#ifndef DOBJTYPE_H #define DOBJTYPE_H #ifndef __DOBJECT_H__ #error You must #include "dobject.h" to get dobjtype.h #endif #include "thingdef/thingdef_type.h" // Symbol information ------------------------------------------------------- enum ESymbolType { SYM_Const, SYM_Variable, SYM_ActionFunction }; struct PSymbol { virtual ~PSymbol(); ESymbolType SymbolType; FName SymbolName; protected: PSymbol(FName name, ESymbolType type):SymbolName(name) { SymbolType = type; } }; // A constant value --------------------------------------------------------- struct PSymbolConst : public PSymbol { int ValueType; union { int Value; double Float; }; PSymbolConst(FName name) : PSymbol(name, SYM_Const) {} }; // A variable --------------------------------------------------------- struct PSymbolVariable : public PSymbol { FExpressionType ValueType; //int size; intptr_t offset; bool bUserVar; PSymbolVariable(FName name) : PSymbol(name, SYM_Variable) {} }; // An action function ------------------------------------------------------- // // The Arguments string is a string of characters as understood by // the DECORATE parser: // // If the letter is uppercase, it is required. Lowercase letters are optional. // i = integer // f = fixed point // s = sound name // m = actor name // t = string // l = jump label // c = color // x = expression // y = expression // If the final character is a +, the previous parameter is repeated indefinitely, // and an "imaginary" first parameter is inserted containing the total number of // parameters passed. struct FState; struct StateCallData; typedef void (*actionf_p)(AActor *self, AActor *stateowner, FState *state, int parameters, StateCallData *statecall); struct PSymbolActionFunction : public PSymbol { FString Arguments; actionf_p Function; int defaultparameterindex; PSymbolActionFunction(FName name) : PSymbol(name, SYM_ActionFunction) {} }; // A symbol table ----------------------------------------------------------- class PSymbolTable { public: PSymbolTable() : ParentSymbolTable(NULL) { } ~PSymbolTable(); // Sets the table to use for searches if this one doesn't contain the // requested symbol. void SetParentTable (PSymbolTable *parent); // Finds a symbol in the table, optionally searching parent tables // as well. PSymbol *FindSymbol (FName symname, bool searchparents) const; // Places the symbol in the table and returns a pointer to it or NULL if // a symbol with the same name is already in the table. This symbol is // not copied and will be freed when the symbol table is destroyed. PSymbol *AddSymbol (PSymbol *sym); // Frees all symbols from this table. void ReleaseSymbols(); private: PSymbolTable *ParentSymbolTable; TArray Symbols; friend class DObject; }; // Meta-info for every class derived from DObject --------------------------- struct PClass { static void StaticInit (); static void StaticShutdown (); static void StaticFreeData (PClass *type); static void ClearRuntimeData(); // Per-class information ------------------------------------- FName TypeName; // this class's name unsigned int Size; // this class's size PClass *ParentClass; // the class this class derives from const size_t *Pointers; // object pointers defined by this class *only* const size_t *FlatPointers; // object pointers defined by this class and all its superclasses; not initialized by default FActorInfo *ActorInfo; PClass *HashNext; FMetaTable Meta; BYTE *Defaults; bool bRuntimeClass; // class was defined at run-time, not compile-time unsigned short ClassIndex; PSymbolTable Symbols; void (*ConstructNative)(void *); // The rest are all functions and static data ---------------- void InsertIntoHash (); DObject *CreateNew () const; PClass *CreateDerivedClass (FName name, unsigned int size); unsigned int Extend(unsigned int extension); void InitializeActorInfo (); void BuildFlatPointers (); void FreeStateList(); const PClass *NativeClass() const; // Returns true if this type is an ancestor of (or same as) the passed type. bool IsAncestorOf (const PClass *ti) const { while (ti) { if (this == ti) return true; ti = ti->ParentClass; } return false; } inline bool IsDescendantOf (const PClass *ti) const { return ti->IsAncestorOf (this); } // Find a type, given its name. static const PClass *FindClass (const char *name) { return FindClass (FName (name, true)); } static const PClass *FindClass (const FString &name) { return FindClass (FName (name, true)); } static const PClass *FindClass (ENamedName name) { return FindClass (FName (name)); } static const PClass *FindClass (FName name); const PClass *FindClassTentative (FName name); // not static! PClass *GetReplacement() const; static TArray m_Types; static TArray m_RuntimeActors; enum { HASH_SIZE = 256 }; static PClass *TypeHash[HASH_SIZE]; static bool bShutdown; }; #endif