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/*************************************************************************/
/* gdscript_analyzer.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2020 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2020 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
# include "gdscript_analyzer.h"
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# include "core/config/project_settings.h"
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# include "core/io/resource_loader.h"
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# include "core/object/class_db.h"
# include "core/object/script_language.h"
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# include "core/os/file_access.h"
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# include "core/templates/hash_map.h"
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# include "gdscript.h"
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// TODO: Move this to a central location (maybe core?).
static HashMap < StringName , StringName > underscore_map ;
static const char * underscore_classes [ ] = {
" ClassDB " ,
" Directory " ,
" Engine " ,
" File " ,
" Geometry " ,
" GodotSharp " ,
" JSON " ,
" Marshalls " ,
" Mutex " ,
" OS " ,
" ResourceLoader " ,
" ResourceSaver " ,
" Semaphore " ,
" Thread " ,
" VisualScriptEditor " ,
nullptr ,
} ;
static StringName get_real_class_name ( const StringName & p_source ) {
if ( underscore_map . empty ( ) ) {
const char * * class_name = underscore_classes ;
while ( * class_name ! = nullptr ) {
underscore_map [ * class_name ] = String ( " _ " ) + * class_name ;
class_name + + ;
}
}
if ( underscore_map . has ( p_source ) ) {
return underscore_map [ p_source ] ;
}
return p_source ;
}
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void GDScriptAnalyzer : : cleanup ( ) {
underscore_map . clear ( ) ;
}
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static GDScriptParser : : DataType make_callable_type ( const MethodInfo & p_info ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : BUILTIN ;
type . builtin_type = Variant : : CALLABLE ;
type . is_constant = true ;
type . method_info = p_info ;
return type ;
}
static GDScriptParser : : DataType make_signal_type ( const MethodInfo & p_info ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : BUILTIN ;
type . builtin_type = Variant : : SIGNAL ;
type . is_constant = true ;
type . method_info = p_info ;
return type ;
}
static GDScriptParser : : DataType make_native_meta_type ( const StringName & p_class_name ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : NATIVE ;
type . builtin_type = Variant : : OBJECT ;
type . is_constant = true ;
type . native_type = p_class_name ;
type . is_meta_type = true ;
return type ;
}
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static GDScriptParser : : DataType make_native_enum_type ( const StringName & p_native_class , const StringName & p_enum_name ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : ENUM ;
type . builtin_type = Variant : : OBJECT ;
type . is_constant = true ;
type . is_meta_type = true ;
List < StringName > enum_values ;
StringName real_native_name = get_real_class_name ( p_native_class ) ;
ClassDB : : get_enum_constants ( real_native_name , p_enum_name , & enum_values ) ;
for ( const List < StringName > : : Element * E = enum_values . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
type . enum_values [ E - > get ( ) ] = ClassDB : : get_integer_constant ( real_native_name , E - > get ( ) ) ;
}
return type ;
}
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static GDScriptParser : : DataType make_builtin_meta_type ( Variant : : Type p_type ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : BUILTIN ;
type . builtin_type = p_type ;
type . is_constant = true ;
type . is_meta_type = true ;
return type ;
}
Error GDScriptAnalyzer : : resolve_inheritance ( GDScriptParser : : ClassNode * p_class , bool p_recursive ) {
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if ( p_class - > base_type . is_set ( ) ) {
// Already resolved
return OK ;
}
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if ( p_class = = parser - > head ) {
if ( p_class - > identifier ) {
p_class - > fqcn = p_class - > identifier - > name ;
} else {
p_class - > fqcn = parser - > script_path ;
}
} else {
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p_class - > fqcn = p_class - > outer - > fqcn + " :: " + String ( p_class - > identifier - > name ) ;
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}
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GDScriptParser : : DataType result ;
// Set datatype for class.
GDScriptParser : : DataType class_type ;
class_type . is_constant = true ;
class_type . is_meta_type = true ;
class_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
class_type . kind = GDScriptParser : : DataType : : CLASS ;
class_type . class_type = p_class ;
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class_type . script_path = parser - > script_path ;
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p_class - > set_datatype ( class_type ) ;
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if ( ! p_class - > extends_used ) {
result . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . native_type = " Reference " ;
} else {
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
GDScriptParser : : DataType base ;
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int extends_index = 0 ;
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if ( ! p_class - > extends_path . empty ( ) ) {
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Ref < GDScriptParserRef > parser = get_parser_for ( p_class - > extends_path ) ;
if ( parser . is_null ( ) ) {
push_error ( vformat ( R " (Could not resolve super class path " % s " .) " , p_class - > extends_path ) , p_class ) ;
return ERR_PARSE_ERROR ;
}
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Error err = parser - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
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if ( err ! = OK ) {
push_error ( vformat ( R " (Could not resolve super class inheritance from " % s " .) " , p_class - > extends_path ) , p_class ) ;
return err ;
}
base = parser - > get_parser ( ) - > head - > get_datatype ( ) ;
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} else {
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if ( p_class - > extends . empty ( ) ) {
return ERR_PARSE_ERROR ;
}
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const StringName & name = p_class - > extends [ extends_index + + ] ;
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base . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
if ( ScriptServer : : is_global_class ( name ) ) {
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String base_path = ScriptServer : : get_global_class_path ( name ) ;
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if ( base_path = = parser - > script_path ) {
base = parser - > head - > get_datatype ( ) ;
} else {
Ref < GDScriptParserRef > parser = get_parser_for ( base_path ) ;
if ( parser . is_null ( ) ) {
push_error ( vformat ( R " (Could not resolve super class " % s " .) " , name ) , p_class ) ;
return ERR_PARSE_ERROR ;
}
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Error err = parser - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
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if ( err ! = OK ) {
push_error ( vformat ( R " (Could not resolve super class inheritance from " % s " .) " , name ) , p_class ) ;
return err ;
}
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base = parser - > get_parser ( ) - > head - > get_datatype ( ) ;
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}
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} else if ( ProjectSettings : : get_singleton ( ) - > has_autoload ( name ) & & ProjectSettings : : get_singleton ( ) - > get_autoload ( name ) . is_singleton ) {
const ProjectSettings : : AutoloadInfo & info = ProjectSettings : : get_singleton ( ) - > get_autoload ( name ) ;
if ( info . path . get_extension ( ) . to_lower ( ) ! = " .gd " ) {
push_error ( vformat ( R " (Singleton %s is not a GDScript.) " , info . name ) , p_class ) ;
return ERR_PARSE_ERROR ;
}
Ref < GDScriptParserRef > parser = get_parser_for ( info . path ) ;
if ( parser . is_null ( ) ) {
push_error ( vformat ( R " (Could not parse singleton from " % s " .) " , info . path ) , p_class ) ;
return ERR_PARSE_ERROR ;
}
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Error err = parser - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
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if ( err ! = OK ) {
push_error ( vformat ( R " (Could not resolve super class inheritance from " % s " .) " , name ) , p_class ) ;
return err ;
}
} else if ( class_exists ( name ) & & ClassDB : : can_instance ( get_real_class_name ( name ) ) ) {
base . kind = GDScriptParser : : DataType : : NATIVE ;
base . native_type = name ;
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} else {
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// Look for other classes in script.
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GDScriptParser : : ClassNode * look_class = p_class ;
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bool found = false ;
while ( look_class ! = nullptr ) {
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if ( look_class - > identifier & & look_class - > identifier - > name = = name ) {
if ( ! look_class - > get_datatype ( ) . is_set ( ) ) {
Error err = resolve_inheritance ( look_class , false ) ;
if ( err ) {
return err ;
}
}
base = look_class - > get_datatype ( ) ;
found = true ;
break ;
}
if ( look_class - > members_indices . has ( name ) & & look_class - > get_member ( name ) . type = = GDScriptParser : : ClassNode : : Member : : CLASS ) {
GDScriptParser : : ClassNode : : Member member = look_class - > get_member ( name ) ;
if ( ! member . m_class - > get_datatype ( ) . is_set ( ) ) {
Error err = resolve_inheritance ( member . m_class , false ) ;
if ( err ) {
return err ;
}
}
base = member . m_class - > get_datatype ( ) ;
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found = true ;
break ;
}
look_class = look_class - > outer ;
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}
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if ( ! found ) {
push_error ( vformat ( R " (Could not find base class " % s " .) " , name ) , p_class ) ;
return ERR_PARSE_ERROR ;
}
}
}
for ( int index = extends_index ; index < p_class - > extends . size ( ) ; index + + ) {
if ( base . kind ! = GDScriptParser : : DataType : : CLASS ) {
push_error ( R " (Super type " % s " is not a GDScript. Cannot get nested types.) " , p_class ) ;
return ERR_PARSE_ERROR ;
}
// TODO: Extends could use identifier nodes. That way errors can be pointed out properly and it can be used here.
GDScriptParser : : IdentifierNode * id = parser - > alloc_node < GDScriptParser : : IdentifierNode > ( ) ;
id - > name = p_class - > extends [ index ] ;
reduce_identifier_from_base ( id , & base ) ;
GDScriptParser : : DataType id_type = id - > get_datatype ( ) ;
if ( ! id_type . is_set ( ) ) {
push_error ( vformat ( R " (Could not find type " % s " under base " % s " .) " , id - > name , base . to_string ( ) ) , p_class ) ;
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}
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base = id_type ;
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}
result = base ;
}
if ( ! result . is_set ( ) ) {
// TODO: More specific error messages.
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push_error ( vformat ( R " (Could not resolve inheritance for class " % s " .) " , p_class - > identifier = = nullptr ? " <main> " : p_class - > identifier - > name ) , p_class ) ;
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return ERR_PARSE_ERROR ;
}
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// Check for cyclic inheritance.
const GDScriptParser : : ClassNode * base_class = result . class_type ;
while ( base_class ) {
if ( base_class - > fqcn = = p_class - > fqcn ) {
push_error ( " Cyclic inheritance. " , p_class ) ;
return ERR_PARSE_ERROR ;
}
base_class = base_class - > base_type . class_type ;
}
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p_class - > base_type = result ;
class_type . native_type = result . native_type ;
p_class - > set_datatype ( class_type ) ;
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if ( p_recursive ) {
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
if ( p_class - > members [ i ] . type = = GDScriptParser : : ClassNode : : Member : : CLASS ) {
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Error err = resolve_inheritance ( p_class - > members [ i ] . m_class , true ) ;
if ( err ) {
return err ;
}
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}
}
}
return OK ;
}
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GDScriptParser : : DataType GDScriptAnalyzer : : resolve_datatype ( GDScriptParser : : TypeNode * p_type ) {
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GDScriptParser : : DataType result ;
if ( p_type = = nullptr ) {
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result . kind = GDScriptParser : : DataType : : VARIANT ;
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return result ;
}
result . type_source = result . ANNOTATED_EXPLICIT ;
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result . builtin_type = Variant : : OBJECT ;
if ( p_type - > type_chain . empty ( ) ) {
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// void.
result . kind = GDScriptParser : : DataType : : BUILTIN ;
result . builtin_type = Variant : : NIL ;
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p_type - > set_datatype ( result ) ;
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return result ;
}
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StringName first = p_type - > type_chain [ 0 ] - > name ;
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if ( first = = " Variant " ) {
result . kind = GDScriptParser : : DataType : : VARIANT ;
if ( p_type - > type_chain . size ( ) > 1 ) {
push_error ( R " ( " Variant " type don't contain nested types.) " , p_type - > type_chain [ 1 ] ) ;
return GDScriptParser : : DataType ( ) ;
}
return result ;
}
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if ( first = = " Object " ) {
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . native_type = " Object " ;
if ( p_type - > type_chain . size ( ) > 1 ) {
push_error ( R " ( " Object " type don't contain nested types.) " , p_type - > type_chain [ 1 ] ) ;
return GDScriptParser : : DataType ( ) ;
}
return result ;
}
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if ( GDScriptParser : : get_builtin_type ( first ) < Variant : : VARIANT_MAX ) {
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// Built-in types.
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if ( p_type - > type_chain . size ( ) > 1 ) {
push_error ( R " (Built-in types don't contain nested types.) " , p_type - > type_chain [ 1 ] ) ;
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return GDScriptParser : : DataType ( ) ;
}
result . kind = GDScriptParser : : DataType : : BUILTIN ;
result . builtin_type = GDScriptParser : : get_builtin_type ( first ) ;
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} else if ( class_exists ( first ) ) {
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// Native engine classes.
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . native_type = first ;
} else if ( ScriptServer : : is_global_class ( first ) ) {
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if ( parser - > script_path = = ScriptServer : : get_global_class_path ( first ) ) {
result = parser - > head - > get_datatype ( ) ;
} else {
Ref < GDScriptParserRef > ref = get_parser_for ( ScriptServer : : get_global_class_path ( first ) ) ;
if ( ref - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ! = OK ) {
push_error ( vformat ( R " (Could not parse global class " % s " from " % s " .) " , first , ScriptServer : : get_global_class_path ( first ) ) , p_type ) ;
return GDScriptParser : : DataType ( ) ;
}
result = ref - > get_parser ( ) - > head - > get_datatype ( ) ;
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}
} else if ( ProjectSettings : : get_singleton ( ) - > has_autoload ( first ) & & ProjectSettings : : get_singleton ( ) - > get_autoload ( first ) . is_singleton ) {
const ProjectSettings : : AutoloadInfo & autoload = ProjectSettings : : get_singleton ( ) - > get_autoload ( first ) ;
Ref < GDScriptParserRef > ref = get_parser_for ( autoload . path ) ;
if ( ref - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ! = OK ) {
push_error ( vformat ( R " (Could not parse singleton " % s " from " % s " .) " , first , autoload . path ) , p_type ) ;
return GDScriptParser : : DataType ( ) ;
}
result = ref - > get_parser ( ) - > head - > get_datatype ( ) ;
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} else if ( ClassDB : : has_enum ( get_real_class_name ( parser - > current_class - > base_type . native_type ) , first ) ) {
// Native enum in current class.
result = make_native_enum_type ( parser - > current_class - > base_type . native_type , first ) ;
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} else {
// Classes in current scope.
GDScriptParser : : ClassNode * script_class = parser - > current_class ;
bool found = false ;
while ( ! found & & script_class ! = nullptr ) {
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if ( script_class - > identifier & & script_class - > identifier - > name = = first ) {
result = script_class - > get_datatype ( ) ;
found = true ;
break ;
}
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if ( script_class - > members_indices . has ( first ) ) {
GDScriptParser : : ClassNode : : Member member = script_class - > members [ script_class - > members_indices [ first ] ] ;
switch ( member . type ) {
case GDScriptParser : : ClassNode : : Member : : CLASS :
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result = member . m_class - > get_datatype ( ) ;
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found = true ;
break ;
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case GDScriptParser : : ClassNode : : Member : : ENUM :
result = member . m_enum - > get_datatype ( ) ;
found = true ;
break ;
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case GDScriptParser : : ClassNode : : Member : : CONSTANT :
if ( member . constant - > get_datatype ( ) . is_meta_type ) {
result = member . constant - > get_datatype ( ) ;
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found = true ;
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break ;
}
[[fallthrough]] ;
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default :
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push_error ( vformat ( R " ( " % s " is a %s but does not contain a type.) " , first , member . get_type_name ( ) ) , p_type ) ;
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return GDScriptParser : : DataType ( ) ;
}
}
script_class = script_class - > outer ;
}
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}
if ( ! result . is_set ( ) ) {
push_error ( vformat ( R " ( " % s " was not found in the current scope.) " , first ) , p_type ) ;
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result . kind = GDScriptParser : : DataType : : VARIANT ; // Leave Variant anyway so future type check don't use an unresolved type.
return result ;
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}
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if ( p_type - > type_chain . size ( ) > 1 ) {
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if ( result . kind = = GDScriptParser : : DataType : : CLASS ) {
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for ( int i = 1 ; i < p_type - > type_chain . size ( ) ; i + + ) {
GDScriptParser : : DataType base = result ;
reduce_identifier_from_base ( p_type - > type_chain [ i ] , & base ) ;
result = p_type - > type_chain [ i ] - > get_datatype ( ) ;
if ( ! result . is_set ( ) ) {
push_error ( vformat ( R " (Could not find type " % s " under base " % s " .) " , p_type - > type_chain [ i ] - > name , base . to_string ( ) ) , p_type - > type_chain [ 1 ] ) ;
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result . kind = GDScriptParser : : DataType : : VARIANT ; // Leave Variant anyway so future type check don't use an unresolved type.
return result ;
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} else if ( ! result . is_meta_type ) {
push_error ( vformat ( R " (Member " % s " under base " % s " is not a valid type.) " , p_type - > type_chain [ i ] - > name , base . to_string ( ) ) , p_type - > type_chain [ 1 ] ) ;
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result . kind = GDScriptParser : : DataType : : VARIANT ; // Leave Variant anyway so future type check don't use an unresolved type.
return result ;
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}
}
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} else if ( result . kind = = GDScriptParser : : DataType : : NATIVE ) {
// Only enums allowed for native.
if ( ClassDB : : has_enum ( get_real_class_name ( result . native_type ) , p_type - > type_chain [ 1 ] - > name ) ) {
if ( p_type - > type_chain . size ( ) > 2 ) {
push_error ( R " (Enums cannot contain nested types.) " , p_type - > type_chain [ 2 ] ) ;
} else {
result = make_native_enum_type ( result . native_type , p_type - > type_chain [ 1 ] - > name ) ;
}
}
} else {
push_error ( vformat ( R " (Could not find nested type " % s " under base " % s " .) " , p_type - > type_chain [ 1 ] - > name , result . to_string ( ) ) , p_type - > type_chain [ 1 ] ) ;
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result . kind = GDScriptParser : : DataType : : VARIANT ; // Leave Variant anyway so future type check don't use an unresolved type.
return result ;
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}
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}
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p_type - > set_datatype ( result ) ;
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return result ;
}
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void GDScriptAnalyzer : : resolve_class_interface ( GDScriptParser : : ClassNode * p_class ) {
if ( p_class - > resolved_interface ) {
return ;
}
p_class - > resolved_interface = true ;
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GDScriptParser : : ClassNode * previous_class = parser - > current_class ;
parser - > current_class = p_class ;
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
GDScriptParser : : ClassNode : : Member member = p_class - > members [ i ] ;
switch ( member . type ) {
case GDScriptParser : : ClassNode : : Member : : VARIABLE : {
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GDScriptParser : : DataType datatype ;
datatype . kind = GDScriptParser : : DataType : : VARIANT ;
datatype . type_source = GDScriptParser : : DataType : : UNDETECTED ;
if ( member . variable - > initializer ! = nullptr ) {
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member . variable - > set_datatype ( datatype ) ; // Allow recursive usage.
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reduce_expression ( member . variable - > initializer ) ;
datatype = member . variable - > initializer - > get_datatype ( ) ;
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if ( datatype . type_source ! = GDScriptParser : : DataType : : UNDETECTED ) {
datatype . type_source = GDScriptParser : : DataType : : INFERRED ;
}
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}
if ( member . variable - > datatype_specifier ! = nullptr ) {
datatype = resolve_datatype ( member . variable - > datatype_specifier ) ;
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datatype . is_meta_type = false ;
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if ( member . variable - > initializer ! = nullptr ) {
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if ( ! is_type_compatible ( datatype , member . variable - > initializer - > get_datatype ( ) , true ) ) {
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// Try reverse test since it can be a masked subtype.
if ( ! is_type_compatible ( member . variable - > initializer - > get_datatype ( ) , datatype , true ) ) {
push_error ( vformat ( R " (Value of type " % s " cannot be assigned to a variable of type " % s " .) " , member . variable - > initializer - > get_datatype ( ) . to_string ( ) , datatype . to_string ( ) ) , member . variable - > initializer ) ;
} else {
// TODO: Add warning.
mark_node_unsafe ( member . variable - > initializer ) ;
}
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} else if ( datatype . builtin_type = = Variant : : INT & & member . variable - > initializer - > get_datatype ( ) . builtin_type = = Variant : : FLOAT ) {
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# ifdef DEBUG_ENABLED
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parser - > push_warning ( member . variable - > initializer , GDScriptWarning : : NARROWING_CONVERSION ) ;
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# endif
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}
if ( member . variable - > initializer - > get_datatype ( ) . is_variant ( ) ) {
// TODO: Warn unsafe assign.
mark_node_unsafe ( member . variable - > initializer ) ;
}
}
} else if ( member . variable - > infer_datatype ) {
if ( member . variable - > initializer = = nullptr ) {
push_error ( vformat ( R " (Cannot infer the type of " % s " variable because there's no default value.) " , member . variable - > identifier - > name ) , member . variable - > identifier ) ;
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} else if ( ! datatype . is_set ( ) | | datatype . has_no_type ( ) ) {
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push_error ( vformat ( R " (Cannot infer the type of " % s " variable because the initial value doesn't have a set type.) " , member . variable - > identifier - > name ) , member . variable - > initializer ) ;
} else if ( datatype . is_variant ( ) ) {
push_error ( vformat ( R " (Cannot infer the type of " % s " variable because the initial value is Variant. Use explicit " Variant " type if this is intended.) " , member . variable - > identifier - > name ) , member . variable - > initializer ) ;
} else if ( datatype . builtin_type = = Variant : : NIL ) {
push_error ( vformat ( R " (Cannot infer the type of " % s " variable because the initial value is " null " .) " , member . variable - > identifier - > name ) , member . variable - > initializer ) ;
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}
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datatype . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
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}
datatype . is_constant = false ;
member . variable - > set_datatype ( datatype ) ;
if ( ! datatype . has_no_type ( ) ) {
// TODO: Move this out into a routine specific to validate annotations.
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if ( member . variable - > export_info . hint = = PROPERTY_HINT_TYPE_STRING ) {
// @export annotation.
switch ( datatype . kind ) {
case GDScriptParser : : DataType : : BUILTIN :
member . variable - > export_info . hint_string = Variant : : get_type_name ( datatype . builtin_type ) ;
break ;
case GDScriptParser : : DataType : : NATIVE :
if ( ClassDB : : is_parent_class ( get_real_class_name ( datatype . native_type ) , " Resource " ) ) {
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member . variable - > export_info . hint = PROPERTY_HINT_RESOURCE_TYPE ;
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member . variable - > export_info . hint_string = get_real_class_name ( datatype . native_type ) ;
} else {
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push_error ( R " (Export type can only be built-in or a resource.) " , member . variable ) ;
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}
break ;
default :
// TODO: Allow custom user resources.
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push_error ( R " (Export type can only be built-in or a resource.) " , member . variable ) ;
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break ;
}
}
}
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} break ;
case GDScriptParser : : ClassNode : : Member : : CONSTANT : {
reduce_expression ( member . constant - > initializer ) ;
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GDScriptParser : : DataType datatype = member . constant - > get_datatype ( ) ;
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if ( member . constant - > initializer ) {
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if ( member . constant - > initializer - > type = = GDScriptParser : : Node : : ARRAY ) {
const_fold_array ( static_cast < GDScriptParser : : ArrayNode * > ( member . constant - > initializer ) ) ;
} else if ( member . constant - > initializer - > type = = GDScriptParser : : Node : : DICTIONARY ) {
const_fold_dictionary ( static_cast < GDScriptParser : : DictionaryNode * > ( member . constant - > initializer ) ) ;
}
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if ( ! member . constant - > initializer - > is_constant ) {
push_error ( R " (Initializer for a constant must be a constant expression.) " , member . constant - > initializer ) ;
}
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if ( member . constant - > datatype_specifier ! = nullptr ) {
datatype = resolve_datatype ( member . constant - > datatype_specifier ) ;
datatype . is_meta_type = false ;
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if ( ! is_type_compatible ( datatype , member . constant - > initializer - > get_datatype ( ) , true ) ) {
push_error ( vformat ( R " (Value of type " % s " cannot be initialized to constant of type " % s " .) " , member . constant - > initializer - > get_datatype ( ) . to_string ( ) , datatype . to_string ( ) ) , member . constant - > initializer ) ;
} else if ( datatype . builtin_type = = Variant : : INT & & member . constant - > initializer - > get_datatype ( ) . builtin_type = = Variant : : FLOAT ) {
# ifdef DEBUG_ENABLED
parser - > push_warning ( member . constant - > initializer , GDScriptWarning : : NARROWING_CONVERSION ) ;
# endif
}
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}
}
datatype . is_constant = true ;
member . constant - > set_datatype ( datatype ) ;
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} break ;
case GDScriptParser : : ClassNode : : Member : : SIGNAL : {
for ( int j = 0 ; j < member . signal - > parameters . size ( ) ; j + + ) {
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GDScriptParser : : DataType signal_type = resolve_datatype ( member . signal - > parameters [ j ] - > datatype_specifier ) ;
signal_type . is_meta_type = false ;
member . signal - > parameters [ j ] - > set_datatype ( signal_type ) ;
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}
// TODO: Make MethodInfo from signal.
GDScriptParser : : DataType signal_type ;
signal_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
signal_type . kind = GDScriptParser : : DataType : : BUILTIN ;
signal_type . builtin_type = Variant : : SIGNAL ;
member . signal - > set_datatype ( signal_type ) ;
} break ;
case GDScriptParser : : ClassNode : : Member : : ENUM : {
GDScriptParser : : DataType enum_type ;
enum_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
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enum_type . kind = GDScriptParser : : DataType : : ENUM ;
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enum_type . builtin_type = Variant : : DICTIONARY ;
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enum_type . enum_type = member . m_enum - > identifier - > name ;
enum_type . native_type = p_class - > fqcn + " . " + member . m_enum - > identifier - > name ;
enum_type . is_meta_type = true ;
enum_type . is_constant = true ;
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// Enums can't be nested, so we can safely override this.
current_enum = member . m_enum ;
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for ( int j = 0 ; j < member . m_enum - > values . size ( ) ; j + + ) {
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GDScriptParser : : EnumNode : : Value & element = member . m_enum - > values . write [ j ] ;
if ( element . custom_value ) {
reduce_expression ( element . custom_value ) ;
if ( ! element . custom_value - > is_constant ) {
push_error ( R " (Enum values must be constant.) " , element . custom_value ) ;
} else if ( element . custom_value - > reduced_value . get_type ( ) ! = Variant : : INT ) {
push_error ( R " (Enum values must be integers.) " , element . custom_value ) ;
} else {
element . value = element . custom_value - > reduced_value ;
element . resolved = true ;
}
} else {
if ( element . index > 0 ) {
element . value = element . parent_enum - > values [ element . index - 1 ] . value + 1 ;
} else {
element . value = 0 ;
}
element . resolved = true ;
}
enum_type . enum_values [ element . identifier - > name ] = element . value ;
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}
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current_enum = nullptr ;
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member . m_enum - > set_datatype ( enum_type ) ;
} break ;
case GDScriptParser : : ClassNode : : Member : : FUNCTION :
resolve_function_signature ( member . function ) ;
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break ;
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case GDScriptParser : : ClassNode : : Member : : ENUM_VALUE : {
if ( member . enum_value . custom_value ) {
current_enum = member . enum_value . parent_enum ;
reduce_expression ( member . enum_value . custom_value ) ;
current_enum = nullptr ;
if ( ! member . enum_value . custom_value - > is_constant ) {
push_error ( R " (Enum values must be constant.) " , member . enum_value . custom_value ) ;
} else if ( member . enum_value . custom_value - > reduced_value . get_type ( ) ! = Variant : : INT ) {
push_error ( R " (Enum values must be integers.) " , member . enum_value . custom_value ) ;
} else {
member . enum_value . value = member . enum_value . custom_value - > reduced_value ;
member . enum_value . resolved = true ;
}
} else {
if ( member . enum_value . index > 0 ) {
member . enum_value . value = member . enum_value . parent_enum - > values [ member . enum_value . index - 1 ] . value + 1 ;
} else {
member . enum_value . value = 0 ;
}
member . enum_value . resolved = true ;
}
// Also update the original references.
member . enum_value . parent_enum - > values . write [ member . enum_value . index ] = member . enum_value ;
p_class - > members . write [ i ] . enum_value = member . enum_value ;
} break ;
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case GDScriptParser : : ClassNode : : Member : : CLASS :
break ; // Done later.
case GDScriptParser : : ClassNode : : Member : : UNDEFINED :
ERR_PRINT ( " Trying to resolve undefined member. " ) ;
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break ;
}
}
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// Recurse nested classes.
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
GDScriptParser : : ClassNode : : Member member = p_class - > members [ i ] ;
if ( member . type ! = GDScriptParser : : ClassNode : : Member : : CLASS ) {
continue ;
}
resolve_class_interface ( member . m_class ) ;
}
parser - > current_class = previous_class ;
}
void GDScriptAnalyzer : : resolve_class_body ( GDScriptParser : : ClassNode * p_class ) {
if ( p_class - > resolved_body ) {
return ;
}
p_class - > resolved_body = true ;
GDScriptParser : : ClassNode * previous_class = parser - > current_class ;
parser - > current_class = p_class ;
// Do functions now.
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
GDScriptParser : : ClassNode : : Member member = p_class - > members [ i ] ;
if ( member . type ! = GDScriptParser : : ClassNode : : Member : : FUNCTION ) {
continue ;
}
resolve_function_body ( member . function ) ;
}
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parser - > current_class = previous_class ;
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// Recurse nested classes.
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
GDScriptParser : : ClassNode : : Member member = p_class - > members [ i ] ;
if ( member . type ! = GDScriptParser : : ClassNode : : Member : : CLASS ) {
continue ;
}
resolve_class_body ( member . m_class ) ;
}
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// Check unused variables.
for ( int i = 0 ; i < p_class - > members . size ( ) ; i + + ) {
GDScriptParser : : ClassNode : : Member member = p_class - > members [ i ] ;
if ( member . type ! = GDScriptParser : : ClassNode : : Member : : VARIABLE ) {
continue ;
}
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# ifdef DEBUG_ENABLED
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if ( member . variable - > usages = = 0 & & String ( member . variable - > identifier - > name ) . begins_with ( " _ " ) ) {
parser - > push_warning ( member . variable - > identifier , GDScriptWarning : : UNUSED_PRIVATE_CLASS_VARIABLE , member . variable - > identifier - > name ) ;
}
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# endif
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}
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}
void GDScriptAnalyzer : : resolve_node ( GDScriptParser : : Node * p_node ) {
ERR_FAIL_COND_MSG ( p_node = = nullptr , " Trying to resolve type of a null node. " ) ;
switch ( p_node - > type ) {
case GDScriptParser : : Node : : NONE :
break ; // Unreachable.
case GDScriptParser : : Node : : CLASS :
resolve_class_interface ( static_cast < GDScriptParser : : ClassNode * > ( p_node ) ) ;
resolve_class_body ( static_cast < GDScriptParser : : ClassNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : CONSTANT :
resolve_constant ( static_cast < GDScriptParser : : ConstantNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : FOR :
resolve_for ( static_cast < GDScriptParser : : ForNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : FUNCTION :
resolve_function_signature ( static_cast < GDScriptParser : : FunctionNode * > ( p_node ) ) ;
resolve_function_body ( static_cast < GDScriptParser : : FunctionNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : IF :
resolve_if ( static_cast < GDScriptParser : : IfNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : SUITE :
resolve_suite ( static_cast < GDScriptParser : : SuiteNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : VARIABLE :
resolve_variable ( static_cast < GDScriptParser : : VariableNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : WHILE :
resolve_while ( static_cast < GDScriptParser : : WhileNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : ANNOTATION :
resolve_annotation ( static_cast < GDScriptParser : : AnnotationNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : ASSERT :
resolve_assert ( static_cast < GDScriptParser : : AssertNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : MATCH :
resolve_match ( static_cast < GDScriptParser : : MatchNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : MATCH_BRANCH :
resolve_match_branch ( static_cast < GDScriptParser : : MatchBranchNode * > ( p_node ) , nullptr ) ;
break ;
case GDScriptParser : : Node : : PARAMETER :
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resolve_parameter ( static_cast < GDScriptParser : : ParameterNode * > ( p_node ) ) ;
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break ;
case GDScriptParser : : Node : : PATTERN :
resolve_match_pattern ( static_cast < GDScriptParser : : PatternNode * > ( p_node ) , nullptr ) ;
break ;
case GDScriptParser : : Node : : RETURN :
resolve_return ( static_cast < GDScriptParser : : ReturnNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : TYPE :
resolve_datatype ( static_cast < GDScriptParser : : TypeNode * > ( p_node ) ) ;
break ;
// Resolving expression is the same as reducing them.
case GDScriptParser : : Node : : ARRAY :
case GDScriptParser : : Node : : ASSIGNMENT :
case GDScriptParser : : Node : : AWAIT :
case GDScriptParser : : Node : : BINARY_OPERATOR :
case GDScriptParser : : Node : : CALL :
case GDScriptParser : : Node : : CAST :
case GDScriptParser : : Node : : DICTIONARY :
case GDScriptParser : : Node : : GET_NODE :
case GDScriptParser : : Node : : IDENTIFIER :
case GDScriptParser : : Node : : LITERAL :
case GDScriptParser : : Node : : PRELOAD :
case GDScriptParser : : Node : : SELF :
case GDScriptParser : : Node : : SUBSCRIPT :
case GDScriptParser : : Node : : TERNARY_OPERATOR :
case GDScriptParser : : Node : : UNARY_OPERATOR :
reduce_expression ( static_cast < GDScriptParser : : ExpressionNode * > ( p_node ) ) ;
break ;
case GDScriptParser : : Node : : BREAK :
case GDScriptParser : : Node : : BREAKPOINT :
case GDScriptParser : : Node : : CONTINUE :
case GDScriptParser : : Node : : ENUM :
case GDScriptParser : : Node : : PASS :
case GDScriptParser : : Node : : SIGNAL :
// Nothing to do.
break ;
}
}
void GDScriptAnalyzer : : resolve_annotation ( GDScriptParser : : AnnotationNode * p_annotation ) {
// TODO: Add second validation function for annotations, so they can use checked types.
}
void GDScriptAnalyzer : : resolve_function_signature ( GDScriptParser : : FunctionNode * p_function ) {
if ( p_function - > resolved_signature ) {
return ;
}
p_function - > resolved_signature = true ;
GDScriptParser : : FunctionNode * previous_function = parser - > current_function ;
parser - > current_function = p_function ;
for ( int i = 0 ; i < p_function - > parameters . size ( ) ; i + + ) {
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resolve_parameter ( p_function - > parameters [ i ] ) ;
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# ifdef DEBUG_ENABLED
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if ( p_function - > parameters [ i ] - > usages = = 0 & & ! String ( p_function - > parameters [ i ] - > identifier - > name ) . begins_with ( " _ " ) ) {
parser - > push_warning ( p_function - > parameters [ i ] - > identifier , GDScriptWarning : : UNUSED_PARAMETER , p_function - > identifier - > name , p_function - > parameters [ i ] - > identifier - > name ) ;
}
is_shadowing ( p_function - > parameters [ i ] - > identifier , " function parameter " ) ;
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# endif
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}
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if ( p_function - > identifier - > name = = " _init " ) {
// Constructor.
GDScriptParser : : DataType return_type = parser - > current_class - > get_datatype ( ) ;
return_type . is_meta_type = false ;
p_function - > set_datatype ( return_type ) ;
if ( p_function - > return_type ) {
push_error ( " Constructor cannot have an explicit return type. " , p_function - > return_type ) ;
}
} else {
GDScriptParser : : DataType return_type = resolve_datatype ( p_function - > return_type ) ;
p_function - > set_datatype ( return_type ) ;
}
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parser - > current_function = previous_function ;
}
void GDScriptAnalyzer : : resolve_function_body ( GDScriptParser : : FunctionNode * p_function ) {
if ( p_function - > resolved_body ) {
return ;
}
p_function - > resolved_body = true ;
GDScriptParser : : FunctionNode * previous_function = parser - > current_function ;
parser - > current_function = p_function ;
resolve_suite ( p_function - > body ) ;
GDScriptParser : : DataType return_type = p_function - > body - > get_datatype ( ) ;
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if ( p_function - > get_datatype ( ) . has_no_type ( ) & & return_type . is_set ( ) ) {
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// Use the suite inferred type if return isn't explicitly set.
return_type . type_source = GDScriptParser : : DataType : : INFERRED ;
p_function - > set_datatype ( p_function - > body - > get_datatype ( ) ) ;
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} else if ( p_function - > get_datatype ( ) . is_hard_type ( ) & & ( p_function - > get_datatype ( ) . kind ! = GDScriptParser : : DataType : : BUILTIN | | p_function - > get_datatype ( ) . builtin_type ! = Variant : : NIL ) ) {
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if ( ! p_function - > body - > has_return & & p_function - > identifier - > name ! = GDScriptLanguage : : get_singleton ( ) - > strings . _init ) {
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push_error ( R " (Not all code paths return a value.) " , p_function ) ;
}
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}
parser - > current_function = previous_function ;
}
void GDScriptAnalyzer : : decide_suite_type ( GDScriptParser : : Node * p_suite , GDScriptParser : : Node * p_statement ) {
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if ( p_statement = = nullptr ) {
return ;
}
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switch ( p_statement - > type ) {
case GDScriptParser : : Node : : IF :
case GDScriptParser : : Node : : FOR :
case GDScriptParser : : Node : : MATCH :
case GDScriptParser : : Node : : PATTERN :
case GDScriptParser : : Node : : RETURN :
case GDScriptParser : : Node : : WHILE :
// Use return or nested suite type as this suite type.
if ( p_suite - > get_datatype ( ) . is_set ( ) & & ( p_suite - > get_datatype ( ) ! = p_statement - > get_datatype ( ) ) ) {
// Mixed types.
// TODO: This could use the common supertype instead.
p_suite - > datatype . kind = GDScriptParser : : DataType : : VARIANT ;
p_suite - > datatype . type_source = GDScriptParser : : DataType : : UNDETECTED ;
} else {
p_suite - > set_datatype ( p_statement - > get_datatype ( ) ) ;
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p_suite - > datatype . type_source = GDScriptParser : : DataType : : INFERRED ;
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}
break ;
default :
break ;
}
}
void GDScriptAnalyzer : : resolve_suite ( GDScriptParser : : SuiteNode * p_suite ) {
for ( int i = 0 ; i < p_suite - > statements . size ( ) ; i + + ) {
GDScriptParser : : Node * stmt = p_suite - > statements [ i ] ;
resolve_node ( stmt ) ;
decide_suite_type ( p_suite , stmt ) ;
}
}
void GDScriptAnalyzer : : resolve_if ( GDScriptParser : : IfNode * p_if ) {
reduce_expression ( p_if - > condition ) ;
resolve_suite ( p_if - > true_block ) ;
p_if - > set_datatype ( p_if - > true_block - > get_datatype ( ) ) ;
if ( p_if - > false_block ! = nullptr ) {
resolve_suite ( p_if - > false_block ) ;
decide_suite_type ( p_if , p_if - > false_block ) ;
}
}
void GDScriptAnalyzer : : resolve_for ( GDScriptParser : : ForNode * p_for ) {
bool list_resolved = false ;
// Optimize constant range() call to not allocate an array.
// Use int, Vector2, Vector3 instead, which also can be used as range iterators.
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if ( p_for - > list & & p_for - > list - > type = = GDScriptParser : : Node : : CALL ) {
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GDScriptParser : : CallNode * call = static_cast < GDScriptParser : : CallNode * > ( p_for - > list ) ;
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GDScriptParser : : Node : : Type callee_type = call - > get_callee_type ( ) ;
if ( callee_type = = GDScriptParser : : Node : : IDENTIFIER ) {
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GDScriptParser : : IdentifierNode * callee = static_cast < GDScriptParser : : IdentifierNode * > ( call - > callee ) ;
if ( callee - > name = = " range " ) {
list_resolved = true ;
if ( call - > arguments . size ( ) < 1 ) {
push_error ( R " *(Invalid call for " range ( ) " function. Expected at least 1 argument, none given.)* " , call - > callee ) ;
} else if ( call - > arguments . size ( ) > 3 ) {
push_error ( vformat ( R " *(Invalid call for " range ( ) " function. Expected at most 3 arguments, %d given.)* " , call - > arguments . size ( ) ) , call - > callee ) ;
} else {
// Now we can optimize it.
bool all_is_constant = true ;
Vector < Variant > args ;
args . resize ( call - > arguments . size ( ) ) ;
for ( int i = 0 ; i < call - > arguments . size ( ) ; i + + ) {
reduce_expression ( call - > arguments [ i ] ) ;
if ( ! call - > arguments [ i ] - > is_constant ) {
all_is_constant = false ;
} else {
args . write [ i ] = call - > arguments [ i ] - > reduced_value ;
}
GDScriptParser : : DataType arg_type = call - > arguments [ i ] - > get_datatype ( ) ;
if ( arg_type . kind ! = GDScriptParser : : DataType : : BUILTIN ) {
all_is_constant = false ;
push_error ( vformat ( R " *(Invalid argument for " range ( ) " call. Argument %d should be int or float but " % s " was given.)* " , i + 1 , arg_type . to_string ( ) ) , call - > arguments [ i ] ) ;
} else if ( arg_type . builtin_type ! = Variant : : INT & & arg_type . builtin_type ! = Variant : : FLOAT ) {
all_is_constant = false ;
push_error ( vformat ( R " *(Invalid argument for " range ( ) " call. Argument %d should be int or float but " % s " was given.)* " , i + 1 , arg_type . to_string ( ) ) , call - > arguments [ i ] ) ;
}
}
Variant reduced ;
if ( all_is_constant ) {
switch ( args . size ( ) ) {
case 1 :
reduced = args [ 0 ] ;
break ;
case 2 :
reduced = Vector2i ( args [ 0 ] , args [ 1 ] ) ;
break ;
case 3 :
reduced = Vector3i ( args [ 0 ] , args [ 1 ] , args [ 2 ] ) ;
break ;
}
p_for - > list - > is_constant = true ;
p_for - > list - > reduced_value = reduced ;
}
}
GDScriptParser : : DataType list_type ;
list_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
list_type . kind = GDScriptParser : : DataType : : BUILTIN ;
list_type . builtin_type = Variant : : ARRAY ;
p_for - > list - > set_datatype ( list_type ) ;
}
}
}
if ( ! list_resolved ) {
resolve_node ( p_for - > list ) ;
}
// TODO: If list is a typed array, the variable should be an element.
// Also applicable for constant range() (so variable is int or float).
resolve_suite ( p_for - > loop ) ;
p_for - > set_datatype ( p_for - > loop - > get_datatype ( ) ) ;
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# ifdef DEBUG_ENABLED
if ( p_for - > variable ) {
is_shadowing ( p_for - > variable , R " ( " for " iterator variable) " ) ;
}
# endif
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}
void GDScriptAnalyzer : : resolve_while ( GDScriptParser : : WhileNode * p_while ) {
resolve_node ( p_while - > condition ) ;
resolve_suite ( p_while - > loop ) ;
p_while - > set_datatype ( p_while - > loop - > get_datatype ( ) ) ;
}
void GDScriptAnalyzer : : resolve_variable ( GDScriptParser : : VariableNode * p_variable ) {
GDScriptParser : : DataType type ;
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type . kind = GDScriptParser : : DataType : : VARIANT ; // By default.
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if ( p_variable - > initializer ! = nullptr ) {
reduce_expression ( p_variable - > initializer ) ;
type = p_variable - > initializer - > get_datatype ( ) ;
if ( p_variable - > infer_datatype ) {
type . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
if ( type . has_no_type ( ) ) {
push_error ( vformat ( R " (Could not infer the type of the variable " % s " because the initial value does not have a set type.) " , p_variable - > identifier - > name ) , p_variable - > initializer ) ;
} else if ( type . is_variant ( ) ) {
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push_error ( vformat ( R " (Could not infer the type of the variable " % s " because the initial value is a variant. Use explicit " Variant " type if this is intended.) " , p_variable - > identifier - > name ) , p_variable - > initializer ) ;
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} else if ( type . kind = = GDScriptParser : : DataType : : BUILTIN & & type . builtin_type = = Variant : : NIL ) {
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push_error ( vformat ( R " (Could not infer the type of the variable " % s " because the initial value is " null " .) " , p_variable - > identifier - > name ) , p_variable - > initializer ) ;
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}
} else {
type . type_source = GDScriptParser : : DataType : : INFERRED ;
}
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# ifdef DEBUG_ENABLED
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if ( p_variable - > initializer - > type = = GDScriptParser : : Node : : CALL & & type . kind = = GDScriptParser : : DataType : : BUILTIN & & type . builtin_type = = Variant : : NIL ) {
parser - > push_warning ( p_variable - > initializer , GDScriptWarning : : VOID_ASSIGNMENT , static_cast < GDScriptParser : : CallNode * > ( p_variable - > initializer ) - > function_name ) ;
}
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# endif
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}
if ( p_variable - > datatype_specifier ! = nullptr ) {
type = resolve_datatype ( p_variable - > datatype_specifier ) ;
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type . is_meta_type = false ;
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if ( p_variable - > initializer ! = nullptr ) {
if ( ! is_type_compatible ( type , p_variable - > initializer - > get_datatype ( ) , true ) ) {
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// Try reverse test since it can be a masked subtype.
if ( ! is_type_compatible ( p_variable - > initializer - > get_datatype ( ) , type , true ) ) {
push_error ( vformat ( R " (Value of type " % s " cannot be assigned to a variable of type " % s " .) " , p_variable - > initializer - > get_datatype ( ) . to_string ( ) , type . to_string ( ) ) , p_variable - > initializer ) ;
} else {
// TODO: Add warning.
mark_node_unsafe ( p_variable - > initializer ) ;
}
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# ifdef DEBUG_ENABLED
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} else if ( type . builtin_type = = Variant : : INT & & p_variable - > initializer - > get_datatype ( ) . builtin_type = = Variant : : FLOAT ) {
parser - > push_warning ( p_variable - > initializer , GDScriptWarning : : NARROWING_CONVERSION ) ;
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# endif
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}
if ( p_variable - > initializer - > get_datatype ( ) . is_variant ( ) ) {
// TODO: Warn unsafe assign.
mark_node_unsafe ( p_variable - > initializer ) ;
}
}
} else if ( p_variable - > infer_datatype ) {
if ( type . has_no_type ( ) ) {
push_error ( vformat ( R " (Cannot infer the type of variable " % s " because the initial value doesn't have a set type.) " , p_variable - > identifier - > name ) , p_variable - > identifier ) ;
}
type . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
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}
type . is_constant = false ;
p_variable - > set_datatype ( type ) ;
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# ifdef DEBUG_ENABLED
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if ( p_variable - > usages = = 0 & & ! String ( p_variable - > identifier - > name ) . begins_with ( " _ " ) ) {
parser - > push_warning ( p_variable , GDScriptWarning : : UNUSED_VARIABLE , p_variable - > identifier - > name ) ;
} else if ( p_variable - > assignments = = 0 ) {
parser - > push_warning ( p_variable , GDScriptWarning : : UNASSIGNED_VARIABLE , p_variable - > identifier - > name ) ;
}
is_shadowing ( p_variable - > identifier , " variable " ) ;
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# endif
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}
void GDScriptAnalyzer : : resolve_constant ( GDScriptParser : : ConstantNode * p_constant ) {
GDScriptParser : : DataType type ;
reduce_expression ( p_constant - > initializer ) ;
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if ( p_constant - > initializer - > type = = GDScriptParser : : Node : : ARRAY ) {
const_fold_array ( static_cast < GDScriptParser : : ArrayNode * > ( p_constant - > initializer ) ) ;
} else if ( p_constant - > initializer - > type = = GDScriptParser : : Node : : DICTIONARY ) {
const_fold_dictionary ( static_cast < GDScriptParser : : DictionaryNode * > ( p_constant - > initializer ) ) ;
}
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if ( ! p_constant - > initializer - > is_constant ) {
push_error ( vformat ( R " (Assigned value for constant " % s " isn't a constant expression.) " , p_constant - > identifier - > name ) , p_constant - > initializer ) ;
}
type = p_constant - > initializer - > get_datatype ( ) ;
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# ifdef DEBUG_ENABLED
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if ( p_constant - > initializer - > type = = GDScriptParser : : Node : : CALL & & type . kind = = GDScriptParser : : DataType : : BUILTIN & & type . builtin_type = = Variant : : NIL ) {
parser - > push_warning ( p_constant - > initializer , GDScriptWarning : : VOID_ASSIGNMENT , static_cast < GDScriptParser : : CallNode * > ( p_constant - > initializer ) - > function_name ) ;
}
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# endif
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if ( p_constant - > datatype_specifier ! = nullptr ) {
GDScriptParser : : DataType explicit_type = resolve_datatype ( p_constant - > datatype_specifier ) ;
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explicit_type . is_meta_type = false ;
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if ( ! is_type_compatible ( explicit_type , type ) ) {
push_error ( vformat ( R " (Assigned value for constant " % s " has type %s which is not compatible with defined type %s.) " , p_constant - > identifier - > name , type . to_string ( ) , explicit_type . to_string ( ) ) , p_constant - > initializer ) ;
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# ifdef DEBUG_ENABLED
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} else if ( explicit_type . builtin_type = = Variant : : INT & & type . builtin_type = = Variant : : FLOAT ) {
parser - > push_warning ( p_constant - > initializer , GDScriptWarning : : NARROWING_CONVERSION ) ;
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# endif
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}
type = explicit_type ;
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} else if ( p_constant - > infer_datatype ) {
if ( type . has_no_type ( ) ) {
push_error ( vformat ( R " (Cannot infer the type of constant " % s " because the initial value doesn't have a set type.) " , p_constant - > identifier - > name ) , p_constant - > identifier ) ;
}
type . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
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}
type . is_constant = true ;
p_constant - > set_datatype ( type ) ;
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# ifdef DEBUG_ENABLED
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if ( p_constant - > usages = = 0 ) {
parser - > push_warning ( p_constant , GDScriptWarning : : UNUSED_LOCAL_CONSTANT , p_constant - > identifier - > name ) ;
}
is_shadowing ( p_constant - > identifier , " constant " ) ;
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# endif
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}
void GDScriptAnalyzer : : resolve_assert ( GDScriptParser : : AssertNode * p_assert ) {
reduce_expression ( p_assert - > condition ) ;
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if ( p_assert - > message ! = nullptr ) {
reduce_literal ( p_assert - > message ) ;
}
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p_assert - > set_datatype ( p_assert - > condition - > get_datatype ( ) ) ;
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# ifdef DEBUG_ENABLED
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if ( p_assert - > condition - > is_constant ) {
if ( p_assert - > condition - > reduced_value . booleanize ( ) ) {
parser - > push_warning ( p_assert - > condition , GDScriptWarning : : ASSERT_ALWAYS_TRUE ) ;
} else {
parser - > push_warning ( p_assert - > condition , GDScriptWarning : : ASSERT_ALWAYS_FALSE ) ;
}
}
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# endif
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}
void GDScriptAnalyzer : : resolve_match ( GDScriptParser : : MatchNode * p_match ) {
reduce_expression ( p_match - > test ) ;
for ( int i = 0 ; i < p_match - > branches . size ( ) ; i + + ) {
resolve_match_branch ( p_match - > branches [ i ] , p_match - > test ) ;
decide_suite_type ( p_match , p_match - > branches [ i ] ) ;
}
}
void GDScriptAnalyzer : : resolve_match_branch ( GDScriptParser : : MatchBranchNode * p_match_branch , GDScriptParser : : ExpressionNode * p_match_test ) {
for ( int i = 0 ; i < p_match_branch - > patterns . size ( ) ; i + + ) {
resolve_match_pattern ( p_match_branch - > patterns [ i ] , p_match_test ) ;
}
resolve_suite ( p_match_branch - > block ) ;
decide_suite_type ( p_match_branch , p_match_branch - > block ) ;
}
void GDScriptAnalyzer : : resolve_match_pattern ( GDScriptParser : : PatternNode * p_match_pattern , GDScriptParser : : ExpressionNode * p_match_test ) {
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if ( p_match_pattern = = nullptr ) {
return ;
}
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GDScriptParser : : DataType result ;
switch ( p_match_pattern - > pattern_type ) {
case GDScriptParser : : PatternNode : : PT_LITERAL :
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if ( p_match_pattern - > literal ) {
reduce_literal ( p_match_pattern - > literal ) ;
result = p_match_pattern - > literal - > get_datatype ( ) ;
}
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break ;
case GDScriptParser : : PatternNode : : PT_EXPRESSION :
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if ( p_match_pattern - > expression ) {
reduce_expression ( p_match_pattern - > expression ) ;
if ( ! p_match_pattern - > expression - > is_constant ) {
push_error ( R " (Expression in match pattern must be a constant.) " , p_match_pattern - > expression ) ;
}
result = p_match_pattern - > expression - > get_datatype ( ) ;
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}
break ;
case GDScriptParser : : PatternNode : : PT_BIND :
if ( p_match_test ! = nullptr ) {
result = p_match_test - > get_datatype ( ) ;
} else {
result . kind = GDScriptParser : : DataType : : VARIANT ;
}
p_match_pattern - > bind - > set_datatype ( result ) ;
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# ifdef DEBUG_ENABLED
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is_shadowing ( p_match_pattern - > bind , " pattern bind " ) ;
if ( p_match_pattern - > bind - > usages = = 0 ) {
parser - > push_warning ( p_match_pattern - > bind , GDScriptWarning : : UNASSIGNED_VARIABLE , p_match_pattern - > bind - > name ) ;
}
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# endif
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break ;
case GDScriptParser : : PatternNode : : PT_ARRAY :
for ( int i = 0 ; i < p_match_pattern - > array . size ( ) ; i + + ) {
resolve_match_pattern ( p_match_pattern - > array [ i ] , nullptr ) ;
decide_suite_type ( p_match_pattern , p_match_pattern - > array [ i ] ) ;
}
result = p_match_pattern - > get_datatype ( ) ;
break ;
case GDScriptParser : : PatternNode : : PT_DICTIONARY :
for ( int i = 0 ; i < p_match_pattern - > dictionary . size ( ) ; i + + ) {
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if ( p_match_pattern - > dictionary [ i ] . key ) {
reduce_expression ( p_match_pattern - > dictionary [ i ] . key ) ;
if ( ! p_match_pattern - > dictionary [ i ] . key - > is_constant ) {
push_error ( R " (Expression in dictionary pattern key must be a constant.) " , p_match_pattern - > expression ) ;
}
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}
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if ( p_match_pattern - > dictionary [ i ] . value_pattern ) {
resolve_match_pattern ( p_match_pattern - > dictionary [ i ] . value_pattern , nullptr ) ;
decide_suite_type ( p_match_pattern , p_match_pattern - > dictionary [ i ] . value_pattern ) ;
}
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}
result = p_match_pattern - > get_datatype ( ) ;
break ;
case GDScriptParser : : PatternNode : : PT_WILDCARD :
case GDScriptParser : : PatternNode : : PT_REST :
result . kind = GDScriptParser : : DataType : : VARIANT ;
break ;
}
p_match_pattern - > set_datatype ( result ) ;
}
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void GDScriptAnalyzer : : resolve_parameter ( GDScriptParser : : ParameterNode * p_parameter ) {
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GDScriptParser : : DataType result ;
result . kind = GDScriptParser : : DataType : : VARIANT ;
if ( p_parameter - > default_value ! = nullptr ) {
reduce_expression ( p_parameter - > default_value ) ;
result = p_parameter - > default_value - > get_datatype ( ) ;
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if ( p_parameter - > infer_datatype ) {
result . type_source = GDScriptParser : : DataType : : ANNOTATED_INFERRED ;
} else {
result . type_source = GDScriptParser : : DataType : : INFERRED ;
}
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result . is_constant = false ;
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}
if ( p_parameter - > datatype_specifier ! = nullptr ) {
resolve_datatype ( p_parameter - > datatype_specifier ) ;
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result = p_parameter - > datatype_specifier - > get_datatype ( ) ;
result . is_meta_type = false ;
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if ( p_parameter - > default_value ! = nullptr ) {
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if ( ! is_type_compatible ( result , p_parameter - > default_value - > get_datatype ( ) ) ) {
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push_error ( vformat ( R " (Type of default value for parameter " % s " (%s) is not compatible with parameter type (%s).) " , p_parameter - > identifier - > name , p_parameter - > default_value - > get_datatype ( ) . to_string ( ) , p_parameter - > datatype_specifier - > get_datatype ( ) . to_string ( ) ) , p_parameter - > default_value ) ;
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} else if ( p_parameter - > default_value - > get_datatype ( ) . is_variant ( ) ) {
mark_node_unsafe ( p_parameter ) ;
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}
}
}
p_parameter - > set_datatype ( result ) ;
}
void GDScriptAnalyzer : : resolve_return ( GDScriptParser : : ReturnNode * p_return ) {
GDScriptParser : : DataType result ;
if ( p_return - > return_value ! = nullptr ) {
reduce_expression ( p_return - > return_value ) ;
result = p_return - > return_value - > get_datatype ( ) ;
} else {
// Return type is null by default.
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
result . kind = GDScriptParser : : DataType : : BUILTIN ;
result . builtin_type = Variant : : NIL ;
result . is_constant = true ;
}
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GDScriptParser : : DataType function_type = parser - > current_function - > get_datatype ( ) ;
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function_type . is_meta_type = false ;
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if ( function_type . is_hard_type ( ) ) {
if ( ! is_type_compatible ( function_type , result ) ) {
// Try other way. Okay but not safe.
if ( ! is_type_compatible ( result , function_type ) ) {
push_error ( vformat ( R " (Cannot return value of type " % s " because the function return type is " % s " .) " , result . to_string ( ) , function_type . to_string ( ) ) , p_return ) ;
} else {
// TODO: Add warning.
mark_node_unsafe ( p_return ) ;
}
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# ifdef DEBUG_ENABLED
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} else if ( function_type . builtin_type = = Variant : : INT & & result . builtin_type = = Variant : : FLOAT ) {
parser - > push_warning ( p_return , GDScriptWarning : : NARROWING_CONVERSION ) ;
} else if ( result . is_variant ( ) ) {
mark_node_unsafe ( p_return ) ;
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# endif
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}
}
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p_return - > set_datatype ( result ) ;
}
void GDScriptAnalyzer : : reduce_expression ( GDScriptParser : : ExpressionNode * p_expression ) {
// This one makes some magic happen.
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if ( p_expression = = nullptr ) {
return ;
}
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if ( p_expression - > reduced ) {
// Don't do this more than once.
return ;
}
p_expression - > reduced = true ;
switch ( p_expression - > type ) {
case GDScriptParser : : Node : : ARRAY :
reduce_array ( static_cast < GDScriptParser : : ArrayNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : ASSIGNMENT :
reduce_assignment ( static_cast < GDScriptParser : : AssignmentNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : AWAIT :
reduce_await ( static_cast < GDScriptParser : : AwaitNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : BINARY_OPERATOR :
reduce_binary_op ( static_cast < GDScriptParser : : BinaryOpNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : CALL :
reduce_call ( static_cast < GDScriptParser : : CallNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : CAST :
reduce_cast ( static_cast < GDScriptParser : : CastNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : DICTIONARY :
reduce_dictionary ( static_cast < GDScriptParser : : DictionaryNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : GET_NODE :
reduce_get_node ( static_cast < GDScriptParser : : GetNodeNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : IDENTIFIER :
reduce_identifier ( static_cast < GDScriptParser : : IdentifierNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : LITERAL :
reduce_literal ( static_cast < GDScriptParser : : LiteralNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : PRELOAD :
reduce_preload ( static_cast < GDScriptParser : : PreloadNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : SELF :
reduce_self ( static_cast < GDScriptParser : : SelfNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : SUBSCRIPT :
reduce_subscript ( static_cast < GDScriptParser : : SubscriptNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : TERNARY_OPERATOR :
reduce_ternary_op ( static_cast < GDScriptParser : : TernaryOpNode * > ( p_expression ) ) ;
break ;
case GDScriptParser : : Node : : UNARY_OPERATOR :
reduce_unary_op ( static_cast < GDScriptParser : : UnaryOpNode * > ( p_expression ) ) ;
break ;
// Non-expressions. Here only to make sure new nodes aren't forgotten.
case GDScriptParser : : Node : : NONE :
case GDScriptParser : : Node : : ANNOTATION :
case GDScriptParser : : Node : : ASSERT :
case GDScriptParser : : Node : : BREAK :
case GDScriptParser : : Node : : BREAKPOINT :
case GDScriptParser : : Node : : CLASS :
case GDScriptParser : : Node : : CONSTANT :
case GDScriptParser : : Node : : CONTINUE :
case GDScriptParser : : Node : : ENUM :
case GDScriptParser : : Node : : FOR :
case GDScriptParser : : Node : : FUNCTION :
case GDScriptParser : : Node : : IF :
case GDScriptParser : : Node : : MATCH :
case GDScriptParser : : Node : : MATCH_BRANCH :
case GDScriptParser : : Node : : PARAMETER :
case GDScriptParser : : Node : : PASS :
case GDScriptParser : : Node : : PATTERN :
case GDScriptParser : : Node : : RETURN :
case GDScriptParser : : Node : : SIGNAL :
case GDScriptParser : : Node : : SUITE :
case GDScriptParser : : Node : : TYPE :
case GDScriptParser : : Node : : VARIABLE :
case GDScriptParser : : Node : : WHILE :
ERR_FAIL_MSG ( " Reaching unreachable case " ) ;
}
}
void GDScriptAnalyzer : : reduce_array ( GDScriptParser : : ArrayNode * p_array ) {
for ( int i = 0 ; i < p_array - > elements . size ( ) ; i + + ) {
GDScriptParser : : ExpressionNode * element = p_array - > elements [ i ] ;
reduce_expression ( element ) ;
}
// It's array in any case.
GDScriptParser : : DataType arr_type ;
arr_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
arr_type . kind = GDScriptParser : : DataType : : BUILTIN ;
arr_type . builtin_type = Variant : : ARRAY ;
arr_type . is_constant = true ;
p_array - > set_datatype ( arr_type ) ;
}
void GDScriptAnalyzer : : reduce_assignment ( GDScriptParser : : AssignmentNode * p_assignment ) {
reduce_expression ( p_assignment - > assignee ) ;
reduce_expression ( p_assignment - > assigned_value ) ;
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if ( p_assignment - > assigned_value = = nullptr | | p_assignment - > assignee = = nullptr ) {
return ;
}
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if ( p_assignment - > assignee - > get_datatype ( ) . is_constant ) {
push_error ( " Cannot assign a new value to a constant. " , p_assignment - > assignee ) ;
}
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if ( ! p_assignment - > assignee - > get_datatype ( ) . is_variant ( ) & & ! p_assignment - > assigned_value - > get_datatype ( ) . is_variant ( ) ) {
bool compatible = true ;
GDScriptParser : : DataType op_type = p_assignment - > assigned_value - > get_datatype ( ) ;
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if ( p_assignment - > operation ! = GDScriptParser : : AssignmentNode : : OP_NONE ) {
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op_type = get_operation_type ( p_assignment - > variant_op , p_assignment - > assignee - > get_datatype ( ) , p_assignment - > assigned_value - > get_datatype ( ) , compatible , p_assignment - > assigned_value ) ;
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}
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if ( compatible ) {
compatible = is_type_compatible ( p_assignment - > assignee - > get_datatype ( ) , op_type , true ) ;
if ( ! compatible ) {
if ( p_assignment - > assignee - > get_datatype ( ) . is_hard_type ( ) ) {
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// Try reverse test since it can be a masked subtype.
if ( ! is_type_compatible ( op_type , p_assignment - > assignee - > get_datatype ( ) , true ) ) {
push_error ( vformat ( R " (Cannot assign a value of type " % s " to a target of type " % s " .) " , p_assignment - > assigned_value - > get_datatype ( ) . to_string ( ) , p_assignment - > assignee - > get_datatype ( ) . to_string ( ) ) , p_assignment - > assigned_value ) ;
} else {
// TODO: Add warning.
mark_node_unsafe ( p_assignment ) ;
}
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} else {
// TODO: Warning in this case.
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mark_node_unsafe ( p_assignment ) ;
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}
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}
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} else {
push_error ( vformat ( R " (Invalid operands " % s " and " % s " for assignment operator.) " , p_assignment - > assignee - > get_datatype ( ) . to_string ( ) , p_assignment - > assigned_value - > get_datatype ( ) . to_string ( ) ) , p_assignment ) ;
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}
}
if ( p_assignment - > assignee - > get_datatype ( ) . has_no_type ( ) | | p_assignment - > assigned_value - > get_datatype ( ) . is_variant ( ) ) {
mark_node_unsafe ( p_assignment ) ;
}
if ( p_assignment - > assignee - > type = = GDScriptParser : : Node : : IDENTIFIER ) {
// Change source type so it's not wrongly detected later.
GDScriptParser : : IdentifierNode * identifier = static_cast < GDScriptParser : : IdentifierNode * > ( p_assignment - > assignee ) ;
switch ( identifier - > source ) {
case GDScriptParser : : IdentifierNode : : MEMBER_VARIABLE : {
GDScriptParser : : DataType id_type = identifier - > variable_source - > get_datatype ( ) ;
if ( ! id_type . is_hard_type ( ) ) {
id_type . kind = GDScriptParser : : DataType : : VARIANT ;
id_type . type_source = GDScriptParser : : DataType : : UNDETECTED ;
identifier - > variable_source - > set_datatype ( id_type ) ;
}
} break ;
case GDScriptParser : : IdentifierNode : : LOCAL_VARIABLE : {
GDScriptParser : : DataType id_type = identifier - > variable_source - > get_datatype ( ) ;
if ( ! id_type . is_hard_type ( ) ) {
id_type = p_assignment - > assigned_value - > get_datatype ( ) ;
id_type . type_source = GDScriptParser : : DataType : : INFERRED ;
id_type . is_constant = false ;
identifier - > variable_source - > set_datatype ( id_type ) ;
}
} break ;
case GDScriptParser : : IdentifierNode : : LOCAL_ITERATOR : {
GDScriptParser : : DataType id_type = identifier - > bind_source - > get_datatype ( ) ;
if ( ! id_type . is_hard_type ( ) ) {
id_type = p_assignment - > assigned_value - > get_datatype ( ) ;
id_type . type_source = GDScriptParser : : DataType : : INFERRED ;
id_type . is_constant = false ;
identifier - > variable_source - > set_datatype ( id_type ) ;
}
} break ;
default :
// Nothing to do.
break ;
}
}
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GDScriptParser : : DataType assignee_type = p_assignment - > assignee - > get_datatype ( ) ;
GDScriptParser : : DataType assigned_type = p_assignment - > assigned_value - > get_datatype ( ) ;
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# ifdef DEBUG_ENABLED
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if ( p_assignment - > assigned_value - > type = = GDScriptParser : : Node : : CALL & & assigned_type . kind = = GDScriptParser : : DataType : : BUILTIN & & assigned_type . builtin_type = = Variant : : NIL ) {
parser - > push_warning ( p_assignment - > assigned_value , GDScriptWarning : : VOID_ASSIGNMENT , static_cast < GDScriptParser : : CallNode * > ( p_assignment - > assigned_value ) - > function_name ) ;
} else if ( assignee_type . is_hard_type ( ) & & assignee_type . builtin_type = = Variant : : INT & & assigned_type . builtin_type = = Variant : : FLOAT ) {
parser - > push_warning ( p_assignment - > assigned_value , GDScriptWarning : : NARROWING_CONVERSION ) ;
}
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# endif
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}
void GDScriptAnalyzer : : reduce_await ( GDScriptParser : : AwaitNode * p_await ) {
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if ( p_await - > to_await = = nullptr ) {
GDScriptParser : : DataType await_type ;
await_type . kind = GDScriptParser : : DataType : : VARIANT ;
p_await - > set_datatype ( await_type ) ;
return ;
}
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if ( p_await - > to_await - > type = = GDScriptParser : : Node : : CALL ) {
reduce_call ( static_cast < GDScriptParser : : CallNode * > ( p_await - > to_await ) , true ) ;
} else {
reduce_expression ( p_await - > to_await ) ;
}
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p_await - > is_constant = p_await - > to_await - > is_constant ;
p_await - > reduced_value = p_await - > to_await - > reduced_value ;
GDScriptParser : : DataType awaiting_type = p_await - > to_await - > get_datatype ( ) ;
p_await - > set_datatype ( awaiting_type ) ;
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# ifdef DEBUG_ENABLED
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if ( ! awaiting_type . is_coroutine & & awaiting_type . builtin_type ! = Variant : : SIGNAL ) {
parser - > push_warning ( p_await , GDScriptWarning : : REDUNDANT_AWAIT ) ;
}
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# endif
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}
void GDScriptAnalyzer : : reduce_binary_op ( GDScriptParser : : BinaryOpNode * p_binary_op ) {
reduce_expression ( p_binary_op - > left_operand ) ;
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if ( p_binary_op - > operation = = GDScriptParser : : BinaryOpNode : : OP_TYPE_TEST & & p_binary_op - > right_operand & & p_binary_op - > right_operand - > type = = GDScriptParser : : Node : : IDENTIFIER ) {
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reduce_identifier ( static_cast < GDScriptParser : : IdentifierNode * > ( p_binary_op - > right_operand ) , true ) ;
} else {
reduce_expression ( p_binary_op - > right_operand ) ;
}
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// TODO: Right operand must be a valid type with the `is` operator. Need to check here.
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GDScriptParser : : DataType left_type ;
if ( p_binary_op - > left_operand ) {
left_type = p_binary_op - > left_operand - > get_datatype ( ) ;
}
GDScriptParser : : DataType right_type ;
if ( p_binary_op - > right_operand ) {
right_type = p_binary_op - > right_operand - > get_datatype ( ) ;
}
if ( ! left_type . is_set ( ) | | ! right_type . is_set ( ) ) {
return ;
}
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# ifdef DEBUG_ENABLED
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if ( p_binary_op - > variant_op = = Variant : : OP_DIVIDE & & left_type . builtin_type = = Variant : : INT & & right_type . builtin_type = = Variant : : INT ) {
parser - > push_warning ( p_binary_op , GDScriptWarning : : INTEGER_DIVISION ) ;
}
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# endif
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if ( p_binary_op - > left_operand - > is_constant & & p_binary_op - > right_operand - > is_constant ) {
p_binary_op - > is_constant = true ;
if ( p_binary_op - > variant_op < Variant : : OP_MAX ) {
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bool valid = false ;
Variant : : evaluate ( p_binary_op - > variant_op , p_binary_op - > left_operand - > reduced_value , p_binary_op - > right_operand - > reduced_value , p_binary_op - > reduced_value , valid ) ;
if ( ! valid ) {
if ( p_binary_op - > reduced_value . get_type ( ) = = Variant : : STRING ) {
push_error ( vformat ( R " (%s in operator %s.) " , p_binary_op - > reduced_value , Variant : : get_operator_name ( p_binary_op - > variant_op ) ) , p_binary_op ) ;
} else {
push_error ( vformat ( R " (Invalid operands to operator %s, %s and %s. " . ) " ,
Variant : : get_operator_name ( p_binary_op - > variant_op ) ,
Variant : : get_type_name ( p_binary_op - > left_operand - > reduced_value . get_type ( ) ) ,
Variant : : get_type_name ( p_binary_op - > right_operand - > reduced_value . get_type ( ) ) ) ,
p_binary_op ) ;
}
}
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} else {
if ( p_binary_op - > operation = = GDScriptParser : : BinaryOpNode : : OP_TYPE_TEST ) {
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GDScriptParser : : DataType test_type = right_type ;
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test_type . is_meta_type = false ;
if ( ! is_type_compatible ( test_type , p_binary_op - > left_operand - > get_datatype ( ) , false ) ) {
push_error ( vformat ( R " (Expression is of type " % s " so it can't be of type " % s " .) " ) , p_binary_op - > left_operand ) ;
p_binary_op - > reduced_value = false ;
} else {
p_binary_op - > reduced_value = true ;
}
} else {
ERR_PRINT ( " Parser bug: unknown binary operation. " ) ;
}
}
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p_binary_op - > set_datatype ( type_from_variant ( p_binary_op - > reduced_value , p_binary_op ) ) ;
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return ;
}
GDScriptParser : : DataType result ;
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if ( left_type . is_variant ( ) | | right_type . is_variant ( ) ) {
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// Cannot infer type because one operand can be anything.
result . kind = GDScriptParser : : DataType : : VARIANT ;
mark_node_unsafe ( p_binary_op ) ;
} else {
if ( p_binary_op - > variant_op < Variant : : OP_MAX ) {
bool valid = false ;
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result = get_operation_type ( p_binary_op - > variant_op , p_binary_op - > left_operand - > get_datatype ( ) , right_type , valid , p_binary_op ) ;
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if ( ! valid ) {
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push_error ( vformat ( R " (Invalid operands " % s " and " % s " for " % s " operator.) " , p_binary_op - > left_operand - > get_datatype ( ) . to_string ( ) , right_type . to_string ( ) , Variant : : get_operator_name ( p_binary_op - > variant_op ) ) , p_binary_op ) ;
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}
} else {
if ( p_binary_op - > operation = = GDScriptParser : : BinaryOpNode : : OP_TYPE_TEST ) {
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GDScriptParser : : DataType test_type = right_type ;
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test_type . is_meta_type = false ;
if ( ! is_type_compatible ( test_type , p_binary_op - > left_operand - > get_datatype ( ) , false ) ) {
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// Test reverse as well to consider for subtypes.
if ( ! is_type_compatible ( p_binary_op - > left_operand - > get_datatype ( ) , test_type , false ) ) {
if ( p_binary_op - > left_operand - > get_datatype ( ) . is_hard_type ( ) ) {
push_error ( vformat ( R " (Expression is of type " % s " so it can't be of type " % s " .) " , p_binary_op - > left_operand - > get_datatype ( ) . to_string ( ) , test_type . to_string ( ) ) , p_binary_op - > left_operand ) ;
} else {
// TODO: Warning.
mark_node_unsafe ( p_binary_op ) ;
}
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}
}
// "is" operator is always a boolean anyway.
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
result . kind = GDScriptParser : : DataType : : BUILTIN ;
result . builtin_type = Variant : : BOOL ;
} else {
ERR_PRINT ( " Parser bug: unknown binary operation. " ) ;
}
}
}
p_binary_op - > set_datatype ( result ) ;
}
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void GDScriptAnalyzer : : reduce_call ( GDScriptParser : : CallNode * p_call , bool is_await ) {
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bool all_is_constant = true ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
reduce_expression ( p_call - > arguments [ i ] ) ;
all_is_constant = all_is_constant & & p_call - > arguments [ i ] - > is_constant ;
}
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GDScriptParser : : Node : : Type callee_type = p_call - > get_callee_type ( ) ;
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GDScriptParser : : DataType call_type ;
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if ( ! p_call - > is_super & & callee_type = = GDScriptParser : : Node : : IDENTIFIER ) {
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// Call to name directly.
StringName function_name = p_call - > function_name ;
Variant : : Type builtin_type = GDScriptParser : : get_builtin_type ( function_name ) ;
GDScriptFunctions : : Function builtin_function = GDScriptParser : : get_builtin_function ( function_name ) ;
if ( builtin_type < Variant : : VARIANT_MAX ) {
// Is a builtin constructor.
call_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
call_type . kind = GDScriptParser : : DataType : : BUILTIN ;
call_type . builtin_type = builtin_type ;
if ( builtin_type = = Variant : : OBJECT ) {
call_type . kind = GDScriptParser : : DataType : : NATIVE ;
call_type . native_type = function_name ; // "Object".
}
if ( all_is_constant ) {
// Construct here.
Vector < const Variant * > args ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
args . push_back ( & ( p_call - > arguments [ i ] - > reduced_value ) ) ;
}
Callable : : CallError err ;
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Variant value ;
Variant : : construct ( builtin_type , value , ( const Variant * * ) args . ptr ( ) , args . size ( ) , err ) ;
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switch ( err . error ) {
case Callable : : CallError : : CALL_ERROR_INVALID_ARGUMENT :
push_error ( vformat ( R " (Invalid argument for %s constructor: argument %d should be %s but is %s.) " , Variant : : get_type_name ( builtin_type ) , err . argument + 1 ,
Variant : : get_type_name ( Variant : : Type ( err . expected ) ) , p_call - > arguments [ err . argument ] - > get_datatype ( ) . to_string ( ) ) ,
p_call - > arguments [ err . argument ] ) ;
break ;
case Callable : : CallError : : CALL_ERROR_INVALID_METHOD : {
String signature = Variant : : get_type_name ( builtin_type ) + " ( " ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
if ( i > 0 ) {
signature + = " , " ;
}
signature + = p_call - > arguments [ i ] - > get_datatype ( ) . to_string ( ) ;
}
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signature + = " ) " ;
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push_error ( vformat ( R " (No constructor of " % s " matches the signature " % s " .) " , Variant : : get_type_name ( builtin_type ) , signature ) , p_call - > callee ) ;
} break ;
case Callable : : CallError : : CALL_ERROR_TOO_MANY_ARGUMENTS :
push_error ( vformat ( R " (Too many arguments for %s constructor. Received %d but expected %d.) " , Variant : : get_type_name ( builtin_type ) , p_call - > arguments . size ( ) , err . expected ) , p_call ) ;
break ;
case Callable : : CallError : : CALL_ERROR_TOO_FEW_ARGUMENTS :
push_error ( vformat ( R " (Too few arguments for %s constructor. Received %d but expected %d.) " , Variant : : get_type_name ( builtin_type ) , p_call - > arguments . size ( ) , err . expected ) , p_call ) ;
break ;
case Callable : : CallError : : CALL_ERROR_INSTANCE_IS_NULL :
break ; // Can't happen in a builtin constructor.
case Callable : : CallError : : CALL_OK :
p_call - > is_constant = true ;
p_call - > reduced_value = value ;
break ;
}
} else {
// TODO: Check constructors without constants.
// If there's one argument, try to use copy constructor (those aren't explicitly defined).
if ( p_call - > arguments . size ( ) = = 1 ) {
GDScriptParser : : DataType arg_type = p_call - > arguments [ 0 ] - > get_datatype ( ) ;
if ( arg_type . is_variant ( ) ) {
mark_node_unsafe ( p_call - > arguments [ 0 ] ) ;
} else {
if ( arg_type . kind = = GDScriptParser : : DataType : : BUILTIN & & arg_type . builtin_type = = builtin_type ) {
// Okay.
p_call - > set_datatype ( call_type ) ;
return ;
}
}
}
List < MethodInfo > constructors ;
Variant : : get_constructor_list ( builtin_type , & constructors ) ;
bool match = false ;
for ( const List < MethodInfo > : : Element * E = constructors . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
const MethodInfo & info = E - > get ( ) ;
if ( p_call - > arguments . size ( ) < info . arguments . size ( ) - info . default_arguments . size ( ) ) {
continue ;
}
if ( p_call - > arguments . size ( ) > info . arguments . size ( ) ) {
continue ;
}
bool types_match = true ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
GDScriptParser : : DataType par_type = type_from_property ( info . arguments [ i ] ) ;
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if ( ! is_type_compatible ( par_type , p_call - > arguments [ i ] - > get_datatype ( ) , true ) ) {
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types_match = false ;
break ;
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# ifdef DEBUG_ENABLED
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} else {
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if ( par_type . builtin_type = = Variant : : INT & & p_call - > arguments [ i ] - > get_datatype ( ) . builtin_type = = Variant : : FLOAT ) {
parser - > push_warning ( p_call , GDScriptWarning : : NARROWING_CONVERSION , p_call - > function_name ) ;
}
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# endif
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}
}
if ( types_match ) {
match = true ;
call_type = type_from_property ( info . return_val ) ;
break ;
}
}
if ( ! match ) {
String signature = Variant : : get_type_name ( builtin_type ) + " ( " ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
if ( i > 0 ) {
signature + = " , " ;
}
signature + = p_call - > arguments [ i ] - > get_datatype ( ) . to_string ( ) ;
}
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signature + = " ) " ;
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push_error ( vformat ( R " (No constructor of " % s " matches the signature " % s " .) " , Variant : : get_type_name ( builtin_type ) , signature ) , p_call ) ;
}
}
p_call - > set_datatype ( call_type ) ;
return ;
} else if ( builtin_function < GDScriptFunctions : : FUNC_MAX ) {
MethodInfo function_info = GDScriptFunctions : : get_info ( builtin_function ) ;
if ( all_is_constant & & GDScriptFunctions : : is_deterministic ( builtin_function ) ) {
// Can call on compilation.
Vector < const Variant * > args ;
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
args . push_back ( & ( p_call - > arguments [ i ] - > reduced_value ) ) ;
}
Variant value ;
Callable : : CallError err ;
GDScriptFunctions : : call ( builtin_function , ( const Variant * * ) args . ptr ( ) , args . size ( ) , value , err ) ;
switch ( err . error ) {
case Callable : : CallError : : CALL_ERROR_INVALID_ARGUMENT : {
PropertyInfo wrong_arg = function_info . arguments [ err . argument ] ;
push_error ( vformat ( R " *(Invalid argument for " % s ( ) " function: argument %d should be %s but is %s.)* " , GDScriptFunctions : : get_func_name ( builtin_function ) , err . argument + 1 ,
type_from_property ( wrong_arg ) . to_string ( ) , p_call - > arguments [ err . argument ] - > get_datatype ( ) . to_string ( ) ) ,
p_call - > arguments [ err . argument ] ) ;
} break ;
case Callable : : CallError : : CALL_ERROR_INVALID_METHOD :
push_error ( vformat ( R " (Invalid call for function " % s " .) " , GDScriptFunctions : : get_func_name ( builtin_function ) ) , p_call ) ;
break ;
case Callable : : CallError : : CALL_ERROR_TOO_MANY_ARGUMENTS :
push_error ( vformat ( R " *(Too many arguments for " % s ( ) " call. Expected at most %d but received %d.)* " , GDScriptFunctions : : get_func_name ( builtin_function ) , err . expected , p_call - > arguments . size ( ) ) , p_call ) ;
break ;
case Callable : : CallError : : CALL_ERROR_TOO_FEW_ARGUMENTS :
push_error ( vformat ( R " *(Too few arguments for " % s ( ) " call. Expected at least %d but received %d.)* " , GDScriptFunctions : : get_func_name ( builtin_function ) , err . expected , p_call - > arguments . size ( ) ) , p_call ) ;
break ;
case Callable : : CallError : : CALL_ERROR_INSTANCE_IS_NULL :
break ; // Can't happen in a builtin constructor.
case Callable : : CallError : : CALL_OK :
p_call - > is_constant = true ;
p_call - > reduced_value = value ;
break ;
}
} else {
validate_call_arg ( function_info , p_call ) ;
}
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p_call - > set_datatype ( type_from_property ( function_info . return_val ) ) ;
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return ;
}
}
GDScriptParser : : DataType base_type ;
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call_type . kind = GDScriptParser : : DataType : : VARIANT ;
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bool is_self = false ;
if ( p_call - > is_super ) {
base_type = parser - > current_class - > base_type ;
is_self = true ;
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} else if ( callee_type = = GDScriptParser : : Node : : IDENTIFIER ) {
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base_type = parser - > current_class - > get_datatype ( ) ;
is_self = true ;
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} else if ( callee_type = = GDScriptParser : : Node : : SUBSCRIPT ) {
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GDScriptParser : : SubscriptNode * subscript = static_cast < GDScriptParser : : SubscriptNode * > ( p_call - > callee ) ;
if ( ! subscript - > is_attribute ) {
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// Invalid call. Error already sent in parser.
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// TODO: Could check if Callable here.
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p_call - > set_datatype ( call_type ) ;
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mark_node_unsafe ( p_call ) ;
return ;
}
reduce_expression ( subscript - > base ) ;
base_type = subscript - > base - > get_datatype ( ) ;
} else {
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// Invalid call. Error already sent in parser.
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// TODO: Could check if Callable here too.
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p_call - > set_datatype ( call_type ) ;
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mark_node_unsafe ( p_call ) ;
return ;
}
bool is_static = false ;
bool is_vararg = false ;
int default_arg_count = 0 ;
GDScriptParser : : DataType return_type ;
List < GDScriptParser : : DataType > par_types ;
if ( get_function_signature ( p_call , base_type , p_call - > function_name , return_type , par_types , default_arg_count , is_static , is_vararg ) ) {
validate_call_arg ( par_types , default_arg_count , is_vararg , p_call ) ;
if ( is_self & & parser - > current_function ! = nullptr & & parser - > current_function - > is_static & & ! is_static ) {
push_error ( vformat ( R " *(Cannot call non-static function " % s ( ) " from static function " % s ( ) " .)* " , p_call - > function_name , parser - > current_function - > identifier - > name ) , p_call - > callee ) ;
}
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call_type = return_type ;
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} else {
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// Check if the name exists as something else.
bool found = false ;
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if ( ! p_call - > is_super & & callee_type ! = GDScriptParser : : Node : : NONE ) {
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GDScriptParser : : IdentifierNode * callee_id ;
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if ( callee_type = = GDScriptParser : : Node : : IDENTIFIER ) {
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callee_id = static_cast < GDScriptParser : : IdentifierNode * > ( p_call - > callee ) ;
} else {
// Can only be attribute.
callee_id = static_cast < GDScriptParser : : SubscriptNode * > ( p_call - > callee ) - > attribute ;
}
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if ( callee_id ) {
reduce_identifier_from_base ( callee_id , & base_type ) ;
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GDScriptParser : : DataType callee_datatype = callee_id - > get_datatype ( ) ;
if ( callee_datatype . is_set ( ) & & ! callee_datatype . is_variant ( ) ) {
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found = true ;
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if ( callee_datatype . builtin_type = = Variant : : CALLABLE ) {
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push_error ( vformat ( R " *(Name " % s " is a Callable. You can call it with " % s . call ( ) " instead.)* " , p_call - > function_name , p_call - > function_name ) , p_call - > callee ) ;
} else {
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push_error ( vformat ( R " *(Name " % s " called as a function but is a " % s " .)* " , p_call - > function_name , callee_datatype . to_string ( ) ) , p_call - > callee ) ;
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}
# ifdef DEBUG_ENABLED
} else if ( ! is_self ) {
parser - > push_warning ( p_call , GDScriptWarning : : UNSAFE_METHOD_ACCESS , p_call - > function_name , base_type . to_string ( ) ) ;
mark_node_unsafe ( p_call ) ;
# endif
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}
}
}
if ( ! found & & is_self ) {
String base_name = is_self & & ! p_call - > is_super ? " self " : base_type . to_string ( ) ;
push_error ( vformat ( R " *(Function " % s ( ) " not found in base %s.)* " , p_call - > function_name , base_name ) , p_call - > is_super ? p_call : p_call - > callee ) ;
}
}
if ( call_type . is_coroutine & & ! is_await ) {
push_error ( vformat ( R " *(Function " % s ( ) " is a coroutine, so it must be called with " await " .)* " , p_call - > function_name ) , p_call - > callee ) ;
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}
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p_call - > set_datatype ( call_type ) ;
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}
void GDScriptAnalyzer : : reduce_cast ( GDScriptParser : : CastNode * p_cast ) {
reduce_expression ( p_cast - > operand ) ;
GDScriptParser : : DataType cast_type = resolve_datatype ( p_cast - > cast_type ) ;
if ( ! cast_type . is_set ( ) ) {
return ;
}
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cast_type . is_meta_type = false ; // The casted value won't be a type name.
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p_cast - > set_datatype ( cast_type ) ;
if ( ! cast_type . is_variant ( ) ) {
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GDScriptParser : : DataType op_type = p_cast - > operand - > get_datatype ( ) ;
if ( ! op_type . is_variant ( ) ) {
bool valid = false ;
if ( op_type . kind = = GDScriptParser : : DataType : : BUILTIN & & cast_type . kind = = GDScriptParser : : DataType : : BUILTIN ) {
valid = Variant : : can_convert ( op_type . builtin_type , cast_type . builtin_type ) ;
} else if ( op_type . kind ! = GDScriptParser : : DataType : : BUILTIN & & cast_type . kind ! = GDScriptParser : : DataType : : BUILTIN ) {
valid = is_type_compatible ( cast_type , op_type ) | | is_type_compatible ( op_type , cast_type ) ;
}
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if ( ! valid ) {
push_error ( vformat ( R " (Invalid cast. Cannot convert from " % s " to " % s " .) " , op_type . to_string ( ) , cast_type . to_string ( ) ) , p_cast - > cast_type ) ;
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}
}
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} else {
mark_node_unsafe ( p_cast ) ;
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}
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# ifdef DEBUG_ENABLED
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if ( p_cast - > operand - > get_datatype ( ) . is_variant ( ) ) {
parser - > push_warning ( p_cast , GDScriptWarning : : UNSAFE_CAST , cast_type . to_string ( ) ) ;
mark_node_unsafe ( p_cast ) ;
}
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# endif
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// TODO: Perform cast on constants.
}
void GDScriptAnalyzer : : reduce_dictionary ( GDScriptParser : : DictionaryNode * p_dictionary ) {
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HashMap < Variant , GDScriptParser : : ExpressionNode * , VariantHasher , VariantComparator > elements ;
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for ( int i = 0 ; i < p_dictionary - > elements . size ( ) ; i + + ) {
const GDScriptParser : : DictionaryNode : : Pair & element = p_dictionary - > elements [ i ] ;
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if ( p_dictionary - > style = = GDScriptParser : : DictionaryNode : : PYTHON_DICT ) {
reduce_expression ( element . key ) ;
}
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reduce_expression ( element . value ) ;
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if ( element . key - > is_constant ) {
if ( elements . has ( element . key - > reduced_value ) ) {
push_error ( vformat ( R " (Key " % s " was already used in this dictionary (at line %d).) " , element . key - > reduced_value , elements [ element . key - > reduced_value ] - > start_line ) , element . key ) ;
} else {
elements [ element . key - > reduced_value ] = element . value ;
}
}
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}
// It's dictionary in any case.
GDScriptParser : : DataType dict_type ;
dict_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
dict_type . kind = GDScriptParser : : DataType : : BUILTIN ;
dict_type . builtin_type = Variant : : DICTIONARY ;
dict_type . is_constant = true ;
p_dictionary - > set_datatype ( dict_type ) ;
}
void GDScriptAnalyzer : : reduce_get_node ( GDScriptParser : : GetNodeNode * p_get_node ) {
GDScriptParser : : DataType result ;
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . native_type = " Node " ;
result . builtin_type = Variant : : OBJECT ;
if ( ! ClassDB : : is_parent_class ( get_real_class_name ( parser - > current_class - > base_type . native_type ) , result . native_type ) ) {
push_error ( R " *(Cannot use shorthand " get_node ( ) " notation ( " $ " ) on a class that isn't a node.)* " , p_get_node ) ;
}
p_get_node - > set_datatype ( result ) ;
}
GDScriptParser : : DataType GDScriptAnalyzer : : make_global_class_meta_type ( const StringName & p_class_name ) {
Ref < GDScriptParserRef > ref = get_parser_for ( ScriptServer : : get_global_class_path ( p_class_name ) ) ;
ref - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = GDScriptParser : : DataType : : CLASS ;
type . builtin_type = Variant : : OBJECT ;
type . native_type = ScriptServer : : get_global_class_native_base ( p_class_name ) ;
type . class_type = ref - > get_parser ( ) - > head ;
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type . script_path = ref - > get_parser ( ) - > script_path ;
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type . is_constant = true ;
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type . is_meta_type = true ;
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return type ;
}
void GDScriptAnalyzer : : reduce_identifier_from_base ( GDScriptParser : : IdentifierNode * p_identifier , GDScriptParser : : DataType * p_base ) {
GDScriptParser : : DataType base ;
if ( p_base = = nullptr ) {
base = type_from_metatype ( parser - > current_class - > get_datatype ( ) ) ;
} else {
base = * p_base ;
}
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const StringName & name = p_identifier - > name ;
if ( base . kind = = GDScriptParser : : DataType : : BUILTIN ) {
if ( base . is_meta_type ) {
bool valid = true ;
Variant result = Variant : : get_constant_value ( base . builtin_type , name , & valid ) ;
if ( valid ) {
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = result ;
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p_identifier - > set_datatype ( type_from_variant ( result , p_identifier ) ) ;
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} else {
push_error ( vformat ( R " (Cannot find constant " % s " on type " % s " .) " , name , base . to_string ( ) ) , p_identifier ) ;
}
} else {
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switch ( base . builtin_type ) {
case Variant : : NIL : {
push_error ( vformat ( R " (Invalid get index " % s " on base Nil) " , name ) , p_identifier ) ;
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return ;
}
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case Variant : : DICTIONARY : {
GDScriptParser : : DataType dummy ;
dummy . kind = GDScriptParser : : DataType : : VARIANT ;
p_identifier - > set_datatype ( dummy ) ;
return ;
}
default : {
Callable : : CallError temp ;
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Variant dummy ;
Variant : : construct ( base . builtin_type , dummy , nullptr , 0 , temp ) ;
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List < PropertyInfo > properties ;
dummy . get_property_list ( & properties ) ;
for ( const List < PropertyInfo > : : Element * E = properties . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
const PropertyInfo & prop = E - > get ( ) ;
if ( prop . name = = name ) {
p_identifier - > set_datatype ( type_from_property ( prop ) ) ;
return ;
}
}
push_error ( vformat ( R " (Cannot find property " % s " on base " % s " .) " , name , base . to_string ( ) ) , p_identifier ) ;
}
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}
}
return ;
}
if ( base . kind = = GDScriptParser : : DataType : : ENUM ) {
if ( base . is_meta_type ) {
if ( base . enum_values . has ( name ) ) {
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = base . enum_values [ name ] ;
GDScriptParser : : DataType result ;
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
result . kind = GDScriptParser : : DataType : : ENUM_VALUE ;
result . native_type = base . native_type ;
result . enum_type = name ;
p_identifier - > set_datatype ( result ) ;
} else {
push_error ( vformat ( R " (Cannot find value " % s " in " % s " .) " , name , base . to_string ( ) ) , p_identifier ) ;
}
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} else {
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push_error ( R " (Cannot get property from enum value.) " , p_identifier ) ;
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}
return ;
}
GDScriptParser : : ClassNode * base_class = base . class_type ;
// TODO: Switch current class/function/suite here to avoid misrepresenting identifiers (in recursive reduce calls).
while ( base_class ! = nullptr ) {
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if ( base_class - > identifier & & base_class - > identifier - > name = = name ) {
p_identifier - > set_datatype ( base_class - > get_datatype ( ) ) ;
return ;
}
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if ( base_class - > has_member ( name ) ) {
const GDScriptParser : : ClassNode : : Member & member = base_class - > get_member ( name ) ;
p_identifier - > set_datatype ( member . get_datatype ( ) ) ;
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switch ( member . type ) {
case GDScriptParser : : ClassNode : : Member : : CONSTANT :
// For out-of-order resolution:
reduce_expression ( member . constant - > initializer ) ;
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = member . constant - > initializer - > reduced_value ;
p_identifier - > set_datatype ( member . constant - > initializer - > get_datatype ( ) ) ;
p_identifier - > source = GDScriptParser : : IdentifierNode : : MEMBER_CONSTANT ;
p_identifier - > constant_source = member . constant ;
break ;
case GDScriptParser : : ClassNode : : Member : : ENUM_VALUE :
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = member . enum_value . value ;
break ;
case GDScriptParser : : ClassNode : : Member : : VARIABLE :
p_identifier - > source = GDScriptParser : : IdentifierNode : : MEMBER_VARIABLE ;
p_identifier - > variable_source = member . variable ;
break ;
case GDScriptParser : : ClassNode : : Member : : FUNCTION :
resolve_function_signature ( member . function ) ;
p_identifier - > set_datatype ( make_callable_type ( member . function - > info ) ) ;
break ;
default :
break ; // Type already set.
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}
return ;
}
// Check outer constants.
// TODO: Allow outer static functions.
GDScriptParser : : ClassNode * outer = base_class - > outer ;
while ( outer ! = nullptr ) {
if ( outer - > has_member ( name ) ) {
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const GDScriptParser : : ClassNode : : Member & member = outer - > get_member ( name ) ;
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if ( member . type = = GDScriptParser : : ClassNode : : Member : : CONSTANT ) {
// TODO: Make sure loops won't cause problem. And make special error message for those.
// For out-of-order resolution:
reduce_expression ( member . constant - > initializer ) ;
p_identifier - > set_datatype ( member . get_datatype ( ) ) ;
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = member . constant - > initializer - > reduced_value ;
return ;
}
}
outer = outer - > outer ;
}
base_class = base_class - > base_type . class_type ;
}
// Check native members.
const StringName & native = get_real_class_name ( base . native_type ) ;
if ( class_exists ( native ) ) {
PropertyInfo prop_info ;
MethodInfo method_info ;
if ( ClassDB : : get_property_info ( native , name , & prop_info ) ) {
p_identifier - > set_datatype ( type_from_property ( prop_info ) ) ;
return ;
}
if ( ClassDB : : get_method_info ( native , name , & method_info ) ) {
// Method is callable.
p_identifier - > set_datatype ( make_callable_type ( method_info ) ) ;
return ;
}
if ( ClassDB : : get_signal ( native , name , & method_info ) ) {
// Signal is a type too.
p_identifier - > set_datatype ( make_signal_type ( method_info ) ) ;
return ;
}
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if ( ClassDB : : has_enum ( native , name ) ) {
p_identifier - > set_datatype ( make_native_enum_type ( native , name ) ) ;
return ;
}
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bool valid = false ;
int int_constant = ClassDB : : get_integer_constant ( native , name , & valid ) ;
if ( valid ) {
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = int_constant ;
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p_identifier - > set_datatype ( type_from_variant ( int_constant , p_identifier ) ) ;
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return ;
}
}
}
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void GDScriptAnalyzer : : reduce_identifier ( GDScriptParser : : IdentifierNode * p_identifier , bool can_be_builtin ) {
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// TODO: This is opportunity to further infer types.
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// Check if we are inside and enum. This allows enum values to access other elements of the same enum.
if ( current_enum ) {
for ( int i = 0 ; i < current_enum - > values . size ( ) ; i + + ) {
const GDScriptParser : : EnumNode : : Value & element = current_enum - > values [ i ] ;
if ( element . identifier - > name = = p_identifier - > name ) {
GDScriptParser : : DataType type ;
type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
type . kind = element . parent_enum - > identifier ? GDScriptParser : : DataType : : ENUM_VALUE : GDScriptParser : : DataType : : BUILTIN ;
type . builtin_type = Variant : : INT ;
type . is_constant = true ;
if ( element . parent_enum - > identifier ) {
type . enum_type = element . parent_enum - > identifier - > name ;
}
p_identifier - > set_datatype ( type ) ;
if ( element . resolved ) {
p_identifier - > is_constant = true ;
p_identifier - > reduced_value = element . value ;
} else {
push_error ( R " (Cannot use another enum element before it was declared.) " , p_identifier ) ;
}
return ; // Found anyway.
}
}
}
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// Check if identifier is local.
// If that's the case, the declaration already was solved before.
switch ( p_identifier - > source ) {
case GDScriptParser : : IdentifierNode : : FUNCTION_PARAMETER :
p_identifier - > set_datatype ( p_identifier - > parameter_source - > get_datatype ( ) ) ;
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return ;
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case GDScriptParser : : IdentifierNode : : LOCAL_CONSTANT :
case GDScriptParser : : IdentifierNode : : MEMBER_CONSTANT :
p_identifier - > set_datatype ( p_identifier - > constant_source - > get_datatype ( ) ) ;
p_identifier - > is_constant = true ;
// TODO: Constant should have a value on the node itself.
p_identifier - > reduced_value = p_identifier - > constant_source - > initializer - > reduced_value ;
return ;
case GDScriptParser : : IdentifierNode : : MEMBER_VARIABLE :
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p_identifier - > variable_source - > usages + + ;
[[fallthrough]] ;
case GDScriptParser : : IdentifierNode : : LOCAL_VARIABLE :
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p_identifier - > set_datatype ( p_identifier - > variable_source - > get_datatype ( ) ) ;
return ;
case GDScriptParser : : IdentifierNode : : LOCAL_ITERATOR :
p_identifier - > set_datatype ( p_identifier - > bind_source - > get_datatype ( ) ) ;
return ;
case GDScriptParser : : IdentifierNode : : LOCAL_BIND : {
GDScriptParser : : DataType result = p_identifier - > bind_source - > get_datatype ( ) ;
result . is_constant = true ;
p_identifier - > set_datatype ( result ) ;
return ;
}
case GDScriptParser : : IdentifierNode : : UNDEFINED_SOURCE :
break ;
}
// Not a local, so check members.
reduce_identifier_from_base ( p_identifier ) ;
if ( p_identifier - > get_datatype ( ) . is_set ( ) ) {
// Found.
return ;
}
StringName name = p_identifier - > name ;
p_identifier - > source = GDScriptParser : : IdentifierNode : : UNDEFINED_SOURCE ;
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// Check globals. We make an exception for Variant::OBJECT because it's the base class for
// non-builtin types so we allow doing e.g. Object.new()
Variant : : Type builtin_type = GDScriptParser : : get_builtin_type ( name ) ;
if ( builtin_type ! = Variant : : OBJECT & & builtin_type < Variant : : VARIANT_MAX ) {
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if ( can_be_builtin ) {
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p_identifier - > set_datatype ( make_builtin_meta_type ( builtin_type ) ) ;
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return ;
} else {
push_error ( R " (Builtin type cannot be used as a name on its own.) " , p_identifier ) ;
}
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}
if ( class_exists ( name ) ) {
p_identifier - > set_datatype ( make_native_meta_type ( name ) ) ;
return ;
}
if ( ScriptServer : : is_global_class ( name ) ) {
p_identifier - > set_datatype ( make_global_class_meta_type ( name ) ) ;
return ;
}
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// Try singletons.
// Do this before globals because this might be a singleton loading another one before it's compiled.
if ( ProjectSettings : : get_singleton ( ) - > has_autoload ( name ) ) {
const ProjectSettings : : AutoloadInfo & autoload = ProjectSettings : : get_singleton ( ) - > get_autoload ( name ) ;
if ( autoload . is_singleton ) {
// Singleton exists, so it's at least a Node.
GDScriptParser : : DataType result ;
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
if ( autoload . path . to_lower ( ) . ends_with ( GDScriptLanguage : : get_singleton ( ) - > get_extension ( ) ) ) {
Ref < GDScriptParserRef > parser = get_parser_for ( autoload . path ) ;
if ( parser . is_valid ( ) ) {
Error err = parser - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
if ( err = = OK ) {
result = type_from_metatype ( parser - > get_parser ( ) - > head - > get_datatype ( ) ) ;
}
}
}
result . is_constant = true ;
p_identifier - > set_datatype ( result ) ;
return ;
}
}
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if ( GDScriptLanguage : : get_singleton ( ) - > get_global_map ( ) . has ( name ) ) {
int idx = GDScriptLanguage : : get_singleton ( ) - > get_global_map ( ) [ name ] ;
Variant constant = GDScriptLanguage : : get_singleton ( ) - > get_global_array ( ) [ idx ] ;
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p_identifier - > set_datatype ( type_from_variant ( constant , p_identifier ) ) ;
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p_identifier - > is_constant = true ;
p_identifier - > reduced_value = constant ;
return ;
}
if ( GDScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) . has ( name ) ) {
Variant constant = GDScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) [ name ] ;
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p_identifier - > set_datatype ( type_from_variant ( constant , p_identifier ) ) ;
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p_identifier - > is_constant = true ;
p_identifier - > reduced_value = constant ;
return ;
}
// Not found.
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// Check if it's a builtin function.
if ( parser - > get_builtin_function ( name ) < GDScriptFunctions : : FUNC_MAX ) {
push_error ( vformat ( R " (Built-in function " % s " cannot be used as an identifier.) " , name ) , p_identifier ) ;
} else {
push_error ( vformat ( R " (Identifier " % s " not declared in the current scope.) " , name ) , p_identifier ) ;
}
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GDScriptParser : : DataType dummy ;
dummy . kind = GDScriptParser : : DataType : : VARIANT ;
p_identifier - > set_datatype ( dummy ) ; // Just so type is set to something.
}
void GDScriptAnalyzer : : reduce_literal ( GDScriptParser : : LiteralNode * p_literal ) {
p_literal - > reduced_value = p_literal - > value ;
p_literal - > is_constant = true ;
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p_literal - > set_datatype ( type_from_variant ( p_literal - > reduced_value , p_literal ) ) ;
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}
void GDScriptAnalyzer : : reduce_preload ( GDScriptParser : : PreloadNode * p_preload ) {
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if ( ! p_preload - > path ) {
return ;
}
reduce_expression ( p_preload - > path ) ;
if ( ! p_preload - > path - > is_constant ) {
push_error ( " Preloaded path must be a constant string. " , p_preload - > path ) ;
return ;
}
if ( p_preload - > path - > reduced_value . get_type ( ) ! = Variant : : STRING ) {
push_error ( " Preloaded path must be a constant string. " , p_preload - > path ) ;
} else {
p_preload - > resolved_path = p_preload - > path - > reduced_value ;
// TODO: Save this as script dependency.
if ( p_preload - > resolved_path . is_rel_path ( ) ) {
p_preload - > resolved_path = parser - > script_path . get_base_dir ( ) . plus_file ( p_preload - > resolved_path ) ;
}
p_preload - > resolved_path = p_preload - > resolved_path . simplify_path ( ) ;
if ( ! FileAccess : : exists ( p_preload - > resolved_path ) ) {
push_error ( vformat ( R " (Preload file " % s " does not exist.) " , p_preload - > resolved_path ) , p_preload - > path ) ;
} else {
// TODO: Don't load if validating: use completion cache.
p_preload - > resource = ResourceLoader : : load ( p_preload - > resolved_path ) ;
if ( p_preload - > resource . is_null ( ) ) {
push_error ( vformat ( R " (Could not p_preload resource file " % s " .) " , p_preload - > resolved_path ) , p_preload - > path ) ;
}
}
}
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p_preload - > is_constant = true ;
p_preload - > reduced_value = p_preload - > resource ;
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p_preload - > set_datatype ( type_from_variant ( p_preload - > reduced_value , p_preload ) ) ;
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}
void GDScriptAnalyzer : : reduce_self ( GDScriptParser : : SelfNode * p_self ) {
p_self - > is_constant = false ;
p_self - > set_datatype ( type_from_metatype ( parser - > current_class - > get_datatype ( ) ) ) ;
}
void GDScriptAnalyzer : : reduce_subscript ( GDScriptParser : : SubscriptNode * p_subscript ) {
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if ( p_subscript - > base - > type = = GDScriptParser : : Node : : IDENTIFIER ) {
reduce_identifier ( static_cast < GDScriptParser : : IdentifierNode * > ( p_subscript - > base ) , true ) ;
} else {
reduce_expression ( p_subscript - > base ) ;
}
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GDScriptParser : : DataType result_type ;
// Reduce index first. If it's a constant StringName, use attribute instead.
if ( ! p_subscript - > is_attribute ) {
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if ( p_subscript - > index = = nullptr ) {
return ;
}
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reduce_expression ( p_subscript - > index ) ;
if ( p_subscript - > index - > is_constant & & p_subscript - > index - > reduced_value . get_type ( ) = = Variant : : STRING_NAME ) {
GDScriptParser : : IdentifierNode * attribute = parser - > alloc_node < GDScriptParser : : IdentifierNode > ( ) ;
// Copy location for better error message.
attribute - > start_line = p_subscript - > index - > start_line ;
attribute - > end_line = p_subscript - > index - > end_line ;
attribute - > leftmost_column = p_subscript - > index - > leftmost_column ;
attribute - > rightmost_column = p_subscript - > index - > rightmost_column ;
p_subscript - > is_attribute = true ;
p_subscript - > attribute = attribute ;
}
}
if ( p_subscript - > is_attribute ) {
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if ( p_subscript - > attribute = = nullptr ) {
return ;
}
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if ( p_subscript - > base - > is_constant ) {
// Just try to get it.
bool valid = false ;
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Variant value = p_subscript - > base - > reduced_value . get_named ( p_subscript - > attribute - > name , valid ) ;
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if ( ! valid ) {
push_error ( vformat ( R " (Cannot get member " % s " from " % s " .) " , p_subscript - > attribute - > name , p_subscript - > base - > reduced_value ) , p_subscript - > index ) ;
} else {
p_subscript - > is_constant = true ;
p_subscript - > reduced_value = value ;
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result_type = type_from_variant ( value , p_subscript ) ;
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}
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
} else {
GDScriptParser : : DataType base_type = p_subscript - > base - > get_datatype ( ) ;
if ( base_type . is_variant ( ) ) {
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
mark_node_unsafe ( p_subscript ) ;
} else {
reduce_identifier_from_base ( p_subscript - > attribute , & base_type ) ;
GDScriptParser : : DataType attr_type = p_subscript - > attribute - > get_datatype ( ) ;
if ( attr_type . is_set ( ) ) {
result_type = attr_type ;
p_subscript - > is_constant = p_subscript - > attribute - > is_constant ;
p_subscript - > reduced_value = p_subscript - > attribute - > reduced_value ;
} else {
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if ( base_type . kind = = GDScriptParser : : DataType : : BUILTIN ) {
push_error ( vformat ( R " (Cannot find member " % s " in base " % s " .) " , p_subscript - > attribute - > name , base_type . to_string ( ) ) , p_subscript - > attribute ) ;
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# ifdef DEBUG_ENABLED
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} else {
parser - > push_warning ( p_subscript , GDScriptWarning : : UNSAFE_PROPERTY_ACCESS , p_subscript - > attribute - > name , base_type . to_string ( ) ) ;
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# endif
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}
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result_type . kind = GDScriptParser : : DataType : : VARIANT ;
}
}
}
} else {
// Index was already reduced before.
if ( p_subscript - > base - > is_constant & & p_subscript - > index - > is_constant ) {
// Just try to get it.
bool valid = false ;
Variant value = p_subscript - > base - > reduced_value . get ( p_subscript - > index - > reduced_value , & valid ) ;
if ( ! valid ) {
push_error ( vformat ( R " (Cannot get index " % s " from " % s " .) " , p_subscript - > index - > reduced_value , p_subscript - > base - > reduced_value ) , p_subscript - > index ) ;
} else {
p_subscript - > is_constant = true ;
p_subscript - > reduced_value = value ;
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result_type = type_from_variant ( value , p_subscript ) ;
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}
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
} else {
GDScriptParser : : DataType base_type = p_subscript - > base - > get_datatype ( ) ;
GDScriptParser : : DataType index_type = p_subscript - > index - > get_datatype ( ) ;
if ( base_type . is_variant ( ) ) {
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
mark_node_unsafe ( p_subscript ) ;
} else {
if ( base_type . kind = = GDScriptParser : : DataType : : BUILTIN & & ! index_type . is_variant ( ) ) {
// Check if indexing is valid.
bool error = index_type . kind ! = GDScriptParser : : DataType : : BUILTIN & & base_type . builtin_type ! = Variant : : DICTIONARY ;
if ( ! error ) {
switch ( base_type . builtin_type ) {
// Expect int or real as index.
case Variant : : PACKED_BYTE_ARRAY :
case Variant : : PACKED_COLOR_ARRAY :
case Variant : : PACKED_FLOAT32_ARRAY :
case Variant : : PACKED_FLOAT64_ARRAY :
case Variant : : PACKED_INT32_ARRAY :
case Variant : : PACKED_INT64_ARRAY :
case Variant : : PACKED_STRING_ARRAY :
case Variant : : PACKED_VECTOR2_ARRAY :
case Variant : : PACKED_VECTOR3_ARRAY :
case Variant : : ARRAY :
case Variant : : STRING :
error = index_type . builtin_type ! = Variant : : INT & & index_type . builtin_type ! = Variant : : FLOAT ;
break ;
// Expect String only.
case Variant : : RECT2 :
case Variant : : RECT2I :
case Variant : : PLANE :
case Variant : : QUAT :
case Variant : : AABB :
case Variant : : OBJECT :
error = index_type . builtin_type ! = Variant : : STRING ;
break ;
// Expect String or number.
case Variant : : BASIS :
case Variant : : VECTOR2 :
case Variant : : VECTOR2I :
case Variant : : VECTOR3 :
case Variant : : VECTOR3I :
case Variant : : TRANSFORM :
case Variant : : TRANSFORM2D :
error = index_type . builtin_type ! = Variant : : INT & & index_type . builtin_type ! = Variant : : FLOAT & &
index_type . builtin_type ! = Variant : : STRING ;
break ;
// Expect String or int.
case Variant : : COLOR :
error = index_type . builtin_type ! = Variant : : INT & & index_type . builtin_type ! = Variant : : STRING ;
break ;
// Don't support indexing, but we will check it later.
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case Variant : : RID :
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case Variant : : BOOL :
case Variant : : CALLABLE :
case Variant : : FLOAT :
case Variant : : INT :
case Variant : : NIL :
case Variant : : NODE_PATH :
case Variant : : SIGNAL :
case Variant : : STRING_NAME :
break ;
// Here for completeness.
case Variant : : DICTIONARY :
case Variant : : VARIANT_MAX :
break ;
}
if ( error ) {
push_error ( vformat ( R " (Invalid index type " % s " for a base of type " % s " .) " , index_type . to_string ( ) , base_type . to_string ( ) ) , p_subscript - > index ) ;
}
}
} else if ( base_type . kind ! = GDScriptParser : : DataType : : BUILTIN & & ! index_type . is_variant ( ) ) {
if ( index_type . builtin_type ! = Variant : : STRING & & index_type . builtin_type ! = Variant : : STRING_NAME ) {
push_error ( vformat ( R " (Only String or StringName can be used as index for type " % s " , but received a " % s " .) " , base_type . to_string ( ) , index_type . to_string ( ) ) , p_subscript - > index ) ;
}
}
// Check resulting type if possible.
result_type . builtin_type = Variant : : NIL ;
result_type . kind = GDScriptParser : : DataType : : BUILTIN ;
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result_type . type_source = base_type . is_hard_type ( ) ? GDScriptParser : : DataType : : ANNOTATED_INFERRED : GDScriptParser : : DataType : : INFERRED ;
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switch ( base_type . builtin_type ) {
// Can't index at all.
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case Variant : : RID :
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case Variant : : BOOL :
case Variant : : CALLABLE :
case Variant : : FLOAT :
case Variant : : INT :
case Variant : : NIL :
case Variant : : NODE_PATH :
case Variant : : SIGNAL :
case Variant : : STRING_NAME :
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
push_error ( vformat ( R " (Cannot use subscript operator on a base of type " % s " .) " , base_type . to_string ( ) ) , p_subscript - > base ) ;
break ;
// Return int.
case Variant : : PACKED_BYTE_ARRAY :
case Variant : : PACKED_INT32_ARRAY :
case Variant : : PACKED_INT64_ARRAY :
case Variant : : VECTOR2I :
case Variant : : VECTOR3I :
result_type . builtin_type = Variant : : INT ;
break ;
// Return float.
case Variant : : PACKED_FLOAT32_ARRAY :
case Variant : : PACKED_FLOAT64_ARRAY :
case Variant : : VECTOR2 :
case Variant : : VECTOR3 :
case Variant : : QUAT :
result_type . builtin_type = Variant : : FLOAT ;
break ;
// Return Color.
case Variant : : PACKED_COLOR_ARRAY :
result_type . builtin_type = Variant : : COLOR ;
break ;
// Return String.
case Variant : : PACKED_STRING_ARRAY :
case Variant : : STRING :
result_type . builtin_type = Variant : : STRING ;
break ;
// Return Vector2.
case Variant : : PACKED_VECTOR2_ARRAY :
case Variant : : TRANSFORM2D :
case Variant : : RECT2 :
result_type . builtin_type = Variant : : VECTOR2 ;
break ;
// Return Vector2I.
case Variant : : RECT2I :
result_type . builtin_type = Variant : : VECTOR2I ;
break ;
// Return Vector3.
case Variant : : PACKED_VECTOR3_ARRAY :
case Variant : : AABB :
case Variant : : BASIS :
result_type . builtin_type = Variant : : VECTOR3 ;
break ;
// Depends on the index.
case Variant : : TRANSFORM :
case Variant : : PLANE :
case Variant : : COLOR :
case Variant : : ARRAY :
case Variant : : DICTIONARY :
result_type . kind = GDScriptParser : : DataType : : VARIANT ;
result_type . type_source = GDScriptParser : : DataType : : UNDETECTED ;
break ;
// Here for completeness.
case Variant : : OBJECT :
case Variant : : VARIANT_MAX :
break ;
}
}
}
}
p_subscript - > set_datatype ( result_type ) ;
}
void GDScriptAnalyzer : : reduce_ternary_op ( GDScriptParser : : TernaryOpNode * p_ternary_op ) {
reduce_expression ( p_ternary_op - > condition ) ;
reduce_expression ( p_ternary_op - > true_expr ) ;
reduce_expression ( p_ternary_op - > false_expr ) ;
GDScriptParser : : DataType result ;
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if ( p_ternary_op - > condition & & p_ternary_op - > condition - > is_constant & & p_ternary_op - > true_expr - > is_constant & & p_ternary_op - > false_expr & & p_ternary_op - > false_expr - > is_constant ) {
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p_ternary_op - > is_constant = true ;
if ( p_ternary_op - > condition - > reduced_value . booleanize ( ) ) {
p_ternary_op - > reduced_value = p_ternary_op - > true_expr - > reduced_value ;
} else {
p_ternary_op - > reduced_value = p_ternary_op - > false_expr - > reduced_value ;
}
}
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GDScriptParser : : DataType true_type ;
if ( p_ternary_op - > true_expr ) {
true_type = p_ternary_op - > true_expr - > get_datatype ( ) ;
} else {
true_type . kind = GDScriptParser : : DataType : : VARIANT ;
}
GDScriptParser : : DataType false_type ;
if ( p_ternary_op - > false_expr ) {
false_type = p_ternary_op - > false_expr - > get_datatype ( ) ;
} else {
false_type . kind = GDScriptParser : : DataType : : VARIANT ;
}
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if ( true_type . is_variant ( ) | | false_type . is_variant ( ) ) {
result . kind = GDScriptParser : : DataType : : VARIANT ;
} else {
result = true_type ;
if ( ! is_type_compatible ( true_type , false_type ) ) {
result = false_type ;
if ( ! is_type_compatible ( false_type , true_type ) ) {
result . type_source = GDScriptParser : : DataType : : UNDETECTED ;
result . kind = GDScriptParser : : DataType : : VARIANT ;
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# ifdef DEBUG_ENABLED
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parser - > push_warning ( p_ternary_op , GDScriptWarning : : INCOMPATIBLE_TERNARY ) ;
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# endif
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}
}
}
p_ternary_op - > set_datatype ( result ) ;
}
void GDScriptAnalyzer : : reduce_unary_op ( GDScriptParser : : UnaryOpNode * p_unary_op ) {
reduce_expression ( p_unary_op - > operand ) ;
GDScriptParser : : DataType result ;
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if ( p_unary_op - > operand = = nullptr ) {
result . kind = GDScriptParser : : DataType : : VARIANT ;
p_unary_op - > set_datatype ( result ) ;
return ;
}
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if ( p_unary_op - > operand - > is_constant ) {
p_unary_op - > is_constant = true ;
p_unary_op - > reduced_value = Variant : : evaluate ( p_unary_op - > variant_op , p_unary_op - > operand - > reduced_value , Variant ( ) ) ;
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result = type_from_variant ( p_unary_op - > reduced_value , p_unary_op ) ;
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} else if ( p_unary_op - > operand - > get_datatype ( ) . is_variant ( ) ) {
result . kind = GDScriptParser : : DataType : : VARIANT ;
mark_node_unsafe ( p_unary_op ) ;
} else {
bool valid = false ;
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result = get_operation_type ( p_unary_op - > variant_op , p_unary_op - > operand - > get_datatype ( ) , p_unary_op - > operand - > get_datatype ( ) , valid , p_unary_op ) ;
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if ( ! valid ) {
push_error ( vformat ( R " (Invalid operand of type " % s " for unary operator " % s " .) " , p_unary_op - > operand - > get_datatype ( ) . to_string ( ) , Variant : : get_operator_name ( p_unary_op - > variant_op ) ) , p_unary_op - > operand ) ;
}
}
p_unary_op - > set_datatype ( result ) ;
}
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void GDScriptAnalyzer : : const_fold_array ( GDScriptParser : : ArrayNode * p_array ) {
bool all_is_constant = true ;
for ( int i = 0 ; i < p_array - > elements . size ( ) ; i + + ) {
GDScriptParser : : ExpressionNode * element = p_array - > elements [ i ] ;
all_is_constant = all_is_constant & & element - > is_constant ;
if ( ! all_is_constant ) {
return ;
}
}
Array array ;
array . resize ( p_array - > elements . size ( ) ) ;
for ( int i = 0 ; i < p_array - > elements . size ( ) ; i + + ) {
array [ i ] = p_array - > elements [ i ] - > reduced_value ;
}
p_array - > is_constant = true ;
p_array - > reduced_value = array ;
}
void GDScriptAnalyzer : : const_fold_dictionary ( GDScriptParser : : DictionaryNode * p_dictionary ) {
bool all_is_constant = true ;
for ( int i = 0 ; i < p_dictionary - > elements . size ( ) ; i + + ) {
const GDScriptParser : : DictionaryNode : : Pair & element = p_dictionary - > elements [ i ] ;
all_is_constant = all_is_constant & & element . key - > is_constant & & element . value - > is_constant ;
if ( ! all_is_constant ) {
return ;
}
}
Dictionary dict ;
for ( int i = 0 ; i < p_dictionary - > elements . size ( ) ; i + + ) {
const GDScriptParser : : DictionaryNode : : Pair & element = p_dictionary - > elements [ i ] ;
dict [ element . key - > reduced_value ] = element . value - > reduced_value ;
}
p_dictionary - > is_constant = true ;
p_dictionary - > reduced_value = dict ;
}
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GDScriptParser : : DataType GDScriptAnalyzer : : type_from_variant ( const Variant & p_value , const GDScriptParser : : Node * p_source ) {
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GDScriptParser : : DataType result ;
result . is_constant = true ;
result . kind = GDScriptParser : : DataType : : BUILTIN ;
result . builtin_type = p_value . get_type ( ) ;
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ; // Constant has explicit type.
if ( p_value . get_type ( ) = = Variant : : OBJECT ) {
Object * obj = p_value ;
if ( ! obj ) {
return GDScriptParser : : DataType ( ) ;
}
result . native_type = obj - > get_class_name ( ) ;
Ref < Script > scr = p_value ; // Check if value is a script itself.
if ( scr . is_valid ( ) ) {
result . is_meta_type = true ;
} else {
result . is_meta_type = false ;
scr = obj - > get_script ( ) ;
}
if ( scr . is_valid ( ) ) {
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if ( scr - > is_valid ( ) ) {
result . script_type = scr ;
result . script_path = scr - > get_path ( ) ;
Ref < GDScript > gds = scr ;
if ( gds . is_valid ( ) ) {
result . kind = GDScriptParser : : DataType : : CLASS ;
// This might be an inner class, so we want to get the parser for the root.
// But still get the inner class from that tree.
GDScript * current = gds . ptr ( ) ;
List < StringName > class_chain ;
while ( current - > _owner ) {
// Push to front so it's in reverse.
class_chain . push_front ( current - > name ) ;
current = current - > _owner ;
}
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Ref < GDScriptParserRef > ref = get_parser_for ( current - > path ) ;
ref - > raise_status ( GDScriptParserRef : : INTERFACE_SOLVED ) ;
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GDScriptParser : : ClassNode * found = ref - > get_parser ( ) - > head ;
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// It should be okay to assume this exists, since we have a complete script already.
for ( const List < StringName > : : Element * E = class_chain . front ( ) ; E ; E = E - > next ( ) ) {
found = found - > get_member ( E - > get ( ) ) . m_class ;
}
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result . class_type = found ;
result . script_path = ref - > get_parser ( ) - > script_path ;
} else {
result . kind = GDScriptParser : : DataType : : SCRIPT ;
}
result . native_type = scr - > get_instance_base_type ( ) ;
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} else {
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push_error ( vformat ( R " (Constant value uses script from " % s " which is loaded but not compiled.) " , scr - > get_path ( ) ) , p_source ) ;
result . kind = GDScriptParser : : DataType : : VARIANT ;
result . type_source = GDScriptParser : : DataType : : UNDETECTED ;
result . is_meta_type = false ;
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}
} else {
result . kind = GDScriptParser : : DataType : : NATIVE ;
if ( result . native_type = = GDScriptNativeClass : : get_class_static ( ) ) {
result . is_meta_type = true ;
}
}
}
return result ;
}
GDScriptParser : : DataType GDScriptAnalyzer : : type_from_metatype ( const GDScriptParser : : DataType & p_meta_type ) const {
GDScriptParser : : DataType result = p_meta_type ;
result . is_meta_type = false ;
result . is_constant = false ;
return result ;
}
GDScriptParser : : DataType GDScriptAnalyzer : : type_from_property ( const PropertyInfo & p_property ) const {
GDScriptParser : : DataType result ;
result . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
if ( p_property . type = = Variant : : NIL & & ( p_property . usage & PROPERTY_USAGE_NIL_IS_VARIANT ) ) {
// Variant
result . kind = GDScriptParser : : DataType : : VARIANT ;
return result ;
}
result . builtin_type = p_property . type ;
if ( p_property . type = = Variant : : OBJECT ) {
result . kind = GDScriptParser : : DataType : : NATIVE ;
result . native_type = p_property . class_name = = StringName ( ) ? " Object " : p_property . class_name ;
} else {
result . kind = GDScriptParser : : DataType : : BUILTIN ;
}
return result ;
}
bool GDScriptAnalyzer : : get_function_signature ( GDScriptParser : : Node * p_source , GDScriptParser : : DataType p_base_type , const StringName & p_function , GDScriptParser : : DataType & r_return_type , List < GDScriptParser : : DataType > & r_par_types , int & r_default_arg_count , bool & r_static , bool & r_vararg ) {
r_static = false ;
r_vararg = false ;
r_default_arg_count = 0 ;
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StringName function_name = p_function ;
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if ( p_base_type . kind = = GDScriptParser : : DataType : : BUILTIN ) {
// Construct a base type to get methods.
Callable : : CallError err ;
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Variant dummy ;
Variant : : construct ( p_base_type . builtin_type , dummy , nullptr , 0 , err ) ;
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if ( err . error ! = Callable : : CallError : : CALL_OK ) {
ERR_FAIL_V_MSG ( false , " Could not construct base Variant type. " ) ;
}
List < MethodInfo > methods ;
dummy . get_method_list ( & methods ) ;
for ( const List < MethodInfo > : : Element * E = methods . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_function ) {
return function_signature_from_info ( E - > get ( ) , r_return_type , r_par_types , r_default_arg_count , r_static , r_vararg ) ;
}
}
return false ;
}
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bool is_constructor = p_base_type . is_meta_type & & p_function = = " new " ;
if ( is_constructor ) {
function_name = " _init " ;
r_static = true ;
}
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GDScriptParser : : ClassNode * base_class = p_base_type . class_type ;
GDScriptParser : : FunctionNode * found_function = nullptr ;
while ( found_function = = nullptr & & base_class ! = nullptr ) {
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if ( base_class - > has_member ( function_name ) ) {
if ( base_class - > get_member ( function_name ) . type ! = GDScriptParser : : ClassNode : : Member : : FUNCTION ) {
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// TODO: If this is Callable it can have a better error message.
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push_error ( vformat ( R " (Member " % s " is not a function.) " , function_name ) , p_source ) ;
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return false ;
}
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found_function = base_class - > get_member ( function_name ) . function ;
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}
base_class = base_class - > base_type . class_type ;
}
if ( found_function ! = nullptr ) {
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r_static = is_constructor | | found_function - > is_static ;
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for ( int i = 0 ; i < found_function - > parameters . size ( ) ; i + + ) {
r_par_types . push_back ( found_function - > parameters [ i ] - > get_datatype ( ) ) ;
if ( found_function - > parameters [ i ] - > default_value ! = nullptr ) {
r_default_arg_count + + ;
}
}
r_return_type = found_function - > get_datatype ( ) ;
r_return_type . is_coroutine = found_function - > is_coroutine ;
return true ;
}
Ref < Script > base_script = p_base_type . script_type ;
while ( base_script . is_valid ( ) & & base_script - > is_valid ( ) ) {
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MethodInfo info = base_script - > get_method_info ( function_name ) ;
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if ( ! ( info = = MethodInfo ( ) ) ) {
return function_signature_from_info ( info , r_return_type , r_par_types , r_default_arg_count , r_static , r_vararg ) ;
}
base_script = base_script - > get_base_script ( ) ;
}
// If the base is a script, it might be trying to access members of the Script class itself.
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if ( p_base_type . is_meta_type & & ! is_constructor & & ( p_base_type . kind = = GDScriptParser : : DataType : : SCRIPT | | p_base_type . kind = = GDScriptParser : : DataType : : CLASS ) ) {
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MethodInfo info ;
StringName script_class = p_base_type . kind = = GDScriptParser : : DataType : : SCRIPT ? p_base_type . script_type - > get_class_name ( ) : StringName ( GDScript : : get_class_static ( ) ) ;
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if ( ClassDB : : get_method_info ( script_class , function_name , & info ) ) {
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return function_signature_from_info ( info , r_return_type , r_par_types , r_default_arg_count , r_static , r_vararg ) ;
}
}
StringName base_native = p_base_type . native_type ;
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# ifdef DEBUG_ENABLED
if ( base_native ! = StringName ( ) ) {
// Empty native class might happen in some Script implementations.
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// Just ignore it.
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if ( ! class_exists ( base_native ) ) {
ERR_FAIL_V_MSG ( false , vformat ( " Native class %s used in script doesn't exist or isn't exposed. " , base_native ) ) ;
}
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}
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# endif
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if ( is_constructor ) {
// Native types always have a default constructor.
r_return_type = p_base_type ;
r_return_type . type_source = GDScriptParser : : DataType : : ANNOTATED_EXPLICIT ;
r_return_type . is_meta_type = false ;
return true ;
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}
StringName real_native = get_real_class_name ( base_native ) ;
MethodInfo info ;
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if ( ClassDB : : get_method_info ( real_native , function_name , & info ) ) {
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return function_signature_from_info ( info , r_return_type , r_par_types , r_default_arg_count , r_static , r_vararg ) ;
}
return false ;
}
bool GDScriptAnalyzer : : function_signature_from_info ( const MethodInfo & p_info , GDScriptParser : : DataType & r_return_type , List < GDScriptParser : : DataType > & r_par_types , int & r_default_arg_count , bool & r_static , bool & r_vararg ) {
r_return_type = type_from_property ( p_info . return_val ) ;
r_default_arg_count = p_info . default_arguments . size ( ) ;
r_vararg = ( p_info . flags & METHOD_FLAG_VARARG ) ! = 0 ;
for ( const List < PropertyInfo > : : Element * E = p_info . arguments . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
r_par_types . push_back ( type_from_property ( E - > get ( ) ) ) ;
}
return true ;
}
bool GDScriptAnalyzer : : validate_call_arg ( const MethodInfo & p_method , const GDScriptParser : : CallNode * p_call ) {
List < GDScriptParser : : DataType > arg_types ;
for ( const List < PropertyInfo > : : Element * E = p_method . arguments . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
arg_types . push_back ( type_from_property ( E - > get ( ) ) ) ;
}
return validate_call_arg ( arg_types , p_method . default_arguments . size ( ) , ( p_method . flags & METHOD_FLAG_VARARG ) ! = 0 , p_call ) ;
}
bool GDScriptAnalyzer : : validate_call_arg ( const List < GDScriptParser : : DataType > & p_par_types , int p_default_args_count , bool p_is_vararg , const GDScriptParser : : CallNode * p_call ) {
bool valid = true ;
if ( p_call - > arguments . size ( ) < p_par_types . size ( ) - p_default_args_count ) {
push_error ( vformat ( R " *(Too few arguments for " % s ( ) " call. Expected at least %d but received %d.)* " , p_call - > function_name , p_par_types . size ( ) - p_default_args_count , p_call - > arguments . size ( ) ) , p_call ) ;
valid = false ;
}
if ( ! p_is_vararg & & p_call - > arguments . size ( ) > p_par_types . size ( ) ) {
push_error ( vformat ( R " *(Too many arguments for " % s ( ) " call. Expected at most %d but received %d.)* " , p_call - > function_name , p_par_types . size ( ) , p_call - > arguments . size ( ) ) , p_call - > arguments [ p_par_types . size ( ) ] ) ;
valid = false ;
}
for ( int i = 0 ; i < p_call - > arguments . size ( ) ; i + + ) {
if ( i > = p_par_types . size ( ) ) {
// Already on vararg place.
break ;
}
GDScriptParser : : DataType par_type = p_par_types [ i ] ;
GDScriptParser : : DataType arg_type = p_call - > arguments [ i ] - > get_datatype ( ) ;
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if ( arg_type . is_variant ( ) ) {
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// Argument can be anything, so this is unsafe.
mark_node_unsafe ( p_call - > arguments [ i ] ) ;
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} else if ( par_type . is_hard_type ( ) & & ! is_type_compatible ( par_type , arg_type , true ) ) {
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// Supertypes are acceptable for dynamic compliance, but it's unsafe.
mark_node_unsafe ( p_call ) ;
if ( ! is_type_compatible ( arg_type , par_type ) ) {
push_error ( vformat ( R " *(Invalid argument for " % s ( ) " function: argument %d should be %s but is %s.)* " ,
p_call - > function_name , i + 1 , par_type . to_string ( ) , arg_type . to_string ( ) ) ,
p_call - > arguments [ i ] ) ;
valid = false ;
}
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# ifdef DEBUG_ENABLED
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} else {
if ( par_type . kind = = GDScriptParser : : DataType : : BUILTIN & & par_type . builtin_type = = Variant : : INT & & arg_type . kind = = GDScriptParser : : DataType : : BUILTIN & & arg_type . builtin_type = = Variant : : FLOAT ) {
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parser - > push_warning ( p_call , GDScriptWarning : : NARROWING_CONVERSION , p_call - > function_name ) ;
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}
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# endif
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}
}
return valid ;
}
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# ifdef DEBUG_ENABLED
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bool GDScriptAnalyzer : : is_shadowing ( GDScriptParser : : IdentifierNode * p_local , const String & p_context ) {
const StringName & name = p_local - > name ;
GDScriptParser : : DataType base = parser - > current_class - > get_datatype ( ) ;
GDScriptParser : : ClassNode * base_class = base . class_type ;
while ( base_class ! = nullptr ) {
if ( base_class - > has_member ( name ) ) {
parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE , p_context , p_local - > name , base_class - > get_member ( name ) . get_type_name ( ) , itos ( base_class - > get_member ( name ) . get_line ( ) ) ) ;
return true ;
}
base_class = base_class - > base_type . class_type ;
}
StringName base_native = base . native_type ;
ERR_FAIL_COND_V_MSG ( ! class_exists ( base_native ) , false , " Non-existent native base class. " ) ;
StringName parent = base_native ;
while ( parent ! = StringName ( ) ) {
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StringName real_class_name = get_real_class_name ( parent ) ;
if ( ClassDB : : has_method ( real_class_name , name , true ) ) {
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parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE_BASE_CLASS , p_context , p_local - > name , " method " , parent ) ;
return true ;
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} else if ( ClassDB : : has_signal ( real_class_name , name , true ) ) {
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parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE_BASE_CLASS , p_context , p_local - > name , " signal " , parent ) ;
return true ;
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} else if ( ClassDB : : has_property ( real_class_name , name , true ) ) {
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parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE_BASE_CLASS , p_context , p_local - > name , " property " , parent ) ;
return true ;
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} else if ( ClassDB : : has_integer_constant ( real_class_name , name , true ) ) {
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parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE_BASE_CLASS , p_context , p_local - > name , " constant " , parent ) ;
return true ;
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} else if ( ClassDB : : has_enum ( real_class_name , name , true ) ) {
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parser - > push_warning ( p_local , GDScriptWarning : : SHADOWED_VARIABLE_BASE_CLASS , p_context , p_local - > name , " enum " , parent ) ;
return true ;
}
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parent = ClassDB : : get_parent_class ( real_class_name ) ;
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}
return false ;
}
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# endif
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GDScriptParser : : DataType GDScriptAnalyzer : : get_operation_type ( Variant : : Operator p_operation , const GDScriptParser : : DataType & p_a , const GDScriptParser : : DataType & p_b , bool & r_valid , const GDScriptParser : : Node * p_source ) {
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// This function creates dummy variant values and apply the operation to those. Less error-prone than keeping a table of valid operations.
GDScriptParser : : DataType result ;
result . kind = GDScriptParser : : DataType : : VARIANT ;
Variant : : Type a_type = p_a . builtin_type ;
Variant : : Type b_type = p_b . builtin_type ;
Variant a ;
REF a_ref ;
if ( a_type = = Variant : : OBJECT ) {
a_ref . instance ( ) ;
a = a_ref ;
} else {
Callable : : CallError err ;
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Variant : : construct ( a_type , a , nullptr , 0 , err ) ;
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if ( err . error ! = Callable : : CallError : : CALL_OK ) {
r_valid = false ;
ERR_FAIL_V_MSG ( result , vformat ( " Could not construct value of type %s " , Variant : : get_type_name ( a_type ) ) ) ;
}
}
Variant b ;
REF b_ref ;
if ( b_type = = Variant : : OBJECT ) {
b_ref . instance ( ) ;
b = b_ref ;
} else {
Callable : : CallError err ;
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Variant : : construct ( b_type , b , nullptr , 0 , err ) ;
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if ( err . error ! = Callable : : CallError : : CALL_OK ) {
r_valid = false ;
ERR_FAIL_V_MSG ( result , vformat ( " Could not construct value of type %s " , Variant : : get_type_name ( b_type ) ) ) ;
}
}
// Avoid division by zero.
switch ( b_type ) {
case Variant : : INT :
b = 1 ;
break ;
case Variant : : FLOAT :
b = 1.0 ;
break ;
case Variant : : VECTOR2 :
b = Vector2 ( 1.0 , 1.0 ) ;
break ;
case Variant : : VECTOR2I :
b = Vector2i ( 1 , 1 ) ;
break ;
case Variant : : VECTOR3 :
b = Vector3 ( 1.0 , 1.0 , 1.0 ) ;
break ;
case Variant : : VECTOR3I :
b = Vector3i ( 1 , 1 , 1 ) ;
break ;
case Variant : : COLOR :
b = Color ( 1.0 , 1.0 , 1.0 , 1.0 ) ;
break ;
default :
// No change needed.
break ;
}
// Avoid error in formatting operator (%) where it doesn't find a placeholder.
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if ( a_type = = Variant : : STRING & & b_type ! = Variant : : ARRAY ) {
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a = String ( " %s " ) ;
}
Variant ret ;
Variant : : evaluate ( p_operation , a , b , ret , r_valid ) ;
if ( r_valid ) {
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return type_from_variant ( ret , p_source ) ;
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}
return result ;
}
// TODO: Add safe/unsafe return variable (for variant cases)
bool GDScriptAnalyzer : : is_type_compatible ( const GDScriptParser : : DataType & p_target , const GDScriptParser : : DataType & p_source , bool p_allow_implicit_conversion ) const {
// These return "true" so it doesn't affect users negatively.
ERR_FAIL_COND_V_MSG ( ! p_target . is_set ( ) , true , " Parser bug (please report): Trying to check compatibility of unset target type " ) ;
ERR_FAIL_COND_V_MSG ( ! p_source . is_set ( ) , true , " Parser bug (please report): Trying to check compatibility of unset value type " ) ;
if ( p_target . kind = = GDScriptParser : : DataType : : VARIANT ) {
// Variant can receive anything.
return true ;
}
if ( p_source . kind = = GDScriptParser : : DataType : : VARIANT ) {
// TODO: This is acceptable but unsafe. Make sure unsafe line is set.
return true ;
}
if ( p_target . kind = = GDScriptParser : : DataType : : BUILTIN ) {
bool valid = p_source . kind = = GDScriptParser : : DataType : : BUILTIN & & p_target . builtin_type = = p_source . builtin_type ;
if ( ! valid & & p_allow_implicit_conversion ) {
valid = Variant : : can_convert_strict ( p_source . builtin_type , p_target . builtin_type ) ;
}
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if ( ! valid & & p_target . builtin_type = = Variant : : INT & & p_source . kind = = GDScriptParser : : DataType : : ENUM_VALUE ) {
// Enum value is also integer.
valid = true ;
}
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return valid ;
}
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if ( p_target . kind = = GDScriptParser : : DataType : : ENUM ) {
if ( p_source . kind = = GDScriptParser : : DataType : : BUILTIN & & p_source . builtin_type = = Variant : : INT ) {
return true ;
}
if ( p_source . kind = = GDScriptParser : : DataType : : ENUM_VALUE ) {
if ( p_source . native_type = = p_target . native_type & & p_target . enum_values . has ( p_source . enum_type ) ) {
return true ;
}
}
return false ;
}
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// From here on the target type is an object, so we have to test polymorphism.
if ( p_source . kind = = GDScriptParser : : DataType : : BUILTIN & & p_source . builtin_type = = Variant : : NIL ) {
// null is acceptable in object.
return true ;
}
StringName src_native ;
Ref < Script > src_script ;
const GDScriptParser : : ClassNode * src_class = nullptr ;
switch ( p_source . kind ) {
case GDScriptParser : : DataType : : NATIVE :
if ( p_target . kind ! = GDScriptParser : : DataType : : NATIVE ) {
// Non-native class cannot be supertype of native.
return false ;
}
if ( p_source . is_meta_type ) {
src_native = GDScriptNativeClass : : get_class_static ( ) ;
} else {
src_native = p_source . native_type ;
}
break ;
case GDScriptParser : : DataType : : SCRIPT :
if ( p_target . kind = = GDScriptParser : : DataType : : CLASS ) {
// A script type cannot be a subtype of a GDScript class.
return false ;
}
if ( p_source . is_meta_type ) {
src_native = p_source . script_type - > get_class_name ( ) ;
} else {
src_script = p_source . script_type ;
src_native = src_script - > get_instance_base_type ( ) ;
}
break ;
case GDScriptParser : : DataType : : CLASS :
if ( p_source . is_meta_type ) {
src_native = GDScript : : get_class_static ( ) ;
} else {
src_class = p_source . class_type ;
const GDScriptParser : : ClassNode * base = src_class ;
while ( base - > base_type . kind = = GDScriptParser : : DataType : : CLASS ) {
base = base - > base_type . class_type ;
}
src_native = base - > base_type . native_type ;
src_script = base - > base_type . script_type ;
}
break ;
case GDScriptParser : : DataType : : VARIANT :
case GDScriptParser : : DataType : : BUILTIN :
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case GDScriptParser : : DataType : : ENUM :
case GDScriptParser : : DataType : : ENUM_VALUE :
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case GDScriptParser : : DataType : : UNRESOLVED :
break ; // Already solved before.
}
// Get underscore-prefixed version for some classes.
src_native = get_real_class_name ( src_native ) ;
switch ( p_target . kind ) {
case GDScriptParser : : DataType : : NATIVE : {
if ( p_target . is_meta_type ) {
return ClassDB : : is_parent_class ( src_native , GDScriptNativeClass : : get_class_static ( ) ) ;
}
StringName tgt_native = get_real_class_name ( p_target . native_type ) ;
return ClassDB : : is_parent_class ( src_native , tgt_native ) ;
}
case GDScriptParser : : DataType : : SCRIPT :
if ( p_target . is_meta_type ) {
return ClassDB : : is_parent_class ( src_native , p_target . script_type - > get_class_name ( ) ) ;
}
while ( src_script . is_valid ( ) ) {
if ( src_script = = p_target . script_type ) {
return true ;
}
src_script = src_script - > get_base_script ( ) ;
}
return false ;
case GDScriptParser : : DataType : : CLASS :
if ( p_target . is_meta_type ) {
return ClassDB : : is_parent_class ( src_native , GDScript : : get_class_static ( ) ) ;
}
while ( src_class ! = nullptr ) {
if ( src_class - > fqcn = = p_target . class_type - > fqcn ) {
return true ;
}
src_class = src_class - > base_type . class_type ;
}
return false ;
case GDScriptParser : : DataType : : VARIANT :
case GDScriptParser : : DataType : : BUILTIN :
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case GDScriptParser : : DataType : : ENUM :
case GDScriptParser : : DataType : : ENUM_VALUE :
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case GDScriptParser : : DataType : : UNRESOLVED :
break ; // Already solved before.
}
return false ;
}
void GDScriptAnalyzer : : push_error ( const String & p_message , const GDScriptParser : : Node * p_origin ) {
mark_node_unsafe ( p_origin ) ;
parser - > push_error ( p_message , p_origin ) ;
}
void GDScriptAnalyzer : : mark_node_unsafe ( const GDScriptParser : : Node * p_node ) {
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# ifdef DEBUG_ENABLED
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for ( int i = p_node - > start_line ; i < = p_node - > end_line ; i + + ) {
parser - > unsafe_lines . insert ( i ) ;
}
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# endif
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}
bool GDScriptAnalyzer : : class_exists ( const StringName & p_class ) {
StringName real_name = get_real_class_name ( p_class ) ;
return ClassDB : : class_exists ( real_name ) & & ClassDB : : is_class_exposed ( real_name ) ;
}
Ref < GDScriptParserRef > GDScriptAnalyzer : : get_parser_for ( const String & p_path ) {
Ref < GDScriptParserRef > ref ;
if ( depended_parsers . has ( p_path ) ) {
ref = depended_parsers [ p_path ] ;
} else {
Error err = OK ;
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ref = GDScriptCache : : get_parser ( p_path , GDScriptParserRef : : EMPTY , err , parser - > script_path ) ;
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depended_parsers [ p_path ] = ref ;
}
return ref ;
}
Error GDScriptAnalyzer : : resolve_inheritance ( ) {
return resolve_inheritance ( parser - > head ) ;
}
Error GDScriptAnalyzer : : resolve_interface ( ) {
resolve_class_interface ( parser - > head ) ;
return parser - > errors . empty ( ) ? OK : ERR_PARSE_ERROR ;
}
Error GDScriptAnalyzer : : resolve_body ( ) {
resolve_class_body ( parser - > head ) ;
return parser - > errors . empty ( ) ? OK : ERR_PARSE_ERROR ;
}
Error GDScriptAnalyzer : : resolve_program ( ) {
resolve_class_interface ( parser - > head ) ;
resolve_class_body ( parser - > head ) ;
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List < String > parser_keys ;
depended_parsers . get_key_list ( & parser_keys ) ;
for ( const List < String > : : Element * E = parser_keys . front ( ) ; E ! = nullptr ; E = E - > next ( ) ) {
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if ( depended_parsers [ E - > get ( ) ] . is_null ( ) ) {
return ERR_PARSE_ERROR ;
}
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depended_parsers [ E - > get ( ) ] - > raise_status ( GDScriptParserRef : : FULLY_SOLVED ) ;
}
depended_parsers . clear ( ) ;
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return parser - > errors . empty ( ) ? OK : ERR_PARSE_ERROR ;
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}
Error GDScriptAnalyzer : : analyze ( ) {
parser - > errors . clear ( ) ;
Error err = resolve_inheritance ( parser - > head ) ;
if ( err ) {
return err ;
}
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return resolve_program ( ) ;
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}
GDScriptAnalyzer : : GDScriptAnalyzer ( GDScriptParser * p_parser ) {
parser = p_parser ;
}