Eliminate .mreg section

- Member variables are now declared all in one place: InitThingdef(). They are not partially defined in thingdef_expression.cpp and further refined in actor.txt. - This left ParseNativeVariable() parsing only functions, so it has been renamed to ParseNativeFunction(). - Note that their declarations in InitThingdef() are expected to be temporary.
2024-11-10 23:01:59 +00:00 · 2015-03-14 22:07:52 -05:00 · 2015-03-14 22:07:52 -05:00 · 8cb269388e
commit 8cb269388e
parent 1e7cce5a2c
10 changed files with 69 additions and 241 deletions
--- a/src/__autostart.cpp
+++ b/src/__autostart.cpp
@ -53,7 +53,7 @@
 // for initialized read-only data.)
 #pragma comment(linker, "/merge:.areg=.rdata /merge:.creg=.rdata /merge:.greg=.rdata")
-#pragma comment(linker, "/merge:.mreg=.rdata /merge:.yreg=.rdata")
+#pragma comment(linker, "/merge:.yreg=.rdata")
 #pragma section(".areg$a",read)
 __declspec(allocate(".areg$a")) void *const ARegHead = 0;
@ -64,9 +64,6 @@ __declspec(allocate(".creg$a")) void *const CRegHead = 0;
 #pragma section(".greg$a",read)
 __declspec(allocate(".greg$a")) void *const GRegHead = 0;
 #pragma section(".mreg$a",read)
 __declspec(allocate(".mreg$a")) void *const MRegHead = 0;
 #pragma section(".yreg$a",read)
 __declspec(allocate(".yreg$a")) void *const YRegHead = 0;
@ -101,7 +98,6 @@ __declspec(allocate(".yreg$a")) void *const YRegHead = 0;
 void *const ARegHead __attribute__((section(SECTION_AREG))) = 0;
 void *const CRegHead __attribute__((section(SECTION_CREG))) = 0;
 void *const GRegHead __attribute__((section(SECTION_GREG))) = 0;
 void *const MRegHead __attribute__((section(SECTION_MREG))) = 0;
 void *const YRegHead __attribute__((section(SECTION_YREG))) = 0;
 #else
--- a/src/autosegs.h
+++ b/src/autosegs.h
@ -50,10 +50,6 @@ extern REGINFO CRegTail;
 extern REGINFO GRegHead;
 extern REGINFO GRegTail;
 // List of variables
 extern REGINFO MRegHead;
 extern REGINFO MRegTail;
 // List of MAPINFO map options
 extern REGINFO YRegHead;
 extern REGINFO YRegTail;
--- a/src/dobjtype.h
+++ b/src/dobjtype.h
@ -461,6 +461,7 @@ class PField : public PSymbol
 public:
 	PField(FName name, PType *type) : PSymbol(name), Offset(0), Type(type), Flags(0) {}
 	PField(FName name, PType *type, DWORD flags) : PSymbol(name), Offset(0), Type(type), Flags(flags) {}
 	PField(FName name, PType *type, DWORD flags, unsigned offset) : PSymbol(name), Offset(offset), Type(type), Flags(flags) {}
 	unsigned int Offset;
 	PType *Type;
--- a/src/namedef.h
+++ b/src/namedef.h
@ -303,6 +303,16 @@ xx(Sqrt)
 xx(CheckClass)
 xx(IsPointerEqual)
 xx(Pick)
 xx(Mass)
 xx(VelX)
 xx(VelY)
 xx(VelZ)
 xx(Accuracy)
 xx(Stamina)
 xx(Radius)
 xx(ReactionTime)
 xx(MeleeRange)
 xx(Speed)
 // Various actor names which are used internally
 xx(MapSpot)
--- a/src/thingdef/thingdef.h
+++ b/src/thingdef/thingdef.h
@ -280,16 +280,7 @@ struct FPropertyInfo
 	int category;
 };
 struct FVariableInfo
 {
 	const char *name;
 	intptr_t address;
 	const PClass * const *owner;
 };
 FPropertyInfo *FindProperty(const char * string);
 FVariableInfo *FindVariable(const char * string, const PClass *cls);
 int MatchString (const char *in, const char **strings);
@ -335,15 +326,6 @@ int MatchString (const char *in, const char **strings);
 	int var = params[(no)+1].i== 0? params[(no)+2].i : V_GetColor(NULL, params[(no)+2].s);
 #define DEFINE_MEMBER_VARIABLE(name, cls) \
 	static FVariableInfo GlobalDef__##name = { #name, static_cast<intptr_t>(myoffsetof(cls, name)), &RUNTIME_CLASS_CASTLESS(cls) }; \
 	MSVC_MSEG FVariableInfo *infoptr_GlobalDef__##name GCC_MSEG = &GlobalDef__##name;
 #define DEFINE_MEMBER_VARIABLE_ALIAS(name, alias, cls) \
 	static FVariableInfo GlobalDef__##name = { #name, static_cast<intptr_t>(myoffsetof(cls, alias)), &RUNTIME_CLASS_CASTLESS(cls) }; \
 	MSVC_MSEG FVariableInfo *infoptr_GlobalDef__##name GCC_MSEG = &GlobalDef__##name;
 // Macros to handle action functions. These are here so that I don't have to
 // change every single use in case the parameters change.
 #define DECLARE_ACTION(name)	extern VMNativeFunction *name##_VMPtr;
--- a/src/thingdef/thingdef_data.cpp
+++ b/src/thingdef/thingdef_data.cpp
@ -46,7 +46,6 @@
 static TArray<FPropertyInfo*> properties;
 static TArray<AFuncDesc> AFTable;
 static TArray<FVariableInfo*> variables;
 //==========================================================================
 //
@ -533,42 +532,6 @@ AFuncDesc *FindFunction(const char * string)
 }
 //==========================================================================
 //
 // Find a variable by name using a binary search
 //
 //==========================================================================
 FVariableInfo *FindVariable(const char * string, const PClass *cls)
 {
 	int min = 0, max = variables.Size()-1;
 	while (min <= max)
 	{
 		int mid = (min + max) / 2;
 		int lexval;
 		if (cls < *variables[mid]->owner) lexval = -1;
 		else if (cls > *variables[mid]->owner) lexval = 1;
 		else lexval = stricmp (string, variables[mid]->name);
 		if (lexval == 0)
 		{
 			return variables[mid];
 		}
 		else if (lexval > 0)
 		{
 			min = mid + 1;
 		}
 		else
 		{
 			max = mid - 1;
 		}
 	}
 	return NULL;
 }
 //==========================================================================
 //
 // Find an action function in AActor's table
@ -602,15 +565,6 @@ static int STACK_ARGS funccmp(const void * a, const void * b)
 	return stricmp( ((AFuncDesc*)a)->Name, ((AFuncDesc*)b)->Name);
 }
 static int STACK_ARGS varcmp(const void * a, const void * b)
 {
 	FVariableInfo *A = *(FVariableInfo**)a;
 	FVariableInfo *B = *(FVariableInfo**)b;
 	if (A->owner < B->owner) return -1;
 	if (A->owner > B->owner) return 1;
 	return stricmp(A->name, B->name);
 }
 //==========================================================================
 //
 // Initialization
@ -654,17 +608,39 @@ void InitThingdef()
 		qsort(&AFTable[0], AFTable.Size(), sizeof(AFTable[0]), funccmp);
 	}
-	// Create a sorted list of native variables
+	// Define some member variables we feel like exposing to the user
-	if (variables.Size() == 0)
+	PSymbolTable &symt = RUNTIME_CLASS(AActor)->Symbols;
-	{
+	PType *array5 = NewArray(TypeSInt32, 5);
-		FAutoSegIterator probe(MRegHead, MRegTail);
+	symt.AddSymbol(new PField(NAME_Alpha,		TypeFixed,	VARF_Native, myoffsetof(AActor,alpha)));
-
+	symt.AddSymbol(new PField(NAME_Angle,		TypeAngle,	VARF_Native, myoffsetof(AActor,angle)));
-		while (*++probe != NULL)
+	symt.AddSymbol(new PField(NAME_Args,		array5,		VARF_Native, myoffsetof(AActor,args)));
-		{
+	symt.AddSymbol(new PField(NAME_CeilingZ,	TypeFixed,	VARF_Native, myoffsetof(AActor,ceilingz)));
-			variables.Push((FVariableInfo *)*probe);
+	symt.AddSymbol(new PField(NAME_FloorZ,		TypeFixed,	VARF_Native, myoffsetof(AActor,floorz)));
-		}
+	symt.AddSymbol(new PField(NAME_Health,		TypeSInt32,	VARF_Native, myoffsetof(AActor,health)));
-		variables.ShrinkToFit();
+	symt.AddSymbol(new PField(NAME_Mass,		TypeSInt32,	VARF_Native, myoffsetof(AActor,Mass)));
-		qsort(&variables[0], variables.Size(), sizeof(variables[0]), varcmp);
+	symt.AddSymbol(new PField(NAME_Pitch,		TypeAngle,	VARF_Native, myoffsetof(AActor,pitch)));
-	}
+	symt.AddSymbol(new PField(NAME_Roll,		TypeAngle,	VARF_Native, myoffsetof(AActor,roll)));
 	symt.AddSymbol(new PField(NAME_Special,		TypeSInt32,	VARF_Native, myoffsetof(AActor,special)));
 	symt.AddSymbol(new PField(NAME_TID,			TypeSInt32,	VARF_Native, myoffsetof(AActor,tid)));
 	symt.AddSymbol(new PField(NAME_TIDtoHate,	TypeSInt32,	VARF_Native, myoffsetof(AActor,TIDtoHate)));
 	symt.AddSymbol(new PField(NAME_WaterLevel,	TypeSInt32,	VARF_Native, myoffsetof(AActor,waterlevel)));
 	symt.AddSymbol(new PField(NAME_X,			TypeFixed,	VARF_Native, myoffsetof(AActor,x)));
 	symt.AddSymbol(new PField(NAME_Y,			TypeFixed,	VARF_Native, myoffsetof(AActor,y)));
 	symt.AddSymbol(new PField(NAME_Z,			TypeFixed,	VARF_Native, myoffsetof(AActor,z)));
 	symt.AddSymbol(new PField(NAME_VelX,		TypeFixed,	VARF_Native, myoffsetof(AActor,velx)));
 	symt.AddSymbol(new PField(NAME_VelY,		TypeFixed,	VARF_Native, myoffsetof(AActor,vely)));
 	symt.AddSymbol(new PField(NAME_VelZ,		TypeFixed,	VARF_Native, myoffsetof(AActor,velz)));
 	symt.AddSymbol(new PField(NAME_MomX,		TypeFixed,	VARF_Native, myoffsetof(AActor,velx)));
 	symt.AddSymbol(new PField(NAME_MomY,		TypeFixed,	VARF_Native, myoffsetof(AActor,vely)));
 	symt.AddSymbol(new PField(NAME_MomZ,		TypeFixed,	VARF_Native, myoffsetof(AActor,velz)));
 	symt.AddSymbol(new PField(NAME_ScaleX,		TypeFixed,	VARF_Native, myoffsetof(AActor,scaleX)));
 	symt.AddSymbol(new PField(NAME_ScaleY,		TypeFixed,	VARF_Native, myoffsetof(AActor,scaleY)));
 	symt.AddSymbol(new PField(NAME_Score,		TypeSInt32,	VARF_Native, myoffsetof(AActor,Score)));
 	symt.AddSymbol(new PField(NAME_Accuracy,	TypeSInt32,	VARF_Native, myoffsetof(AActor,accuracy)));
 	symt.AddSymbol(new PField(NAME_Stamina,		TypeSInt32,	VARF_Native, myoffsetof(AActor,stamina)));
 	symt.AddSymbol(new PField(NAME_Height,		TypeFixed,	VARF_Native, myoffsetof(AActor,height)));
 	symt.AddSymbol(new PField(NAME_Radius,		TypeFixed,	VARF_Native, myoffsetof(AActor,radius)));
 	symt.AddSymbol(new PField(NAME_ReactionTime,TypeSInt32,	VARF_Native, myoffsetof(AActor,reactiontime)));
 	symt.AddSymbol(new PField(NAME_MeleeRange,	TypeFixed,	VARF_Native, myoffsetof(AActor,meleerange)));
 	symt.AddSymbol(new PField(NAME_Speed,		TypeFixed,	VARF_Native, myoffsetof(AActor,Speed)));
 }
--- a/src/thingdef/thingdef_expression.cpp
+++ b/src/thingdef/thingdef_expression.cpp
@ -53,43 +53,6 @@
 #include "m_fixed.h"
 #include "vmbuilder.h"
 // Accessible actor member variables
 DEFINE_MEMBER_VARIABLE(alpha, AActor)
 DEFINE_MEMBER_VARIABLE(angle, AActor)
 DEFINE_MEMBER_VARIABLE(args, AActor)
 DEFINE_MEMBER_VARIABLE(ceilingz, AActor)
 DEFINE_MEMBER_VARIABLE(floorz, AActor)
 DEFINE_MEMBER_VARIABLE(health, AActor)
 DEFINE_MEMBER_VARIABLE(Mass, AActor)
 DEFINE_MEMBER_VARIABLE(pitch, AActor)
 DEFINE_MEMBER_VARIABLE(special, AActor)
 DEFINE_MEMBER_VARIABLE(special1, AActor)
 DEFINE_MEMBER_VARIABLE(special2, AActor)
 DEFINE_MEMBER_VARIABLE(tid, AActor)
 DEFINE_MEMBER_VARIABLE(TIDtoHate, AActor)
 DEFINE_MEMBER_VARIABLE(waterlevel, AActor)
 DEFINE_MEMBER_VARIABLE(x, AActor)
 DEFINE_MEMBER_VARIABLE(y, AActor)
 DEFINE_MEMBER_VARIABLE(z, AActor)
 DEFINE_MEMBER_VARIABLE(velx, AActor)
 DEFINE_MEMBER_VARIABLE(vely, AActor)
 DEFINE_MEMBER_VARIABLE(velz, AActor)
 DEFINE_MEMBER_VARIABLE_ALIAS(momx, velx, AActor)
 DEFINE_MEMBER_VARIABLE_ALIAS(momy, vely, AActor)
 DEFINE_MEMBER_VARIABLE_ALIAS(momz, velz, AActor)
 DEFINE_MEMBER_VARIABLE(scaleX, AActor)
 DEFINE_MEMBER_VARIABLE(scaleY, AActor)
 //DEFINE_MEMBER_VARIABLE(Damage, AActor)
 DEFINE_MEMBER_VARIABLE(Score, AActor)
 DEFINE_MEMBER_VARIABLE(accuracy, AActor)
 DEFINE_MEMBER_VARIABLE(stamina, AActor)
 DEFINE_MEMBER_VARIABLE(height, AActor)
 DEFINE_MEMBER_VARIABLE(radius, AActor)
 DEFINE_MEMBER_VARIABLE(reactiontime, AActor)
 DEFINE_MEMBER_VARIABLE(meleerange, AActor)
 DEFINE_MEMBER_VARIABLE(Speed, AActor)
 DEFINE_MEMBER_VARIABLE(roll, AActor)
 ExpEmit::ExpEmit(VMFunctionBuilder *build, int type)
 : RegNum(build->Registers[type].Get(1)), RegType(type), Konst(false), Fixed(false)
 {
@ -3148,7 +3111,7 @@ FxExpression *FxVMFunctionCall::Resolve(FCompileContext& ctx)
 	else
 	{
 		ReturnType = rets[0];
-		// If more types are added to ParseNativeVariable(), add them here too.
+		// If more types are added to ParseNativeFunction(), add them here too.
 			 if (rets[0] == TypeSInt32)		ValueType = VAL_Int;
 		else if (rets[0] == TypeFloat64)	ValueType = VAL_Float;
 		else if (rets[0] == TypeAngle)		ValueType = VAL_Angle;
--- a/src/thingdef/thingdef_parse.cpp
+++ b/src/thingdef/thingdef_parse.cpp
@ -391,7 +391,7 @@ static void ParseArgListDef(FScanner &sc, PClassActor *cls,
 //==========================================================================
 void ParseFunctionDef(FScanner &sc, PClassActor *cls, FName funcname,
-	TArray<PType *> &rets, DWORD funcflags, unsigned int error)
+	TArray<PType *> &rets, DWORD funcflags)
 {
 	assert(cls != NULL);
@ -403,7 +403,7 @@ void ParseFunctionDef(FScanner &sc, PClassActor *cls, FName funcname,
 	if (afd == NULL)
 	{
 		sc.ScriptMessage ("The function '%s' has not been exported from the executable.", funcname.GetChars());
-		++error;
+		FScriptPosition::ErrorCounter++;
 	}
 	sc.MustGetToken('(');
@ -423,11 +423,7 @@ void ParseFunctionDef(FScanner &sc, PClassActor *cls, FName funcname,
 		PFunction *sym = new PFunction(funcname);
 		sym->AddVariant(NewPrototype(rets, args), argflags, *(afd->VMPointer));
 		sym->Flags = funcflags;
-		if (error)
+		if (cls->Symbols.AddSymbol(sym) == NULL)
 		{
 			FScriptPosition::ErrorCounter += error;
 		}
 		else if (cls->Symbols.AddSymbol(sym) == NULL)
 		{
 			delete sym;
 			sc.ScriptMessage ("'%s' is already defined in class '%s'.",
@ -439,22 +435,20 @@ void ParseFunctionDef(FScanner &sc, PClassActor *cls, FName funcname,
 //==========================================================================
 //
-// ParseNativeVariable
+// ParseNativeFunction
 //
-// Parses a native variable or non-action function declaration.
+// Parses a non-action function declaration.
 //
 //==========================================================================
-static void ParseNativeVariable (FScanner &sc, PSymbolTable *symt, PClassActor *cls)
+static void ParseNativeFunction(FScanner &sc, PClassActor *cls)
 {
-	PType *valuetype;
+	TArray<PType *> rets(1);
 	unsigned int error = 0;
 	if (sc.LumpNum == -1 || Wads.GetLumpFile(sc.LumpNum) > 0)
 	{
-		sc.ScriptMessage ("variables can only be imported by internal class and actor definitions!");
+		sc.ScriptMessage ("functions can only be declared by native actors!");
 		FScriptPosition::ErrorCounter++;
 		error++;
 	}
 	// Read the type and make sure it's int or float.
@ -463,80 +457,33 @@ static void ParseNativeVariable (FScanner &sc, PSymbolTable *symt, PClassActor *
 	{
 	case TK_Int:
 	case TK_Bool:
-		valuetype = TypeSInt32;
+		rets.Push(TypeSInt32);
 		break;
 	case TK_Float:
-		valuetype = TypeFloat64;
+		rets.Push(TypeFloat64);
 		break;
 	case TK_Angle_t:
-		valuetype = TypeAngle;
+		rets.Push(TypeAngle);
 		break;
 	case TK_Fixed_t:
-		valuetype = TypeFixed;
+		rets.Push(TypeFixed);
 		break;
 	case TK_Identifier:
-		valuetype = NULL;
+		rets.Push(NewPointer(RUNTIME_CLASS(DObject)));
 		// Todo: Object type
 		sc.ScriptError("Object type variables not implemented yet!");
 		break;
 	default:
-		sc.ScriptError("Invalid variable type %s", sc.String);
+		sc.ScriptError("Invalid return type %s", sc.String);
 		return;
 	}
 	sc.MustGetToken(TK_Identifier);
-	FName symname = sc.String;
+	ParseFunctionDef(sc, cls, sc.String, rets, VARF_Method);
 	if (sc.CheckToken('('))
 	{
 		TArray<PType *> rets;
 		rets.Push(valuetype);
 		sc.UnGet();
 		ParseFunctionDef(sc, cls, symname, rets, VARF_Method, error);
 		return;
 	}
 	else
 	{
 		if (sc.CheckToken('['))
 		{
 			FxExpression *expr = ParseExpression (sc, cls);
 			if (!expr->isConstant())
 			{
 				sc.ScriptError("Array size must be constant");
 			}
 			int maxelems = static_cast<FxConstant *>(expr)->GetValue().GetInt();
 			delete expr;
 			sc.MustGetToken(']');
 			valuetype = NewArray(valuetype, maxelems);
 		}
 		sc.MustGetToken(';');
 		const FVariableInfo *vi = FindVariable(symname, cls);
 		if (vi == NULL)
 		{
 			sc.ScriptError("Unknown native variable '%s'", symname.GetChars());
 		}
 		PField *sym = new PField(symname, valuetype, VARF_Native);
 		sym->Offset = (unsigned)vi->address;	// todo
 		if (symt->AddSymbol(sym) == NULL)
 		{
 			delete sym;
 			sc.ScriptMessage ("'%s' is already defined in '%s'.",
 				symname.GetChars(), cls? cls->TypeName.GetChars() : "Global");
 			FScriptPosition::ErrorCounter++;
 		}
 		else
 		{
 			cls->Fields.Push(sym);
 		}
 	}
 }
 //==========================================================================
@ -1089,7 +1036,7 @@ static void ParseActionDef (FScanner &sc, PClassActor *cls)
 	if (sc.LumpNum == -1 || Wads.GetLumpFile(sc.LumpNum) > 0)
 	{
 		sc.ScriptMessage ("Action functions can only be imported by internal class and actor definitions!");
-		++error;
+		FScriptPosition::ErrorCounter++;
 	}
 	sc.MustGetToken(TK_Native);
@ -1100,7 +1047,7 @@ static void ParseActionDef (FScanner &sc, PClassActor *cls)
 	}
 	sc.MustGetToken(TK_Identifier);
 	funcname = sc.String;
-	ParseFunctionDef(sc, cls, funcname, rets, VARF_Method | VARF_Action, error);
+	ParseFunctionDef(sc, cls, funcname, rets, VARF_Method | VARF_Action);
 }
 //==========================================================================
@ -1239,7 +1186,7 @@ static void ParseActor(FScanner &sc)
 			break;
 		case TK_Native:
-			ParseNativeVariable (sc, &info->Symbols, info);
+			ParseNativeFunction (sc, info);
 			break;
 		case TK_Var:
@ -1366,10 +1313,6 @@ void ParseDecorate (FScanner &sc)
 			ParseEnum (sc, &GlobalSymbols, NULL);
 			break;
 		case TK_Native:
 			ParseNativeVariable(sc, &GlobalSymbols, NULL);
 			break;
 		case ';':
 			// ';' is the start of a comment in the non-cmode parser which
 			// is used to parse parts of the DECORATE lump. If we don't add 
--- a/src/zzautozend.cpp
+++ b/src/zzautozend.cpp
@ -46,9 +46,6 @@ __declspec(allocate(".creg$z")) void *const CRegTail = 0;
 #pragma section(".greg$z",read)
 __declspec(allocate(".greg$z")) void *const GRegTail = 0;
 #pragma section(".mreg$z",read)
 __declspec(allocate(".mreg$z")) void *const MRegTail = 0;
 #pragma section(".yreg$z",read)
 __declspec(allocate(".yreg$z")) void *const YRegTail = 0;
@ -60,7 +57,6 @@ __declspec(allocate(".yreg$z")) void *const YRegTail = 0;
 void *const ARegTail __attribute__((section(SECTION_AREG))) = 0;
 void *const CRegTail __attribute__((section(SECTION_CREG))) = 0;
 void *const GRegTail __attribute__((section(SECTION_GREG))) = 0;
 void *const MRegTail __attribute__((section(SECTION_MREG))) = 0;
 void *const YRegTail __attribute__((section(SECTION_YREG))) = 0;
 #else
--- a/wadsrc/static/actors/actor.txt
+++ b/wadsrc/static/actors/actor.txt
@ -32,47 +32,12 @@ ACTOR Actor native //: Thinker
 	RipLevelMin 0
 	RipLevelMax 0
-	// Variables for the expression evaluator
+	// Functions
 	// NOTE: fixed_t and angle_t are only used here to ensure proper conversion
 	// Internally they are handled as floats.
 	// Variables must be native.
 	native fixed_t alpha;
 	native angle_t angle;
 	native int args[5];
 	native fixed_t ceilingz;
 	native fixed_t floorz;
 	native int health;
 	native int mass;
 	native angle_t pitch;
 	native int special;
 	native int tid;
 	native int TIDtoHate;
 	native int waterlevel;
 	//native int damage;
 	native fixed_t x;
 	native fixed_t y;
 	native fixed_t z;
 	native fixed_t velx;
 	native fixed_t vely;
 	native fixed_t velz;
 	native fixed_t momx;	// alias for velx
 	native fixed_t momy;	// alias for vely
 	native fixed_t momz;	// alias for velz
 	native fixed_t scaleX;
 	native fixed_t scaleY;
 	native int score;
 	native int accuracy;
 	native int stamina;
 	native fixed_t height;
 	native fixed_t radius;
 	native int reactiontime;
 	native fixed_t meleerange;
 	native fixed_t speed;
 	native angle_t roll;
 	native bool CheckClass(class<Actor> checkclass, int ptr_select = AAPTR_DEFAULT, bool match_superclass = false);
 	native bool IsPointerEqual(int ptr_select1, int ptr_select2);
 	// Action functions
 	// Meh, MBF redundant functions. Only for DeHackEd support.
 	action native A_Turn(float angle = 0);
 	action native A_LineEffect(int boomspecial = 0, int tag = 0);