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/*
* * zcc_compile_raze . cpp
* *
* * contains the Raze specific parts of the script parser , i . e .
* * actor property definitions and associated content .
* *
* * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* * Copyright 2016 - 2022 Christoph Oelckers
* * 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 "coreactor.h"
# include "c_console.h"
# include "filesystem.h"
# include "zcc_parser.h"
# include "zcc-parse.h"
# include "zcc_compile_raze.h"
# include "v_text.h"
# include "v_video.h"
# include "actorinfo.h"
# include "thingdef.h"
bool isActor ( PContainerType * type ) ;
void AddActorInfo ( PClass * cls ) ;
int GetIntConst ( FxExpression * ex , FCompileContext & ctx ) ;
double GetFloatConst ( FxExpression * ex , FCompileContext & ctx ) ;
//==========================================================================
//
// ZCCCompiler :: Compile
//
// Compile everything defined at this level.
//
//==========================================================================
int ZCCRazeCompiler : : Compile ( )
{
CreateClassTypes ( ) ;
CreateStructTypes ( ) ;
CompileAllConstants ( ) ;
CompileAllFields ( ) ;
CompileAllProperties ( ) ;
InitDefaults ( ) ;
InitFunctions ( ) ;
return FScriptPosition : : ErrorCounter ;
}
//==========================================================================
//
// ZCCCompiler :: CompileAllProperties
//
// builds the property lists of all actor classes
//
//==========================================================================
void ZCCRazeCompiler : : CompileAllProperties ( )
{
for ( auto c : Classes )
{
if ( c - > Properties . Size ( ) > 0 )
CompileProperties ( c - > ClassType ( ) , c - > Properties , c - > Type ( ) - > TypeName ) ;
if ( c - > FlagDefs . Size ( ) > 0 )
CompileFlagDefs ( c - > ClassType ( ) , c - > FlagDefs , c - > Type ( ) - > TypeName ) ;
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}
for ( auto s : Structs )
{
if ( s - > FlagDefs . Size ( ) > 0 )
CompileFlagDefs ( s - > Type ( ) , s - > FlagDefs , s - > Type ( ) - > TypeName ) ;
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}
}
//==========================================================================
//
// ZCCCompiler :: CompileProperties
//
// builds the internal structure of a single class or struct
//
//==========================================================================
bool ZCCRazeCompiler : : CompileProperties ( PClass * type , TArray < ZCC_Property * > & Properties , FName prefix )
{
if ( ! type - > IsDescendantOf ( RUNTIME_CLASS ( DCoreActor ) ) )
{
Error ( Properties [ 0 ] , " Properties can only be defined for actors " ) ;
return false ;
}
for ( auto p : Properties )
{
TArray < PField * > fields ;
ZCC_Identifier * id = ( ZCC_Identifier * ) p - > Body ;
if ( FName ( p - > NodeName ) = = FName ( " prefix " ) & & fileSystem . GetFileContainer ( Lump ) = = 0 )
{
// only for internal definitions: Allow setting a prefix. This is only for compatiblity with the old DECORATE property parser, but not for general use.
prefix = id - > Id ;
}
else
{
do
{
auto f = dyn_cast < PField > ( type - > FindSymbol ( id - > Id , true ) ) ;
if ( f = = nullptr )
{
Error ( id , " Variable %s not found in %s " , FName ( id - > Id ) . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
fields . Push ( f ) ;
id = ( ZCC_Identifier * ) id - > SiblingNext ;
} while ( id ! = p - > Body ) ;
FString qualifiedname ;
// Store the full qualified name and prepend some 'garbage' to the name so that no conflicts with other symbol types can happen.
// All these will be removed from the symbol table after the compiler finishes to free up the allocated space.
FName name = FName ( p - > NodeName ) ;
if ( prefix = = NAME_None ) qualifiedname . Format ( " @property@%s " , name . GetChars ( ) ) ;
else qualifiedname . Format ( " @property@%s.%s " , prefix . GetChars ( ) , name . GetChars ( ) ) ;
fields . ShrinkToFit ( ) ;
if ( ! type - > VMType - > Symbols . AddSymbol ( Create < PProperty > ( qualifiedname , fields ) ) )
{
Error ( id , " Unable to add property %s to class %s " , FName ( p - > NodeName ) . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
}
}
return true ;
}
//==========================================================================
//
// ZCCCompiler :: CompileProperties
//
// builds the internal structure of a single class or struct
//
//==========================================================================
bool ZCCRazeCompiler : : CompileFlagDefs ( PClass * type , TArray < ZCC_FlagDef * > & Properties , FName prefix )
{
for ( auto p : Properties )
{
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bool internal = ( p - > BitValue & 0x10000 ) ; // defines just a variable for the flag but no property.
if ( ! internal )
{
if ( ! type - > IsDescendantOf ( RUNTIME_CLASS ( DCoreActor ) ) )
{
Error ( Properties [ 0 ] , " Flag properties can only be defined for actors " ) ;
return false ;
}
}
FName referenced ( p - > RefName ) ;
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PField * field ;
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if ( ! internal & & FName ( p - > NodeName ) = = FName ( " prefix " ) & & fileSystem . GetFileContainer ( Lump ) = = 0 )
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{
// only for internal definitions: Allow setting a prefix. This is only for compatiblity with the old DECORATE property parser, but not for general use.
prefix = referenced ;
}
else
{
if ( referenced ! = NAME_None )
{
field = dyn_cast < PField > ( type - > FindSymbol ( referenced , true ) ) ;
if ( field = = nullptr )
{
Error ( p , " Variable %s not found in %s " , referenced . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
else if ( ! field - > Type - > isInt ( ) | | field - > Type - > Size ! = 4 )
{
Error ( p , " Variable %s in %s must have a size of 4 bytes for use as flag storage " , referenced . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
}
else field = nullptr ;
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FName name ( p - > NodeName ) ;
if ( ! internal )
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{
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FString qualifiedname ;
// Store the full qualified name and prepend some 'garbage' to the name so that no conflicts with other symbol types can happen.
// All these will be removed from the symbol table after the compiler finishes to free up the allocated space.
for ( int i = 0 ; i < 2 ; i + + )
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{
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if ( i = = 0 ) qualifiedname . Format ( " @flagdef@%s " , name . GetChars ( ) ) ;
else
{
if ( prefix = = NAME_None ) continue ;
qualifiedname . Format ( " @flagdef@%s.%s " , prefix . GetChars ( ) , name . GetChars ( ) ) ;
}
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if ( ! type - > VMType - > Symbols . AddSymbol ( Create < PPropFlag > ( qualifiedname , field , p - > BitValue , i = = 0 & & prefix ! = NAME_None ) ) )
{
Error ( p , " Unable to add flag definition %s to class %s " , FName ( p - > NodeName ) . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
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}
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if ( field ! = nullptr )
type - > VMType - > AddNativeField ( FStringf ( " b%s " , name . GetChars ( ) ) , TypeSInt32 , field - > Offset , 0 , 1 < < p - > BitValue ) ;
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}
// internal ones get no 'b'.
else if ( field ! = nullptr )
type - > VMType - > AddNativeField ( name . GetChars ( ) , TypeSInt32 , field - > Offset , 0 , 1 < < p - > BitValue ) ;
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}
}
return true ;
}
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bool ZCCRazeCompiler : : CompileFlagDefs ( PContainerType * type , TArray < ZCC_FlagDef * > & Properties , FName prefix )
{
for ( auto p : Properties )
{
bool internal = ( p - > BitValue & 0x10000 ) ; // defines just a variable for the flag but no property.
if ( ! internal )
{
Error ( Properties [ 0 ] , " Flag properties can only be defined for actors " ) ;
return false ;
}
FName referenced ( p - > RefName ) ;
PField * field ;
if ( referenced ! = NAME_None )
{
field = dyn_cast < PField > ( type - > Symbols . FindSymbol ( referenced , true ) ) ;
if ( field = = nullptr )
{
Error ( p , " Variable %s not found in %s " , referenced . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
else if ( ! field - > Type - > isInt ( ) | | field - > Type - > Size ! = 4 )
{
Error ( p , " Variable %s in %s must have a size of 4 bytes for use as flag storage " , referenced . GetChars ( ) , type - > TypeName . GetChars ( ) ) ;
}
FName name ( p - > NodeName ) ;
type - > AddNativeField ( name . GetChars ( ) , TypeSInt32 , field - > Offset , 0 , 1 < < ( p - > BitValue & 0xffff ) ) ;
return true ;
}
}
return false ;
}
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//==========================================================================
//
// Parses an actor property's parameters and calls the handler
//
//==========================================================================
void ZCCRazeCompiler : : DispatchProperty ( FPropertyInfo * prop , ZCC_PropertyStmt * property , DCoreActor * defaults , Baggage & bag )
{
static TArray < FPropParam > params ;
static TArray < FString > strings ;
params . Clear ( ) ;
strings . Clear ( ) ;
params . Reserve ( 1 ) ;
params [ 0 ] . i = 0 ;
if ( prop - > params [ 0 ] ! = ' 0 ' )
{
if ( property - > Values = = nullptr )
{
Error ( property , " %s: arguments missing " , prop - > name ) ;
return ;
}
const char * p = prop - > params ;
auto exp = property - > Values ;
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FCompileContext ctx ( OutNamespace , bag . Info - > VMType , false , mVersion ) ;
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while ( true )
{
FPropParam conv ;
FPropParam pref ;
FxExpression * ex = ConvertNode ( exp ) ;
ex = ex - > Resolve ( ctx ) ;
if ( ex = = nullptr )
{
return ;
}
else if ( ! ex - > isConstant ( ) )
{
// If we get TypeError, there has already been a message from deeper down so do not print another one.
if ( exp - > Type ! = TypeError ) Error ( exp , " %s: non-constant parameter " , prop - > name ) ;
return ;
}
conv . s = nullptr ;
pref . s = nullptr ;
pref . i = - 1 ;
switch ( ( * p ) & 223 )
{
case ' X ' : // Expression in parentheses or number. We only support the constant here. The function will have to be handled by a separate property to get past the parser.
conv . i = GetIntConst ( ex , ctx ) ;
params . Push ( conv ) ;
conv . exp = nullptr ;
break ;
case ' I ' :
conv . i = GetIntConst ( ex , ctx ) ;
break ;
case ' F ' :
conv . d = GetFloatConst ( ex , ctx ) ;
break ;
case ' Z ' : // an optional string. Does not allow any numeric value.
if ( ex - > ValueType ! = TypeString )
{
// apply this expression to the next argument on the list.
params . Push ( conv ) ;
params [ 0 ] . i + + ;
p + + ;
continue ;
}
conv . s = GetStringConst ( ex , ctx ) ;
break ;
case ' C ' : // this parser accepts colors only in string form.
pref . i = 1 ;
[[fallthrough]] ;
case ' S ' :
case ' T ' : // a filtered string (ZScript only parses filtered strings so there's nothing to do here.)
conv . s = GetStringConst ( ex , ctx ) ;
break ;
case ' L ' : // Either a number or a list of strings
if ( ex - > ValueType ! = TypeString )
{
pref . i = 0 ;
conv . i = GetIntConst ( ex , ctx ) ;
}
else
{
pref . i = 1 ;
params . Push ( pref ) ;
params [ 0 ] . i + + ;
do
{
conv . s = GetStringConst ( ex , ctx ) ;
if ( conv . s ! = nullptr )
{
params . Push ( conv ) ;
params [ 0 ] . i + + ;
}
exp = static_cast < ZCC_Expression * > ( exp - > SiblingNext ) ;
if ( exp ! = property - > Values )
{
ex = ConvertNode ( exp ) ;
ex = ex - > Resolve ( ctx ) ;
if ( ex = = nullptr ) return ;
}
} while ( exp ! = property - > Values ) ;
goto endofparm ;
}
break ;
default :
assert ( false ) ;
break ;
}
if ( pref . i ! = - 1 )
{
params . Push ( pref ) ;
params [ 0 ] . i + + ;
}
params . Push ( conv ) ;
params [ 0 ] . i + + ;
exp = static_cast < ZCC_Expression * > ( exp - > SiblingNext ) ;
endofparm :
p + + ;
// Skip the DECORATE 'no comma' marker
if ( * p = = ' _ ' ) p + + ;
if ( * p = = 0 )
{
if ( exp ! = property - > Values )
{
Error ( property , " Too many values for '%s' " , prop - > name ) ;
return ;
}
break ;
}
else if ( exp = = property - > Values )
{
if ( * p < ' a ' )
{
Error ( property , " Insufficient parameters for %s " , prop - > name ) ;
return ;
}
break ;
}
}
}
// call the handler
try
{
prop - > Handler ( defaults , bag . Info , bag , & params [ 0 ] ) ;
}
catch ( CRecoverableError & error )
{
Error ( property , " %s " , error . GetMessage ( ) ) ;
}
}
//==========================================================================
//
// Parses an actor property's parameters and calls the handler
//
//==========================================================================
void ZCCRazeCompiler : : DispatchScriptProperty ( PProperty * prop , ZCC_PropertyStmt * property , DCoreActor * defaults , Baggage & bag )
{
ZCC_ExprConstant one ;
unsigned parmcount = 1 ;
ZCC_TreeNode * x = property - > Values ;
if ( x = = nullptr )
{
parmcount = 0 ;
}
else
{
while ( x - > SiblingNext ! = property - > Values )
{
x = x - > SiblingNext ;
parmcount + + ;
}
}
if ( parmcount = = 0 & & prop - > Variables . Size ( ) = = 1 & & prop - > Variables [ 0 ] - > Type = = TypeBool )
{
// allow boolean properties to have the parameter omitted
memset ( & one , 0 , sizeof ( one ) ) ;
one . SourceName = property - > SourceName ; // This may not be null!
one . Operation = PEX_ConstValue ;
one . NodeType = AST_ExprConstant ;
one . Type = TypeBool ;
one . IntVal = 1 ;
property - > Values = & one ;
}
else if ( parmcount ! = prop - > Variables . Size ( ) )
{
Error ( x = = nullptr ? property : x , " Argument count mismatch: Got %u, expected %u " , parmcount , prop - > Variables . Size ( ) ) ;
return ;
}
auto exp = property - > Values ;
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FCompileContext ctx ( OutNamespace , bag . Info - > VMType , false , mVersion ) ;
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for ( auto f : prop - > Variables )
{
void * addr ;
if ( f = = nullptr )
{
// This variable was missing. The error had been reported for the property itself already.
return ;
}
if ( f - > Flags & VARF_Meta )
{
addr = ( ( char * ) bag . Info - > Meta ) + f - > Offset ;
}
else
{
addr = ( ( char * ) defaults ) + f - > Offset ;
}
FxExpression * ex = ConvertNode ( exp ) ;
ex = ex - > Resolve ( ctx ) ;
if ( ex = = nullptr )
{
return ;
}
else if ( ! ex - > isConstant ( ) )
{
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if ( ex - > ExprType = = EFX_VectorValue & & ex - > ValueType = = f - > Type )
{
auto v = static_cast < FxVectorValue * > ( ex ) ;
if ( f - > Type = = TypeVector2 )
{
if ( ! v - > isConstVector ( 2 ) )
{
Error ( exp , " %s: non-constant Vector2 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( DVector2 * ) addr ) = DVector2 (
static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( )
) ;
goto vector_ok ;
}
else if ( f - > Type = = TypeFVector2 )
{
if ( ! v - > isConstVector ( 2 ) )
{
Error ( exp , " %s: non-constant FVector2 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( FVector2 * ) addr ) = FVector2 (
float ( static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( ) )
) ;
goto vector_ok ;
}
else if ( f - > Type = = TypeVector3 )
{
if ( ! v - > isConstVector ( 3 ) )
{
Error ( exp , " %s: non-constant Vector3 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( DVector3 * ) addr ) = DVector3 (
static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 2 ] ) - > GetValue ( ) . GetFloat ( )
) ;
goto vector_ok ;
}
else if ( f - > Type = = TypeFVector3 )
{
if ( ! v - > isConstVector ( 3 ) )
{
Error ( exp , " %s: non-constant FVector3 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( FVector3 * ) addr ) = FVector3 (
float ( static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 2 ] ) - > GetValue ( ) . GetFloat ( ) )
) ;
goto vector_ok ;
}
else if ( f - > Type = = TypeVector4 )
{
if ( ! v - > isConstVector ( 4 ) )
{
Error ( exp , " %s: non-constant Vector4 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( DVector4 * ) addr ) = DVector4 (
static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 2 ] ) - > GetValue ( ) . GetFloat ( ) ,
static_cast < FxConstant * > ( v - > xyzw [ 3 ] ) - > GetValue ( ) . GetFloat ( )
) ;
goto vector_ok ;
}
else if ( f - > Type = = TypeFVector4 )
{
if ( ! v - > isConstVector ( 4 ) )
{
Error ( exp , " %s: non-constant FVector4 parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
( * ( FVector4 * ) addr ) = FVector4 (
float ( static_cast < FxConstant * > ( v - > xyzw [ 0 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 1 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 2 ] ) - > GetValue ( ) . GetFloat ( ) ) ,
float ( static_cast < FxConstant * > ( v - > xyzw [ 3 ] ) - > GetValue ( ) . GetFloat ( ) )
) ;
goto vector_ok ;
}
else
{
Error ( exp , " %s: invalid vector parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
}
else
{
if ( exp - > Type ! = TypeError ) Error ( exp , " %s: non-constant parameter " , prop - > SymbolName . GetChars ( ) ) ;
return ;
}
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// If we get TypeError, there has already been a message from deeper down so do not print another one.
}
if ( f - > Type = = TypeBool )
{
static_cast < PBool * > ( f - > Type ) - > SetValue ( addr , ! ! GetIntConst ( ex , ctx ) ) ;
}
else if ( f - > Type = = TypeName )
{
* ( FName * ) addr = GetStringConst ( ex , ctx ) ;
}
else if ( f - > Type = = TypeSound )
{
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* ( FSoundID * ) addr = S_FindSound ( GetStringConst ( ex , ctx ) ) ;
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}
else if ( f - > Type = = TypeColor & & ex - > ValueType = = TypeString ) // colors can also be specified as ints.
{
* ( PalEntry * ) addr = V_GetColor ( GetStringConst ( ex , ctx ) , & ex - > ScriptPosition ) ;
}
else if ( f - > Type - > isIntCompatible ( ) )
{
static_cast < PInt * > ( f - > Type ) - > SetValue ( addr , GetIntConst ( ex , ctx ) ) ;
}
else if ( f - > Type - > isFloat ( ) )
{
static_cast < PFloat * > ( f - > Type ) - > SetValue ( addr , GetFloatConst ( ex , ctx ) ) ;
}
else if ( f - > Type = = TypeString )
{
* ( FString * ) addr = GetStringConst ( ex , ctx ) ;
}
else if ( f - > Type - > isClassPointer ( ) )
{
auto clsname = GetStringConst ( ex , ctx ) ;
if ( * clsname = = 0 | | ! stricmp ( clsname , " none " ) )
{
* ( PClass * * ) addr = nullptr ;
}
else
{
auto cls = PClass : : FindClass ( clsname ) ;
auto cp = static_cast < PClassPointer * > ( f - > Type ) ;
if ( cls = = nullptr )
{
cls = cp - > ClassRestriction - > FindClassTentative ( clsname ) ;
}
else if ( ! cls - > IsDescendantOf ( cp - > ClassRestriction ) )
{
Error ( property , " class %s is not compatible with property type %s " , clsname , cp - > ClassRestriction - > TypeName . GetChars ( ) ) ;
}
* ( PClass * * ) addr = cls ;
}
}
else
{
Error ( property , " unhandled property type %s " , f - > Type - > DescriptiveName ( ) ) ;
}
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vector_ok :
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exp - > ToErrorNode ( ) ; // invalidate after processing.
exp = static_cast < ZCC_Expression * > ( exp - > SiblingNext ) ;
}
}
//==========================================================================
//
// Parses an actor property
//
//==========================================================================
void ZCCRazeCompiler : : ProcessDefaultProperty ( PClassActor * cls , ZCC_PropertyStmt * prop , Baggage & bag )
{
auto namenode = prop - > Prop ;
FString propname ;
if ( namenode - > SiblingNext = = namenode )
{
// a one-name property
propname = FName ( namenode - > Id ) . GetChars ( ) ;
}
else if ( namenode - > SiblingNext - > SiblingNext = = namenode )
{
// a two-name property
propname < < FName ( namenode - > Id ) . GetChars ( ) < < " . " < < FName ( static_cast < ZCC_Identifier * > ( namenode - > SiblingNext ) - > Id ) . GetChars ( ) ;
}
else
{
Error ( prop , " Property name may at most contain two parts " ) ;
return ;
}
FPropertyInfo * property = FindProperty ( propname ) ;
if ( property ! = nullptr & & property - > category ! = CAT_INFO )
{
auto pcls = PClass : : FindActor ( property - > clsname ) ;
if ( cls - > IsDescendantOf ( pcls ) )
{
DispatchProperty ( property , prop , ( DCoreActor * ) bag . Info - > Defaults , bag ) ;
}
else
{
Error ( prop , " '%s' requires an actor of type '%s' \n " , propname . GetChars ( ) , pcls - > TypeName . GetChars ( ) ) ;
}
}
else
{
propname . Insert ( 0 , " @property@ " ) ;
FName name ( propname , true ) ;
if ( name ! = NAME_None )
{
auto propp = dyn_cast < PProperty > ( cls - > FindSymbol ( name , true ) ) ;
if ( propp ! = nullptr )
{
DispatchScriptProperty ( propp , prop , ( DCoreActor * ) bag . Info - > Defaults , bag ) ;
return ;
}
}
Error ( prop , " '%s' is an unknown actor property \n " , propname . GetChars ( ) ) ;
}
}
//==========================================================================
//
// Finds a flag and sets or clears it
//
//==========================================================================
void ZCCRazeCompiler : : ProcessDefaultFlag ( PClassActor * cls , ZCC_FlagStmt * flg )
{
auto namenode = flg - > name ;
const char * n1 = FName ( namenode - > Id ) . GetChars ( ) , * n2 ;
if ( namenode - > SiblingNext = = namenode )
{
// a one-name flag
n2 = nullptr ;
}
else if ( namenode - > SiblingNext - > SiblingNext = = namenode )
{
// a two-name flag
n2 = FName ( static_cast < ZCC_Identifier * > ( namenode - > SiblingNext ) - > Id ) . GetChars ( ) ;
}
else
{
Error ( flg , " Flag name may at most contain two parts " ) ;
return ;
}
auto fd = FindFlag ( cls , n1 , n2 , true ) ;
if ( fd ! = nullptr )
{
if ( fd - > varflags & VARF_Deprecated )
{
Warn ( flg , " Deprecated flag '%s%s%s' used " , n1 , n2 ? " . " : " " , n2 ? n2 : " " ) ;
}
if ( fd - > structoffset = = - 1 )
{
HandleDeprecatedFlags ( ( DCoreActor * ) cls - > Defaults , cls , flg - > set , fd - > flagbit ) ;
}
else
{
ModActorFlag ( ( DCoreActor * ) cls - > Defaults , fd , flg - > set ) ;
}
}
else
{
Error ( flg , " Unknown flag '%s%s%s' " , n1 , n2 ? " . " : " " , n2 ? n2 : " " ) ;
}
}
//==========================================================================
//
// Parses the default list
//
//==========================================================================
void ZCCRazeCompiler : : InitDefaults ( )
{
for ( auto c : Classes )
{
// This may be removed if the conditions change, but right now only subclasses of Actor can define a Default block.
if ( ! c - > ClassType ( ) - > IsDescendantOf ( RUNTIME_CLASS ( DCoreActor ) ) )
{
if ( c - > Defaults . Size ( ) ) Error ( c - > cls , " %s: Non-actor classes may not have defaults " , c - > ClassType ( ) - > TypeName . GetChars ( ) ) ;
if ( c - > ClassType ( ) - > ParentClass )
{
auto ti = c - > ClassType ( ) ;
ti - > InitializeDefaults ( ) ;
}
}
else
{
auto cls = c - > ClassType ( ) ;
// This should never happen.
if ( cls - > Defaults ! = nullptr )
{
Error ( c - > cls , " %s already has defaults " , cls - > TypeName . GetChars ( ) ) ;
}
// This can only occur if a native parent is not initialized. In all other cases the sorting of the class list should prevent this from ever happening.
else if ( cls - > ParentClass - > Defaults = = nullptr & & cls ! = RUNTIME_CLASS ( DCoreActor ) )
{
Error ( c - > cls , " Parent class %s of %s is not initialized " , cls - > ParentClass - > TypeName . GetChars ( ) , cls - > TypeName . GetChars ( ) ) ;
}
else
{
// Copy the parent's defaults and meta data.
auto ti = static_cast < PClassActor * > ( cls ) ;
ti - > InitializeDefaults ( ) ;
// Replacements require that the meta data has been allocated by InitializeDefaults.
if ( c - > cls - > Replaces ! = nullptr & & ! ti - > SetReplacement ( c - > cls - > Replaces - > Id ) )
{
Warn ( c - > cls , " Replaced type '%s' not found for %s " , FName ( c - > cls - > Replaces - > Id ) . GetChars ( ) , ti - > TypeName . GetChars ( ) ) ;
}
Baggage bag ;
bag . Version = mVersion ;
bag . Namespace = OutNamespace ;
bag . Info = ti ;
bag . Lumpnum = c - > cls - > SourceLump ;
// The actual script position needs to be set per property.
for ( auto d : c - > Defaults )
{
auto content = d - > Content ;
if ( content ! = nullptr ) do
{
switch ( content - > NodeType )
{
case AST_PropertyStmt :
bag . ScriptPosition . FileName = * content - > SourceName ;
bag . ScriptPosition . ScriptLine = content - > SourceLoc ;
ProcessDefaultProperty ( ti , static_cast < ZCC_PropertyStmt * > ( content ) , bag ) ;
break ;
case AST_FlagStmt :
ProcessDefaultFlag ( ti , static_cast < ZCC_FlagStmt * > ( content ) ) ;
break ;
default :
break ;
}
content = static_cast < decltype ( content ) > ( content - > SiblingNext ) ;
} while ( content ! = d - > Content ) ;
}
}
}
}
}
//==========================================================================
//
// DCoreActor needs the actor info manually added to its meta data
// before adding any scripted fields.
//
//==========================================================================
bool ZCCRazeCompiler : : PrepareMetaData ( PClass * type )
{
if ( type = = RUNTIME_CLASS ( DCoreActor ) )
{
assert ( type - > MetaSize = = 0 ) ;
AddActorInfo ( type ) ;
return true ;
}
return false ;
}