//------------------------------------------------------------------------- /* Copyright (C) 1996, 2003 - 3D Realms Entertainment Copyright (C) 2000, 2003 - Matt Saettler (EDuke Enhancements) Copyright (C) 2020 - Christoph Oelckers This file is part of Enhanced Duke Nukem 3D version 1.5 - Atomic Edition Duke Nukem 3D is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Original Source: 1996 - Todd Replogle Prepared for public release: 03/21/2003 - Charlie Wiederhold, 3D Realms EDuke enhancements integrated: 04/13/2003 - Matt Saettler Note: EDuke source was in transition. Changes are in-progress in the source as it is released. */ //------------------------------------------------------------------------- #include "ns.h" // Must come before everything else! #include "compat.h" #include "g_input.h" #include "duke3d.h" #include "dukeactor.h" #include "raze_music.h" #include "mapinfo.h" #include "raze_sound.h" #include "gamestate.h" #include "names_d.h" #include "i_music.h" CVAR(Bool, wt_forcemidi, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) // quick hack to disable the oggs, which are of lower quality than playing the MIDIs with a good synth and sound font. CVAR(Bool, wt_forcevoc, false, CVAR_ARCHIVE|CVAR_GLOBALCONFIG) // The same for sound effects. The re-recordings are rather poor and disliked CVAR(Bool, wt_commentary, false, CVAR_ARCHIVE | CVAR_GLOBALCONFIG) BEGIN_DUKE_NS // These are needed until real objects can be used for actors. inline void* sndActor(DDukeActor* actor) { return actor ? &actor->s : nullptr; } inline DDukeActor* getSndActor(const void* source) { // transitional conversation voodoo return source ? &hittype[((spritetype*)source) - sprite] : nullptr; } static FSoundID currentCommentarySound; static DDukeActor* currentCommentarySprite; // todo: GC this once actors become objects void UnmuteSounds() { soundEngine->EnumerateChannels([](FSoundChan* chan) { if (chan->UserData == 1) soundEngine->SetVolume(chan, chan->Volume * 4.f); chan->UserData = 0; return 0; }); } void MuteSounds() { soundEngine->EnumerateChannels([](FSoundChan* chan) { if (chan->UserData == 0) soundEngine->SetVolume(chan, chan->Volume * 0.25f); chan->UserData = 1; return 0; }); } class DukeSoundEngine : public SoundEngine { // client specific parts of the sound engine go in this class. void CalcPosVel(int type, const void* source, const float pt[3], int channum, int chanflags, FSoundID chanSound, FVector3* pos, FVector3* vel, FSoundChan* chan) override; TArray ReadSound(int lumpnum) override; public: DukeSoundEngine() { S_Rolloff.RolloffType = ROLLOFF_Doom; // Seems like Duke uses the same rolloff type as Doom. S_Rolloff.MinDistance = 144; // was originally 576 which looks like a bug and sounds like crap. S_Rolloff.MaxDistance = 1088; } void StopChannel(FSoundChan* chan) override { if (chan && chan->SysChannel != NULL && !(chan->ChanFlags & CHANF_EVICTED) && chan->SourceType == SOURCE_Actor) { chan->Source = NULL; chan->SourceType = SOURCE_Unattached; } auto sndid = chan->SoundID; SoundEngine::StopChannel(chan); } void SoundDone(FISoundChannel* ichan) override { FSoundChan* schan = static_cast(ichan); if (schan != NULL && schan->SoundID == currentCommentarySound) { UnloadSound(schan->SoundID); currentCommentarySound = 0; currentCommentarySprite->s.picnum = DEVELOPERCOMMENTARY; I_SetRelativeVolume(1.0f); UnmuteSounds(); } SoundEngine::SoundDone(schan); } }; void S_InitSound() { soundEngine = new DukeSoundEngine; } static int GetReplacementSound(int soundNum) { if (wt_forcevoc && isWorldTour() && soundEngine->isValidSoundId(soundNum+1)) { auto const* snd = soundEngine->GetUserData(soundNum + 1); int sndx = snd[kWorldTourMapping]; if (sndx > 0) soundNum = sndx-1; } return soundNum; } //========================================================================== // // // //========================================================================== TArray DukeSoundEngine::ReadSound(int lumpnum) { auto wlump = fileSystem.OpenFileReader(lumpnum); return wlump.Read(); } //========================================================================== // // // //========================================================================== void S_CacheAllSounds(void) { auto& sfx = soundEngine->GetSounds(); int i = 0; for(auto &snd : sfx) { soundEngine->CacheSound(&snd); if (((++i)&31) == 0) I_GetEvent(); } } //========================================================================== // // // //========================================================================== static inline int S_GetPitch(int num) { auto const* snd = soundEngine->GetUserData(num+1); if (!snd) return 0; int const range = abs(snd[kPitchEnd] - snd[kPitchStart]); return (range == 0) ? snd[kPitchStart] : min(snd[kPitchStart], snd[kPitchEnd]) + rand() % range; } float S_ConvertPitch(int lpitch) { return pow(2, lpitch / 1200.); // I hope I got this right that ASS uses a linear scale where 1200 is a full octave. } int S_GetUserFlags(int num) { if (!soundEngine->isValidSoundId(num+1)) return 0; auto const* snd = soundEngine->GetUserData(num + 1); if (!snd) return 0; return snd[kFlags]; } //========================================================================== // // // //========================================================================== int S_DefineSound(unsigned index, const char *filename, int minpitch, int maxpitch, int priority, int type, int distance, float volume) { auto& S_sfx = soundEngine->GetSounds(); index++; unsigned oldindex = S_sfx.Size(); if (index >= S_sfx.Size()) { S_sfx.Resize(index + 1); } auto sfx = &S_sfx[index]; bool alreadydefined = !sfx->bTentative; sfx->UserData.Resize(kMaxUserData); auto sndinf = sfx->UserData.Data(); sndinf[kFlags] = type & ~SF_ONEINST_INTERNAL; if (sndinf[kFlags] & SF_LOOP) sndinf[kFlags] |= SF_ONEINST_INTERNAL; // Take care of backslashes in sound names. Also double backslashes which occur in World Tour. FString fn = filename; fn.Substitute("\\\\", "\\"); FixPathSeperator(fn); sfx->lumpnum = S_LookupSound(fn); // For World Tour allow falling back on the classic sounds if the Oggs cannot be found if (isWorldTour() && sfx->lumpnum == -1) { fn.ToLower(); fn.Substitute("sound/", ""); fn.Substitute(".ogg", ".voc"); sfx->lumpnum = S_LookupSound(fn); } sndinf[kPitchStart] = clamp(minpitch, INT16_MIN, INT16_MAX); sndinf[kPitchEnd] = clamp(maxpitch, INT16_MIN, INT16_MAX); sndinf[kPriority] = priority & 255; sndinf[kVolAdjust] = clamp(distance, INT16_MIN, INT16_MAX); sndinf[kWorldTourMapping] = 0; sfx->Volume = volume; sfx->NearLimit = 6; sfx->bTentative = false; sfx->name = std::move(fn); return 0; } inline bool S_IsAmbientSFX(DDukeActor* actor) { return (actor->s.picnum == MUSICANDSFX && actor->s.lotag < 999); } //========================================================================== // // // //========================================================================== static int GetPositionInfo(DDukeActor* actor, int soundNum, int sectNum, const vec3_t *cam, const vec3_t *pos, int *distPtr, FVector3 *sndPos) { // There's a lot of hackery going on here that could be mapped to rolloff and attenuation parameters. // However, ultimately rolloff would also just reposition the sound source so this can remain as it is. auto sp = &actor->s; int orgsndist = 0, sndang = 0, sndist = 0, explosion = 0; auto const* snd = soundEngine->GetUserData(soundNum + 1); int userflags = snd ? snd[kFlags] : 0; int dist_adjust = snd ? snd[kVolAdjust] : 0; FVector3 sndorg = GetSoundPos(pos); FVector3 campos = GetSoundPos(cam); if (sp->picnum != TILE_APLAYER || sp->yvel != screenpeek) { orgsndist = sndist = int(16 * (sndorg - campos).Length()); if ((userflags & (SF_GLOBAL | SF_DTAG)) != SF_GLOBAL && sp->picnum == MUSICANDSFX && sp->lotag < 999 && (sector[sp->sectnum].lotag & 0xff) < ST_9_SLIDING_ST_DOOR) sndist = DivScale(sndist, sp->hitag + 1, 14); } sndist += dist_adjust; if (sndist < 0) sndist = 0; if (sectNum > -1 && sndist && sp->picnum != MUSICANDSFX && !cansee(cam->x, cam->y, cam->z - (24 << 8), sectNum, sp->x, sp->y, sp->z - (24 << 8), sp->sectnum)) sndist += sndist >> (isRR() ? 2 : 5); // Here the sound distance was clamped to a minimum of 144*4. // It's better to handle rolloff in the backend instead of whacking the sound origin here. // That way the lower end can be made customizable instead of losing all precision right here at the source. if (sndist < 0) sndist = 0; if (distPtr) { *distPtr = sndist; } if (sndPos) { // Now calculate the virtual position in sound system coordinates. FVector3 sndvec = sndorg - campos; if (orgsndist > 0) { float scale = float(sndist) / orgsndist; // adjust by what was calculated above; *sndPos = campos + sndvec * scale; } else *sndPos = campos; } return false; } //========================================================================== // // // //========================================================================== void S_GetCamera(vec3_t** c, int32_t* ca, int32_t* cs) { if (ud.cameraactor == nullptr) { auto p = &ps[screenpeek]; if (c) *c = &p->pos; if (cs) *cs = p->cursectnum; if (ca) *ca = p->angle.ang.asbuild(); } else { if (c) *c = &ud.cameraactor->s.pos; if (cs) *cs = ud.cameraactor->s.sectnum; if (ca) *ca = ud.cameraactor->s.ang; } } //========================================================================= // // CalcPosVel // // The game specific part of the sound updater. // //========================================================================= void DukeSoundEngine::CalcPosVel(int type, const void* source, const float pt[3], int channum, int chanflags, FSoundID chanSound, FVector3* pos, FVector3* vel, FSoundChan* chan) { if (pos != nullptr) { vec3_t* campos; int32_t camsect; S_GetCamera(&campos, nullptr, &camsect); if (vel) vel->Zero(); if (type == SOURCE_Unattached) { pos->X = pt[0]; pos->Y = pt[1]; pos->Z = pt[2]; } else if (type == SOURCE_Actor) { auto aactor = getSndActor(source); auto actor = aactor ? &aactor->s : nullptr; assert(actor != nullptr); if (actor != nullptr) { GetPositionInfo(aactor, chanSound - 1, camsect, campos, &actor->pos, nullptr, pos); /* if (vel) // DN3D does not properly maintain this. { vel->X = float(actor->Vel.X * TICRATE); vel->Y = float(actor->Vel.Z * TICRATE); vel->Z = float(actor->Vel.Y * TICRATE); } */ } } if ((chanflags & CHANF_LISTENERZ) && campos != nullptr && type != SOURCE_None) { pos->Y = campos->z / 256.f; } } } //========================================================================== // // // //========================================================================== void GameInterface::UpdateSounds(void) { SoundListener listener; vec3_t* c; int32_t ca, cs; if (isRR() && !Mus_IsPlaying() && !paused && gamestate == GS_LEVEL) S_PlayRRMusic(); S_GetCamera(&c, &ca, &cs); if (c != nullptr) { listener.angle = -ca * BAngRadian; // Build uses a period of 2048. listener.velocity.Zero(); listener.position = GetSoundPos(c); listener.underwater = false; // This should probably use a real environment instead of the pitch hacking in S_PlaySound3D. // listenactor->waterlevel == 3; //assert(primaryLevel->Zones.Size() > listenactor->Sector->ZoneNumber); listener.Environment = 0;// primaryLevel->Zones[listenactor->Sector->ZoneNumber].Environment; listener.valid = true; } else { listener.angle = 0; listener.position.Zero(); listener.velocity.Zero(); listener.underwater = false; listener.Environment = nullptr; listener.valid = false; } listener.ListenerObject = ud.cameraactor == nullptr ? nullptr : &ud.cameraactor->s; soundEngine->SetListener(listener); } //========================================================================== // // // //========================================================================== int S_PlaySound3D(int sndnum, DDukeActor* actor, const vec3_t* pos, int channel, EChanFlags flags) { auto const pl = &ps[myconnectindex]; if (!soundEngine->isValidSoundId(sndnum+1) || !SoundEnabled() || actor == nullptr || !playrunning() || (pl->timebeforeexit > 0 && pl->timebeforeexit <= REALGAMETICSPERSEC * 3)) return -1; sndnum = GetReplacementSound(sndnum); int userflags = S_GetUserFlags(sndnum); if ((userflags & (SF_DTAG | SF_GLOBAL)) == SF_DTAG) { // Duke-Tag sound does not play in 3D. return S_PlaySound(sndnum); } if (userflags & SF_TALK) { if (snd_speech == 0 || (ud.multimode > 1 && actor->s.picnum == TILE_APLAYER && actor->s.yvel != screenpeek && ud.coop != 1)) return -1; bool foundone = soundEngine->EnumerateChannels([&](FSoundChan* chan) { auto sid = chan->OrgID; auto flags = S_GetUserFlags(sid - 1); return !!(flags & SF_TALK); }); // don't play if any Duke talk sounds are already playing if (foundone) return -1; // When in single player, force all talk sounds to originate from the player actor, no matter what is being used to start them. // Fixes a problem with quake06.voc in E3L4. if (ud.multimode == 1) { actor = pl->GetActor(); } } int32_t sndist; FVector3 sndpos; // this is in sound engine space. vec3_t* campos; int32_t camsect; S_GetCamera(&campos, nullptr, &camsect); GetPositionInfo(actor, sndnum, camsect, campos, pos, &sndist, &sndpos); int pitch = S_GetPitch(sndnum); bool explosion = ((userflags & (SF_GLOBAL | SF_DTAG)) == (SF_GLOBAL | SF_DTAG)) || ((sndnum == PIPEBOMB_EXPLODE || sndnum == LASERTRIP_EXPLODE || sndnum == RPG_EXPLODE)); bool underwater = ps[screenpeek].cursectnum > -1 && sector[ps[screenpeek].cursectnum].lotag == ST_2_UNDERWATER; if (explosion) { if (underwater) pitch -= 1024; } else { if (sndist > 32767 && actor->s.picnum != MUSICANDSFX && (userflags & (SF_LOOP | SF_MSFX)) == 0) return -1; if (underwater && (userflags & SF_TALK) == 0) pitch = -768; } bool is_playing = soundEngine->GetSoundPlayingInfo(SOURCE_Any, nullptr, sndnum+1); if (is_playing && actor->s.picnum != MUSICANDSFX) S_StopSound(sndnum, actor); int const repeatp = (userflags & SF_LOOP); if (repeatp && (userflags & SF_ONEINST_INTERNAL) && is_playing) { return -1; } // These explosion sounds originally used some distance hackery to make them louder but due to how the rolloff was set up they always played at full volume as a result. // I think it is better to lower their attenuation so that they are louder than the rest but still fade in the distance. // For the original effect, attenuation needs to be set to ATTN_NONE here. float attenuation; if (explosion) attenuation = 0.5f; else attenuation = (userflags & (SF_GLOBAL | SF_DTAG)) == SF_GLOBAL ? ATTN_NONE : ATTN_NORM; if (userflags & SF_LOOP) flags |= CHANF_LOOP; float vol = attenuation == ATTN_NONE ? 0.8f : 1.f; if (currentCommentarySound != 0) vol *= 0.25f; auto chan = soundEngine->StartSound(SOURCE_Actor, sndActor(actor), &sndpos, CHAN_AUTO, flags, sndnum+1, vol, attenuation, nullptr, S_ConvertPitch(pitch)); if (chan) chan->UserData = (currentCommentarySound != 0); return chan ? 0 : -1; } //========================================================================== // // // //========================================================================== int S_PlaySound(int sndnum, int channel, EChanFlags flags, float vol) { if (!soundEngine->isValidSoundId(sndnum+1) || !SoundEnabled()) return -1; sndnum = GetReplacementSound(sndnum); int userflags = S_GetUserFlags(sndnum); if ((!(snd_speech & 1) && (userflags & SF_TALK))) return -1; int const pitch = S_GetPitch(sndnum); if (userflags & SF_LOOP) flags |= CHANF_LOOP; if (currentCommentarySound != 0) vol *= 0.25f; auto chan = soundEngine->StartSound(SOURCE_None, nullptr, nullptr, channel, flags, sndnum + 1, vol, ATTN_NONE, nullptr, S_ConvertPitch(pitch)); if (chan) chan->UserData = (currentCommentarySound != 0); return chan ? 0 : -1; } //========================================================================== // // // //========================================================================== int S_PlayActorSound(int soundNum, DDukeActor* actor, int channel, EChanFlags flags) { return (actor == nullptr ? S_PlaySound(soundNum, channel, flags) : S_PlaySound3D(soundNum, actor, &actor->s.pos, channel, flags)); } void S_RelinkActorSound(DDukeActor* from, DDukeActor* to) { FVector3 pos = GetSoundPos(&from->s.pos); soundEngine->RelinkSound(SOURCE_Actor, sndActor(from), sndActor(to), &pos); } void S_StopSound(int sndNum, DDukeActor* actor, int channel) { sndNum = GetReplacementSound(sndNum); if (!actor) soundEngine->StopSoundID(sndNum+1); else { if (channel == -1) soundEngine->StopSound(SOURCE_Actor, sndActor(actor), -1, sndNum + 1); else soundEngine->StopSound(SOURCE_Actor, actor, channel, -1); // StopSound kills the actor reference so this cannot be delayed until ChannelEnded gets called. At that point the actor may also not be valid anymore. if (S_IsAmbientSFX(actor) && sector[actor->s.sectnum].lotag < 3) // ST_2_UNDERWATER actor->temp_data[0] = 0; } } void S_ChangeSoundPitch(int soundNum, DDukeActor* actor, int pitchoffset) { soundNum = GetReplacementSound(soundNum); double expitch = pow(2, pitchoffset / 1200.); // I hope I got this right that ASS uses a linear scale where 1200 is a full octave. if (!actor) { soundEngine->ChangeSoundPitch(SOURCE_Unattached, nullptr, CHAN_AUTO, expitch, soundNum+1); } else { soundEngine->ChangeSoundPitch(SOURCE_Actor, sndActor(actor), CHAN_AUTO, expitch, soundNum+1); } } //========================================================================== // // // //========================================================================== int S_CheckActorSoundPlaying(DDukeActor* actor, int soundNum, int channel) { soundNum = GetReplacementSound(soundNum); if (actor == nullptr) return soundEngine->GetSoundPlayingInfo(SOURCE_Any, nullptr, soundNum+1); return soundEngine->IsSourcePlayingSomething(SOURCE_Actor, sndActor(actor), channel, soundNum+1); } // Check if actor is playing any sound. int S_CheckAnyActorSoundPlaying(DDukeActor* actor) { if (!actor) return false; return soundEngine->IsSourcePlayingSomething(SOURCE_Actor, sndActor(actor), CHAN_AUTO, 0); } int S_CheckSoundPlaying(int soundNum) { soundNum = GetReplacementSound(soundNum); return soundEngine->GetSoundPlayingInfo(SOURCE_Any, nullptr, soundNum+1); } //========================================================================== // // // //========================================================================== void S_MenuSound(void) { static int menunum; static const short menusnds[] = { LASERTRIP_EXPLODE, DUKE_GRUNT, DUKE_LAND_HURT, CHAINGUN_FIRE, SQUISHED, KICK_HIT, PISTOL_RICOCHET, PISTOL_BODYHIT, PISTOL_FIRE, SHOTGUN_FIRE, BOS1_WALK, RPG_EXPLODE, PIPEBOMB_BOUNCE, PIPEBOMB_EXPLODE, NITEVISION_ONOFF, RPG_SHOOT, SELECT_WEAPON }; int s = isRR() ? 390 : menusnds[menunum++ % countof(menusnds)]; if (s != -1) S_PlaySound(s, CHAN_AUTO, CHANF_UI); } //========================================================================== // // Music // //========================================================================== static bool cd_disabled = false; // This is in case mus_redbook is enabled but no tracks found so that the regular music system can be switched on. static void MusPlay(const char* label, const char* music, bool loop) { if (isWorldTour()) { if (wt_forcemidi) { FString alternative = music; alternative.Substitute(".ogg", ".mid"); int num = fileSystem.FindFile(alternative); if (num >= 0) { int file = fileSystem.GetFileContainer(num); if (file == 1) { Mus_Play(label, alternative, loop); return; } } } } int result = Mus_Play(label, music, loop); // do not remain silent if playing World Tour when the user has deleted the music. if (!result && isWorldTour()) { FString alternative = music; alternative.Substitute(".ogg", ".mid"); Mus_Play(label, alternative, loop); } } void S_PlayLevelMusic(MapRecord *mi) { if (isRR() && mi->music.IsEmpty() && mus_redbook && !cd_disabled) return; MusPlay(mi->labelName, mi->music, true); } void S_PlaySpecialMusic(unsigned int m) { if (isRR() || m >= specialmusic.Size()) return; // Can only be MUS_LOADING, isRR() does not use it. auto& musicfn = specialmusic[m]; if (musicfn.IsNotEmpty()) { MusPlay(nullptr, musicfn, true); } } //--------------------------------------------------------------------------- // // // //--------------------------------------------------------------------------- void S_PlayRRMusic(int newTrack) { static int32_t g_cdTrack = -1; if (!isRR() || !mus_redbook || cd_disabled || currentLevel->music.IsNotEmpty()) return; Mus_Stop(); for (int i = 0; i < 10; i++) { g_cdTrack = newTrack != -1 ? newTrack : g_cdTrack + 1; if (newTrack != 10 && (g_cdTrack > 9 || g_cdTrack < 2)) g_cdTrack = 2; FStringf filename("redneck%s%02d.ogg", isRRRA()? "rides" : "", g_cdTrack); if (Mus_Play(nullptr, filename, false)) return; filename.Format("track%02d.ogg", g_cdTrack); if (Mus_Play(nullptr, filename, false)) return; } // If none of the tracks managed to start, disable the CD music for this session so that regular music can play if defined. cd_disabled = true; } void S_PlayBonusMusic() { if (MusicEnabled() && mus_enabled) S_PlaySound(BONUSMUSIC, CHAN_AUTO, CHANF_UI); } void S_WorldTourMappingsForOldSounds() { // This tries to retrieve the original sounds for World Tour's often inferior replacements. // It's really ironic that despite their low quality they often sound a lot better than the new ones. if (!isWorldTour()) return; auto &s_sfx = soundEngine->GetSounds(); int maxorig = s_sfx.Size(); for(unsigned i = 1; i < s_sfx.Size(); i++) { auto fname = s_sfx[i].name; if (!fname.Right(4).CompareNoCase(".ogg")) { // All names here follow the same convention. We must strip the "sound/" folder and replace the extension to get the original VOCs. fname.ToLower(); fname.Substitute("sound/", ""); fname.Substitute(".ogg", ".voc"); int lump = fileSystem.FindFile(fname); // in this case we absolutely do not want the extended lookup that's optionally performed by S_LookupSound. if (lump >= 0) { s_sfx.Reserve(1); s_sfx.Last() = s_sfx[i]; s_sfx.Last().name = fname; s_sfx.Last().lumpnum = lump; s_sfx[i].UserData[kWorldTourMapping] = s_sfx.Size() - 1; } } } } static TArray Commentaries; void S_ParseDeveloperCommentary() { int lumpnum = fileSystem.FindFile("def/developer_commentary.def"); if (lumpnum < 0) return; FScanner sc; sc.OpenLumpNum(lumpnum); try { sc.SetCMode(true); sc.MustGetStringName("def"); sc.MustGetStringName("developercommentary"); sc.MustGetStringName("{"); while (!sc.CheckString("}")) { FString path; int num = -1; sc.MustGetStringName("def"); sc.MustGetStringName("sound"); sc.MustGetStringName("{"); while (!sc.CheckString("}")) { sc.MustGetString(); if (sc.Compare("path")) { sc.MustGetStringName(":"); sc.MustGetString(); path = sc.String; sc.MustGetStringName(";"); } else if (sc.Compare("num")) { sc.MustGetStringName(":"); sc.MustGetNumber(); num = sc.Number; sc.MustGetStringName(";"); } } sc.MustGetStringName(";"); if (Commentaries.Size() <= num) Commentaries.Resize(num + 1); Commentaries[num] = std::move(path); } //sc.MustGetStringName(";"); } catch (const std::exception& ex) { Printf("Failed to read developer commentary definitions:\n%s", ex.what()); return; } } void StopCommentary() { if (currentCommentarySound > 0) { soundEngine->StopSound(SOURCE_None, nullptr, CHAN_VOICE, currentCommentarySound); } } bool StartCommentary(int tag, DDukeActor* actor) { if (wt_commentary && Commentaries.Size() > tag && Commentaries[tag].IsNotEmpty()) { FSoundID id = soundEngine->FindSound(Commentaries[tag]); if (id == 0) { int lump = fileSystem.FindFile(Commentaries[tag]); if (lump < 0) { Commentaries[tag] = ""; return false; } id = FSoundID(soundEngine->AddSoundLump(Commentaries[tag], lump, 0)); } StopCommentary(); MuteSounds(); soundEngine->StartSound(SOURCE_None, nullptr, nullptr, CHAN_VOICE, CHANF_UI | CHANF_TRANSIENT | CHANF_OVERLAP, id, 1.f, 0.f); currentCommentarySound = id; currentCommentarySprite = actor; I_SetRelativeVolume(0.25f); return true; } return false; } END_DUKE_NS