/* ** info.cpp ** Keeps track of available actors and their states ** **--------------------------------------------------------------------------- ** Copyright 1998-2006 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. **--------------------------------------------------------------------------- ** ** This is completely different from Doom's info.c. ** */ #include "doomstat.h" #include "info.h" #include "m_fixed.h" #include "c_dispatch.h" #include "d_net.h" #include "v_text.h" #include "gi.h" #include "actor.h" #include "r_state.h" #include "i_system.h" #include "p_local.h" #include "templates.h" #include "cmdlib.h" #include "g_level.h" #include "stats.h" #include "thingdef.h" #include "d_player.h" #include "doomerrors.h" #include "events.h" #include "types.h" #include "vm.h" extern void LoadActors (); extern void InitBotStuff(); extern void ClearStrifeTypes(); TArray PClassActor::AllActorClasses; FRandom FState::pr_statetics("StateTics"); cycle_t ActionCycles; //========================================================================== // // special type for the native ActorInfo. This allows to let this struct // be handled by the generic object constructors for the VM. // //========================================================================== class PActorInfo : public PCompoundType { public: PActorInfo() :PCompoundType(sizeof(FActorInfo), alignof(FActorInfo)) { } void SetDefaultValue(void *base, unsigned offset, TArray *special) override { if (base != nullptr) new((uint8_t *)base + offset) FActorInfo; if (special != nullptr) { special->Push(std::make_pair(this, offset)); } } void InitializeValue(void *addr, const void *def) const override { if (def == nullptr) { new(addr) FActorInfo; } else { new(addr) FActorInfo(*(const FActorInfo*)def); } } void DestroyValue(void *addr) const override { FActorInfo *self = (FActorInfo*)addr; self->~FActorInfo(); } }; void AddActorInfo(PClass *cls) { auto type = new PActorInfo; TypeTable.AddType(type, NAME_Actor); cls->AddField("*", type, VARF_Meta); } void FState::SetAction(const char *name) { ActionFunc = FindVMFunction(RUNTIME_CLASS(AActor), name); } bool FState::CallAction(AActor *self, AActor *stateowner, FStateParamInfo *info, FState **stateret) { if (ActionFunc != nullptr) { ActionCycles.Clock(); VMValue params[3] = { self, stateowner, VMValue(info) }; // If the function returns a state, store it at *stateret. // If it doesn't return a state but stateret is non-nullptr, we need // to set *stateret to nullptr. if (stateret != nullptr) { *stateret = nullptr; if (ActionFunc->Proto == nullptr || ActionFunc->Proto->ReturnTypes.Size() == 0 || ActionFunc->Proto->ReturnTypes[0] != TypeState) { stateret = nullptr; } } try { if (stateret == nullptr) { VMCall(ActionFunc, params, ActionFunc->ImplicitArgs, nullptr, 0); } else { VMReturn ret; ret.PointerAt((void **)stateret); VMCall(ActionFunc, params, ActionFunc->ImplicitArgs, &ret, 1); } } catch (CVMAbortException &err) { err.MaybePrintMessage(); const char *callinfo = ""; if (info != nullptr && info->mStateType == STATE_Psprite) { if (stateowner->IsKindOf(NAME_Weapon) && stateowner != self) callinfo = "weapon "; else callinfo = "overlay "; } err.stacktrace.AppendFormat("Called from %sstate %s in %s\n", callinfo, FState::StaticGetStateName(this).GetChars(), stateowner->GetClass()->TypeName.GetChars()); throw; throw; } ActionCycles.Unclock(); return true; } else { return false; } } //========================================================================== // // //========================================================================== int GetSpriteIndex(const char * spritename, bool add) { static char lastsprite[5]; static int lastindex; // Make sure that the string is upper case and 4 characters long char upper[5]={0,0,0,0,0}; for (int i = 0; spritename[i] != 0 && i < 4; i++) { upper[i] = toupper (spritename[i]); } // cache the name so if the next one is the same the function doesn't have to perform a search. if (!strcmp(upper, lastsprite)) { return lastindex; } strcpy(lastsprite, upper); for (unsigned i = 0; i < sprites.Size (); ++i) { if (strcmp (sprites[i].name, upper) == 0) { return (lastindex = (int)i); } } if (!add) { return (lastindex = -1); } spritedef_t temp; strcpy (temp.name, upper); temp.numframes = 0; temp.spriteframes = 0; return (lastindex = (int)sprites.Push (temp)); } DEFINE_ACTION_FUNCTION(AActor, GetSpriteIndex) { PARAM_PROLOGUE; PARAM_NAME(sprt); ACTION_RETURN_INT(GetSpriteIndex(sprt.GetChars(), false)); } //========================================================================== // // PClassActor :: StaticInit STATIC // //========================================================================== void PClassActor::StaticInit() { sprites.Clear(); if (sprites.Size() == 0) { spritedef_t temp; // Sprite 0 is always TNT1 memcpy (temp.name, "TNT1", 5); temp.numframes = 0; temp.spriteframes = 0; sprites.Push (temp); // Sprite 1 is always ---- memcpy (temp.name, "----", 5); sprites.Push (temp); // Sprite 2 is always #### memcpy (temp.name, "####", 5); sprites.Push (temp); } if (!batchrun) Printf ("LoadActors: Load actor definitions.\n"); ClearStrifeTypes(); LoadActors (); InitBotStuff(); // reinit GLOBAL static stuff from gameinfo, once classes are loaded. E_InitStaticHandlers(false); } //========================================================================== // // PClassActor :: StaticSetActorNums STATIC // // Called after Dehacked patches are applied // //========================================================================== void PClassActor::StaticSetActorNums() { for (unsigned int i = 0; i < PClassActor::AllActorClasses.Size(); ++i) { PClassActor::AllActorClasses[i]->RegisterIDs(); } } //========================================================================== // // PClassActor :: SetReplacement // // Sets as a replacement class for another class. // //========================================================================== bool PClassActor::SetReplacement(FName replaceName) { // Check for "replaces" if (replaceName != NAME_None) { // Get actor name PClassActor *replacee = PClass::FindActor(replaceName); if (replacee == nullptr) { return false; } if (replacee != nullptr) { replacee->ActorInfo()->Replacement = this; ActorInfo()->Replacee = replacee; } } return true; } //========================================================================== // // PClassActor :: Finalize // // Installs the parsed states and does some sanity checking // //========================================================================== void AActor::Finalize(FStateDefinitions &statedef) { AActor *defaults = this; try { statedef.FinishStates(GetClass(), defaults); } catch (CRecoverableError &) { statedef.MakeStateDefines(nullptr); throw; } statedef.InstallStates(GetClass(), defaults); statedef.MakeStateDefines(nullptr); } //========================================================================== // // PClassActor :: RegisterIDs // // Registers this class's SpawnID and DoomEdNum in the appropriate tables. // //========================================================================== void PClassActor::RegisterIDs() { PClassActor *cls = PClass::FindActor(TypeName); if (cls == nullptr) { Printf(TEXTCOLOR_RED"The actor '%s' has been hidden by a non-actor of the same name\n", TypeName.GetChars()); return; } // Conversation IDs have never been filtered by game so we cannot start doing that. auto ConversationID = ActorInfo()->ConversationID; if (ConversationID > 0) { StrifeTypes[ConversationID] = cls; if (cls != this) { Printf(TEXTCOLOR_RED"Conversation ID %d refers to hidden class type '%s'\n", ConversationID, cls->TypeName.GetChars()); } } if (ActorInfo()->GameFilter == GAME_Any || (ActorInfo()->GameFilter & gameinfo.gametype)) { auto SpawnID = ActorInfo()->SpawnID; if (SpawnID > 0) { SpawnableThings[SpawnID] = cls; if (cls != this) { Printf(TEXTCOLOR_RED"Spawn ID %d refers to hidden class type '%s'\n", SpawnID, cls->TypeName.GetChars()); } } auto DoomEdNum = ActorInfo()->DoomEdNum; if (DoomEdNum != -1) { FDoomEdEntry *oldent = DoomEdMap.CheckKey(DoomEdNum); if (oldent != nullptr && oldent->Special == -2) { Printf(TEXTCOLOR_RED"Editor number %d defined twice for classes '%s' and '%s'\n", DoomEdNum, cls->TypeName.GetChars(), oldent->Type->TypeName.GetChars()); } FDoomEdEntry ent; memset(&ent, 0, sizeof(ent)); ent.Type = cls; ent.Special = -2; // use -2 instead of -1 so that we can recognize DECORATE defined entries and print a warning message if duplicates occur. DoomEdMap.Insert(DoomEdNum, ent); if (cls != this) { Printf(TEXTCOLOR_RED"Editor number %d refers to hidden class type '%s'\n", DoomEdNum, cls->TypeName.GetChars()); } } } } //========================================================================== // // PClassActor :: GetReplacement // //========================================================================== PClassActor *PClassActor::GetReplacement(bool lookskill) { FName skillrepname; if (lookskill && AllSkills.Size() > (unsigned)gameskill) { skillrepname = AllSkills[gameskill].GetReplacement(TypeName); if (skillrepname != NAME_None && PClass::FindClass(skillrepname) == nullptr) { Printf("Warning: incorrect actor name in definition of skill %s: \n" "class %s is replaced by non-existent class %s\n" "Skill replacement will be ignored for this actor.\n", AllSkills[gameskill].Name.GetChars(), TypeName.GetChars(), skillrepname.GetChars()); AllSkills[gameskill].SetReplacement(TypeName, NAME_None); AllSkills[gameskill].SetReplacedBy(skillrepname, NAME_None); lookskill = false; skillrepname = NAME_None; } } auto Replacement = ActorInfo()->Replacement; if (Replacement == nullptr && (!lookskill || skillrepname == NAME_None)) { return this; } // The Replacement field is temporarily NULLed to prevent // potential infinite recursion. ActorInfo()->Replacement = nullptr; PClassActor *rep = Replacement; // Handle skill-based replacement here. It has precedence on DECORATE replacement // in that the skill replacement is applied first, followed by DECORATE replacement // on the actor indicated by the skill replacement. if (lookskill && (skillrepname != NAME_None)) { rep = PClass::FindActor(skillrepname); } // Now handle DECORATE replacement chain // Skill replacements are not recursive, contrarily to DECORATE replacements rep = rep->GetReplacement(false); // Reset the temporarily NULLed field ActorInfo()->Replacement = Replacement; return rep; } DEFINE_ACTION_FUNCTION(AActor, GetReplacement) { PARAM_PROLOGUE; PARAM_POINTER(c, PClassActor); ACTION_RETURN_POINTER(c->GetReplacement()); } //========================================================================== // // PClassActor :: GetReplacee // //========================================================================== PClassActor *PClassActor::GetReplacee(bool lookskill) { FName skillrepname; if (lookskill && AllSkills.Size() > (unsigned)gameskill) { skillrepname = AllSkills[gameskill].GetReplacedBy(TypeName); if (skillrepname != NAME_None && PClass::FindClass(skillrepname) == nullptr) { Printf("Warning: incorrect actor name in definition of skill %s: \n" "non-existent class %s is replaced by class %s\n" "Skill replacement will be ignored for this actor.\n", AllSkills[gameskill].Name.GetChars(), skillrepname.GetChars(), TypeName.GetChars()); AllSkills[gameskill].SetReplacedBy(TypeName, NAME_None); AllSkills[gameskill].SetReplacement(skillrepname, NAME_None); lookskill = false; } } PClassActor *savedrep = ActorInfo()->Replacee; if (savedrep == nullptr && (!lookskill || skillrepname == NAME_None)) { return this; } // The Replacee field is temporarily NULLed to prevent // potential infinite recursion. ActorInfo()->Replacee = nullptr; PClassActor *rep = savedrep; if (lookskill && (skillrepname != NAME_None) && (PClass::FindClass(skillrepname) != nullptr)) { rep = PClass::FindActor(skillrepname); } rep = rep->GetReplacee(false); ActorInfo()->Replacee = savedrep; return rep; } DEFINE_ACTION_FUNCTION(AActor, GetReplacee) { PARAM_PROLOGUE; PARAM_POINTER(c, PClassActor); ACTION_RETURN_POINTER(c->GetReplacee()); } //========================================================================== // // PClassActor :: SetDamageFactor // //========================================================================== void PClassActor::SetDamageFactor(FName type, double factor) { for (auto & p : ActorInfo()->DamageFactors) { if (p.first == type) { p.second = factor; return; } } ActorInfo()->DamageFactors.Push({ type, factor }); } //========================================================================== // // PClassActor :: SetPainChance // //========================================================================== void PClassActor::SetPainChance(FName type, int chance) { for (auto & p : ActorInfo()->PainChances) { if (p.first == type) p.second = chance; return; } if (chance >= 0) { ActorInfo()->PainChances.Push({ type, MIN(chance, 256) }); } } //========================================================================== // // DmgFactors :: CheckFactor // // Checks for the existance of a certain damage type. If that type does not // exist, the damage factor for type 'None' will be returned, if present. // //========================================================================== int DmgFactors::Apply(FName type, int damage) { double factor = -1.; for (auto & p : *this) { if (p.first == type) { factor = p.second; break; } if (p.first == NAME_None) { factor = p.second; } } if (factor < 0.) return damage; return int(damage * factor); } static void SummonActor (int command, int command2, FCommandLine argv) { if (CheckCheatmode ()) return; if (argv.argc() > 1) { PClassActor *type = PClass::FindActor(argv[1]); if (type == nullptr) { Printf ("Unknown actor '%s'\n", argv[1]); return; } Net_WriteByte (argv.argc() > 2 ? command2 : command); Net_WriteString (type->TypeName.GetChars()); if (argv.argc () > 2) { Net_WriteWord (atoi (argv[2])); // angle Net_WriteWord ((argv.argc() > 3) ? atoi(argv[3]) : 0); // TID Net_WriteByte ((argv.argc() > 4) ? atoi(argv[4]) : 0); // special for (int i = 5; i < 10; i++) { // args[5] Net_WriteLong((i < argv.argc()) ? atoi(argv[i]) : 0); } } } } CCMD (summon) { SummonActor (DEM_SUMMON, DEM_SUMMON2, argv); } CCMD (summonfriend) { SummonActor (DEM_SUMMONFRIEND, DEM_SUMMONFRIEND2, argv); } CCMD (summonmbf) { SummonActor (DEM_SUMMONMBF, DEM_SUMMONFRIEND2, argv); } CCMD (summonfoe) { SummonActor (DEM_SUMMONFOE, DEM_SUMMONFOE2, argv); } // Damage type defaults / global settings TMap GlobalDamageDefinitions; void DamageTypeDefinition::Apply(FName type) { GlobalDamageDefinitions[type] = *this; } DamageTypeDefinition *DamageTypeDefinition::Get(FName type) { return GlobalDamageDefinitions.CheckKey(type); } bool DamageTypeDefinition::IgnoreArmor(FName type) { DamageTypeDefinition *dtd = Get(type); if (dtd) return dtd->NoArmor; return false; } DEFINE_ACTION_FUNCTION(_DamageTypeDefinition, IgnoreArmor) { PARAM_PROLOGUE; PARAM_NAME(type); ACTION_RETURN_BOOL(DamageTypeDefinition::IgnoreArmor(type)); } FString DamageTypeDefinition::GetObituary(FName type) { DamageTypeDefinition *dtd = Get(type); if (dtd) return dtd->Obituary; return ""; } //========================================================================== // // DamageTypeDefinition :: ApplyMobjDamageFactor // // Calculates mobj damage based on original damage, defined damage factors // and damage type. // // If the specific damage type is not defined, the damage factor for // type 'None' will be used (with 1.0 as a default value). // // Globally declared damage types may override or multiply the damage // factor when 'None' is used as a fallback in this function. // //========================================================================== double DamageTypeDefinition::GetMobjDamageFactor(FName type, DmgFactors const * const factors) { double defaultfac = -1.; if (factors) { // If the actor has named damage factors, look for a specific factor for (auto & p : *factors) { if (p.first == type) return p.second; // type specific damage type if (p.first == NAME_None) defaultfac = p.second; } // If this was nonspecific damage, don't fall back to nonspecific search if (type == NAME_None) return 1.; } // If this was nonspecific damage, don't fall back to nonspecific search else if (type == NAME_None) { return 1.; } else { // Normal is unsupplied / 1.0, so there's no difference between modifying and overriding DamageTypeDefinition *dtd = Get(type); return dtd ? dtd->DefaultFactor : 1.; } { DamageTypeDefinition *dtd = Get(type); // Here we are looking for modifications to untyped damage // If the calling actor defines untyped damage factor, that is contained in "pdf". if (defaultfac >= 0.) // normal damage available { if (dtd) { if (dtd->ReplaceFactor) return dtd->DefaultFactor; // use default instead of untyped factor return defaultfac * dtd->DefaultFactor; // use default as modification of untyped factor } return defaultfac; // there was no default, so actor default is used } else if (dtd) { return dtd->DefaultFactor; // implicit untyped factor 1.0 does not need to be applied/replaced explicitly } } return 1.; } int DamageTypeDefinition::ApplyMobjDamageFactor(int damage, FName type, DmgFactors const * const factors) { double factor = GetMobjDamageFactor(type, factors); return int(damage * factor); } //========================================================================== // // Reads a damage definition // //========================================================================== void FMapInfoParser::ParseDamageDefinition() { sc.MustGetString(); FName damageType = sc.String; DamageTypeDefinition dtd; ParseOpenBrace(); while (sc.MustGetAnyToken(), sc.TokenType != '}') { if (sc.Compare("FACTOR")) { sc.MustGetStringName("="); sc.MustGetFloat(); dtd.DefaultFactor = sc.Float; if (dtd.DefaultFactor == 0) dtd.ReplaceFactor = true; } else if (sc.Compare("OBITUARY")) { sc.MustGetStringName("="); sc.MustGetString(); dtd.Obituary = sc.String; } else if (sc.Compare("REPLACEFACTOR")) { dtd.ReplaceFactor = true; } else if (sc.Compare("NOARMOR")) { dtd.NoArmor = true; } else { sc.ScriptError("Unexpected data (%s) in damagetype definition.", sc.String); } } dtd.Apply(damageType); }