/* ** dobject.cpp ** Implements the base class DObject, which most other classes derive from ** **--------------------------------------------------------------------------- ** 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. **--------------------------------------------------------------------------- ** */ #include #include #include "cmdlib.h" #include "actor.h" #include "dobject.h" #include "doomstat.h" // Ideally, DObjects can be used independant of Doom. #include "d_player.h" // See p_user.cpp to find out why this doesn't work. #include "g_game.h" // Needed for bodyque. #include "c_dispatch.h" #include "i_system.h" #include "r_state.h" #include "stats.h" #include "a_sharedglobal.h" #include "dsectoreffect.h" PClass DObject::_StaticType; ClassReg DObject::RegistrationInfo = { &DObject::_StaticType, // MyClass "DObject", // Name NULL, // ParentType sizeof(DObject), // SizeOf NULL, // Pointers &DObject::InPlaceConstructor // ConstructNative }; _DECLARE_TI(DObject) FMetaTable::~FMetaTable () { FreeMeta (); } FMetaTable::FMetaTable (const FMetaTable &other) { Meta = NULL; CopyMeta (&other); } FMetaTable &FMetaTable::operator = (const FMetaTable &other) { CopyMeta (&other); return *this; } void FMetaTable::FreeMeta () { while (Meta != NULL) { FMetaData *meta = Meta; switch (meta->Type) { case META_String: delete[] meta->Value.String; break; default: break; } Meta = meta->Next; delete meta; } } void FMetaTable::CopyMeta (const FMetaTable *other) { const FMetaData *meta_src; FMetaData **meta_dest; FreeMeta (); meta_src = other->Meta; meta_dest = &Meta; while (meta_src != NULL) { FMetaData *newmeta = new FMetaData (meta_src->Type, meta_src->ID); switch (meta_src->Type) { case META_String: newmeta->Value.String = copystring (meta_src->Value.String); break; default: newmeta->Value = meta_src->Value; break; } *meta_dest = newmeta; meta_dest = &newmeta->Next; meta_src = meta_src->Next; } *meta_dest = NULL; } FMetaData *FMetaTable::FindMeta (EMetaType type, DWORD id) const { FMetaData *meta = Meta; while (meta != NULL) { if (meta->ID == id && meta->Type == type) { return meta; } meta = meta->Next; } return NULL; } FMetaData *FMetaTable::FindMetaDef (EMetaType type, DWORD id) { FMetaData *meta = FindMeta (type, id); if (meta == NULL) { meta = new FMetaData (type, id); meta->Next = Meta; meta->Value.String = NULL; Meta = meta; } return meta; } void FMetaTable::SetMetaInt (DWORD id, int parm) { FMetaData *meta = FindMetaDef (META_Int, id); meta->Value.Int = parm; } int FMetaTable::GetMetaInt (DWORD id, int def) const { FMetaData *meta = FindMeta (META_Int, id); return meta != NULL ? meta->Value.Int : def; } void FMetaTable::SetMetaFixed (DWORD id, fixed_t parm) { FMetaData *meta = FindMetaDef (META_Fixed, id); meta->Value.Fixed = parm; } fixed_t FMetaTable::GetMetaFixed (DWORD id, fixed_t def) const { FMetaData *meta = FindMeta (META_Fixed, id); return meta != NULL ? meta->Value.Fixed : def; } void FMetaTable::SetMetaString (DWORD id, const char *parm) { FMetaData *meta = FindMetaDef (META_String, id); ReplaceString (&meta->Value.String, parm); } const char *FMetaTable::GetMetaString (DWORD id) const { FMetaData *meta = FindMeta (META_String, id); return meta != NULL ? meta->Value.String : NULL; } CCMD (dumpactors) { const char *const filters[32] = { "0:All", "1:Doom", "2:Heretic", "3:DoomHeretic", "4:Hexen", "5:DoomHexen", "6:Raven", "7:IdRaven", "8:Strife", "9:DoomStrife", "10:HereticStrife", "11:DoomHereticStrife", "12:HexenStrife", "13:DoomHexenStrife", "14:RavenStrife", "15:NotChex", "16:Chex", "17:DoomChex", "18:HereticChex", "19:DoomHereticChex", "20:HexenChex", "21:DoomHexenChex", "22:RavenChex", "23:NotStrife", "24:StrifeChex", "25:DoomStrifeChex", "26:HereticStrifeChex", "27:NotHexen", "28:HexenStrifeChex", "29:NotHeretic", "30:NotDoom", "31:All", }; Printf("%i object class types total\nActor\tEd Num\tSpawnID\tFilter\tSource\n", PClass::m_Types.Size()); for (unsigned int i = 0; i < PClass::m_Types.Size(); i++) { PClass *cls = PClass::m_Types[i]; if (cls != NULL && cls->ActorInfo != NULL) Printf("%s\t%i\t%i\t%s\t%s\n", cls->TypeName.GetChars(), cls->ActorInfo->DoomEdNum, cls->ActorInfo->SpawnID, filters[cls->ActorInfo->GameFilter & 31], cls->Meta.GetMetaString (ACMETA_Lump)); else if (cls != NULL) Printf("%s\tn/a\tn/a\tn/a\tEngine (not an actor type)\n", cls->TypeName.GetChars()); else Printf("Type %i is not an object class\n", i); } } CCMD (dumpclasses) { // This is by no means speed-optimized. But it's an informational console // command that will be executed infrequently, so I don't mind. struct DumpInfo { const PClass *Type; DumpInfo *Next; DumpInfo *Children; static DumpInfo *FindType (DumpInfo *root, const PClass *type) { if (root == NULL) { return root; } if (root->Type == type) { return root; } if (root->Next != NULL) { return FindType (root->Next, type); } if (root->Children != NULL) { return FindType (root->Children, type); } return NULL; } static DumpInfo *AddType (DumpInfo **root, const PClass *type) { DumpInfo *info, *parentInfo; if (*root == NULL) { info = new DumpInfo; info->Type = type; info->Next = NULL; info->Children = *root; *root = info; return info; } if (type->ParentClass == (*root)->Type) { parentInfo = *root; } else if (type == (*root)->Type) { return *root; } else { parentInfo = FindType (*root, type->ParentClass); if (parentInfo == NULL) { parentInfo = AddType (root, type->ParentClass); } } // Has this type already been added? for (info = parentInfo->Children; info != NULL; info = info->Next) { if (info->Type == type) { return info; } } info = new DumpInfo; info->Type = type; info->Next = parentInfo->Children; info->Children = NULL; parentInfo->Children = info; return info; } static void PrintTree (DumpInfo *root, int level) { Printf ("%*c%s\n", level, ' ', root->Type->TypeName.GetChars()); if (root->Children != NULL) { PrintTree (root->Children, level + 2); } if (root->Next != NULL) { PrintTree (root->Next, level); } } static void FreeTree (DumpInfo *root) { if (root->Children != NULL) { FreeTree (root->Children); } if (root->Next != NULL) { FreeTree (root->Next); } delete root; } }; unsigned int i; int shown, omitted; DumpInfo *tree = NULL; const PClass *root = NULL; bool showall = true; if (argv.argc() > 1) { root = PClass::FindClass (argv[1]); if (root == NULL) { Printf ("Class '%s' not found\n", argv[1]); return; } if (stricmp (argv[1], "Actor") == 0) { if (argv.argc() < 3 || stricmp (argv[2], "all") != 0) { showall = false; } } } shown = omitted = 0; DumpInfo::AddType (&tree, root != NULL ? root : RUNTIME_CLASS(DObject)); for (i = 0; i < PClass::m_Types.Size(); i++) { PClass *cls = PClass::m_Types[i]; if (root == NULL || (cls->IsDescendantOf (root) && (showall || cls == root || cls->ActorInfo != root->ActorInfo))) { DumpInfo::AddType (&tree, cls); // Printf (" %s\n", PClass::m_Types[i]->Name + 1); shown++; } else { omitted++; } } DumpInfo::PrintTree (tree, 2); DumpInfo::FreeTree (tree); Printf ("%d classes shown, %d omitted\n", shown, omitted); } void DObject::InPlaceConstructor (void *mem) { new ((EInPlace *)mem) DObject; } DObject::DObject () : Class(0), ObjectFlags(0) { ObjectFlags = GC::CurrentWhite & OF_WhiteBits; ObjNext = GC::Root; GC::Root = this; } DObject::DObject (PClass *inClass) : Class(inClass), ObjectFlags(0) { ObjectFlags = GC::CurrentWhite & OF_WhiteBits; ObjNext = GC::Root; GC::Root = this; } DObject::~DObject () { if (!(ObjectFlags & OF_Cleanup)) { DObject **probe; PClass *type = GetClass(); if (!(ObjectFlags & OF_YesReallyDelete)) { Printf ("Warning: '%s' is freed outside the GC process.\n", type != NULL ? type->TypeName.GetChars() : "==some object=="); } // Find all pointers that reference this object and NULL them. StaticPointerSubstitution(this, NULL); // Now unlink this object from the GC list. for (probe = &GC::Root; *probe != NULL; probe = &((*probe)->ObjNext)) { if (*probe == this) { *probe = ObjNext; if (&ObjNext == GC::SweepPos) { GC::SweepPos = probe; } break; } } // If it's gray, also unlink it from the gray list. if (this->IsGray()) { for (probe = &GC::Gray; *probe != NULL; probe = &((*probe)->GCNext)) { if (*probe == this) { *probe = GCNext; break; } } } } } void DObject::Destroy () { ObjectFlags = (ObjectFlags & ~OF_Fixed) | OF_EuthanizeMe; } size_t DObject::PropagateMark() { const PClass *info = GetClass(); if (!PClass::bShutdown) { const size_t *offsets = info->FlatPointers; if (offsets == NULL) { const_cast(info)->BuildFlatPointers(); offsets = info->FlatPointers; } while (*offsets != ~(size_t)0) { GC::Mark((DObject **)((BYTE *)this + *offsets)); offsets++; } } return info->Size; } size_t DObject::PointerSubstitution (DObject *old, DObject *notOld) { const PClass *info = GetClass(); const size_t *offsets = info->FlatPointers; size_t changed = 0; if (offsets == NULL) { const_cast(info)->BuildFlatPointers(); offsets = info->FlatPointers; } while (*offsets != ~(size_t)0) { if (*(DObject **)((BYTE *)this + *offsets) == old) { *(DObject **)((BYTE *)this + *offsets) = notOld; changed++; } offsets++; } return changed; } size_t DObject::StaticPointerSubstitution (DObject *old, DObject *notOld) { DObject *probe; size_t changed = 0; int i; // Go through all objects. for (probe = GC::Root; probe != NULL; probe = probe->ObjNext) { changed += probe->PointerSubstitution(old, notOld); } // Go through the bodyque. for (i = 0; i < BODYQUESIZE; ++i) { if (bodyque[i] == old) { bodyque[i] = static_cast(notOld); changed++; } } // Go through players. for (i = 0; i < MAXPLAYERS; i++) { if (playeringame[i]) changed += players[i].FixPointers (old, notOld); } // Go through sectors. if (sectors != NULL) { for (i = 0; i < numsectors; ++i) { #define SECTOR_CHECK(f,t) \ if (sectors[i].f.p == static_cast(old)) { sectors[i].f = static_cast(notOld); changed++; } SECTOR_CHECK( SoundTarget, AActor ); SECTOR_CHECK( CeilingSkyBox, ASkyViewpoint ); SECTOR_CHECK( FloorSkyBox, ASkyViewpoint ); SECTOR_CHECK( SecActTarget, ASectorAction ); SECTOR_CHECK( floordata, DSectorEffect ); SECTOR_CHECK( ceilingdata, DSectorEffect ); SECTOR_CHECK( lightingdata, DSectorEffect ); #undef SECTOR_CHECK } } // Go through bot stuff. if (bglobal.firstthing.p == (AActor *)old) bglobal.firstthing = (AActor *)notOld, ++changed; if (bglobal.body1.p == (AActor *)old) bglobal.body1 = (AActor *)notOld, ++changed; if (bglobal.body2.p == (AActor *)old) bglobal.body2 = (AActor *)notOld, ++changed; return changed; } void DObject::SerializeUserVars(FArchive &arc) { PSymbolTable *symt; FName varname; DWORD count, j; int *varloc; symt = &GetClass()->Symbols; if (arc.IsStoring()) { // Write all user variables. for (; symt != NULL; symt = symt->ParentSymbolTable) { for (unsigned i = 0; i < symt->Symbols.Size(); ++i) { PSymbol *sym = symt->Symbols[i]; if (sym->SymbolType == SYM_Variable) { PSymbolVariable *var = static_cast(sym); if (var->bUserVar) { count = var->ValueType.Type == VAL_Array ? var->ValueType.size : 1; varloc = (int *)(reinterpret_cast(this) + var->offset); arc << var->SymbolName; arc.WriteCount(count); for (j = 0; j < count; ++j) { arc << varloc[j]; } } } } } // Write terminator. varname = NAME_None; arc << varname; } else { // Read user variables until 'None' is encountered. arc << varname; while (varname != NAME_None) { PSymbol *sym = symt->FindSymbol(varname, true); DWORD wanted = 0; if (sym != NULL && sym->SymbolType == SYM_Variable) { PSymbolVariable *var = static_cast(sym); if (var->bUserVar) { wanted = var->ValueType.Type == VAL_Array ? var->ValueType.size : 1; varloc = (int *)(reinterpret_cast(this) + var->offset); } } count = arc.ReadCount(); for (j = 0; j < MIN(wanted, count); ++j) { arc << varloc[j]; } if (wanted < count) { // Ignore remaining values from archive. for (; j < count; ++j) { int foo; arc << foo; } } arc << varname; } } } void DObject::Serialize (FArchive &arc) { ObjectFlags |= OF_SerialSuccess; } void DObject::CheckIfSerialized () const { if (!(ObjectFlags & OF_SerialSuccess)) { I_Error ( "BUG: %s::Serialize\n" "(or one of its superclasses) needs to call\n" "Super::Serialize\n", StaticType()->TypeName.GetChars()); } }