/* ** s_advsound.cpp ** Routines for managing SNDINFO lumps and ambient sounds ** **--------------------------------------------------------------------------- ** Copyright 1998-2005 Randy Heit ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** */ // HEADER FILES ------------------------------------------------------------ #include "templates.h" #include "actor.h" #include "a_sharedglobal.h" #include "s_sound.h" #include "c_dispatch.h" #include "w_wad.h" #include "sc_man.h" #include "g_level.h" #include "cmdlib.h" #include "gi.h" #include "doomstat.h" #include "i_sound.h" #include "r_data.h" #include "m_random.h" #include "d_netinf.h" // MACROS ------------------------------------------------------------------ #define RANDOM 1 #define PERIODIC 2 #define CONTINUOUS 3 #define POSITIONAL 4 #define SURROUND 16 // TYPES ------------------------------------------------------------------- struct FRandomSoundList { WORD *Sounds; // A list of sounds that can result for the following id WORD SfxHead; // The sound id used to reference this list WORD NumSounds; }; struct FPlayerClassLookup { char Name[MAX_SNDNAME+1]; WORD ListIndex[3]; // indices into PlayerSounds (0xffff means empty) }; static struct AmbientSound { unsigned type; // type of ambient sound int periodmin; // # of tics between repeats int periodmax; // max # of tics for random ambients float volume; // relative volume of sound float attenuation; char sound[MAX_SNDNAME+1]; // Logical name of sound to play } *Ambients[256]; enum SICommands { SI_Ambient, SI_Random, SI_PlayerReserve, SI_PlayerSound, SI_PlayerSoundDup, SI_PlayerCompat, SI_PlayerAlias, SI_Alias, SI_Limit, SI_Singular, SI_PitchShift, SI_PitchShiftRange, SI_Map, SI_Registered, SI_ArchivePath, SI_MusicVolume, SI_IfDoom, SI_IfHeretic, SI_IfHexen, SI_IfStrife }; // Blood was a cool game. If Monolith ever releases the source for it, // you can bet I'll port it. struct FBloodSFX { DWORD RelVol; // volume, 0-255 fixed_t Pitch; // pitch change fixed_t PitchRange; // range of random pitch DWORD Format; // format of audio 1=11025 5=22050 SDWORD LoopStart; // loop position (-1 means no looping) char RawName[9]; // name of RAW resource }; // music volume multipliers struct FMusicVolume { FMusicVolume *Next; float Volume; char MusicName[1]; }; // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- void S_StartNamedSound (AActor *ent, fixed_t *pt, int channel, const char *name, float volume, float attenuation, bool looping); extern bool IsFloat (const char *str); // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- static int STACK_ARGS SortPlayerClasses (const void *a, const void *b); static int S_DupPlayerSound (const char *pclass, int gender, int refid, int aliasref); static int S_AddPlayerClass (const char *name); static int S_AddPlayerGender (int classnum, int gender); static int S_FindPlayerClass (const char *name); static int S_LookupPlayerSound (int classidx, int gender, int refid); static void S_ParsePlayerSoundCommon (char pclass[MAX_SNDNAME+1], int &gender, int &refid); static void S_AddSNDINFO (int lumpnum); static void S_AddBloodSFX (int lumpnum); static void S_AddStrifeVoice (int lumpnum); static int S_AddSound (const char *logicalname, int lumpnum); // EXTERNAL DATA DECLARATIONS ---------------------------------------------- extern int sfx_sawup, sfx_sawidl, sfx_sawful, sfx_sawhit; extern int sfx_itemup, sfx_tink; extern int sfx_empty; // PUBLIC DATA DEFINITIONS ------------------------------------------------- TArray S_sfx (128); // PRIVATE DATA DEFINITIONS ------------------------------------------------ static const char *SICommandStrings[] = { "$ambient", "$random", "$playerreserve", "$playersound", "$playersounddup", "$playercompat", "$playeralias", "$alias", "$limit", "$singular", "$pitchshift", "$pitchshiftrange", "$map", "$registered", "$archivepath", "$musicvolume", "$ifdoom", "$ifheretic", "$ifhexen", "$ifstrife", NULL }; static TArray S_rnd; static FMusicVolume *MusicVolumes; static int NumPlayerReserves; static bool DoneReserving; static bool PlayerClassesIsSorted; static TArray PlayerClasses; static TArray PlayerSounds; static char DefPlayerClassName[MAX_SNDNAME+1]; static int DefPlayerClass; static BYTE CurrentPitchMask; static FRandom pr_randsound ("RandSound"); // CODE -------------------------------------------------------------------- //========================================================================== // // S_GetMusicVolume // // Gets the relative volume for the given music track //========================================================================== float S_GetMusicVolume (const char *music) { FMusicVolume *musvol = MusicVolumes; while (musvol != NULL) { if (!stricmp (music, musvol->MusicName)) { return musvol->Volume; } musvol = musvol->Next; } return 1.f; } //========================================================================== // // S_HashSounds // // Fills in the next and index fields of S_sfx to form a working hash table. //========================================================================== void S_HashSounds () { unsigned int i; unsigned int j; size_t size; S_sfx.ShrinkToFit (); size = S_sfx.Size (); // Mark all buckets as empty for (i = 0; i < size; i++) S_sfx[i].index = 0; // Now set up the chains for (i = 1; i < size; i++) { j = MakeKey (S_sfx[i].name) % size; S_sfx[i].next = S_sfx[j].index; S_sfx[j].index = i; } } //========================================================================== // // S_PickReplacement // // Picks a replacement sound from the associated random list. If this sound // is not the head of a random list, then the sound passed is returned. //========================================================================== int S_PickReplacement (int refid) { if (S_sfx[refid].bRandomHeader) { const FRandomSoundList *list = &S_rnd[S_sfx[refid].link]; return list->Sounds[pr_randsound() % list->NumSounds]; } return refid; } //========================================================================== // // S_CacheRandomSound // // Loads all sounds a random sound might play. // //========================================================================== void S_CacheRandomSound (sfxinfo_t *sfx) { if (sfx->bRandomHeader) { const FRandomSoundList *list = &S_rnd[sfx->link]; for (int i = 0; i < list->NumSounds; ++i) { sfx = &S_sfx[list->Sounds[i]]; sfx->bUsed = true; S_CacheSound (&S_sfx[list->Sounds[i]]); } } } //========================================================================== // // S_FindSound // // Given a logical name, find the sound's index in S_sfx. //========================================================================== int S_FindSound (const char *logicalname) { int i; if (logicalname != NULL) { i = S_sfx[MakeKey (logicalname) % S_sfx.Size ()].index; while ((i != 0) && strnicmp (S_sfx[i].name, logicalname, MAX_SNDNAME)) i = S_sfx[i].next; return i; } else { return 0; } } //========================================================================== // // S_FindSoundNoHash // // Given a logical name, find the sound's index in S_sfx without // using the hash table. //========================================================================== int S_FindSoundNoHash (const char *logicalname) { unsigned int i; for (i = 1; i < S_sfx.Size (); i++) { if (strnicmp (S_sfx[i].name, logicalname, MAX_SNDNAME) == 0) { return i; } } return 0; } //========================================================================== // // S_FindSoundByLump // // Given a sound lump, find the sound's index in S_sfx. //========================================================================== int S_FindSoundByLump (int lump) { if (lump != -1) { unsigned int i; for (i = 1; i < S_sfx.Size (); i++) if (S_sfx[i].lumpnum == lump) return i; } return 0; } //========================================================================== // // S_AddSoundLump // // Adds a new sound mapping to S_sfx. //========================================================================== int S_AddSoundLump (const char *logicalname, int lump) { sfxinfo_t newsfx; memset (&newsfx.lumpnum, 0, sizeof(newsfx)-sizeof(newsfx.name)); // logicalname MUST be < MAX_SNDNAME chars long strcpy (newsfx.name, logicalname); newsfx.lumpnum = lump; newsfx.link = sfxinfo_t::NO_LINK; newsfx.PitchMask = CurrentPitchMask; newsfx.MaxChannels = 2; return (int)S_sfx.Push (newsfx); } //========================================================================== // // S_FindSoundTentative // // Given a logical name, find the sound's index in S_sfx without // using the hash table. If it does not exist, a new sound without // an associated lump is created. //========================================================================== int S_FindSoundTentative (const char *name) { int id = S_FindSoundNoHash (name); return id != 0 ? id : S_AddSoundLump (name, -1); } //========================================================================== // // S_AddSound // // If logical name is already in S_sfx, updates it to use the new sound // lump. Otherwise, adds the new mapping by using S_AddSoundLump(). //========================================================================== int S_AddSound (const char *logicalname, const char *lumpname) { return S_AddSound (logicalname, lumpname ? Wads.CheckNumForName (lumpname) : -1); } static int S_AddSound (const char *logicalname, int lumpnum) { int sfxid; sfxid = S_FindSoundNoHash (logicalname); if (sfxid > 0) { // If the sound has already been defined, change the old definition sfxinfo_t *sfx = &S_sfx[sfxid]; if (sfx->bPlayerReserve) { SC_ScriptError ("Sounds that are reserved for players cannot be reassigned"); } // Redefining a player compatibility sound will redefine the target instead. if (sfx->bPlayerCompat) { sfx = &S_sfx[sfx->link]; } if (sfx->bRandomHeader) { FRandomSoundList *rnd = &S_rnd[sfx->link]; delete[] rnd->Sounds; rnd->Sounds = NULL; rnd->NumSounds = 0; rnd->SfxHead = 0; } sfx->lumpnum = lumpnum; sfx->bRandomHeader = false; sfx->link = sfxinfo_t::NO_LINK; //sfx->PitchMask = CurrentPitchMask; } else { // Otherwise, create a new definition. sfxid = S_AddSoundLump (logicalname, lumpnum); } return sfxid; } //========================================================================== // // S_AddPlayerSound // // Adds the given sound lump to the player sound lists. //========================================================================== int S_AddPlayerSound (const char *pclass, int gender, int refid, const char *lumpname) { return S_AddPlayerSound (pclass, gender, refid, lumpname ? Wads.CheckNumForName (lumpname) : -1); } int S_AddPlayerSound (const char *pclass, int gender, int refid, int lumpnum) { char fakename[MAX_SNDNAME+1]; size_t len; int id; len = strlen (pclass); memcpy (fakename, pclass, len); fakename[len] = '|'; fakename[len+1] = gender + '0'; strcpy (&fakename[len+2], S_sfx[refid].name); id = S_AddSoundLump (fakename, lumpnum); int classnum = S_AddPlayerClass (pclass); int soundlist = S_AddPlayerGender (classnum, gender); PlayerSounds[soundlist + S_sfx[refid].link] = id; return id; } //========================================================================== // // S_AddPlayerSoundExisting // // Adds the player sound as an alias to an existing sound. //========================================================================== int S_AddPlayerSoundExisting (const char *pclass, int gender, int refid, int aliasto) { int classnum = S_AddPlayerClass (pclass); int soundlist = S_AddPlayerGender (classnum, gender); PlayerSounds[soundlist + S_sfx[refid].link] = aliasto; return aliasto; } //========================================================================== // // S_DupPlayerSound // // Adds a player sound that uses the same sound as an existing player sound. //========================================================================== int S_DupPlayerSound (const char *pclass, int gender, int refid, int aliasref) { int aliasto = S_LookupPlayerSound (pclass, gender, aliasref); return S_AddPlayerSoundExisting (pclass, gender, refid, aliasto); } //========================================================================== // // S_ClearSoundData // // clears all sound tables // When we want to allow level specific SNDINFO lumps this has to // be cleared for each level //========================================================================== static void S_ClearSoundData() { unsigned int i; S_sfx.Clear(); for(i=0;i<256;i++) { if (Ambients[i]) delete Ambients[i]; Ambients[i]=NULL; } for(i=0;iNext; delete me; } S_rnd.Clear(); DoneReserving=false; NumPlayerReserves=0; PlayerClassesIsSorted=false; PlayerClasses.Clear(); PlayerSounds.Clear(); DefPlayerClass=0; *DefPlayerClassName=0; } //========================================================================== // // S_ParseSndInfo // // Parses all loaded SNDINFO lumps. // Also registers Blood SFX files and Strife's voices. //========================================================================== void S_ParseSndInfo () { int lump; S_ClearSoundData(); // remove old sound data first! CurrentPitchMask = 0; S_AddSound ("{ no sound }", "DSEMPTY"); // Sound 0 is no sound at all for (lump = 0; lump < Wads.GetNumLumps(); ++lump) { switch (Wads.GetLumpNamespace (lump)) { case ns_global: if (Wads.CheckLumpName (lump, "SNDINFO")) { S_AddSNDINFO (lump); } break; case ns_bloodsfx: S_AddBloodSFX (lump); break; case ns_strifevoices: S_AddStrifeVoice (lump); break; } } S_HashSounds (); S_sfx.ShrinkToFit (); if (S_rnd.Size() > 0) { S_rnd.ShrinkToFit (); } S_ShrinkPlayerSoundLists (); // [RH] Hack for pitch varying sfx_sawup = S_FindSound ("weapons/sawup"); sfx_sawidl = S_FindSound ("weapons/sawidle"); sfx_sawful = S_FindSound ("weapons/sawfull"); sfx_sawhit = S_FindSound ("weapons/sawhit"); sfx_itemup = S_FindSound ("misc/i_pkup"); sfx_tink = S_FindSound ("misc/chat2"); sfx_empty = Wads.CheckNumForName ("dsempty"); } //========================================================================== // // Adds a level specific SNDINFO lump // //========================================================================== void S_AddLocalSndInfo(int lump) { S_AddSNDINFO(lump); S_HashSounds (); S_sfx.ShrinkToFit (); if (S_rnd.Size() > 0) { S_rnd.ShrinkToFit (); } S_ShrinkPlayerSoundLists (); } //========================================================================== // // S_AddSNDINFO // // Reads a SNDINFO and does what it says. // //========================================================================== static void S_AddSNDINFO (int lump) { bool skipToEndIf; TArray list; SC_OpenLumpNum (lump, "SNDINFO"); skipToEndIf = false; while (SC_GetString ()) { if (skipToEndIf) { if (SC_Compare ("$endif")) { skipToEndIf = false; } continue; } if (sc_String[0] == '$') { // Got a command switch (SC_MatchString (SICommandStrings)) { case SI_Ambient: { // $ambient [point [atten] | surround | [world]] // | periodic > // AmbientSound *ambient, dummy; SC_MustGetNumber (); if (sc_Number < 0 || sc_Number > 255) { Printf ("Bad ambient index (%d)\n", sc_Number); ambient = &dummy; } else if (Ambients[sc_Number] == NULL) { ambient = new AmbientSound; Ambients[sc_Number] = ambient; } else { ambient = Ambients[sc_Number]; } memset (ambient, 0, sizeof(AmbientSound)); SC_MustGetString (); strncpy (ambient->sound, sc_String, MAX_SNDNAME); ambient->sound[MAX_SNDNAME] = 0; ambient->attenuation = 0; SC_MustGetString (); if (SC_Compare ("point")) { float attenuation; ambient->type = POSITIONAL; SC_MustGetString (); if (IsFloat (sc_String)) { attenuation = atof (sc_String); SC_MustGetString (); if (attenuation > 0) { ambient->attenuation = attenuation; } else { ambient->attenuation = 1; } } else { ambient->attenuation = 1; } } else if (SC_Compare ("surround")) { ambient->type = SURROUND; SC_MustGetString (); ambient->attenuation = -1; } else { // World is an optional keyword if (SC_Compare ("world")) { SC_MustGetString (); } } if (SC_Compare ("continuous")) { ambient->type |= CONTINUOUS; } else if (SC_Compare ("random")) { ambient->type |= RANDOM; SC_MustGetFloat (); ambient->periodmin = (int)(sc_Float * TICRATE); SC_MustGetFloat (); ambient->periodmax = (int)(sc_Float * TICRATE); } else if (SC_Compare ("periodic")) { ambient->type |= PERIODIC; SC_MustGetFloat (); ambient->periodmin = (int)(sc_Float * TICRATE); } else { Printf ("Unknown ambient type (%s)\n", sc_String); } SC_MustGetFloat (); ambient->volume = sc_Float; if (ambient->volume > 1) ambient->volume = 1; else if (ambient->volume < 0) ambient->volume = 0; } break; case SI_Map: { // Hexen-style $MAP command level_info_t *info; char temp[16]; SC_MustGetNumber (); sprintf (temp, "MAP%02d", sc_Number); info = FindLevelInfo (temp); SC_MustGetString (); if (info->mapname[0]) { ReplaceString (&info->music, sc_String); } } break; case SI_Registered: // I don't think Hexen even pays attention to the $registered command. break; case SI_ArchivePath: SC_MustGetString (); // Unused for now break; case SI_PlayerReserve: // $playerreserve if (DoneReserving) { SC_ScriptError ("All $playerreserves must come before any $playersounds or $playeraliases"); } else { SC_MustGetString (); int id = S_AddSound (sc_String, -1); S_sfx[id].link = NumPlayerReserves++; S_sfx[id].bPlayerReserve = true; } break; case SI_PlayerSound: { // $playersound char pclass[MAX_SNDNAME+1]; int gender, refid; S_ParsePlayerSoundCommon (pclass, gender, refid); S_AddPlayerSound (pclass, gender, refid, sc_String); } break; case SI_PlayerSoundDup: { // $playersounddup char pclass[MAX_SNDNAME+1]; int gender, refid, targid; S_ParsePlayerSoundCommon (pclass, gender, refid); targid = S_FindSoundNoHash (sc_String); if (!S_sfx[targid].bPlayerReserve) { SC_ScriptError ("%s is not a player sound", sc_String); } S_DupPlayerSound (pclass, gender, refid, targid); } break; case SI_PlayerCompat: { // $playercompat char pclass[MAX_SNDNAME+1]; int gender, refid; int sfxfrom, aliasto; S_ParsePlayerSoundCommon (pclass, gender, refid); sfxfrom = S_AddSound (sc_String, -1); aliasto = S_LookupPlayerSound (pclass, gender, refid); S_sfx[sfxfrom].link = aliasto; S_sfx[sfxfrom].bPlayerCompat = true; } break; case SI_PlayerAlias: { // $playeralias char pclass[MAX_SNDNAME+1]; int gender, refid; S_ParsePlayerSoundCommon (pclass, gender, refid); S_AddPlayerSoundExisting (pclass, gender, refid, S_FindSoundTentative (sc_String)); } break; case SI_Alias: { // $alias int sfxfrom; SC_MustGetString (); sfxfrom = S_AddSound (sc_String, -1); SC_MustGetString (); if (S_sfx[sfxfrom].bPlayerCompat) { sfxfrom = S_sfx[sfxfrom].link; } S_sfx[sfxfrom].link = S_FindSoundTentative (sc_String); } break; case SI_Limit: { // $limit int sfx; SC_MustGetString (); sfx = S_FindSoundTentative (sc_String); SC_MustGetNumber (); //S_sfx[sfx].MaxChannels = clamp (sc_Number, 0, 255); //Can't use clamp because of GCC bugs S_sfx[sfx].MaxChannels = MIN (MAX (sc_Number, 0), 255); } break; case SI_Singular: { // $singular int sfx; SC_MustGetString (); sfx = S_FindSoundTentative (sc_String); S_sfx[sfx].bSingular = true; } break; case SI_PitchShift: { // $pitchshift int sfx; SC_MustGetString (); sfx = S_FindSoundTentative (sc_String); SC_MustGetNumber (); S_sfx[sfx].PitchMask = (1 << clamp (sc_Number, 0, 7)) - 1; } break; case SI_PitchShiftRange: // $pitchshiftrange SC_MustGetNumber (); CurrentPitchMask = (1 << clamp (sc_Number, 0, 7)) - 1; break; case SI_Random: { // $random { ... } FRandomSoundList random; list.Clear (); SC_MustGetString (); random.SfxHead = S_AddSound (sc_String, -1); SC_MustGetStringName ("{"); while (SC_GetString () && !SC_Compare ("}")) { WORD sfxto = S_FindSoundTentative (sc_String); list.Push (sfxto); } if (list.Size() == 1) { // Only one sound: treat as $alias S_sfx[random.SfxHead].link = list[0]; } else if (list.Size() > 1) { // Only add non-empty random lists random.NumSounds = (WORD)list.Size(); random.Sounds = new WORD[random.NumSounds]; memcpy (random.Sounds, &list[0], sizeof(WORD)*random.NumSounds); S_sfx[random.SfxHead].link = (WORD)S_rnd.Push (random); S_sfx[random.SfxHead].bRandomHeader = true; } } break; case SI_MusicVolume: { SC_MustGetString(); string musname (sc_String); SC_MustGetFloat(); FMusicVolume *mv = (FMusicVolume *)Malloc (sizeof(*mv) + musname.Len()); mv->Volume = sc_Float; strcpy (mv->MusicName, musname.GetChars()); mv->Next = MusicVolumes; MusicVolumes = mv; } break; case SI_IfDoom: if (gameinfo.gametype != GAME_Doom) { skipToEndIf = true; } break; case SI_IfStrife: if (gameinfo.gametype != GAME_Strife) { skipToEndIf = true; } break; case SI_IfHeretic: if (gameinfo.gametype != GAME_Heretic) { skipToEndIf = true; } break; case SI_IfHexen: if (gameinfo.gametype != GAME_Hexen) { skipToEndIf = true; } break; } } else { // Got a logical sound mapping char name[MAX_SNDNAME+1]; strncpy (name, sc_String, MAX_SNDNAME); name[MAX_SNDNAME] = 0; SC_MustGetString (); S_AddSound (name, sc_String); } } SC_Close (); } //========================================================================== // // S_AddBloodSFX // // Registers a new sound with the name ".sfx" // Actual sound data is searched for in the ns_bloodraw namespace. // //========================================================================== static void S_AddBloodSFX (int lumpnum) { char name[13]; FMemLump sfxlump = Wads.ReadLump (lumpnum); const FBloodSFX *sfx = (FBloodSFX *)sfxlump.GetMem(); int rawlump = Wads.CheckNumForName (sfx->RawName, ns_bloodraw); int sfxnum; if (rawlump != -1) { Wads.GetLumpName (name, lumpnum); name[8] = 0; strcat (name, ".SFX"); sfxnum = S_AddSound (name, rawlump); if (sfx->Format == 5) { S_sfx[sfxnum].bForce22050 = true; } else // I don't know any other formats for this { S_sfx[sfxnum].bForce11025 = true; } S_sfx[sfxnum].bLoadRAW = true; } } //========================================================================== // // S_AddStrifeVoice // // Registers a new sound with the name "svox/" // //========================================================================== static void S_AddStrifeVoice (int lumpnum) { char name[16] = "svox/"; Wads.GetLumpName (name+5, lumpnum); S_AddSound (name, lumpnum); } //========================================================================== // // S_ParsePlayerSoundCommon // // Parses the common part of playersound commands in SNDINFO // (player class, gender, and ref id) //========================================================================== static void S_ParsePlayerSoundCommon (char pclass[MAX_SNDNAME+1], int &gender, int &refid) { DoneReserving = true; SC_MustGetString (); strcpy (pclass, sc_String); SC_MustGetString (); gender = D_GenderToInt (sc_String); SC_MustGetString (); refid = S_FindSoundNoHash (sc_String); if (!S_sfx[refid].bPlayerReserve) { SC_ScriptError ("%s has not been reserved for a player sound", sc_String); } SC_MustGetString (); } //========================================================================== // // S_AddPlayerClass // // Adds the new player sound class if it doesn't exist. If it does, then // the existing class is returned. //========================================================================== static int S_AddPlayerClass (const char *name) { int cnum = S_FindPlayerClass (name); if (cnum == -1) { FPlayerClassLookup lookup; size_t namelen = strlen (name) + 1; memcpy (lookup.Name, name, namelen); lookup.ListIndex[2] = lookup.ListIndex[1] = lookup.ListIndex[0] = 0xffff; cnum = (int)PlayerClasses.Push (lookup); PlayerClassesIsSorted = false; // The default player class is the first one added if (DefPlayerClassName[0] == 0) { memcpy (DefPlayerClassName, name, namelen); DefPlayerClass = cnum; } } return cnum; } //========================================================================== // // S_FindPlayerClass // // Finds the given player class. Returns -1 if not found. //========================================================================== static int S_FindPlayerClass (const char *name) { if (!PlayerClassesIsSorted) { unsigned int i; for (i = 0; i < PlayerClasses.Size(); ++i) { if (stricmp (name, PlayerClasses[i].Name) == 0) { return (int)i; } } } else { int min = 0; int max = (int)(PlayerClasses.Size() - 1); while (min <= max) { int mid = (min + max) / 2; int lexx = stricmp (PlayerClasses[mid].Name, name); if (lexx == 0) { return mid; } else if (lexx < 0) { min = mid + 1; } else { max = mid - 1; } } } return -1; } //========================================================================== // // S_AddPlayerGender // // Adds a list of sounds for the given class and gender or just returns // an existing list if one is present. //========================================================================== static int S_AddPlayerGender (int classnum, int gender) { int index; index = PlayerClasses[classnum].ListIndex[gender]; if (index == 0xffff) { WORD pushee = 0; index = (int)PlayerSounds.Size (); PlayerClasses[classnum].ListIndex[gender] = (WORD)index; for (int i = NumPlayerReserves; i != 0; --i) { PlayerSounds.Push (pushee); } } return index; } //========================================================================== // // S_ShrinkPlayerSoundLists // // Shrinks the arrays used by the player sounds to be just large enough // and also sorts the PlayerClasses array. //========================================================================== void S_ShrinkPlayerSoundLists () { PlayerSounds.ShrinkToFit (); PlayerClasses.ShrinkToFit (); qsort (&PlayerClasses[0], PlayerClasses.Size(), sizeof(FPlayerClassLookup), SortPlayerClasses); PlayerClassesIsSorted = true; DefPlayerClass = S_FindPlayerClass (DefPlayerClassName); } static int STACK_ARGS SortPlayerClasses (const void *a, const void *b) { return stricmp (((const FPlayerClassLookup *)a)->Name, ((const FPlayerClassLookup *)b)->Name); } //========================================================================== // // S_LookupPlayerSound // // Returns the sound for the given player class, gender, and sound name. //========================================================================== int S_LookupPlayerSound (const char *pclass, int gender, const char *name) { int refid = S_FindSound (name); if (refid != 0) { refid = S_LookupPlayerSound (pclass, gender, refid); } return refid; } int S_LookupPlayerSound (const char *pclass, int gender, int refid) { if (!S_sfx[refid].bPlayerReserve) { // Not a player sound, so just return this sound return refid; } return S_LookupPlayerSound (S_FindPlayerClass (pclass), gender, refid); } static int S_LookupPlayerSound (int classidx, int gender, int refid) { int ingender = gender; if (classidx == -1) { classidx = DefPlayerClass; } int listidx = PlayerClasses[classidx].ListIndex[gender]; if (listidx == 0xffff) { int g; for (g = 0; g < 3 && listidx == 0xffff; ++g) { listidx = PlayerClasses[classidx].ListIndex[g]; } if (g == 3) { // No sounds defined at all for this class (can this happen?) if (classidx != DefPlayerClass) { return S_LookupPlayerSound (DefPlayerClass, gender, refid); } return 0; } gender = g; } int sndnum = PlayerSounds[listidx + S_sfx[refid].link]; // If we're not done parsing SNDINFO yet, assume that the target sound is valid if (PlayerClassesIsSorted && (sndnum == 0 || ((S_sfx[sndnum].lumpnum == -1 || S_sfx[sndnum].lumpnum == sfx_empty) && S_sfx[sndnum].link == 0xffff))) { // This sound is unavailable. if (ingender != 0) { // Try "male" return S_LookupPlayerSound (classidx, 0, refid); } if (classidx != DefPlayerClass) { // Try the default class. return S_LookupPlayerSound (DefPlayerClass, gender, refid); } } return sndnum; } //========================================================================== // // S_AreSoundsEquivalent // // Returns true if two sounds are essentially the same thing //========================================================================== bool S_AreSoundsEquivalent (AActor *actor, const char *name1, const char *name2) { return S_AreSoundsEquivalent (actor, S_FindSound (name1), S_FindSound (name2)); } bool S_AreSoundsEquivalent (AActor *actor, int id1, int id2) { sfxinfo_t *sfx; if (id1 == id2) { return true; } if (id1 == 0 || id2 == 0) { return false; } // Dereference aliases, but not random or player sounds while ((sfx = &S_sfx[id1])->link != sfxinfo_t::NO_LINK) { if (sfx->bPlayerReserve) { id1 = S_FindSkinnedSound (actor, id1); } else if (sfx->bRandomHeader) { break; } else { id1 = sfx->link; } } while ((sfx = &S_sfx[id2])->link != sfxinfo_t::NO_LINK) { if (sfx->bPlayerReserve) { id2 = S_FindSkinnedSound (actor, id2); } else if (sfx->bRandomHeader) { break; } else { id2 = sfx->link; } } return id1 == id2; } //========================================================================== // // S_FindSkinnedSound // // Calls S_LookupPlayerSound, deducing the class and gender from actor. //========================================================================== int S_FindSkinnedSound (AActor *actor, const char *name) { return S_FindSkinnedSound (actor, S_FindSound (name)); } int S_FindSkinnedSound (AActor *actor, int refid) { const char *pclass; int gender; if (actor != NULL && actor->player != NULL) { pclass = actor->player->mo->GetSoundClass (); gender = actor->player->userinfo.gender; } else { pclass = gameinfo.gametype != GAME_Hexen ? "player" : "fighter"; gender = GENDER_MALE; } return S_LookupPlayerSound (pclass, gender, refid); } //========================================================================== // // CCMD soundlist // //========================================================================== CCMD (soundlist) { char lumpname[9]; unsigned int i; lumpname[8] = 0; for (i = 0; i < S_sfx.Size (); i++) { const sfxinfo_t *sfx = &S_sfx[i]; if (sfx->bRandomHeader) { Printf ("%3d. %s -> #%d {", i, sfx->name, sfx->link); const FRandomSoundList *list = &S_rnd[sfx->link]; for (size_t j = 0; j < list->NumSounds; ++j) { Printf (" %s ", S_sfx[list->Sounds[j]].name); } Printf ("}\n"); } else if (sfx->bPlayerReserve) { Printf ("%3d. %s <>\n", i, sfx->name, sfx->link); } else if (S_sfx[i].lumpnum != -1) { Wads.GetLumpName (lumpname, sfx->lumpnum); Printf ("%3d. %s (%s)\n", i, sfx->name, lumpname); } else if (S_sfx[i].link != sfxinfo_t::NO_LINK) { Printf ("%3d. %s -> %s\n", i, sfx->name, S_sfx[sfx->link].name); } else { Printf ("%3d. %s **not present**\n", i, sfx->name); } } } //========================================================================== // // CCMD soundlinks // //========================================================================== CCMD (soundlinks) { unsigned int i; for (i = 0; i < S_sfx.Size (); i++) { const sfxinfo_t *sfx = &S_sfx[i]; if (sfx->link != sfxinfo_t::NO_LINK && !sfx->bRandomHeader && !sfx->bPlayerReserve) { Printf ("%s -> %s\n", sfx->name, S_sfx[sfx->link].name); } } } //========================================================================== // // CCMD playersounds // //========================================================================== CCMD (playersounds) { const char *reserveNames[256]; unsigned int i; int j, k, l; // Find names for the player sounds memset (reserveNames, 0, sizeof(reserveNames)); for (i = j = 0; j < NumPlayerReserves && i < S_sfx.Size(); ++i) { if (S_sfx[i].bPlayerReserve) { ++j; reserveNames[S_sfx[i].link] = S_sfx[i].name; } } for (i = 0; i < PlayerClasses.Size(); ++i) { for (j = 0; j < 3; ++j) { if ((l = PlayerClasses[i].ListIndex[j]) != 0xffff) { Printf ("\n%s, %s:\n", PlayerClasses[i].Name, GenderNames[j]); for (k = 0; k < NumPlayerReserves; ++l, ++k) { Printf (" %-16s%s\n", reserveNames[k], S_sfx[PlayerSounds[l]].name); } } } } } // AAmbientSound implementation --------------------------------------------- IMPLEMENT_STATELESS_ACTOR (AAmbientSound, Any, 14065, 0) PROP_Flags (MF_NOBLOCKMAP|MF_NOSECTOR) END_DEFAULTS void AAmbientSound::Serialize (FArchive &arc) { Super::Serialize (arc); arc << bActive; int checktime = NextCheck - gametic; arc << checktime; if (arc.IsLoading ()) { NextCheck = checktime + gametic; } } void AAmbientSound::Tick () { Super::Tick (); if (!bActive || gametic < NextCheck) return; AmbientSound *ambient = Ambients[args[0]]; if ((ambient->type & CONTINUOUS) == CONTINUOUS) { if (S_IsActorPlayingSomething (this, CHAN_BODY)) return; if (ambient->sound[0]) { S_StartNamedSound (this, NULL, CHAN_BODY, ambient->sound, ambient->volume, ambient->attenuation, true); SetTicker (ambient); } else { Destroy (); } } else { if (ambient->sound[0]) { S_StartNamedSound (this, NULL, CHAN_BODY, ambient->sound, ambient->volume, ambient->attenuation, false); SetTicker (ambient); } else { Destroy (); } } } void AAmbientSound::SetTicker (struct AmbientSound *ambient) { if ((ambient->type & CONTINUOUS) == CONTINUOUS) { NextCheck += 1; } else if (ambient->type & RANDOM) { NextCheck += (int)(((float)rand() / (float)RAND_MAX) * (float)(ambient->periodmax - ambient->periodmin)) + ambient->periodmin; } else { NextCheck += ambient->periodmin; } } void AAmbientSound::BeginPlay () { Super::BeginPlay (); Activate (NULL); } void AAmbientSound::Activate (AActor *activator) { Super::Activate (activator); AmbientSound *amb = Ambients[args[0]]; if (amb == NULL) { Destroy (); return; } if (!bActive) { if (!(amb->type & 3) && !amb->periodmin) { int sndnum = S_FindSound (amb->sound); if (sndnum == 0) { Destroy (); return; } sfxinfo_t *sfx = &S_sfx[sndnum]; // Make sure the sound has been loaded so we know how long it is if (!sfx->data && GSnd != NULL) GSnd->LoadSound (sfx); amb->periodmin = (sfx->ms * TICRATE) / 1000; } NextCheck = gametic; if (amb->type & (RANDOM|PERIODIC)) SetTicker (amb); bActive = true; } } void AAmbientSound::Deactivate (AActor *activator) { Super::Deactivate (activator); if (bActive) { bActive = false; if ((Ambients[args[0]]->type & CONTINUOUS) == CONTINUOUS) { S_StopSound (this, CHAN_BODY); } } }