrings("STSTR_NOMUS")); } } } //========================================================================== // // CCMD changemus // //========================================================================== CCMD (changemus) { if (argv.argc() > 1) { if (PlayList) { delete PlayList; PlayList = NULL; } S_ChangeMusic (argv[1], argv.argc() > 2 ? atoi (argv[2]) : 0); } } //========================================================================== // // CCMD stopmus // //========================================================================== CCMD (stopmus) { if (PlayList) { delete PlayList; PlayList = NULL; } S_StopMusic (false); } //========================================================================== // // CCMD cd_play // // Plays a specified track, or the entire CD if no track is specified. //========================================================================== CCMD (cd_play) { char musname[16]; if (argv.argc() == 1) strcpy (musname, ",CD,"); else sprintf (musname, ",CD,%d", atoi(argv[1])); S_ChangeMusic (musname, 0, true); } //========================================================================== // // CCMD cd_stop // //========================================================================== CCMD (cd_stop) { CD_Stop (); } //========================================================================== // // CCMD cd_eject // //========================================================================== CCMD (cd_eject) { CD_Eject (); } //========================================================================== // // CCMD cd_close // //========================================================================== CCMD (cd_close) { CD_UnEject (); } //========================================================================== // // CCMD cd_pause // //========================================================================== CCMD (cd_pause) { CD_Pause (); } //========================================================================== // // CCMD cd_resume // //========================================================================== CCMD (cd_resume) { CD_Resume (); } //========================================================================== // // CCMD playlist // //========================================================================== CCMD (playlist) { int argc = argv.argc(); if (argc < 2 || argc > 3) { Printf ("playlist [|shuffle]\n"); } else { if (PlayList != NULL) { PlayList->ChangeList (argv[1]); } else { PlayList = new FPlayList (argv[1]); } if (PlayList->GetNumSongs () == 0) { delete PlayList; PlayList = NULL; } else { if (argc == 3) { if (stricmp (argv[2], "shuffle") == 0) { PlayList->Shuffle (); } else { PlayList->SetPosition (atoi (argv[2])); } } S_ActivatePlayList (false); } } } //========================================================================== // // CCMD playlistpos // //========================================================================== static bool CheckForPlaylist () { if (PlayList == NULL) { Printf ("No playlist is playing.\n"); return false; } return true; } CCMD (playlistpos) { if (CheckForPlaylist() && argv.argc() > 1) { PlayList->SetPosition (atoi (argv[1]) - 1); S_ActivatePlayList (false); } } //========================================================================== // // CCMD playlistnext // //========================================================================== CCMD (playlistnext) { if (CheckForPlaylist()) { PlayList->Advance (); S_ActivatePlayList (false); } } //========================================================================== // // CCMD playlistprev // //========================================================================== CCMD (playlistprev) { if (CheckForPlaylist()) { PlayList->Backup (); S_ActivatePlayList (true); } } //========================================================================== // // CCMD playliststatus // //========================================================================== CCMD (playliststatus) { if (CheckForPlaylist ()) { Printf ("Song %d of %d:\n%s\n", PlayList->GetPosition () + 1, PlayList->GetNumSongs (), PlayList->GetSong (PlayList->GetPosition ())); } } //========================================================================== // // CCMD cachesound // //========================================================================== CCMD (cachesound) { if (argv.argc() < 2) { Printf ("Usage: cachesound ...\n"); return; } for (int i = 1; i < argv.argc(); ++i) { int sfxnum = S_FindSound (argv[i]); if (sfxnum > 0) { S_CacheSound (&S_sfx[sfxnum]); } } }