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/*************************************************************************/
/* gdscript_parser.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2022 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 "cscript_parser.h"
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# include "core/config/engine.h"
# include "core/config/project_settings.h"
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# include "core/core_string_names.h"
# include "core/io/resource_loader.h"
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# include "core/object/reference.h"
# include "core/object/script_language.h"
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# include "core/os/file_access.h"
# include "core/string/print_string.h"
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# include "cscript.h"
template < class T >
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T * CScriptParser : : alloc_node ( ) {
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T * t = memnew ( T ) ;
t - > next = list ;
list = t ;
if ( ! head ) {
head = t ;
}
t - > line = tokenizer - > get_token_line ( ) ;
t - > column = tokenizer - > get_token_column ( ) ;
return t ;
}
# ifdef DEBUG_ENABLED
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static String _find_function_name ( const CScriptParser : : OperatorNode * p_call ) ;
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# endif // DEBUG_ENABLED
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bool CScriptParser : : _end_statement ( ) {
if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_SEMICOLON ) {
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tokenizer - > advance ( ) ;
return true ; //handle next
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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return true ; //will be handled properly
}
return false ;
}
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void CScriptParser : : _set_end_statement_error ( String p_name ) {
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String error_msg ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER ) {
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error_msg = vformat ( " Expected end of statement ( \" %s \" ), got %s ( \" %s \" ) instead. " , p_name , tokenizer - > get_token_name ( tokenizer - > get_token ( ) ) , tokenizer - > get_token_identifier ( ) ) ;
} else {
error_msg = vformat ( " Expected end of statement ( \" %s \" ), got %s instead. " , p_name , tokenizer - > get_token_name ( tokenizer - > get_token ( ) ) ) ;
}
_set_error ( error_msg ) ;
}
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bool CScriptParser : : _enter_indent_block ( BlockNode * p_block ) {
if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COLON ) {
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// report location at the previous token (on the previous line)
int error_line = tokenizer - > get_token_line ( - 1 ) ;
int error_column = tokenizer - > get_token_column ( - 1 ) ;
_set_error ( " ':' expected at end of line. " , error_line , error_column ) ;
return false ;
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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return false ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_NEWLINE ) {
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// be more python-like
IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
indent_level . push_back ( current_level ) ;
return true ;
//_set_error("newline expected after ':'.");
//return false;
}
while ( true ) {
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_NEWLINE ) {
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return false ; //wtf
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} else if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_EOF ) {
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return false ;
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} else if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_NEWLINE ) {
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int indent = tokenizer - > get_token_line_indent ( ) ;
int tabs = tokenizer - > get_token_line_tab_indent ( ) ;
IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
IndentLevel new_indent ( indent , tabs ) ;
if ( new_indent . is_mixed ( current_level ) ) {
_set_error ( " Mixed tabs and spaces in indentation. " ) ;
return false ;
}
if ( indent < = current_level . indent ) {
return false ;
}
indent_level . push_back ( new_indent ) ;
tokenizer - > advance ( ) ;
return true ;
} else if ( p_block ) {
NewLineNode * nl = alloc_node < NewLineNode > ( ) ;
nl - > line = tokenizer - > get_token_line ( ) ;
p_block - > statements . push_back ( nl ) ;
}
tokenizer - > advance ( ) ; // go to next newline
}
}
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bool CScriptParser : : _parse_arguments ( Node * p_parent , Vector < Node * > & p_args , bool p_static , bool p_can_codecomplete , bool p_parsing_constant ) {
if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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tokenizer - > advance ( ) ;
} else {
parenthesis + + ;
int argidx = 0 ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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_make_completable_call ( argidx ) ;
completion_node = p_parent ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT & & tokenizer - > get_token_constant ( ) . get_type ( ) = = Variant : : STRING & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_CURSOR ) {
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//completing a string argument..
completion_cursor = tokenizer - > get_token_constant ( ) ;
_make_completable_call ( argidx ) ;
completion_node = p_parent ;
tokenizer - > advance ( 1 ) ;
return false ;
}
Node * arg = _parse_expression ( p_parent , p_static , false , p_parsing_constant ) ;
if ( ! arg ) {
return false ;
}
p_args . push_back ( arg ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expression expected " ) ;
return false ;
}
tokenizer - > advance ( ) ;
argidx + + ;
} else {
// something is broken
_set_error ( " Expected ',' or ')' " ) ;
return false ;
}
}
parenthesis - - ;
}
return true ;
}
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void CScriptParser : : _make_completable_call ( int p_arg ) {
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completion_cursor = StringName ( ) ;
completion_type = COMPLETION_CALL_ARGUMENTS ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_argument = p_arg ;
completion_block = current_block ;
completion_found = true ;
tokenizer - > advance ( ) ;
}
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bool CScriptParser : : _get_completable_identifier ( CompletionType p_type , StringName & identifier ) {
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identifier = StringName ( ) ;
if ( tokenizer - > is_token_literal ( ) ) {
identifier = tokenizer - > get_token_literal ( ) ;
tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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completion_cursor = identifier ;
completion_type = p_type ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_block = current_block ;
completion_found = true ;
completion_ident_is_call = false ;
tokenizer - > advance ( ) ;
if ( tokenizer - > is_token_literal ( ) ) {
identifier = identifier . operator String ( ) + tokenizer - > get_token_literal ( ) . operator String ( ) ;
tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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completion_ident_is_call = true ;
}
return true ;
}
return false ;
}
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CScriptParser : : Node * CScriptParser : : _parse_expression ( Node * p_parent , bool p_static , bool p_allow_assign , bool p_parsing_constant ) {
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//Vector<Node*> expressions;
//Vector<OperatorNode::Operator> operators;
Vector < Expression > expression ;
Node * expr = nullptr ;
int op_line = tokenizer - > get_token_line ( ) ; // when operators are created at the bottom, the line might have been changed (\n found)
while ( true ) {
/*****************/
/* Parse Operand */
/*****************/
if ( parenthesis > 0 ) {
//remove empty space (only allowed if inside parenthesis
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
}
}
// Check that the next token is not TK_CURSOR and if it is, the offset should be incremented.
int next_valid_offset = 1 ;
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if ( tokenizer - > get_token ( next_valid_offset ) = = CScriptTokenizer : : TK_CURSOR ) {
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next_valid_offset + + ;
// There is a chunk of the identifier that also needs to be ignored (not always there!)
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if ( tokenizer - > get_token ( next_valid_offset ) = = CScriptTokenizer : : TK_IDENTIFIER ) {
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next_valid_offset + + ;
}
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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//subexpression ()
tokenizer - > advance ( ) ;
parenthesis + + ;
Node * subexpr = _parse_expression ( p_parent , p_static , p_allow_assign , p_parsing_constant ) ;
parenthesis - - ;
if ( ! subexpr ) {
return nullptr ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected ')' in expression " ) ;
return nullptr ;
}
tokenizer - > advance ( ) ;
expr = subexpr ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_DOLLAR ) {
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tokenizer - > advance ( ) ;
String path ;
bool need_identifier = true ;
bool done = false ;
int line = tokenizer - > get_token_line ( ) ;
while ( ! done ) {
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_CURSOR : {
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completion_type = COMPLETION_GET_NODE ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_cursor = path ;
completion_argument = 0 ;
completion_block = current_block ;
completion_found = true ;
tokenizer - > advance ( ) ;
} break ;
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case CScriptTokenizer : : TK_CONSTANT : {
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if ( ! need_identifier ) {
done = true ;
break ;
}
if ( tokenizer - > get_token_constant ( ) . get_type ( ) ! = Variant : : STRING ) {
_set_error ( " Expected string constant or identifier after '$' or '/'. " ) ;
return nullptr ;
}
path + = String ( tokenizer - > get_token_constant ( ) ) ;
tokenizer - > advance ( ) ;
need_identifier = false ;
} break ;
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case CScriptTokenizer : : TK_OP_DIV : {
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if ( need_identifier ) {
done = true ;
break ;
}
path + = " / " ;
tokenizer - > advance ( ) ;
need_identifier = true ;
} break ;
default : {
// Instead of checking for TK_IDENTIFIER, we check with is_token_literal, as this allows us to use match/sync/etc. as a name
if ( need_identifier & & tokenizer - > is_token_literal ( ) ) {
path + = String ( tokenizer - > get_token_literal ( ) ) ;
tokenizer - > advance ( ) ;
need_identifier = false ;
} else {
done = true ;
}
break ;
}
}
}
if ( path = = " " ) {
_set_error ( " Path expected after $. " ) ;
return nullptr ;
}
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_CALL ;
op - > line = line ;
op - > arguments . push_back ( alloc_node < SelfNode > ( ) ) ;
op - > arguments [ 0 ] - > line = line ;
IdentifierNode * funcname = alloc_node < IdentifierNode > ( ) ;
funcname - > name = " get_node " ;
funcname - > line = line ;
op - > arguments . push_back ( funcname ) ;
ConstantNode * nodepath = alloc_node < ConstantNode > ( ) ;
nodepath - > value = NodePath ( StringName ( path ) ) ;
nodepath - > datatype = _type_from_variant ( nodepath - > value ) ;
nodepath - > line = line ;
op - > arguments . push_back ( nodepath ) ;
expr = op ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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tokenizer - > advance ( ) ;
continue ; //no point in cursor in the middle of expression
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT ) {
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//constant defined by tokenizer
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = tokenizer - > get_token_constant ( ) ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
tokenizer - > advance ( ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONST_PI ) {
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//constant defined by tokenizer
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = Math_PI ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
tokenizer - > advance ( ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONST_TAU ) {
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//constant defined by tokenizer
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = Math_TAU ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
tokenizer - > advance ( ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONST_INF ) {
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//constant defined by tokenizer
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = Math_INF ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
tokenizer - > advance ( ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONST_NAN ) {
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//constant defined by tokenizer
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = Math_NAN ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
tokenizer - > advance ( ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_PRELOAD ) {
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//constant defined by tokenizer
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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_set_error ( " Expected '(' after 'preload' " ) ;
return nullptr ;
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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completion_cursor = StringName ( ) ;
completion_node = p_parent ;
completion_type = COMPLETION_RESOURCE_PATH ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_block = current_block ;
completion_argument = 0 ;
completion_found = true ;
tokenizer - > advance ( ) ;
}
String path ;
bool found_constant = false ;
bool valid = false ;
ConstantNode * cn ;
parenthesis + + ;
Node * subexpr = _parse_and_reduce_expression ( p_parent , p_static ) ;
parenthesis - - ;
if ( subexpr ) {
if ( subexpr - > type = = Node : : TYPE_CONSTANT ) {
cn = static_cast < ConstantNode * > ( subexpr ) ;
found_constant = true ;
}
if ( subexpr - > type = = Node : : TYPE_IDENTIFIER ) {
IdentifierNode * in = static_cast < IdentifierNode * > ( subexpr ) ;
// Try to find the constant expression by the identifier
if ( current_class - > constant_expressions . has ( in - > name ) ) {
Node * cn_exp = current_class - > constant_expressions [ in - > name ] . expression ;
if ( cn_exp - > type = = Node : : TYPE_CONSTANT ) {
cn = static_cast < ConstantNode * > ( cn_exp ) ;
found_constant = true ;
}
}
}
if ( found_constant & & cn - > value . get_type ( ) = = Variant : : STRING ) {
valid = true ;
path = ( String ) cn - > value ;
}
}
if ( ! valid ) {
_set_error ( " expected string constant as 'preload' argument. " ) ;
return nullptr ;
}
if ( ! path . is_abs_path ( ) & & base_path ! = " " ) {
path = base_path . plus_file ( path ) ;
}
path = path . replace ( " /// " , " // " ) . simplify_path ( ) ;
if ( path = = self_path ) {
_set_error ( " Can't preload itself (use 'get_script()'). " ) ;
return nullptr ;
}
Ref < Resource > res ;
dependencies . push_back ( path ) ;
if ( ! dependencies_only ) {
if ( ! validating ) {
//this can be too slow for just validating code
if ( for_completion & & ScriptCodeCompletionCache : : get_singleton ( ) & & FileAccess : : exists ( path ) ) {
res = ScriptCodeCompletionCache : : get_singleton ( ) - > get_cached_resource ( path ) ;
} else if ( ! for_completion | | FileAccess : : exists ( path ) ) {
res = ResourceLoader : : load ( path ) ;
}
} else {
if ( ! FileAccess : : exists ( path ) ) {
_set_error ( " Can't preload resource at path: " + path ) ;
return nullptr ;
} else if ( ScriptCodeCompletionCache : : get_singleton ( ) ) {
res = ScriptCodeCompletionCache : : get_singleton ( ) - > get_cached_resource ( path ) ;
}
}
if ( ! res . is_valid ( ) ) {
_set_error ( " Can't preload resource at path: " + path ) ;
return nullptr ;
}
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected ')' after 'preload' path " ) ;
return nullptr ;
}
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Ref < CScript > gds = res ;
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if ( gds . is_valid ( ) & & ! gds - > is_valid ( ) ) {
_set_error ( " Couldn't fully preload the script, possible cyclic reference or compilation error. Use \" load() \" instead if a cyclic reference is intended. " ) ;
return nullptr ;
}
tokenizer - > advance ( ) ;
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = res ;
constant - > datatype = _type_from_variant ( constant - > value ) ;
expr = constant ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_SELF ) {
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if ( p_static ) {
_set_error ( " \" self \" isn't allowed in a static function or constant expression. " ) ;
return nullptr ;
}
//constant defined by tokenizer
SelfNode * self = alloc_node < SelfNode > ( ) ;
tokenizer - > advance ( ) ;
expr = self ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_PERIOD ) {
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Variant : : Type bi_type = tokenizer - > get_token_type ( ) ;
tokenizer - > advance ( 2 ) ;
StringName identifier ;
if ( _get_completable_identifier ( COMPLETION_BUILT_IN_TYPE_CONSTANT , identifier ) ) {
completion_built_in_constant = bi_type ;
}
if ( identifier = = StringName ( ) ) {
_set_error ( " Built-in type constant or static function expected after \" . \" . " ) ;
return nullptr ;
}
if ( ! Variant : : has_constant ( bi_type , identifier ) ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN & &
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Variant : : is_method_const ( bi_type , identifier ) & &
Variant : : get_method_return_type ( bi_type , identifier ) = = bi_type ) {
tokenizer - > advance ( ) ;
OperatorNode * construct = alloc_node < OperatorNode > ( ) ;
construct - > op = OperatorNode : : OP_CALL ;
TypeNode * tn = alloc_node < TypeNode > ( ) ;
tn - > vtype = bi_type ;
construct - > arguments . push_back ( tn ) ;
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_CALL ;
op - > arguments . push_back ( construct ) ;
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
op - > arguments . push_back ( id ) ;
if ( ! _parse_arguments ( op , op - > arguments , p_static , true , p_parsing_constant ) ) {
return nullptr ;
}
expr = op ;
} else {
// Object is a special case
bool valid = false ;
if ( bi_type = = Variant : : OBJECT ) {
int object_constant = ClassDB : : get_integer_constant ( " Object " , identifier , & valid ) ;
if ( valid ) {
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = object_constant ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
expr = cn ;
}
}
if ( ! valid ) {
_set_error ( " Static constant ' " + identifier . operator String ( ) + " ' not present in built-in type " + Variant : : get_type_name ( bi_type ) + " . " ) ;
return nullptr ;
}
}
} else {
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = Variant : : get_constant_value ( bi_type , identifier ) ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
expr = cn ;
}
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} else if ( tokenizer - > get_token ( next_valid_offset ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN & & tokenizer - > is_token_literal ( ) ) {
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// We check with is_token_literal, as this allows us to use match/sync/etc. as a name
//function or constructor
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_CALL ;
//Do a quick Array and Dictionary Check. Replace if either require no arguments.
bool replaced = false ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE ) {
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Variant : : Type ct = tokenizer - > get_token_type ( ) ;
if ( ! p_parsing_constant ) {
if ( ct = = Variant : : ARRAY ) {
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if ( tokenizer - > get_token ( 2 ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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ArrayNode * arr = alloc_node < ArrayNode > ( ) ;
expr = arr ;
replaced = true ;
tokenizer - > advance ( 3 ) ;
}
}
if ( ct = = Variant : : DICTIONARY ) {
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if ( tokenizer - > get_token ( 2 ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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DictionaryNode * dict = alloc_node < DictionaryNode > ( ) ;
expr = dict ;
replaced = true ;
tokenizer - > advance ( 3 ) ;
}
}
}
if ( ! replaced ) {
TypeNode * tn = alloc_node < TypeNode > ( ) ;
tn - > vtype = tokenizer - > get_token_type ( ) ;
op - > arguments . push_back ( tn ) ;
tokenizer - > advance ( 2 ) ;
}
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_FUNC ) {
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BuiltInFunctionNode * bn = alloc_node < BuiltInFunctionNode > ( ) ;
bn - > function = tokenizer - > get_token_built_in_func ( ) ;
op - > arguments . push_back ( bn ) ;
tokenizer - > advance ( 2 ) ;
} else {
SelfNode * self = alloc_node < SelfNode > ( ) ;
op - > arguments . push_back ( self ) ;
StringName identifier ;
if ( _get_completable_identifier ( COMPLETION_FUNCTION , identifier ) ) {
}
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
op - > arguments . push_back ( id ) ;
tokenizer - > advance ( 1 ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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_make_completable_call ( 0 ) ;
completion_node = op ;
}
if ( ! replaced ) {
if ( ! _parse_arguments ( op , op - > arguments , p_static , true , p_parsing_constant ) ) {
return nullptr ;
}
expr = op ;
}
} else if ( tokenizer - > is_token_literal ( 0 , true ) ) {
// We check with is_token_literal, as this allows us to use match/sync/etc. as a name
//identifier (reference)
const ClassNode * cln = current_class ;
bool bfn = false ;
StringName identifier ;
int id_line = tokenizer - > get_token_line ( ) ;
if ( _get_completable_identifier ( COMPLETION_IDENTIFIER , identifier ) ) {
}
BlockNode * b = current_block ;
while ( ! bfn & & b ) {
if ( b - > variables . has ( identifier ) ) {
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
id - > declared_block = b ;
id - > line = id_line ;
expr = id ;
bfn = true ;
# ifdef DEBUG_ENABLED
LocalVarNode * lv = b - > variables [ identifier ] ;
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_OP_ASSIGN_ADD :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_AND :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_OR :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_XOR :
case CScriptTokenizer : : TK_OP_ASSIGN_DIV :
case CScriptTokenizer : : TK_OP_ASSIGN_MOD :
case CScriptTokenizer : : TK_OP_ASSIGN_MUL :
case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_LEFT :
case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_RIGHT :
case CScriptTokenizer : : TK_OP_ASSIGN_SUB : {
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if ( lv - > assignments = = 0 ) {
if ( ! lv - > datatype . has_type ) {
_set_error ( " Using assignment with operation on a variable that was never assigned. " ) ;
return nullptr ;
}
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_add_warning ( CScriptWarning : : UNASSIGNED_VARIABLE_OP_ASSIGN , - 1 , identifier . operator String ( ) ) ;
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}
FALLTHROUGH ;
}
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case CScriptTokenizer : : TK_OP_ASSIGN : {
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lv - > assignments + = 1 ;
lv - > usages - - ; // Assignment is not really usage
} break ;
default : {
lv - > usages + + ;
}
}
# endif // DEBUG_ENABLED
break ;
}
b = b - > parent_block ;
}
if ( ! bfn & & p_parsing_constant ) {
if ( cln - > constant_expressions . has ( identifier ) ) {
expr = cln - > constant_expressions [ identifier ] . expression ;
bfn = true ;
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} else if ( CScriptLanguage : : get_singleton ( ) - > get_global_map ( ) . has ( identifier ) ) {
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//check from constants
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
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constant - > value = CScriptLanguage : : get_singleton ( ) - > get_global_array ( ) [ CScriptLanguage : : get_singleton ( ) - > get_global_map ( ) [ identifier ] ] ;
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constant - > datatype = _type_from_variant ( constant - > value ) ;
constant - > line = id_line ;
expr = constant ;
bfn = true ;
}
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if ( ! bfn & & CScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) . has ( identifier ) ) {
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//check from singletons
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
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constant - > value = CScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) [ identifier ] ;
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expr = constant ;
bfn = true ;
}
if ( ! dependencies_only ) {
if ( ! bfn & & ScriptServer : : is_global_class ( identifier ) ) {
Ref < Script > scr = ResourceLoader : : load ( ScriptServer : : get_global_class_path ( identifier ) ) ;
if ( scr . is_valid ( ) & & scr - > is_valid ( ) ) {
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = scr ;
expr = constant ;
bfn = true ;
}
}
// Check parents for the constant
if ( ! bfn ) {
// Using current_class instead of cln here, since cln is const*
_determine_inheritance ( current_class , false ) ;
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if ( cln - > base_type . has_type & & cln - > base_type . kind = = DataType : : CSCRIPT & & cln - > base_type . script_type - > is_valid ( ) ) {
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RBMap < StringName , Variant > parent_constants ;
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current_class - > base_type . script_type - > get_constants ( & parent_constants ) ;
if ( parent_constants . has ( identifier ) ) {
ConstantNode * constant = alloc_node < ConstantNode > ( ) ;
constant - > value = parent_constants [ identifier ] ;
expr = constant ;
bfn = true ;
}
}
}
}
}
if ( ! bfn ) {
# ifdef DEBUG_ENABLED
if ( current_function ) {
int arg_idx = current_function - > arguments . find ( identifier ) ;
if ( arg_idx ! = - 1 ) {
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_OP_ASSIGN_ADD :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_AND :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_OR :
case CScriptTokenizer : : TK_OP_ASSIGN_BIT_XOR :
case CScriptTokenizer : : TK_OP_ASSIGN_DIV :
case CScriptTokenizer : : TK_OP_ASSIGN_MOD :
case CScriptTokenizer : : TK_OP_ASSIGN_MUL :
case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_LEFT :
case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_RIGHT :
case CScriptTokenizer : : TK_OP_ASSIGN_SUB :
case CScriptTokenizer : : TK_OP_ASSIGN : {
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// Assignment is not really usage
} break ;
default : {
current_function - > arguments_usage . write [ arg_idx ] = current_function - > arguments_usage [ arg_idx ] + 1 ;
}
}
}
}
# endif // DEBUG_ENABLED
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
id - > line = id_line ;
expr = id ;
}
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_ADD | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_SUB | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_NOT | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_BIT_INVERT ) {
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//single prefix operators like !expr +expr -expr ++expr --expr
alloc_node < OperatorNode > ( ) ;
Expression e ;
e . is_op = true ;
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_OP_ADD :
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e . op = OperatorNode : : OP_POS ;
break ;
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case CScriptTokenizer : : TK_OP_SUB :
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e . op = OperatorNode : : OP_NEG ;
break ;
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case CScriptTokenizer : : TK_OP_NOT :
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e . op = OperatorNode : : OP_NOT ;
break ;
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case CScriptTokenizer : : TK_OP_BIT_INVERT :
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e . op = OperatorNode : : OP_BIT_INVERT ;
break ;
default : {
}
}
tokenizer - > advance ( ) ;
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if ( e . op ! = OperatorNode : : OP_NOT & & tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_NOT ) {
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_set_error ( " Misplaced 'not'. " ) ;
return nullptr ;
}
expression . push_back ( e ) ;
continue ; //only exception, must continue...
/*
Node * subexpr = _parse_expression ( op , p_static ) ;
if ( ! subexpr )
return NULL ;
op - > arguments . push_back ( subexpr ) ;
expr = op ; */
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_IS & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE ) {
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// 'is' operator with built-in type
if ( ! expr ) {
_set_error ( " Expected identifier before 'is' operator " ) ;
return nullptr ;
}
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_IS_BUILTIN ;
op - > arguments . push_back ( expr ) ;
tokenizer - > advance ( ) ;
TypeNode * tn = alloc_node < TypeNode > ( ) ;
tn - > vtype = tokenizer - > get_token_type ( ) ;
op - > arguments . push_back ( tn ) ;
tokenizer - > advance ( ) ;
expr = op ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_OPEN ) {
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// array
tokenizer - > advance ( ) ;
ArrayNode * arr = alloc_node < ArrayNode > ( ) ;
bool expecting_comma = false ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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_set_error ( " Unterminated array " ) ;
return nullptr ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ; //ignore newline
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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if ( ! expecting_comma ) {
_set_error ( " expression or ']' expected " ) ;
return nullptr ;
}
expecting_comma = false ;
tokenizer - > advance ( ) ; //ignore newline
} else {
//parse expression
if ( expecting_comma ) {
_set_error ( " ',' or ']' expected " ) ;
return nullptr ;
}
Node * n = _parse_expression ( arr , p_static , p_allow_assign , p_parsing_constant ) ;
if ( ! n ) {
return nullptr ;
}
arr - > elements . push_back ( n ) ;
expecting_comma = true ;
}
}
expr = arr ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_OPEN ) {
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// array
tokenizer - > advance ( ) ;
DictionaryNode * dict = alloc_node < DictionaryNode > ( ) ;
enum DictExpect {
DICT_EXPECT_KEY ,
DICT_EXPECT_COLON ,
DICT_EXPECT_VALUE ,
DICT_EXPECT_COMMA
} ;
Node * key = nullptr ;
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RBSet < Variant > keys ;
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DictExpect expecting = DICT_EXPECT_KEY ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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_set_error ( " Unterminated dictionary " ) ;
return nullptr ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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if ( expecting = = DICT_EXPECT_COLON ) {
_set_error ( " ':' expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_VALUE ) {
_set_error ( " value expected " ) ;
return nullptr ;
}
tokenizer - > advance ( ) ;
break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ; //ignore newline
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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if ( expecting = = DICT_EXPECT_KEY ) {
_set_error ( " key or '}' expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_VALUE ) {
_set_error ( " value expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_COLON ) {
_set_error ( " ':' expected " ) ;
return nullptr ;
}
expecting = DICT_EXPECT_KEY ;
tokenizer - > advance ( ) ; //ignore newline
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
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if ( expecting = = DICT_EXPECT_KEY ) {
_set_error ( " key or '}' expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_VALUE ) {
_set_error ( " value expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_COMMA ) {
_set_error ( " ',' or '}' expected " ) ;
return nullptr ;
}
expecting = DICT_EXPECT_VALUE ;
tokenizer - > advance ( ) ; //ignore newline
} else {
if ( expecting = = DICT_EXPECT_COMMA ) {
_set_error ( " ',' or '}' expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_COLON ) {
_set_error ( " ':' expected " ) ;
return nullptr ;
}
if ( expecting = = DICT_EXPECT_KEY ) {
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if ( tokenizer - > is_token_literal ( ) & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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// We check with is_token_literal, as this allows us to use match/sync/etc. as a name
//lua style identifier, easier to write
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = tokenizer - > get_token_literal ( ) ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
key = cn ;
tokenizer - > advance ( 2 ) ;
expecting = DICT_EXPECT_VALUE ;
} else {
//python/js style more flexible
key = _parse_expression ( dict , p_static , p_allow_assign , p_parsing_constant ) ;
if ( ! key ) {
return nullptr ;
}
expecting = DICT_EXPECT_COLON ;
}
}
if ( expecting = = DICT_EXPECT_VALUE ) {
Node * value = _parse_expression ( dict , p_static , p_allow_assign , p_parsing_constant ) ;
if ( ! value ) {
return nullptr ;
}
expecting = DICT_EXPECT_COMMA ;
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if ( key - > type = = CScriptParser : : Node : : TYPE_CONSTANT ) {
Variant const & keyName = static_cast < const CScriptParser : : ConstantNode * > ( key ) - > value ;
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if ( keys . has ( keyName ) ) {
_set_error ( " Duplicate key found in Dictionary literal " ) ;
return nullptr ;
}
keys . insert ( keyName ) ;
}
DictionaryNode : : Pair pair ;
pair . key = key ;
pair . value = value ;
dict - > elements . push_back ( pair ) ;
key = nullptr ;
}
}
}
expr = dict ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD & & ( tokenizer - > is_token_literal ( 1 ) | | tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_CURSOR ) ) {
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// We check with is_token_literal, as this allows us to use match/sync/etc. as a name
// parent call
tokenizer - > advance ( ) ; //goto identifier
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_PARENT_CALL ;
/*SelfNode *self = alloc_node<SelfNode>();
op - > arguments . push_back ( self ) ;
forbidden for now */
StringName identifier ;
bool is_completion = _get_completable_identifier ( COMPLETION_PARENT_FUNCTION , identifier ) & & for_completion ;
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
op - > arguments . push_back ( id ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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if ( ! is_completion ) {
_set_error ( " Expected '(' for parent function call. " ) ;
return nullptr ;
}
} else {
tokenizer - > advance ( ) ;
if ( ! _parse_arguments ( op , op - > arguments , p_static , false , p_parsing_constant ) ) {
return nullptr ;
}
}
expr = op ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE & & expression . size ( ) > 0 & & expression [ expression . size ( ) - 1 ] . is_op & & expression [ expression . size ( ) - 1 ] . op = = OperatorNode : : OP_IS ) {
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Expression e = expression [ expression . size ( ) - 1 ] ;
e . op = OperatorNode : : OP_IS_BUILTIN ;
expression . write [ expression . size ( ) - 1 ] = e ;
TypeNode * tn = alloc_node < TypeNode > ( ) ;
tn - > vtype = tokenizer - > get_token_type ( ) ;
expr = tn ;
tokenizer - > advance ( ) ;
} else {
//find list [ or find dictionary {
_set_error ( " Error parsing expression, misplaced: " + String ( tokenizer - > get_token_name ( tokenizer - > get_token ( ) ) ) ) ;
return nullptr ; //nothing
}
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ERR_FAIL_COND_V_MSG ( ! expr , nullptr , " CScriptParser bug, couldn't figure out what expression is. " ) ;
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/******************/
/* Parse Indexing */
/******************/
while ( true ) {
//expressions can be indexed any number of times
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD ) {
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//indexing using "."
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if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_CURSOR & & ! tokenizer - > is_token_literal ( 1 ) ) {
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// We check with is_token_literal, as this allows us to use match/sync/etc. as a name
_set_error ( " Expected identifier as member " ) ;
return nullptr ;
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} else if ( tokenizer - > get_token ( 2 ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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//call!!
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_CALL ;
tokenizer - > advance ( ) ;
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
StringName identifier ;
if ( _get_completable_identifier ( COMPLETION_METHOD , identifier ) ) {
completion_node = op ;
//indexing stuff
}
id - > name = identifier ;
op - > arguments . push_back ( expr ) ; // call what
op - > arguments . push_back ( id ) ; // call func
//get arguments
tokenizer - > advance ( 1 ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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_make_completable_call ( 0 ) ;
completion_node = op ;
}
if ( ! _parse_arguments ( op , op - > arguments , p_static , true , p_parsing_constant ) ) {
return nullptr ;
}
expr = op ;
} else {
//simple indexing!
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_INDEX_NAMED ;
tokenizer - > advance ( ) ;
StringName identifier ;
if ( _get_completable_identifier ( COMPLETION_INDEX , identifier ) ) {
if ( identifier = = StringName ( ) ) {
identifier = " @temp " ; //so it parses alright
}
completion_node = op ;
//indexing stuff
}
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = identifier ;
op - > arguments . push_back ( expr ) ;
op - > arguments . push_back ( id ) ;
expr = op ;
}
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_OPEN ) {
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//indexing using "[]"
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_INDEX ;
tokenizer - > advance ( 1 ) ;
parenthesis + + ;
Node * subexpr = _parse_expression ( op , p_static , p_allow_assign , p_parsing_constant ) ;
parenthesis - - ;
if ( ! subexpr ) {
return nullptr ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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_set_error ( " Expected ']' " ) ;
return nullptr ;
}
op - > arguments . push_back ( expr ) ;
op - > arguments . push_back ( subexpr ) ;
tokenizer - > advance ( 1 ) ;
expr = op ;
} else {
break ;
}
}
/*****************/
/* Parse Casting */
/*****************/
bool has_casting = expr - > type = = Node : : TYPE_CAST ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_AS ) {
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if ( has_casting ) {
_set_error ( " Unexpected 'as'. " ) ;
return nullptr ;
}
CastNode * cn = alloc_node < CastNode > ( ) ;
if ( ! _parse_type ( cn - > cast_type ) ) {
_set_error ( " Expected type after 'as'. " ) ;
return nullptr ;
}
has_casting = true ;
cn - > source_node = expr ;
expr = cn ;
}
/******************/
/* Parse Operator */
/******************/
if ( parenthesis > 0 ) {
//remove empty space (only allowed if inside parenthesis
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
}
}
Expression e ;
e . is_op = false ;
e . node = expr ;
expression . push_back ( e ) ;
// determine which operator is next
OperatorNode : : Operator op ;
bool valid = true ;
//assign, if allowed is only allowed on the first operator
# define _VALIDATE_ASSIGN \
if ( ! p_allow_assign | | has_casting ) { \
_set_error ( " Unexpected assign. " ) ; \
return NULL ; \
} \
p_allow_assign = false ;
switch ( tokenizer - > get_token ( ) ) { //see operator
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case CScriptTokenizer : : TK_OP_IN :
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op = OperatorNode : : OP_IN ;
break ;
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case CScriptTokenizer : : TK_OP_EQUAL :
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op = OperatorNode : : OP_EQUAL ;
break ;
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case CScriptTokenizer : : TK_OP_NOT_EQUAL :
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op = OperatorNode : : OP_NOT_EQUAL ;
break ;
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case CScriptTokenizer : : TK_OP_LESS :
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op = OperatorNode : : OP_LESS ;
break ;
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case CScriptTokenizer : : TK_OP_LESS_EQUAL :
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op = OperatorNode : : OP_LESS_EQUAL ;
break ;
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case CScriptTokenizer : : TK_OP_GREATER :
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op = OperatorNode : : OP_GREATER ;
break ;
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case CScriptTokenizer : : TK_OP_GREATER_EQUAL :
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op = OperatorNode : : OP_GREATER_EQUAL ;
break ;
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case CScriptTokenizer : : TK_OP_AND :
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op = OperatorNode : : OP_AND ;
break ;
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case CScriptTokenizer : : TK_OP_OR :
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op = OperatorNode : : OP_OR ;
break ;
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case CScriptTokenizer : : TK_OP_ADD :
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op = OperatorNode : : OP_ADD ;
break ;
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case CScriptTokenizer : : TK_OP_SUB :
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op = OperatorNode : : OP_SUB ;
break ;
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case CScriptTokenizer : : TK_OP_MUL :
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op = OperatorNode : : OP_MUL ;
break ;
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case CScriptTokenizer : : TK_OP_DIV :
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op = OperatorNode : : OP_DIV ;
break ;
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case CScriptTokenizer : : TK_OP_MOD :
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op = OperatorNode : : OP_MOD ;
break ;
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//case CScriptTokenizer::TK_OP_NEG: op=OperatorNode::OP_NEG ; break;
case CScriptTokenizer : : TK_OP_SHIFT_LEFT :
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op = OperatorNode : : OP_SHIFT_LEFT ;
break ;
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case CScriptTokenizer : : TK_OP_SHIFT_RIGHT :
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op = OperatorNode : : OP_SHIFT_RIGHT ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN : {
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN ;
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if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_CURSOR ) {
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//code complete assignment
completion_type = COMPLETION_ASSIGN ;
completion_node = expr ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_block = current_block ;
completion_found = true ;
tokenizer - > advance ( ) ;
}
} break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_ADD :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_ADD ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_SUB :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_SUB ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_MUL :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_MUL ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_DIV :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_DIV ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_MOD :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_MOD ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_LEFT :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_SHIFT_LEFT ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_SHIFT_RIGHT :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_SHIFT_RIGHT ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_BIT_AND :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_BIT_AND ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_BIT_OR :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_BIT_OR ;
break ;
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case CScriptTokenizer : : TK_OP_ASSIGN_BIT_XOR :
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_VALIDATE_ASSIGN op = OperatorNode : : OP_ASSIGN_BIT_XOR ;
break ;
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case CScriptTokenizer : : TK_OP_BIT_AND :
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op = OperatorNode : : OP_BIT_AND ;
break ;
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case CScriptTokenizer : : TK_OP_BIT_OR :
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op = OperatorNode : : OP_BIT_OR ;
break ;
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case CScriptTokenizer : : TK_OP_BIT_XOR :
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op = OperatorNode : : OP_BIT_XOR ;
break ;
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case CScriptTokenizer : : TK_PR_IS :
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op = OperatorNode : : OP_IS ;
break ;
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case CScriptTokenizer : : TK_CF_IF :
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op = OperatorNode : : OP_TERNARY_IF ;
break ;
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case CScriptTokenizer : : TK_CF_ELSE :
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op = OperatorNode : : OP_TERNARY_ELSE ;
break ;
default :
valid = false ;
break ;
}
if ( valid ) {
e . is_op = true ;
e . op = op ;
expression . push_back ( e ) ;
tokenizer - > advance ( ) ;
} else {
break ;
}
}
/* Reduce the set set of expressions and place them in an operator tree, respecting precedence */
while ( expression . size ( ) > 1 ) {
int next_op = - 1 ;
int min_priority = 0xFFFFF ;
bool is_unary = false ;
bool is_ternary = false ;
for ( int i = 0 ; i < expression . size ( ) ; i + + ) {
if ( ! expression [ i ] . is_op ) {
continue ;
}
int priority ;
bool unary = false ;
bool ternary = false ;
bool error = false ;
bool right_to_left = false ;
switch ( expression [ i ] . op ) {
case OperatorNode : : OP_IS :
case OperatorNode : : OP_IS_BUILTIN :
priority = - 1 ;
break ; //before anything
case OperatorNode : : OP_BIT_INVERT :
priority = 0 ;
unary = true ;
break ;
case OperatorNode : : OP_NEG :
case OperatorNode : : OP_POS :
priority = 1 ;
unary = true ;
break ;
case OperatorNode : : OP_MUL :
priority = 2 ;
break ;
case OperatorNode : : OP_DIV :
priority = 2 ;
break ;
case OperatorNode : : OP_MOD :
priority = 2 ;
break ;
case OperatorNode : : OP_ADD :
priority = 3 ;
break ;
case OperatorNode : : OP_SUB :
priority = 3 ;
break ;
case OperatorNode : : OP_SHIFT_LEFT :
priority = 4 ;
break ;
case OperatorNode : : OP_SHIFT_RIGHT :
priority = 4 ;
break ;
case OperatorNode : : OP_BIT_AND :
priority = 5 ;
break ;
case OperatorNode : : OP_BIT_XOR :
priority = 6 ;
break ;
case OperatorNode : : OP_BIT_OR :
priority = 7 ;
break ;
case OperatorNode : : OP_LESS :
priority = 8 ;
break ;
case OperatorNode : : OP_LESS_EQUAL :
priority = 8 ;
break ;
case OperatorNode : : OP_GREATER :
priority = 8 ;
break ;
case OperatorNode : : OP_GREATER_EQUAL :
priority = 8 ;
break ;
case OperatorNode : : OP_EQUAL :
priority = 8 ;
break ;
case OperatorNode : : OP_NOT_EQUAL :
priority = 8 ;
break ;
case OperatorNode : : OP_IN :
priority = 10 ;
break ;
case OperatorNode : : OP_NOT :
priority = 11 ;
unary = true ;
break ;
case OperatorNode : : OP_AND :
priority = 12 ;
break ;
case OperatorNode : : OP_OR :
priority = 13 ;
break ;
case OperatorNode : : OP_TERNARY_IF :
priority = 14 ;
ternary = true ;
right_to_left = true ;
break ;
case OperatorNode : : OP_TERNARY_ELSE :
priority = 14 ;
error = true ;
// Rigth-to-left should be false in this case, otherwise it would always error.
break ;
case OperatorNode : : OP_ASSIGN :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_ADD :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_SUB :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_MUL :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_DIV :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_MOD :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_SHIFT_LEFT :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_SHIFT_RIGHT :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_BIT_AND :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_BIT_OR :
priority = 15 ;
break ;
case OperatorNode : : OP_ASSIGN_BIT_XOR :
priority = 15 ;
break ;
default : {
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_set_error ( " CScriptParser bug, invalid operator in expression: " + itos ( expression [ i ] . op ) ) ;
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return nullptr ;
}
}
if ( priority < min_priority | | ( right_to_left & & priority = = min_priority ) ) {
// < is used for left to right (default)
// <= is used for right to left
if ( error ) {
_set_error ( " Unexpected operator " ) ;
return nullptr ;
}
next_op = i ;
min_priority = priority ;
is_unary = unary ;
is_ternary = ternary ;
}
}
if ( next_op = = - 1 ) {
_set_error ( " Yet another parser bug.... " ) ;
ERR_FAIL_V ( nullptr ) ;
}
// OK! create operator..
if ( is_unary ) {
int expr_pos = next_op ;
while ( expression [ expr_pos ] . is_op ) {
expr_pos + + ;
if ( expr_pos = = expression . size ( ) ) {
//can happen..
_set_error ( " Unexpected end of expression... " ) ;
return nullptr ;
}
}
//consecutively do unary operators
for ( int i = expr_pos - 1 ; i > = next_op ; i - - ) {
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = expression [ i ] . op ;
op - > arguments . push_back ( expression [ i + 1 ] . node ) ;
op - > line = op_line ; //line might have been changed from a \n
expression . write [ i ] . is_op = false ;
expression . write [ i ] . node = op ;
expression . remove ( i + 1 ) ;
}
} else if ( is_ternary ) {
if ( next_op < 1 | | next_op > = ( expression . size ( ) - 1 ) ) {
_set_error ( " Parser bug... " ) ;
ERR_FAIL_V ( nullptr ) ;
}
if ( next_op > = ( expression . size ( ) - 2 ) | | expression [ next_op + 2 ] . op ! = OperatorNode : : OP_TERNARY_ELSE ) {
_set_error ( " Expected else after ternary if. " ) ;
return nullptr ;
}
if ( next_op > = ( expression . size ( ) - 3 ) ) {
_set_error ( " Expected value after ternary else. " ) ;
return nullptr ;
}
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = expression [ next_op ] . op ;
op - > line = op_line ; //line might have been changed from a \n
if ( expression [ next_op - 1 ] . is_op ) {
_set_error ( " Parser bug... " ) ;
ERR_FAIL_V ( nullptr ) ;
}
if ( expression [ next_op + 1 ] . is_op ) {
// this is not invalid and can really appear
// but it becomes invalid anyway because no binary op
// can be followed by a unary op in a valid combination,
// due to how precedence works, unaries will always disappear first
_set_error ( " Unexpected two consecutive operators after ternary if. " ) ;
return nullptr ;
}
if ( expression [ next_op + 3 ] . is_op ) {
// this is not invalid and can really appear
// but it becomes invalid anyway because no binary op
// can be followed by a unary op in a valid combination,
// due to how precedence works, unaries will always disappear first
_set_error ( " Unexpected two consecutive operators after ternary else. " ) ;
return nullptr ;
}
op - > arguments . push_back ( expression [ next_op + 1 ] . node ) ; //next expression goes as first
op - > arguments . push_back ( expression [ next_op - 1 ] . node ) ; //left expression goes as when-true
op - > arguments . push_back ( expression [ next_op + 3 ] . node ) ; //expression after next goes as when-false
//replace all 3 nodes by this operator and make it an expression
expression . write [ next_op - 1 ] . node = op ;
expression . remove ( next_op ) ;
expression . remove ( next_op ) ;
expression . remove ( next_op ) ;
expression . remove ( next_op ) ;
} else {
if ( next_op < 1 | | next_op > = ( expression . size ( ) - 1 ) ) {
_set_error ( " Parser bug... " ) ;
ERR_FAIL_V ( nullptr ) ;
}
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = expression [ next_op ] . op ;
op - > line = op_line ; //line might have been changed from a \n
if ( expression [ next_op - 1 ] . is_op ) {
_set_error ( " Parser bug... " ) ;
ERR_FAIL_V ( nullptr ) ;
}
if ( expression [ next_op + 1 ] . is_op ) {
// this is not invalid and can really appear
// but it becomes invalid anyway because no binary op
// can be followed by a unary op in a valid combination,
// due to how precedence works, unaries will always disappear first
_set_error ( " Unexpected two consecutive operators. " ) ;
return nullptr ;
}
op - > arguments . push_back ( expression [ next_op - 1 ] . node ) ; //expression goes as left
op - > arguments . push_back ( expression [ next_op + 1 ] . node ) ; //next expression goes as right
//replace all 3 nodes by this operator and make it an expression
expression . write [ next_op - 1 ] . node = op ;
expression . remove ( next_op ) ;
expression . remove ( next_op ) ;
}
}
return expression [ 0 ] . node ;
}
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CScriptParser : : Node * CScriptParser : : _reduce_expression ( Node * p_node , bool p_to_const ) {
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switch ( p_node - > type ) {
case Node : : TYPE_BUILT_IN_FUNCTION : {
//many may probably be optimizable
return p_node ;
} break ;
case Node : : TYPE_ARRAY : {
ArrayNode * an = static_cast < ArrayNode * > ( p_node ) ;
bool all_constants = true ;
for ( int i = 0 ; i < an - > elements . size ( ) ; i + + ) {
an - > elements . write [ i ] = _reduce_expression ( an - > elements [ i ] , p_to_const ) ;
if ( an - > elements [ i ] - > type ! = Node : : TYPE_CONSTANT ) {
all_constants = false ;
}
}
if ( all_constants & & p_to_const ) {
//reduce constant array expression
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
Array arr ;
arr . resize ( an - > elements . size ( ) ) ;
for ( int i = 0 ; i < an - > elements . size ( ) ; i + + ) {
ConstantNode * acn = static_cast < ConstantNode * > ( an - > elements [ i ] ) ;
arr [ i ] = acn - > value ;
}
cn - > value = arr ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
return cn ;
}
return an ;
} break ;
case Node : : TYPE_DICTIONARY : {
DictionaryNode * dn = static_cast < DictionaryNode * > ( p_node ) ;
bool all_constants = true ;
for ( int i = 0 ; i < dn - > elements . size ( ) ; i + + ) {
dn - > elements . write [ i ] . key = _reduce_expression ( dn - > elements [ i ] . key , p_to_const ) ;
if ( dn - > elements [ i ] . key - > type ! = Node : : TYPE_CONSTANT ) {
all_constants = false ;
}
dn - > elements . write [ i ] . value = _reduce_expression ( dn - > elements [ i ] . value , p_to_const ) ;
if ( dn - > elements [ i ] . value - > type ! = Node : : TYPE_CONSTANT ) {
all_constants = false ;
}
}
if ( all_constants & & p_to_const ) {
//reduce constant array expression
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
Dictionary dict ;
for ( int i = 0 ; i < dn - > elements . size ( ) ; i + + ) {
ConstantNode * key_c = static_cast < ConstantNode * > ( dn - > elements [ i ] . key ) ;
ConstantNode * value_c = static_cast < ConstantNode * > ( dn - > elements [ i ] . value ) ;
dict [ key_c - > value ] = value_c - > value ;
}
cn - > value = dict ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
return cn ;
}
return dn ;
} break ;
case Node : : TYPE_OPERATOR : {
OperatorNode * op = static_cast < OperatorNode * > ( p_node ) ;
bool all_constants = true ;
int last_not_constant = - 1 ;
for ( int i = 0 ; i < op - > arguments . size ( ) ; i + + ) {
op - > arguments . write [ i ] = _reduce_expression ( op - > arguments [ i ] , p_to_const ) ;
if ( op - > arguments [ i ] - > type ! = Node : : TYPE_CONSTANT ) {
all_constants = false ;
last_not_constant = i ;
}
}
if ( op - > op = = OperatorNode : : OP_IS ) {
//nothing much
return op ;
}
if ( op - > op = = OperatorNode : : OP_PARENT_CALL ) {
//nothing much
return op ;
} else if ( op - > op = = OperatorNode : : OP_CALL ) {
//can reduce base type constructors
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if ( ( op - > arguments [ 0 ] - > type = = Node : : TYPE_TYPE | | ( op - > arguments [ 0 ] - > type = = Node : : TYPE_BUILT_IN_FUNCTION & & CScriptFunctions : : is_deterministic ( static_cast < BuiltInFunctionNode * > ( op - > arguments [ 0 ] ) - > function ) ) ) & & last_not_constant = = 0 ) {
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//native type constructor or intrinsic function
const Variant * * vptr = nullptr ;
Vector < Variant * > ptrs ;
if ( op - > arguments . size ( ) > 1 ) {
ptrs . resize ( op - > arguments . size ( ) - 1 ) ;
for ( int i = 0 ; i < ptrs . size ( ) ; i + + ) {
ConstantNode * cn = static_cast < ConstantNode * > ( op - > arguments [ i + 1 ] ) ;
ptrs . write [ i ] = & cn - > value ;
}
vptr = ( const Variant * * ) & ptrs [ 0 ] ;
}
Variant : : CallError ce ;
Variant v ;
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_TYPE ) {
TypeNode * tn = static_cast < TypeNode * > ( op - > arguments [ 0 ] ) ;
v = Variant : : construct ( tn - > vtype , vptr , ptrs . size ( ) , ce ) ;
} else {
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CScriptFunctions : : Function func = static_cast < BuiltInFunctionNode * > ( op - > arguments [ 0 ] ) - > function ;
CScriptFunctions : : call ( func , vptr , ptrs . size ( ) , v , ce ) ;
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}
if ( ce . error ! = Variant : : CallError : : CALL_OK ) {
String errwhere ;
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_TYPE ) {
TypeNode * tn = static_cast < TypeNode * > ( op - > arguments [ 0 ] ) ;
errwhere = " ' " + Variant : : get_type_name ( tn - > vtype ) + " ' constructor " ;
} else {
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CScriptFunctions : : Function func = static_cast < BuiltInFunctionNode * > ( op - > arguments [ 0 ] ) - > function ;
errwhere = String ( " ' " ) + CScriptFunctions : : get_func_name ( func ) + " ' intrinsic function " ;
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}
switch ( ce . error ) {
case Variant : : CallError : : CALL_ERROR_INVALID_ARGUMENT : {
_set_error ( " Invalid argument (# " + itos ( ce . argument + 1 ) + " ) for " + errwhere + " . " ) ;
} break ;
case Variant : : CallError : : CALL_ERROR_TOO_MANY_ARGUMENTS : {
_set_error ( " Too many arguments for " + errwhere + " . " ) ;
} break ;
case Variant : : CallError : : CALL_ERROR_TOO_FEW_ARGUMENTS : {
_set_error ( " Too few arguments for " + errwhere + " . " ) ;
} break ;
default : {
_set_error ( " Invalid arguments for " + errwhere + " . " ) ;
} break ;
}
error_line = op - > line ;
return p_node ;
}
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = v ;
cn - > datatype = _type_from_variant ( v ) ;
return cn ;
}
return op ; //don't reduce yet
} else if ( op - > op = = OperatorNode : : OP_INDEX ) {
//can reduce indices into constant arrays or dictionaries
if ( all_constants ) {
ConstantNode * ca = static_cast < ConstantNode * > ( op - > arguments [ 0 ] ) ;
ConstantNode * cb = static_cast < ConstantNode * > ( op - > arguments [ 1 ] ) ;
bool valid ;
Variant v = ca - > value . get ( cb - > value , & valid ) ;
if ( ! valid ) {
_set_error ( " invalid index in constant expression " ) ;
error_line = op - > line ;
return op ;
}
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = v ;
cn - > datatype = _type_from_variant ( v ) ;
return cn ;
}
return op ;
} else if ( op - > op = = OperatorNode : : OP_INDEX_NAMED ) {
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_CONSTANT & & op - > arguments [ 1 ] - > type = = Node : : TYPE_IDENTIFIER ) {
ConstantNode * ca = static_cast < ConstantNode * > ( op - > arguments [ 0 ] ) ;
IdentifierNode * ib = static_cast < IdentifierNode * > ( op - > arguments [ 1 ] ) ;
bool valid ;
Variant v = ca - > value . get_named ( ib - > name , & valid ) ;
if ( ! valid ) {
_set_error ( " invalid index ' " + String ( ib - > name ) + " ' in constant expression " ) ;
error_line = op - > line ;
return op ;
}
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = v ;
cn - > datatype = _type_from_variant ( v ) ;
return cn ;
}
return op ;
}
//validate assignment (don't assign to constant expression
switch ( op - > op ) {
case OperatorNode : : OP_ASSIGN :
case OperatorNode : : OP_ASSIGN_ADD :
case OperatorNode : : OP_ASSIGN_SUB :
case OperatorNode : : OP_ASSIGN_MUL :
case OperatorNode : : OP_ASSIGN_DIV :
case OperatorNode : : OP_ASSIGN_MOD :
case OperatorNode : : OP_ASSIGN_SHIFT_LEFT :
case OperatorNode : : OP_ASSIGN_SHIFT_RIGHT :
case OperatorNode : : OP_ASSIGN_BIT_AND :
case OperatorNode : : OP_ASSIGN_BIT_OR :
case OperatorNode : : OP_ASSIGN_BIT_XOR : {
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_CONSTANT ) {
_set_error ( " Can't assign to constant " , tokenizer - > get_token_line ( ) - 1 ) ;
error_line = op - > line ;
return op ;
} else if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_SELF ) {
_set_error ( " Can't assign to self. " , op - > line ) ;
error_line = op - > line ;
return op ;
}
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * on = static_cast < OperatorNode * > ( op - > arguments [ 0 ] ) ;
if ( on - > op ! = OperatorNode : : OP_INDEX & & on - > op ! = OperatorNode : : OP_INDEX_NAMED ) {
_set_error ( " Can't assign to an expression " , tokenizer - > get_token_line ( ) - 1 ) ;
error_line = op - > line ;
return op ;
}
}
} break ;
default : {
break ;
}
}
//now se if all are constants
if ( ! all_constants ) {
return op ; //nothing to reduce from here on
}
# define _REDUCE_UNARY(m_vop) \
bool valid = false ; \
Variant res ; \
Variant : : evaluate ( m_vop , static_cast < ConstantNode * > ( op - > arguments [ 0 ] ) - > value , Variant ( ) , res , valid ) ; \
if ( ! valid ) { \
_set_error ( " Invalid operand for unary operator " ) ; \
error_line = op - > line ; \
return p_node ; \
} \
ConstantNode * cn = alloc_node < ConstantNode > ( ) ; \
cn - > value = res ; \
cn - > datatype = _type_from_variant ( res ) ; \
return cn ;
# define _REDUCE_BINARY(m_vop) \
bool valid = false ; \
Variant res ; \
Variant : : evaluate ( m_vop , static_cast < ConstantNode * > ( op - > arguments [ 0 ] ) - > value , static_cast < ConstantNode * > ( op - > arguments [ 1 ] ) - > value , res , valid ) ; \
if ( ! valid ) { \
_set_error ( " Invalid operands for operator " ) ; \
error_line = op - > line ; \
return p_node ; \
} \
ConstantNode * cn = alloc_node < ConstantNode > ( ) ; \
cn - > value = res ; \
cn - > datatype = _type_from_variant ( res ) ; \
return cn ;
switch ( op - > op ) {
//unary operators
case OperatorNode : : OP_NEG : {
_REDUCE_UNARY ( Variant : : OP_NEGATE ) ;
} break ;
case OperatorNode : : OP_POS : {
_REDUCE_UNARY ( Variant : : OP_POSITIVE ) ;
} break ;
case OperatorNode : : OP_NOT : {
_REDUCE_UNARY ( Variant : : OP_NOT ) ;
} break ;
case OperatorNode : : OP_BIT_INVERT : {
_REDUCE_UNARY ( Variant : : OP_BIT_NEGATE ) ;
} break ;
//binary operators (in precedence order)
case OperatorNode : : OP_IN : {
_REDUCE_BINARY ( Variant : : OP_IN ) ;
} break ;
case OperatorNode : : OP_EQUAL : {
_REDUCE_BINARY ( Variant : : OP_EQUAL ) ;
} break ;
case OperatorNode : : OP_NOT_EQUAL : {
_REDUCE_BINARY ( Variant : : OP_NOT_EQUAL ) ;
} break ;
case OperatorNode : : OP_LESS : {
_REDUCE_BINARY ( Variant : : OP_LESS ) ;
} break ;
case OperatorNode : : OP_LESS_EQUAL : {
_REDUCE_BINARY ( Variant : : OP_LESS_EQUAL ) ;
} break ;
case OperatorNode : : OP_GREATER : {
_REDUCE_BINARY ( Variant : : OP_GREATER ) ;
} break ;
case OperatorNode : : OP_GREATER_EQUAL : {
_REDUCE_BINARY ( Variant : : OP_GREATER_EQUAL ) ;
} break ;
case OperatorNode : : OP_AND : {
_REDUCE_BINARY ( Variant : : OP_AND ) ;
} break ;
case OperatorNode : : OP_OR : {
_REDUCE_BINARY ( Variant : : OP_OR ) ;
} break ;
case OperatorNode : : OP_ADD : {
_REDUCE_BINARY ( Variant : : OP_ADD ) ;
} break ;
case OperatorNode : : OP_SUB : {
_REDUCE_BINARY ( Variant : : OP_SUBTRACT ) ;
} break ;
case OperatorNode : : OP_MUL : {
_REDUCE_BINARY ( Variant : : OP_MULTIPLY ) ;
} break ;
case OperatorNode : : OP_DIV : {
_REDUCE_BINARY ( Variant : : OP_DIVIDE ) ;
} break ;
case OperatorNode : : OP_MOD : {
_REDUCE_BINARY ( Variant : : OP_MODULE ) ;
} break ;
case OperatorNode : : OP_SHIFT_LEFT : {
_REDUCE_BINARY ( Variant : : OP_SHIFT_LEFT ) ;
} break ;
case OperatorNode : : OP_SHIFT_RIGHT : {
_REDUCE_BINARY ( Variant : : OP_SHIFT_RIGHT ) ;
} break ;
case OperatorNode : : OP_BIT_AND : {
_REDUCE_BINARY ( Variant : : OP_BIT_AND ) ;
} break ;
case OperatorNode : : OP_BIT_OR : {
_REDUCE_BINARY ( Variant : : OP_BIT_OR ) ;
} break ;
case OperatorNode : : OP_BIT_XOR : {
_REDUCE_BINARY ( Variant : : OP_BIT_XOR ) ;
} break ;
case OperatorNode : : OP_TERNARY_IF : {
if ( static_cast < ConstantNode * > ( op - > arguments [ 0 ] ) - > value . booleanize ( ) ) {
return op - > arguments [ 1 ] ;
} else {
return op - > arguments [ 2 ] ;
}
} break ;
default : {
ERR_FAIL_V ( op ) ;
}
}
} break ;
default : {
return p_node ;
} break ;
}
}
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CScriptParser : : Node * CScriptParser : : _parse_and_reduce_expression ( Node * p_parent , bool p_static , bool p_reduce_const , bool p_allow_assign ) {
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Node * expr = _parse_expression ( p_parent , p_static , p_allow_assign , p_reduce_const ) ;
if ( ! expr | | error_set ) {
return nullptr ;
}
expr = _reduce_expression ( expr , p_reduce_const ) ;
if ( ! expr | | error_set ) {
return nullptr ;
}
return expr ;
}
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bool CScriptParser : : _reduce_export_var_type ( Variant & p_value , int p_line ) {
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if ( p_value . get_type ( ) = = Variant : : ARRAY ) {
Array arr = p_value ;
for ( int i = 0 ; i < arr . size ( ) ; i + + ) {
if ( ! _reduce_export_var_type ( arr [ i ] , p_line ) ) {
return false ;
}
}
return true ;
}
if ( p_value . get_type ( ) = = Variant : : DICTIONARY ) {
Dictionary dict = p_value ;
for ( int i = 0 ; i < dict . size ( ) ; i + + ) {
Variant value = dict . get_value_at_index ( i ) ;
if ( ! _reduce_export_var_type ( value , p_line ) ) {
return false ;
}
}
return true ;
}
// validate type
DataType type = _type_from_variant ( p_value ) ;
if ( type . kind = = DataType : : BUILTIN ) {
return true ;
} else if ( type . kind = = DataType : : NATIVE ) {
if ( ClassDB : : is_parent_class ( type . native_type , " Resource " ) ) {
return true ;
}
}
_set_error ( " Invalid export type. Only built-in and native resource types can be exported. " , p_line ) ;
return false ;
}
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bool CScriptParser : : _recover_from_completion ( ) {
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if ( ! completion_found ) {
return false ; //can't recover if no completion
}
//skip stuff until newline
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while ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_NEWLINE & & tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_EOF & & tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_ERROR ) {
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tokenizer - > advance ( ) ;
}
completion_found = false ;
error_set = false ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_ERROR ) {
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error_set = true ;
}
return true ;
}
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CScriptParser : : PatternNode * CScriptParser : : _parse_pattern ( bool p_static ) {
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PatternNode * pattern = alloc_node < PatternNode > ( ) ;
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CScriptTokenizer : : Token token = tokenizer - > get_token ( ) ;
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if ( error_set ) {
return nullptr ;
}
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if ( token = = CScriptTokenizer : : TK_EOF ) {
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return nullptr ;
}
switch ( token ) {
// array
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case CScriptTokenizer : : TK_BRACKET_OPEN : {
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tokenizer - > advance ( ) ;
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pattern - > pt_type = CScriptParser : : PatternNode : : PT_ARRAY ;
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while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_PERIOD ) {
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// match everything
tokenizer - > advance ( 2 ) ;
PatternNode * sub_pattern = alloc_node < PatternNode > ( ) ;
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sub_pattern - > pt_type = CScriptParser : : PatternNode : : PT_IGNORE_REST ;
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pattern - > array . push_back ( sub_pattern ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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tokenizer - > advance ( 2 ) ;
break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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tokenizer - > advance ( 1 ) ;
break ;
} else {
_set_error ( " '..' pattern only allowed at the end of an array pattern " ) ;
return nullptr ;
}
}
PatternNode * sub_pattern = _parse_pattern ( p_static ) ;
if ( ! sub_pattern ) {
return nullptr ;
}
pattern - > array . push_back ( sub_pattern ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
continue ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
} else {
_set_error ( " Not a valid pattern " ) ;
return nullptr ;
}
}
} break ;
// bind
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case CScriptTokenizer : : TK_PR_VAR : {
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tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( ) ) {
_set_error ( " Expected identifier for binding variable name. " ) ;
return nullptr ;
}
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pattern - > pt_type = CScriptParser : : PatternNode : : PT_BIND ;
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pattern - > bind = tokenizer - > get_token_literal ( ) ;
// Check if variable name is already used
BlockNode * bl = current_block ;
while ( bl ) {
if ( bl - > variables . has ( pattern - > bind ) ) {
_set_error ( " Binding name of ' " + pattern - > bind . operator String ( ) + " ' is already declared in this scope. " ) ;
return nullptr ;
}
bl = bl - > parent_block ;
}
// Create local variable for proper identifier detection later
LocalVarNode * lv = alloc_node < LocalVarNode > ( ) ;
lv - > name = pattern - > bind ;
current_block - > variables . insert ( lv - > name , lv ) ;
tokenizer - > advance ( ) ;
} break ;
// dictionary
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case CScriptTokenizer : : TK_CURLY_BRACKET_OPEN : {
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tokenizer - > advance ( ) ;
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pattern - > pt_type = CScriptParser : : PatternNode : : PT_DICTIONARY ;
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while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_PERIOD ) {
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// match everything
tokenizer - > advance ( 2 ) ;
PatternNode * sub_pattern = alloc_node < PatternNode > ( ) ;
sub_pattern - > pt_type = PatternNode : : PT_IGNORE_REST ;
pattern - > array . push_back ( sub_pattern ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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tokenizer - > advance ( 2 ) ;
break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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tokenizer - > advance ( 1 ) ;
break ;
} else {
_set_error ( " '..' pattern only allowed at the end of a dictionary pattern " ) ;
return nullptr ;
}
}
Node * key = _parse_and_reduce_expression ( pattern , p_static ) ;
if ( ! key ) {
_set_error ( " Not a valid key in pattern " ) ;
return nullptr ;
}
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if ( key - > type ! = CScriptParser : : Node : : TYPE_CONSTANT ) {
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_set_error ( " Not a constant expression as key " ) ;
return nullptr ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
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tokenizer - > advance ( ) ;
PatternNode * value = _parse_pattern ( p_static ) ;
if ( ! value ) {
_set_error ( " Expected pattern in dictionary value " ) ;
return nullptr ;
}
pattern - > dictionary . insert ( static_cast < ConstantNode * > ( key ) , value ) ;
} else {
pattern - > dictionary . insert ( static_cast < ConstantNode * > ( key ) , NULL ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
continue ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
} else {
_set_error ( " Not a valid pattern " ) ;
return nullptr ;
}
}
} break ;
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case CScriptTokenizer : : TK_WILDCARD : {
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tokenizer - > advance ( ) ;
pattern - > pt_type = PatternNode : : PT_WILDCARD ;
} break ;
// all the constants like strings and numbers
default : {
Node * value = _parse_and_reduce_expression ( pattern , p_static ) ;
if ( ! value ) {
_set_error ( " Expect constant expression or variables in a pattern " ) ;
return nullptr ;
}
if ( value - > type = = Node : : TYPE_OPERATOR ) {
// Maybe it's SomeEnum.VALUE
Node * current_value = value ;
while ( current_value - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * op_node = static_cast < OperatorNode * > ( current_value ) ;
if ( op_node - > op ! = OperatorNode : : OP_INDEX_NAMED ) {
_set_error ( " Invalid operator in pattern. Only index (`A.B`) is allowed " ) ;
return nullptr ;
}
current_value = op_node - > arguments [ 0 ] ;
}
if ( current_value - > type ! = Node : : TYPE_IDENTIFIER ) {
_set_error ( " Only constant expression or variables allowed in a pattern " ) ;
return nullptr ;
}
} else if ( value - > type ! = Node : : TYPE_IDENTIFIER & & value - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Only constant expressions or variables allowed in a pattern " ) ;
return nullptr ;
}
pattern - > pt_type = PatternNode : : PT_CONSTANT ;
pattern - > constant = value ;
} break ;
}
return pattern ;
}
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void CScriptParser : : _parse_pattern_block ( BlockNode * p_block , Vector < PatternBranchNode * > & p_branches , bool p_static ) {
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IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
p_block - > has_return = true ;
bool catch_all_appeared = false ;
while ( true ) {
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE & & _parse_newline ( ) ) {
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;
}
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// CScriptTokenizer::Token token = tokenizer->get_token();
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if ( error_set ) {
return ;
}
if ( current_level . indent > indent_level . back ( ) - > get ( ) . indent ) {
break ; // go back a level
}
pending_newline = - 1 ;
PatternBranchNode * branch = alloc_node < PatternBranchNode > ( ) ;
branch - > body = alloc_node < BlockNode > ( ) ;
branch - > body - > parent_block = p_block ;
p_block - > sub_blocks . push_back ( branch - > body ) ;
current_block = branch - > body ;
branch - > patterns . push_back ( _parse_pattern ( p_static ) ) ;
if ( ! branch - > patterns [ 0 ] ) {
break ;
}
bool has_binding = branch - > patterns [ 0 ] - > pt_type = = PatternNode : : PT_BIND ;
bool catch_all = has_binding | | branch - > patterns [ 0 ] - > pt_type = = PatternNode : : PT_WILDCARD ;
# ifdef DEBUG_ENABLED
// Branches after a wildcard or binding are unreachable
if ( catch_all_appeared & & ! current_function - > has_unreachable_code ) {
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_add_warning ( CScriptWarning : : UNREACHABLE_CODE , - 1 , current_function - > name . operator String ( ) ) ;
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current_function - > has_unreachable_code = true ;
}
# endif
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
branch - > patterns . push_back ( _parse_pattern ( p_static ) ) ;
if ( ! branch - > patterns [ branch - > patterns . size ( ) - 1 ] ) {
return ;
}
PatternNode : : PatternType pt = branch - > patterns [ branch - > patterns . size ( ) - 1 ] - > pt_type ;
if ( pt = = PatternNode : : PT_BIND ) {
_set_error ( " Cannot use bindings with multipattern. " ) ;
return ;
}
catch_all = catch_all | | pt = = PatternNode : : PT_WILDCARD ;
}
catch_all_appeared = catch_all_appeared | | catch_all ;
if ( ! _enter_indent_block ( ) ) {
_set_error ( " Expected block in pattern branch " ) ;
return ;
}
_parse_block ( branch - > body , p_static ) ;
current_block = p_block ;
if ( ! branch - > body - > has_return ) {
p_block - > has_return = false ;
}
p_branches . push_back ( branch ) ;
}
// Even if all branches return, there is possibility of default fallthrough
if ( ! catch_all_appeared ) {
p_block - > has_return = false ;
}
}
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void CScriptParser : : _generate_pattern ( PatternNode * p_pattern , Node * p_node_to_match , Node * & p_resulting_node , RBMap < StringName , Node * > & p_bindings ) {
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const DataType & to_match_type = p_node_to_match - > get_datatype ( ) ;
switch ( p_pattern - > pt_type ) {
case PatternNode : : PT_CONSTANT : {
DataType pattern_type = _reduce_node_type ( p_pattern - > constant ) ;
if ( error_set ) {
return ;
}
OperatorNode * type_comp = nullptr ;
// static type check if possible
if ( pattern_type . has_type & & to_match_type . has_type ) {
if ( ! _is_type_compatible ( to_match_type , pattern_type ) & & ! _is_type_compatible ( pattern_type , to_match_type ) ) {
_set_error ( " The pattern type ( " + pattern_type . to_string ( ) + " ) isn't compatible with the type of the value to match ( " + to_match_type . to_string ( ) + " ). " ,
p_pattern - > line ) ;
return ;
}
} else {
// runtime typecheck
BuiltInFunctionNode * typeof_node = alloc_node < BuiltInFunctionNode > ( ) ;
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typeof_node - > function = CScriptFunctions : : TYPE_OF ;
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OperatorNode * typeof_match_value = alloc_node < OperatorNode > ( ) ;
typeof_match_value - > op = OperatorNode : : OP_CALL ;
typeof_match_value - > arguments . push_back ( typeof_node ) ;
typeof_match_value - > arguments . push_back ( p_node_to_match ) ;
OperatorNode * typeof_pattern_value = alloc_node < OperatorNode > ( ) ;
typeof_pattern_value - > op = OperatorNode : : OP_CALL ;
typeof_pattern_value - > arguments . push_back ( typeof_node ) ;
typeof_pattern_value - > arguments . push_back ( p_pattern - > constant ) ;
type_comp = alloc_node < OperatorNode > ( ) ;
type_comp - > op = OperatorNode : : OP_EQUAL ;
type_comp - > arguments . push_back ( typeof_match_value ) ;
type_comp - > arguments . push_back ( typeof_pattern_value ) ;
}
// compare the actual values
OperatorNode * value_comp = alloc_node < OperatorNode > ( ) ;
value_comp - > op = OperatorNode : : OP_EQUAL ;
value_comp - > arguments . push_back ( p_pattern - > constant ) ;
value_comp - > arguments . push_back ( p_node_to_match ) ;
if ( type_comp ) {
OperatorNode * full_comparison = alloc_node < OperatorNode > ( ) ;
full_comparison - > op = OperatorNode : : OP_AND ;
full_comparison - > arguments . push_back ( type_comp ) ;
full_comparison - > arguments . push_back ( value_comp ) ;
p_resulting_node = full_comparison ;
} else {
p_resulting_node = value_comp ;
}
} break ;
case PatternNode : : PT_BIND : {
p_bindings [ p_pattern - > bind ] = p_node_to_match ;
// a bind always matches
ConstantNode * true_value = alloc_node < ConstantNode > ( ) ;
true_value - > value = Variant ( true ) ;
p_resulting_node = true_value ;
} break ;
case PatternNode : : PT_ARRAY : {
bool open_ended = false ;
if ( p_pattern - > array . size ( ) > 0 ) {
if ( p_pattern - > array [ p_pattern - > array . size ( ) - 1 ] - > pt_type = = PatternNode : : PT_IGNORE_REST ) {
open_ended = true ;
}
}
// typeof(value_to_match) == TYPE_ARRAY && value_to_match.size() >= length
// typeof(value_to_match) == TYPE_ARRAY && value_to_match.size() == length
{
OperatorNode * type_comp = nullptr ;
// static type check if possible
if ( to_match_type . has_type ) {
// must be an array
if ( to_match_type . kind ! = DataType : : BUILTIN | | to_match_type . builtin_type ! = Variant : : ARRAY ) {
_set_error ( " Cannot match an array pattern with a non-array expression. " , p_pattern - > line ) ;
return ;
}
} else {
// runtime typecheck
BuiltInFunctionNode * typeof_node = alloc_node < BuiltInFunctionNode > ( ) ;
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typeof_node - > function = CScriptFunctions : : TYPE_OF ;
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OperatorNode * typeof_match_value = alloc_node < OperatorNode > ( ) ;
typeof_match_value - > op = OperatorNode : : OP_CALL ;
typeof_match_value - > arguments . push_back ( typeof_node ) ;
typeof_match_value - > arguments . push_back ( p_node_to_match ) ;
IdentifierNode * typeof_array = alloc_node < IdentifierNode > ( ) ;
typeof_array - > name = " TYPE_ARRAY " ;
type_comp = alloc_node < OperatorNode > ( ) ;
type_comp - > op = OperatorNode : : OP_EQUAL ;
type_comp - > arguments . push_back ( typeof_match_value ) ;
type_comp - > arguments . push_back ( typeof_array ) ;
}
// size
ConstantNode * length = alloc_node < ConstantNode > ( ) ;
length - > value = Variant ( open_ended ? p_pattern - > array . size ( ) - 1 : p_pattern - > array . size ( ) ) ;
OperatorNode * call = alloc_node < OperatorNode > ( ) ;
call - > op = OperatorNode : : OP_CALL ;
call - > arguments . push_back ( p_node_to_match ) ;
IdentifierNode * size = alloc_node < IdentifierNode > ( ) ;
size - > name = " size " ;
call - > arguments . push_back ( size ) ;
OperatorNode * length_comparison = alloc_node < OperatorNode > ( ) ;
length_comparison - > op = open_ended ? OperatorNode : : OP_GREATER_EQUAL : OperatorNode : : OP_EQUAL ;
length_comparison - > arguments . push_back ( call ) ;
length_comparison - > arguments . push_back ( length ) ;
if ( type_comp ) {
OperatorNode * type_and_length_comparison = alloc_node < OperatorNode > ( ) ;
type_and_length_comparison - > op = OperatorNode : : OP_AND ;
type_and_length_comparison - > arguments . push_back ( type_comp ) ;
type_and_length_comparison - > arguments . push_back ( length_comparison ) ;
p_resulting_node = type_and_length_comparison ;
} else {
p_resulting_node = length_comparison ;
}
}
for ( int i = 0 ; i < p_pattern - > array . size ( ) ; i + + ) {
PatternNode * pattern = p_pattern - > array [ i ] ;
Node * condition = nullptr ;
ConstantNode * index = alloc_node < ConstantNode > ( ) ;
index - > value = Variant ( i ) ;
OperatorNode * indexed_value = alloc_node < OperatorNode > ( ) ;
indexed_value - > op = OperatorNode : : OP_INDEX ;
indexed_value - > arguments . push_back ( p_node_to_match ) ;
indexed_value - > arguments . push_back ( index ) ;
_generate_pattern ( pattern , indexed_value , condition , p_bindings ) ;
// concatenate all the patterns with &&
OperatorNode * and_node = alloc_node < OperatorNode > ( ) ;
and_node - > op = OperatorNode : : OP_AND ;
and_node - > arguments . push_back ( p_resulting_node ) ;
and_node - > arguments . push_back ( condition ) ;
p_resulting_node = and_node ;
}
} break ;
case PatternNode : : PT_DICTIONARY : {
bool open_ended = false ;
if ( p_pattern - > array . size ( ) > 0 ) {
open_ended = true ;
}
// typeof(value_to_match) == TYPE_DICTIONARY && value_to_match.size() >= length
// typeof(value_to_match) == TYPE_DICTIONARY && value_to_match.size() == length
{
OperatorNode * type_comp = nullptr ;
// static type check if possible
if ( to_match_type . has_type ) {
// must be an dictionary
if ( to_match_type . kind ! = DataType : : BUILTIN | | to_match_type . builtin_type ! = Variant : : DICTIONARY ) {
_set_error ( " Cannot match an dictionary pattern with a non-dictionary expression. " , p_pattern - > line ) ;
return ;
}
} else {
// runtime typecheck
BuiltInFunctionNode * typeof_node = alloc_node < BuiltInFunctionNode > ( ) ;
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typeof_node - > function = CScriptFunctions : : TYPE_OF ;
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OperatorNode * typeof_match_value = alloc_node < OperatorNode > ( ) ;
typeof_match_value - > op = OperatorNode : : OP_CALL ;
typeof_match_value - > arguments . push_back ( typeof_node ) ;
typeof_match_value - > arguments . push_back ( p_node_to_match ) ;
IdentifierNode * typeof_dictionary = alloc_node < IdentifierNode > ( ) ;
typeof_dictionary - > name = " TYPE_DICTIONARY " ;
type_comp = alloc_node < OperatorNode > ( ) ;
type_comp - > op = OperatorNode : : OP_EQUAL ;
type_comp - > arguments . push_back ( typeof_match_value ) ;
type_comp - > arguments . push_back ( typeof_dictionary ) ;
}
// size
ConstantNode * length = alloc_node < ConstantNode > ( ) ;
length - > value = Variant ( open_ended ? p_pattern - > dictionary . size ( ) - 1 : p_pattern - > dictionary . size ( ) ) ;
OperatorNode * call = alloc_node < OperatorNode > ( ) ;
call - > op = OperatorNode : : OP_CALL ;
call - > arguments . push_back ( p_node_to_match ) ;
IdentifierNode * size = alloc_node < IdentifierNode > ( ) ;
size - > name = " size " ;
call - > arguments . push_back ( size ) ;
OperatorNode * length_comparison = alloc_node < OperatorNode > ( ) ;
length_comparison - > op = open_ended ? OperatorNode : : OP_GREATER_EQUAL : OperatorNode : : OP_EQUAL ;
length_comparison - > arguments . push_back ( call ) ;
length_comparison - > arguments . push_back ( length ) ;
if ( type_comp ) {
OperatorNode * type_and_length_comparison = alloc_node < OperatorNode > ( ) ;
type_and_length_comparison - > op = OperatorNode : : OP_AND ;
type_and_length_comparison - > arguments . push_back ( type_comp ) ;
type_and_length_comparison - > arguments . push_back ( length_comparison ) ;
p_resulting_node = type_and_length_comparison ;
} else {
p_resulting_node = length_comparison ;
}
}
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for ( RBMap < ConstantNode * , PatternNode * > : : Element * e = p_pattern - > dictionary . front ( ) ; e ; e = e - > next ( ) ) {
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Node * condition = nullptr ;
// check for has, then for pattern
IdentifierNode * has = alloc_node < IdentifierNode > ( ) ;
has - > name = " has " ;
OperatorNode * has_call = alloc_node < OperatorNode > ( ) ;
has_call - > op = OperatorNode : : OP_CALL ;
has_call - > arguments . push_back ( p_node_to_match ) ;
has_call - > arguments . push_back ( has ) ;
has_call - > arguments . push_back ( e - > key ( ) ) ;
if ( e - > value ( ) ) {
OperatorNode * indexed_value = alloc_node < OperatorNode > ( ) ;
indexed_value - > op = OperatorNode : : OP_INDEX ;
indexed_value - > arguments . push_back ( p_node_to_match ) ;
indexed_value - > arguments . push_back ( e - > key ( ) ) ;
_generate_pattern ( e - > value ( ) , indexed_value , condition , p_bindings ) ;
OperatorNode * has_and_pattern = alloc_node < OperatorNode > ( ) ;
has_and_pattern - > op = OperatorNode : : OP_AND ;
has_and_pattern - > arguments . push_back ( has_call ) ;
has_and_pattern - > arguments . push_back ( condition ) ;
condition = has_and_pattern ;
} else {
condition = has_call ;
}
// concatenate all the patterns with &&
OperatorNode * and_node = alloc_node < OperatorNode > ( ) ;
and_node - > op = OperatorNode : : OP_AND ;
and_node - > arguments . push_back ( p_resulting_node ) ;
and_node - > arguments . push_back ( condition ) ;
p_resulting_node = and_node ;
}
} break ;
case PatternNode : : PT_IGNORE_REST :
case PatternNode : : PT_WILDCARD : {
// simply generate a `true`
ConstantNode * true_value = alloc_node < ConstantNode > ( ) ;
true_value - > value = Variant ( true ) ;
p_resulting_node = true_value ;
} break ;
default : {
} break ;
}
}
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void CScriptParser : : _transform_match_statment ( MatchNode * p_match_statement ) {
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IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = " #match_value " ;
id - > line = p_match_statement - > line ;
id - > datatype = _reduce_node_type ( p_match_statement - > val_to_match ) ;
if ( id - > datatype . has_type ) {
_mark_line_as_safe ( id - > line ) ;
} else {
_mark_line_as_unsafe ( id - > line ) ;
}
if ( error_set ) {
return ;
}
for ( int i = 0 ; i < p_match_statement - > branches . size ( ) ; i + + ) {
PatternBranchNode * branch = p_match_statement - > branches [ i ] ;
MatchNode : : CompiledPatternBranch compiled_branch ;
compiled_branch . compiled_pattern = nullptr ;
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RBMap < StringName , Node * > binding ;
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for ( int j = 0 ; j < branch - > patterns . size ( ) ; j + + ) {
PatternNode * pattern = branch - > patterns [ j ] ;
_mark_line_as_safe ( pattern - > line ) ;
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RBMap < StringName , Node * > bindings ;
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Node * resulting_node = nullptr ;
_generate_pattern ( pattern , id , resulting_node , bindings ) ;
if ( ! resulting_node ) {
return ;
}
if ( ! binding . empty ( ) & & ! bindings . empty ( ) ) {
_set_error ( " Multipatterns can't contain bindings " ) ;
return ;
} else {
binding = bindings ;
}
// Result is always a boolean
DataType resulting_node_type ;
resulting_node_type . has_type = true ;
resulting_node_type . is_constant = true ;
resulting_node_type . kind = DataType : : BUILTIN ;
resulting_node_type . builtin_type = Variant : : BOOL ;
resulting_node - > set_datatype ( resulting_node_type ) ;
if ( compiled_branch . compiled_pattern ) {
OperatorNode * or_node = alloc_node < OperatorNode > ( ) ;
or_node - > op = OperatorNode : : OP_OR ;
or_node - > arguments . push_back ( compiled_branch . compiled_pattern ) ;
or_node - > arguments . push_back ( resulting_node ) ;
compiled_branch . compiled_pattern = or_node ;
} else {
// single pattern | first one
compiled_branch . compiled_pattern = resulting_node ;
}
}
// prepare the body ...hehe
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for ( RBMap < StringName , Node * > : : Element * e = binding . front ( ) ; e ; e = e - > next ( ) ) {
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if ( ! branch - > body - > variables . has ( e - > key ( ) ) ) {
_set_error ( " Parser bug: missing pattern bind variable. " , branch - > line ) ;
ERR_FAIL ( ) ;
}
LocalVarNode * local_var = branch - > body - > variables [ e - > key ( ) ] ;
local_var - > assign = e - > value ( ) ;
local_var - > set_datatype ( local_var - > assign - > get_datatype ( ) ) ;
local_var - > assignments + + ;
IdentifierNode * id2 = alloc_node < IdentifierNode > ( ) ;
id2 - > name = local_var - > name ;
id2 - > datatype = local_var - > datatype ;
id2 - > declared_block = branch - > body ;
id2 - > set_datatype ( local_var - > assign - > get_datatype ( ) ) ;
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_ASSIGN ;
op - > arguments . push_back ( id2 ) ;
op - > arguments . push_back ( local_var - > assign ) ;
local_var - > assign_op = op ;
branch - > body - > statements . insert ( 0 , op ) ;
branch - > body - > statements . insert ( 0 , local_var ) ;
}
compiled_branch . body = branch - > body ;
p_match_statement - > compiled_pattern_branches . push_back ( compiled_branch ) ;
}
}
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void CScriptParser : : _parse_block ( BlockNode * p_block , bool p_static ) {
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IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
# ifdef DEBUG_ENABLED
pending_newline = - 1 ; // reset for the new block
NewLineNode * nl = alloc_node < NewLineNode > ( ) ;
nl - > line = tokenizer - > get_token_line ( ) ;
p_block - > statements . push_back ( nl ) ;
# endif
bool is_first_line = true ;
while ( true ) {
if ( ! is_first_line & & indent_level . back ( ) - > prev ( ) & & indent_level . back ( ) - > prev ( ) - > get ( ) . indent = = current_level . indent ) {
if ( indent_level . back ( ) - > prev ( ) - > get ( ) . is_mixed ( current_level ) ) {
_set_error ( " Mixed tabs and spaces in indentation. " ) ;
return ;
}
// pythonic single-line expression, don't parse future lines
indent_level . pop_back ( ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
is_first_line = false ;
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CScriptTokenizer : : Token token = tokenizer - > get_token ( ) ;
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if ( error_set ) {
return ;
}
if ( current_level . indent > indent_level . back ( ) - > get ( ) . indent ) {
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ; //go back a level
}
if ( pending_newline ! = - 1 ) {
NewLineNode * nl2 = alloc_node < NewLineNode > ( ) ;
nl2 - > line = pending_newline ;
p_block - > statements . push_back ( nl2 ) ;
pending_newline = - 1 ;
}
# ifdef DEBUG_ENABLED
switch ( token ) {
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case CScriptTokenizer : : TK_EOF :
case CScriptTokenizer : : TK_ERROR :
case CScriptTokenizer : : TK_NEWLINE :
case CScriptTokenizer : : TK_CF_PASS : {
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// will check later
} break ;
default : {
if ( p_block - > has_return & & ! current_function - > has_unreachable_code ) {
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_add_warning ( CScriptWarning : : UNREACHABLE_CODE , - 1 , current_function - > name . operator String ( ) ) ;
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current_function - > has_unreachable_code = true ;
}
} break ;
}
# endif // DEBUG_ENABLED
switch ( token ) {
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case CScriptTokenizer : : TK_EOF :
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p_block - > end_line = tokenizer - > get_token_line ( ) ;
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case CScriptTokenizer : : TK_ERROR : {
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return ; //go back
//end of file!
} break ;
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case CScriptTokenizer : : TK_NEWLINE : {
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int line = tokenizer - > get_token_line ( ) ;
if ( ! _parse_newline ( ) ) {
if ( ! error_set ) {
p_block - > end_line = tokenizer - > get_token_line ( ) ;
pending_newline = p_block - > end_line ;
}
return ;
}
_mark_line_as_safe ( line ) ;
NewLineNode * nl2 = alloc_node < NewLineNode > ( ) ;
nl2 - > line = line ;
p_block - > statements . push_back ( nl2 ) ;
} break ;
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case CScriptTokenizer : : TK_CF_PASS : {
if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_SEMICOLON & & tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_NEWLINE & & tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_EOF ) {
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_set_error ( " Expected \" ; \" or a line break. " ) ;
return ;
}
_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_SEMICOLON ) {
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// Ignore semicolon after 'pass'.
tokenizer - > advance ( ) ;
}
} break ;
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case CScriptTokenizer : : TK_PR_VAR : {
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// Variable declaration and (eventual) initialization.
tokenizer - > advance ( ) ;
int var_line = tokenizer - > get_token_line ( ) ;
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Expected an identifier for the local variable name. " ) ;
return ;
}
StringName n = tokenizer - > get_token_literal ( ) ;
if ( current_function ) {
for ( int i = 0 ; i < current_function - > arguments . size ( ) ; i + + ) {
if ( n = = current_function - > arguments [ i ] ) {
_set_error ( " Variable \" " + String ( n ) + " \" already defined in the scope (at line " + itos ( current_function - > line ) + " ). " ) ;
return ;
}
}
}
BlockNode * check_block = p_block ;
while ( check_block ) {
if ( check_block - > variables . has ( n ) ) {
_set_error ( " Variable \" " + String ( n ) + " \" already defined in the scope (at line " + itos ( check_block - > variables [ n ] - > line ) + " ). " ) ;
return ;
}
check_block = check_block - > parent_block ;
}
tokenizer - > advance ( ) ;
//must know when the local variable is declared
LocalVarNode * lv = alloc_node < LocalVarNode > ( ) ;
lv - > name = n ;
lv - > line = var_line ;
p_block - > statements . push_back ( lv ) ;
Node * assigned = nullptr ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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lv - > datatype = DataType ( ) ;
lv - > datatype . infer_type = true ;
tokenizer - > advance ( ) ;
} else if ( ! _parse_type ( lv - > datatype ) ) {
_set_error ( " Expected a type for the variable. " ) ;
return ;
}
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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tokenizer - > advance ( ) ;
Node * subexpr = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! subexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
lv - > assignments + + ;
assigned = subexpr ;
} else {
assigned = _get_default_value_for_type ( lv - > datatype , var_line ) ;
}
//must be added later, to avoid self-referencing.
p_block - > variables . insert ( n , lv ) ;
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = n ;
id - > declared_block = p_block ;
id - > line = var_line ;
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_ASSIGN ;
op - > arguments . push_back ( id ) ;
op - > arguments . push_back ( assigned ) ;
op - > line = var_line ;
p_block - > statements . push_back ( op ) ;
lv - > assign_op = op ;
lv - > assign = assigned ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " var " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_CF_IF : {
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tokenizer - > advance ( ) ;
Node * condition = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! condition ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
ControlFlowNode * cf_if = alloc_node < ControlFlowNode > ( ) ;
cf_if - > cf_type = ControlFlowNode : : CF_IF ;
cf_if - > arguments . push_back ( condition ) ;
cf_if - > body = alloc_node < BlockNode > ( ) ;
cf_if - > body - > parent_block = p_block ;
cf_if - > body - > if_condition = condition ; //helps code completion
p_block - > sub_blocks . push_back ( cf_if - > body ) ;
if ( ! _enter_indent_block ( cf_if - > body ) ) {
_set_error ( " Expected an indented block after \" if \" . " ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
current_block = cf_if - > body ;
_parse_block ( cf_if - > body , p_static ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
p_block - > statements . push_back ( cf_if ) ;
bool all_have_return = cf_if - > body - > has_return ;
bool have_else = false ;
while ( true ) {
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE & & _parse_newline ( ) ) {
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;
}
if ( indent_level . back ( ) - > get ( ) . indent < current_level . indent ) { //not at current indent level
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CF_ELIF ) {
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if ( indent_level . back ( ) - > get ( ) . indent > current_level . indent ) {
_set_error ( " Invalid indentation. " ) ;
return ;
}
tokenizer - > advance ( ) ;
cf_if - > body_else = alloc_node < BlockNode > ( ) ;
cf_if - > body_else - > parent_block = p_block ;
p_block - > sub_blocks . push_back ( cf_if - > body_else ) ;
ControlFlowNode * cf_else = alloc_node < ControlFlowNode > ( ) ;
cf_else - > cf_type = ControlFlowNode : : CF_IF ;
//condition
Node * condition2 = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! condition2 ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
cf_else - > arguments . push_back ( condition2 ) ;
cf_else - > cf_type = ControlFlowNode : : CF_IF ;
cf_if - > body_else - > statements . push_back ( cf_else ) ;
cf_if = cf_else ;
cf_if - > body = alloc_node < BlockNode > ( ) ;
cf_if - > body - > parent_block = p_block ;
p_block - > sub_blocks . push_back ( cf_if - > body ) ;
if ( ! _enter_indent_block ( cf_if - > body ) ) {
_set_error ( " Expected an indented block after \" elif \" . " ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
current_block = cf_else - > body ;
_parse_block ( cf_else - > body , p_static ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
all_have_return = all_have_return & & cf_else - > body - > has_return ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CF_ELSE ) {
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if ( indent_level . back ( ) - > get ( ) . indent > current_level . indent ) {
_set_error ( " Invalid indentation. " ) ;
return ;
}
tokenizer - > advance ( ) ;
cf_if - > body_else = alloc_node < BlockNode > ( ) ;
cf_if - > body_else - > parent_block = p_block ;
p_block - > sub_blocks . push_back ( cf_if - > body_else ) ;
if ( ! _enter_indent_block ( cf_if - > body_else ) ) {
_set_error ( " Expected an indented block after \" else \" . " ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
current_block = cf_if - > body_else ;
_parse_block ( cf_if - > body_else , p_static ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
all_have_return = all_have_return & & cf_if - > body_else - > has_return ;
have_else = true ;
break ; //after else, exit
} else {
break ;
}
}
cf_if - > body - > has_return = all_have_return ;
// If there's no else block, path out of the if might not have a return
p_block - > has_return = all_have_return & & have_else ;
} break ;
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case CScriptTokenizer : : TK_CF_WHILE : {
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tokenizer - > advance ( ) ;
Node * condition2 = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! condition2 ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
ControlFlowNode * cf_while = alloc_node < ControlFlowNode > ( ) ;
cf_while - > cf_type = ControlFlowNode : : CF_WHILE ;
cf_while - > arguments . push_back ( condition2 ) ;
cf_while - > body = alloc_node < BlockNode > ( ) ;
cf_while - > body - > parent_block = p_block ;
cf_while - > body - > can_break = true ;
cf_while - > body - > can_continue = true ;
p_block - > sub_blocks . push_back ( cf_while - > body ) ;
if ( ! _enter_indent_block ( cf_while - > body ) ) {
_set_error ( " Expected an indented block after \" while \" . " ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
current_block = cf_while - > body ;
_parse_block ( cf_while - > body , p_static ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
p_block - > statements . push_back ( cf_while ) ;
} break ;
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case CScriptTokenizer : : TK_CF_FOR : {
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tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Identifier expected after \" for \" . " ) ;
}
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = tokenizer - > get_token_identifier ( ) ;
# ifdef DEBUG_ENABLED
for ( int j = 0 ; j < current_class - > variables . size ( ) ; j + + ) {
if ( current_class - > variables [ j ] . identifier = = id - > name ) {
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_add_warning ( CScriptWarning : : SHADOWED_VARIABLE , id - > line , id - > name , itos ( current_class - > variables [ j ] . line ) ) ;
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}
}
# endif // DEBUG_ENABLED
BlockNode * check_block = p_block ;
while ( check_block ) {
if ( check_block - > variables . has ( id - > name ) ) {
_set_error ( " Variable \" " + String ( id - > name ) + " \" already defined in the scope (at line " + itos ( check_block - > variables [ id - > name ] - > line ) + " ). " ) ;
return ;
}
check_block = check_block - > parent_block ;
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_OP_IN ) {
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_set_error ( " \" in \" expected after identifier. " ) ;
return ;
}
tokenizer - > advance ( ) ;
Node * container = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! container ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
DataType iter_type ;
if ( container - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * op = static_cast < OperatorNode * > ( container ) ;
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if ( op - > op = = OperatorNode : : OP_CALL & & op - > arguments [ 0 ] - > type = = Node : : TYPE_BUILT_IN_FUNCTION & & static_cast < BuiltInFunctionNode * > ( op - > arguments [ 0 ] ) - > function = = CScriptFunctions : : GEN_RANGE ) {
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//iterating a range, so see if range() can be optimized without allocating memory, by replacing it by vectors (which can work as iterable too!)
Vector < Node * > args ;
Vector < double > constants ;
bool constant = true ;
for ( int i = 1 ; i < op - > arguments . size ( ) ; i + + ) {
args . push_back ( op - > arguments [ i ] ) ;
if ( op - > arguments [ i ] - > type = = Node : : TYPE_CONSTANT ) {
ConstantNode * c = static_cast < ConstantNode * > ( op - > arguments [ i ] ) ;
if ( c - > value . get_type ( ) = = Variant : : REAL | | c - > value . get_type ( ) = = Variant : : INT ) {
constants . push_back ( c - > value ) ;
} else {
constant = false ;
}
} else {
constant = false ;
}
}
if ( args . size ( ) > 0 & & args . size ( ) < 4 ) {
if ( constant ) {
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
switch ( args . size ( ) ) {
case 1 :
cn - > value = ( int ) constants [ 0 ] ;
break ;
case 2 :
cn - > value = Vector2 ( constants [ 0 ] , constants [ 1 ] ) ;
break ;
case 3 :
cn - > value = Vector3 ( constants [ 0 ] , constants [ 1 ] , constants [ 2 ] ) ;
break ;
}
cn - > datatype = _type_from_variant ( cn - > value ) ;
container = cn ;
} else {
OperatorNode * on = alloc_node < OperatorNode > ( ) ;
on - > op = OperatorNode : : OP_CALL ;
TypeNode * tn = alloc_node < TypeNode > ( ) ;
on - > arguments . push_back ( tn ) ;
switch ( args . size ( ) ) {
case 1 :
tn - > vtype = Variant : : INT ;
break ;
case 2 :
tn - > vtype = Variant : : VECTOR2 ;
break ;
case 3 :
tn - > vtype = Variant : : VECTOR3 ;
break ;
}
for ( int i = 0 ; i < args . size ( ) ; i + + ) {
on - > arguments . push_back ( args [ i ] ) ;
}
container = on ;
}
}
iter_type . has_type = true ;
iter_type . kind = DataType : : BUILTIN ;
iter_type . builtin_type = Variant : : INT ;
}
}
ControlFlowNode * cf_for = alloc_node < ControlFlowNode > ( ) ;
cf_for - > cf_type = ControlFlowNode : : CF_FOR ;
cf_for - > arguments . push_back ( id ) ;
cf_for - > arguments . push_back ( container ) ;
cf_for - > body = alloc_node < BlockNode > ( ) ;
cf_for - > body - > parent_block = p_block ;
cf_for - > body - > can_break = true ;
cf_for - > body - > can_continue = true ;
p_block - > sub_blocks . push_back ( cf_for - > body ) ;
if ( ! _enter_indent_block ( cf_for - > body ) ) {
_set_error ( " Expected indented block after \" for \" . " ) ;
p_block - > end_line = tokenizer - > get_token_line ( ) ;
return ;
}
current_block = cf_for - > body ;
// this is for checking variable for redefining
// inside this _parse_block
LocalVarNode * lv = alloc_node < LocalVarNode > ( ) ;
lv - > name = id - > name ;
lv - > line = id - > line ;
lv - > assignments + + ;
id - > declared_block = cf_for - > body ;
lv - > set_datatype ( iter_type ) ;
id - > set_datatype ( iter_type ) ;
cf_for - > body - > variables . insert ( id - > name , lv ) ;
_parse_block ( cf_for - > body , p_static ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
p_block - > statements . push_back ( cf_for ) ;
} break ;
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case CScriptTokenizer : : TK_CF_CONTINUE : {
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BlockNode * upper_block = p_block ;
bool is_continue_valid = false ;
while ( upper_block ) {
if ( upper_block - > can_continue ) {
is_continue_valid = true ;
break ;
}
upper_block = upper_block - > parent_block ;
}
if ( ! is_continue_valid ) {
_set_error ( " Unexpected keyword \" continue \" outside a loop. " ) ;
return ;
}
_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
tokenizer - > advance ( ) ;
ControlFlowNode * cf_continue = alloc_node < ControlFlowNode > ( ) ;
cf_continue - > cf_type = ControlFlowNode : : CF_CONTINUE ;
p_block - > statements . push_back ( cf_continue ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " continue " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_CF_BREAK : {
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BlockNode * upper_block = p_block ;
bool is_break_valid = false ;
while ( upper_block ) {
if ( upper_block - > can_break ) {
is_break_valid = true ;
break ;
}
upper_block = upper_block - > parent_block ;
}
if ( ! is_break_valid ) {
_set_error ( " Unexpected keyword \" break \" outside a loop. " ) ;
return ;
}
_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
tokenizer - > advance ( ) ;
ControlFlowNode * cf_break = alloc_node < ControlFlowNode > ( ) ;
cf_break - > cf_type = ControlFlowNode : : CF_BREAK ;
p_block - > statements . push_back ( cf_break ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " break " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_CF_RETURN : {
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tokenizer - > advance ( ) ;
ControlFlowNode * cf_return = alloc_node < ControlFlowNode > ( ) ;
cf_return - > cf_type = ControlFlowNode : : CF_RETURN ;
cf_return - > line = tokenizer - > get_token_line ( - 1 ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_SEMICOLON | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE | | tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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//expect end of statement
p_block - > statements . push_back ( cf_return ) ;
if ( ! _end_statement ( ) ) {
return ;
}
} else {
//expect expression
Node * retexpr = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! retexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
cf_return - > arguments . push_back ( retexpr ) ;
p_block - > statements . push_back ( cf_return ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " return " ) ;
return ;
}
}
p_block - > has_return = true ;
} break ;
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case CScriptTokenizer : : TK_CF_MATCH : {
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tokenizer - > advance ( ) ;
MatchNode * match_node = alloc_node < MatchNode > ( ) ;
Node * val_to_match = _parse_and_reduce_expression ( p_block , p_static ) ;
if ( ! val_to_match ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
match_node - > val_to_match = val_to_match ;
if ( ! _enter_indent_block ( ) ) {
_set_error ( " Expected indented pattern matching block after \" match \" . " ) ;
return ;
}
BlockNode * compiled_branches = alloc_node < BlockNode > ( ) ;
compiled_branches - > parent_block = p_block ;
compiled_branches - > parent_class = p_block - > parent_class ;
compiled_branches - > can_continue = true ;
p_block - > sub_blocks . push_back ( compiled_branches ) ;
_parse_pattern_block ( compiled_branches , match_node - > branches , p_static ) ;
if ( error_set ) {
return ;
}
ControlFlowNode * match_cf_node = alloc_node < ControlFlowNode > ( ) ;
match_cf_node - > cf_type = ControlFlowNode : : CF_MATCH ;
match_cf_node - > match = match_node ;
match_cf_node - > body = compiled_branches ;
p_block - > has_return = p_block - > has_return | | compiled_branches - > has_return ;
p_block - > statements . push_back ( match_cf_node ) ;
_end_statement ( ) ;
} break ;
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case CScriptTokenizer : : TK_PR_ASSERT : {
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tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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_set_error ( " Expected '(' after assert " ) ;
return ;
}
int assert_line = tokenizer - > get_token_line ( ) ;
tokenizer - > advance ( ) ;
Vector < Node * > args ;
const bool result = _parse_arguments ( p_block , args , p_static ) ;
if ( ! result ) {
return ;
}
if ( args . empty ( ) | | args . size ( ) > 2 ) {
_set_error ( " Wrong number of arguments, expected 1 or 2 " , assert_line ) ;
return ;
}
AssertNode * an = alloc_node < AssertNode > ( ) ;
an - > condition = _reduce_expression ( args [ 0 ] , p_static ) ;
an - > line = assert_line ;
if ( args . size ( ) = = 2 ) {
an - > message = _reduce_expression ( args [ 1 ] , p_static ) ;
} else {
ConstantNode * message_node = alloc_node < ConstantNode > ( ) ;
message_node - > value = String ( ) ;
an - > message = message_node ;
}
p_block - > statements . push_back ( an ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " assert " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_BREAKPOINT : {
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tokenizer - > advance ( ) ;
BreakpointNode * bn = alloc_node < BreakpointNode > ( ) ;
p_block - > statements . push_back ( bn ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " breakpoint " ) ;
return ;
}
} break ;
default : {
Node * expression = _parse_and_reduce_expression ( p_block , p_static , false , true ) ;
if ( ! expression ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
p_block - > statements . push_back ( expression ) ;
if ( ! _end_statement ( ) ) {
// Attempt to guess a better error message if the user "retypes" a variable
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON & & tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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_set_error ( " Unexpected ':=', use '=' instead. Expected end of statement after expression. " ) ;
} else {
_set_error ( vformat ( " Expected end of statement after expression, got %s instead. " , tokenizer - > get_token_name ( tokenizer - > get_token ( ) ) ) ) ;
}
return ;
}
} break ;
}
}
}
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bool CScriptParser : : _parse_newline ( ) {
if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_EOF & & tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_NEWLINE ) {
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IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
int indent = tokenizer - > get_token_line_indent ( ) ;
int tabs = tokenizer - > get_token_line_tab_indent ( ) ;
IndentLevel new_level ( indent , tabs ) ;
if ( new_level . is_mixed ( current_level ) ) {
_set_error ( " Mixed tabs and spaces in indentation. " ) ;
return false ;
}
if ( indent > current_level . indent ) {
_set_error ( " Unexpected indentation. " ) ;
return false ;
}
if ( indent < current_level . indent ) {
while ( indent < current_level . indent ) {
//exit block
if ( indent_level . size ( ) = = 1 ) {
_set_error ( " Invalid indentation. Bug? " ) ;
return false ;
}
indent_level . pop_back ( ) ;
if ( indent_level . back ( ) - > get ( ) . indent < indent ) {
_set_error ( " Unindent does not match any outer indentation level. " ) ;
return false ;
}
if ( indent_level . back ( ) - > get ( ) . is_mixed ( current_level ) ) {
_set_error ( " Mixed tabs and spaces in indentation. " ) ;
return false ;
}
current_level = indent_level . back ( ) - > get ( ) ;
}
tokenizer - > advance ( ) ;
return false ;
}
}
tokenizer - > advance ( ) ;
return true ;
}
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void CScriptParser : : _parse_extends ( ClassNode * p_class ) {
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if ( p_class - > extends_used ) {
_set_error ( " \" extends \" can only be present once per script. " ) ;
return ;
}
if ( ! p_class - > constant_expressions . empty ( ) | | ! p_class - > subclasses . empty ( ) | | ! p_class - > functions . empty ( ) | | ! p_class - > variables . empty ( ) ) {
_set_error ( " \" extends \" must be used before anything else. " ) ;
return ;
}
p_class - > extends_used = true ;
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE & & tokenizer - > get_token_type ( ) = = Variant : : OBJECT ) {
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p_class - > extends_class . push_back ( Variant : : get_type_name ( Variant : : OBJECT ) ) ;
tokenizer - > advance ( ) ;
return ;
}
// see if inheritance happens from a file
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT ) {
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Variant constant = tokenizer - > get_token_constant ( ) ;
if ( constant . get_type ( ) ! = Variant : : STRING ) {
_set_error ( " \" extends \" constant must be a string. " ) ;
return ;
}
p_class - > extends_file = constant ;
tokenizer - > advance ( ) ;
// Add parent script as a dependency
String parent = constant ;
if ( parent . is_rel_path ( ) ) {
parent = base_path . plus_file ( parent ) . simplify_path ( ) ;
}
dependencies . push_back ( parent ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PERIOD ) {
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return ;
} else {
tokenizer - > advance ( ) ;
}
}
while ( true ) {
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_IDENTIFIER : {
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StringName identifier = tokenizer - > get_token_identifier ( ) ;
p_class - > extends_class . push_back ( identifier ) ;
} break ;
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case CScriptTokenizer : : TK_CURSOR :
case CScriptTokenizer : : TK_PERIOD :
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break ;
default : {
_set_error ( " Invalid \" extends \" syntax, expected string constant (path) and/or identifier (parent class). " ) ;
return ;
}
}
tokenizer - > advance ( 1 ) ;
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_IDENTIFIER :
case CScriptTokenizer : : TK_PERIOD :
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continue ;
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case CScriptTokenizer : : TK_CURSOR :
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completion_type = COMPLETION_EXTENDS ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_block = current_block ;
completion_ident_is_call = false ;
completion_found = true ;
return ;
default :
return ;
}
}
}
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void CScriptParser : : _parse_class ( ClassNode * p_class ) {
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IndentLevel current_level = indent_level . back ( ) - > get ( ) ;
while ( true ) {
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CScriptTokenizer : : Token token = tokenizer - > get_token ( ) ;
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if ( error_set ) {
return ;
}
if ( current_level . indent > indent_level . back ( ) - > get ( ) . indent ) {
p_class - > end_line = tokenizer - > get_token_line ( ) ;
return ; //go back a level
}
switch ( token ) {
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case CScriptTokenizer : : TK_CURSOR : {
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tokenizer - > advance ( ) ;
} break ;
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case CScriptTokenizer : : TK_EOF :
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p_class - > end_line = tokenizer - > get_token_line ( ) ;
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case CScriptTokenizer : : TK_ERROR : {
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return ; //go back
//end of file!
} break ;
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case CScriptTokenizer : : TK_NEWLINE : {
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if ( ! _parse_newline ( ) ) {
if ( ! error_set ) {
p_class - > end_line = tokenizer - > get_token_line ( ) ;
}
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_EXTENDS : {
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_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
_parse_extends ( p_class ) ;
if ( error_set ) {
return ;
}
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " extends " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_CLASS_NAME : {
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_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
if ( p_class - > owner ) {
_set_error ( " \" class_name \" is only valid for the main class namespace. " ) ;
return ;
}
if ( self_path . begins_with ( " res:// " ) & & self_path . find ( " :: " ) ! = - 1 ) {
_set_error ( " \" class_name \" isn't allowed in built-in scripts. " ) ;
return ;
}
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if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_IDENTIFIER ) {
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_set_error ( " \" class_name \" syntax: \" class_name <UniqueName> \" " ) ;
return ;
}
if ( p_class - > classname_used ) {
_set_error ( " \" class_name \" can only be present once per script. " ) ;
return ;
}
p_class - > classname_used = true ;
p_class - > name = tokenizer - > get_token_identifier ( 1 ) ;
if ( self_path ! = String ( ) & & ScriptServer : : is_global_class ( p_class - > name ) & & ScriptServer : : get_global_class_path ( p_class - > name ) ! = self_path ) {
_set_error ( " Unique global class \" " + p_class - > name + " \" already exists at path: " + ScriptServer : : get_global_class_path ( p_class - > name ) ) ;
return ;
}
if ( ClassDB : : class_exists ( p_class - > name ) ) {
_set_error ( " The class \" " + p_class - > name + " \" shadows a native class. " ) ;
return ;
}
if ( p_class - > classname_used & & ProjectSettings : : get_singleton ( ) - > has_setting ( " autoload/ " + p_class - > name ) ) {
const String autoload_path = ProjectSettings : : get_singleton ( ) - > get_setting ( " autoload/ " + p_class - > name ) ;
if ( autoload_path . begins_with ( " * " ) ) {
// It's a singleton, and not just a regular AutoLoad script.
_set_error ( " The class \" " + p_class - > name + " \" conflicts with the AutoLoad singleton of the same name, and is therefore redundant. Remove the class_name declaration to fix this error. " ) ;
}
return ;
}
tokenizer - > advance ( 2 ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
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if ( ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT & & tokenizer - > get_token_constant ( ) . get_type ( ) = = Variant : : STRING ) ) {
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# ifdef TOOLS_ENABLED
if ( Engine : : get_singleton ( ) - > is_editor_hint ( ) ) {
Variant constant = tokenizer - > get_token_constant ( ) ;
String icon_path = constant . operator String ( ) ;
String abs_icon_path = icon_path . is_rel_path ( ) ? self_path . get_base_dir ( ) . plus_file ( icon_path ) . simplify_path ( ) : icon_path ;
if ( ! FileAccess : : exists ( abs_icon_path ) ) {
_set_error ( " No class icon found at: " + abs_icon_path ) ;
return ;
}
p_class - > icon_path = icon_path ;
}
# endif
tokenizer - > advance ( ) ;
} else {
_set_error ( " The optional parameter after \" class_name \" must be a string constant file path to an icon. " ) ;
return ;
}
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT ) {
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_set_error ( " The class icon must be separated by a comma. " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_TOOL : {
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if ( p_class - > tool ) {
_set_error ( " The \" tool \" keyword can only be present once per script. " ) ;
return ;
}
p_class - > tool = true ;
tokenizer - > advance ( ) ;
} break ;
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case CScriptTokenizer : : TK_PR_CLASS : {
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//class inside class :D
StringName name ;
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if ( tokenizer - > get_token ( 1 ) ! = CScriptTokenizer : : TK_IDENTIFIER ) {
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_set_error ( " \" class \" syntax: \" class <Name>: \" or \" class <Name> extends <BaseClass>: \" " ) ;
return ;
}
name = tokenizer - > get_token_identifier ( 1 ) ;
tokenizer - > advance ( 2 ) ;
// Check if name is shadowing something else
if ( ClassDB : : class_exists ( name ) | | ClassDB : : class_exists ( " _ " + name . operator String ( ) ) ) {
_set_error ( " The class \" " + String ( name ) + " \" shadows a native class. " ) ;
return ;
}
if ( ScriptServer : : is_global_class ( name ) ) {
_set_error ( " Can't override name of the unique global class \" " + name + " \" . It already exists at: " + ScriptServer : : get_global_class_path ( p_class - > name ) ) ;
return ;
}
ClassNode * outer_class = p_class ;
while ( outer_class ) {
for ( int i = 0 ; i < outer_class - > subclasses . size ( ) ; i + + ) {
if ( outer_class - > subclasses [ i ] - > name = = name ) {
_set_error ( " Another class named \" " + String ( name ) + " \" already exists in this scope (at line " + itos ( outer_class - > subclasses [ i ] - > line ) + " ). " ) ;
return ;
}
}
if ( outer_class - > constant_expressions . has ( name ) ) {
_set_error ( " A constant named \" " + String ( name ) + " \" already exists in the outer class scope (at line " + itos ( outer_class - > constant_expressions [ name ] . expression - > line ) + " ). " ) ;
return ;
}
for ( int i = 0 ; i < outer_class - > variables . size ( ) ; i + + ) {
if ( outer_class - > variables [ i ] . identifier = = name ) {
_set_error ( " A variable named \" " + String ( name ) + " \" already exists in the outer class scope (at line " + itos ( outer_class - > variables [ i ] . line ) + " ). " ) ;
return ;
}
}
outer_class = outer_class - > owner ;
}
ClassNode * newclass = alloc_node < ClassNode > ( ) ;
newclass - > initializer = alloc_node < BlockNode > ( ) ;
newclass - > initializer - > parent_class = newclass ;
newclass - > ready = alloc_node < BlockNode > ( ) ;
newclass - > ready - > parent_class = newclass ;
newclass - > name = name ;
newclass - > owner = p_class ;
p_class - > subclasses . push_back ( newclass ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_EXTENDS ) {
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_parse_extends ( newclass ) ;
if ( error_set ) {
return ;
}
}
if ( ! _enter_indent_block ( ) ) {
_set_error ( " Indented block expected. " ) ;
return ;
}
current_class = newclass ;
_parse_class ( newclass ) ;
current_class = p_class ;
} break ;
/* this is for functions....
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case CScriptTokenizer : : TK_CF_PASS : {
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tokenizer - > advance ( 1 ) ;
} break ;
*/
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case CScriptTokenizer : : TK_PR_STATIC : {
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tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PR_FUNCTION ) {
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_set_error ( " Expected \" func \" . " ) ;
return ;
}
FALLTHROUGH ;
}
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case CScriptTokenizer : : TK_PR_FUNCTION : {
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bool _static = false ;
pending_newline = - 1 ;
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if ( tokenizer - > get_token ( - 1 ) = = CScriptTokenizer : : TK_PR_STATIC ) {
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_static = true ;
}
tokenizer - > advance ( ) ;
StringName name ;
if ( _get_completable_identifier ( COMPLETION_VIRTUAL_FUNC , name ) ) {
}
if ( name = = StringName ( ) ) {
_set_error ( " Expected an identifier after \" func \" (syntax: \" func <identifier>([arguments]): \" ). " ) ;
return ;
}
for ( int i = 0 ; i < p_class - > functions . size ( ) ; i + + ) {
if ( p_class - > functions [ i ] - > name = = name ) {
_set_error ( " The function \" " + String ( name ) + " \" already exists in this class (at line " + itos ( p_class - > functions [ i ] - > line ) + " ). " ) ;
}
}
for ( int i = 0 ; i < p_class - > static_functions . size ( ) ; i + + ) {
if ( p_class - > static_functions [ i ] - > name = = name ) {
_set_error ( " The function \" " + String ( name ) + " \" already exists in this class (at line " + itos ( p_class - > static_functions [ i ] - > line ) + " ). " ) ;
}
}
# ifdef DEBUG_ENABLED
if ( p_class - > constant_expressions . has ( name ) ) {
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_add_warning ( CScriptWarning : : FUNCTION_CONFLICTS_CONSTANT , - 1 , name ) ;
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}
for ( int i = 0 ; i < p_class - > variables . size ( ) ; i + + ) {
if ( p_class - > variables [ i ] . identifier = = name ) {
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_add_warning ( CScriptWarning : : FUNCTION_CONFLICTS_VARIABLE , - 1 , name ) ;
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}
}
for ( int i = 0 ; i < p_class - > subclasses . size ( ) ; i + + ) {
if ( p_class - > subclasses [ i ] - > name = = name ) {
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_add_warning ( CScriptWarning : : FUNCTION_CONFLICTS_CONSTANT , - 1 , name ) ;
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}
}
# endif // DEBUG_ENABLED
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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_set_error ( " Expected \" ( \" after the identifier (syntax: \" func <identifier>([arguments]): \" ). " ) ;
return ;
}
tokenizer - > advance ( ) ;
Vector < StringName > arguments ;
Vector < DataType > argument_types ;
Vector < Node * > default_values ;
# ifdef DEBUG_ENABLED
Vector < int > arguments_usage ;
# endif // DEBUG_ENABLED
int fnline = tokenizer - > get_token_line ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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//has arguments
bool defaulting = false ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
continue ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_VAR ) {
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tokenizer - > advance ( ) ; //var before the identifier is allowed
}
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Expected an identifier for an argument. " ) ;
return ;
}
StringName argname = tokenizer - > get_token_identifier ( ) ;
for ( int i = 0 ; i < arguments . size ( ) ; i + + ) {
if ( arguments [ i ] = = argname ) {
_set_error ( " The argument name \" " + String ( argname ) + " \" is defined multiple times. " ) ;
return ;
}
}
arguments . push_back ( argname ) ;
# ifdef DEBUG_ENABLED
arguments_usage . push_back ( 0 ) ;
# endif // DEBUG_ENABLED
tokenizer - > advance ( ) ;
DataType argtype ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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argtype . infer_type = true ;
tokenizer - > advance ( ) ;
} else if ( ! _parse_type ( argtype ) ) {
_set_error ( " Expected a type for an argument. " ) ;
return ;
}
}
argument_types . push_back ( argtype ) ;
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if ( defaulting & & tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_OP_ASSIGN ) {
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_set_error ( " Default parameter expected. " ) ;
return ;
}
//tokenizer->advance();
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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defaulting = true ;
tokenizer - > advance ( 1 ) ;
Node * defval = _parse_and_reduce_expression ( p_class , _static ) ;
if ( ! defval | | error_set ) {
return ;
}
OperatorNode * on = alloc_node < OperatorNode > ( ) ;
on - > op = OperatorNode : : OP_ASSIGN ;
on - > line = fnline ;
IdentifierNode * in = alloc_node < IdentifierNode > ( ) ;
in - > name = argname ;
in - > line = fnline ;
on - > arguments . push_back ( in ) ;
on - > arguments . push_back ( defval ) ;
/* no ..
if ( defval - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " default argument must be constant " ) ;
}
*/
default_values . push_back ( on ) ;
}
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
continue ;
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} else if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" , \" or \" ) \" . " ) ;
return ;
}
break ;
}
}
tokenizer - > advance ( ) ;
BlockNode * block = alloc_node < BlockNode > ( ) ;
block - > parent_class = p_class ;
FunctionNode * function = alloc_node < FunctionNode > ( ) ;
function - > name = name ;
function - > arguments = arguments ;
function - > argument_types = argument_types ;
function - > default_values = default_values ;
function - > _static = _static ;
function - > line = fnline ;
# ifdef DEBUG_ENABLED
function - > arguments_usage = arguments_usage ;
# endif // DEBUG_ENABLED
if ( name = = " _init " ) {
if ( _static ) {
_set_error ( " The constructor cannot be static. " ) ;
return ;
}
if ( p_class - > extends_used ) {
OperatorNode * cparent = alloc_node < OperatorNode > ( ) ;
cparent - > op = OperatorNode : : OP_PARENT_CALL ;
block - > statements . push_back ( cparent ) ;
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = " _init " ;
cparent - > arguments . push_back ( id ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD ) {
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tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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_set_error ( " Expected \" ( \" for parent constructor arguments. " ) ;
return ;
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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//has arguments
parenthesis + + ;
while ( true ) {
current_function = function ;
Node * arg = _parse_and_reduce_expression ( p_class , _static ) ;
if ( ! arg ) {
return ;
}
current_function = nullptr ;
cparent - > arguments . push_back ( arg ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
continue ;
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} else if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" , \" or \" ) \" . " ) ;
return ;
}
break ;
}
parenthesis - - ;
}
tokenizer - > advance ( ) ;
}
} else {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PERIOD ) {
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_set_error ( " Parent constructor call found for a class without inheritance. " ) ;
return ;
}
}
}
DataType return_type ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_FORWARD_ARROW ) {
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if ( ! _parse_type ( return_type , true ) ) {
_set_error ( " Expected a return type for the function. " ) ;
return ;
}
}
if ( ! _enter_indent_block ( block ) ) {
_set_error ( vformat ( " Indented block expected after declaration of \" %s \" function. " , function - > name ) ) ;
return ;
}
function - > return_type = return_type ;
if ( _static ) {
p_class - > static_functions . push_back ( function ) ;
} else {
p_class - > functions . push_back ( function ) ;
}
current_function = function ;
function - > body = block ;
current_block = block ;
_parse_block ( block , _static ) ;
current_block = nullptr ;
//arguments
} break ;
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case CScriptTokenizer : : TK_PR_SIGNAL : {
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_mark_line_as_safe ( tokenizer - > get_token_line ( ) ) ;
tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( ) ) {
_set_error ( " Expected an identifier after \" signal \" . " ) ;
return ;
}
ClassNode : : Signal sig ;
sig . name = tokenizer - > get_token_identifier ( ) ;
sig . emissions = 0 ;
sig . line = tokenizer - > get_token_line ( ) ;
for ( int i = 0 ; i < current_class - > _signals . size ( ) ; i + + ) {
if ( current_class - > _signals [ i ] . name = = sig . name ) {
_set_error ( " The signal \" " + sig . name + " \" already exists in this class (at line: " + itos ( current_class - > _signals [ i ] . line ) + " ). " ) ;
return ;
}
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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tokenizer - > advance ( ) ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
continue ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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tokenizer - > advance ( ) ;
break ;
}
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Expected an identifier in a \" signal \" argument. " ) ;
return ;
}
sig . arguments . push_back ( tokenizer - > get_token_identifier ( ) ) ;
tokenizer - > advance ( ) ;
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
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} else if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" , \" or \" ) \" after a \" signal \" parameter identifier. " ) ;
return ;
}
}
}
p_class - > _signals . push_back ( sig ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " signal " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_EXPORT : {
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tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_OPEN ) {
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# define _ADVANCE_AND_CONSUME_NEWLINES \
do { \
tokenizer - > advance ( ) ; \
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} while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE )
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_ADVANCE_AND_CONSUME_NEWLINES ;
parenthesis + + ;
String hint_prefix = " " ;
bool is_arrayed = false ;
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while ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE & &
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tokenizer - > get_token_type ( ) = = Variant : : ARRAY & &
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tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ; // Array
tokenizer - > advance ( ) ; // Comma
if ( is_arrayed ) {
hint_prefix + = itos ( Variant : : ARRAY ) + " : " ;
} else {
is_arrayed = true ;
}
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_BUILT_IN_TYPE ) {
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Variant : : Type type = tokenizer - > get_token_type ( ) ;
if ( type = = Variant : : NIL ) {
_set_error ( " Can't export null type. " ) ;
return ;
}
if ( type = = Variant : : OBJECT ) {
_set_error ( " Can't export raw object type. " ) ;
return ;
}
current_export . type = type ;
current_export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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// hint expected next!
_ADVANCE_AND_CONSUME_NEWLINES ;
switch ( type ) {
case Variant : : INT : {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " FLAGS " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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WARN_DEPRECATED_MSG ( " Exporting bit flags hint requires string constants. " ) ;
break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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_set_error ( " Expected \" , \" in the bit flags hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_FLAGS ;
_ADVANCE_AND_CONSUME_NEWLINES ;
bool first = true ;
while ( true ) {
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | tokenizer - > get_token_constant ( ) . get_type ( ) ! = Variant : : STRING ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a string constant in the named bit flags hint. " ) ;
return ;
}
String c = tokenizer - > get_token_constant ( ) ;
if ( ! first ) {
current_export . hint_string + = " , " ;
} else {
first = false ;
}
current_export . hint_string + = c . xml_escape ( ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" ) \" or \" , \" in the named bit flags hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
}
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_2D_RENDER " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the layers 2D render hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_2D_RENDER ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_2D_PHYSICS " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the layers 2D physics hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_2D_PHYSICS ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_2D_NAVIGATION " ) {
_ADVANCE_AND_CONSUME_NEWLINES ;
if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
_set_error ( " Expected \" ) \" in the layers 2D navigation hint. " ) ;
return ;
}
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current_export . hint = PROPERTY_HINT_LAYERS_2D_NAVIGATION ;
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break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_3D_RENDER " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the layers 3D render hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_3D_RENDER ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_3D_PHYSICS " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the layers 3D physics hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_3D_PHYSICS ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " LAYERS_3D_NAVIGATION " ) {
_ADVANCE_AND_CONSUME_NEWLINES ;
if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
_set_error ( " Expected \" ) \" in the layers 3D navigation hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_3D_NAVIGATION ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " PROPERTY_HINT_LAYERS_AVOIDANCE " ) {
_ADVANCE_AND_CONSUME_NEWLINES ;
if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
_set_error ( " Expected \" ) \" in the avoidance 3D navigation hint. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_LAYERS_AVOIDANCE ;
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT & & tokenizer - > get_token_constant ( ) . get_type ( ) = = Variant : : STRING ) {
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//enumeration
current_export . hint = PROPERTY_HINT_ENUM ;
bool first = true ;
while ( true ) {
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | tokenizer - > get_token_constant ( ) . get_type ( ) ! = Variant : : STRING ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a string constant in the enumeration hint. " ) ;
return ;
}
String c = tokenizer - > get_token_constant ( ) ;
if ( ! first ) {
current_export . hint_string + = " , " ;
} else {
first = false ;
}
current_export . hint_string + = c . xml_escape ( ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" ) \" or \" , \" in the enumeration hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
}
break ;
}
FALLTHROUGH ;
}
case Variant : : REAL : {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " EASE " ) {
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current_export . hint = PROPERTY_HINT_EXP_EASING ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the hint. " ) ;
return ;
}
break ;
}
// range
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " EXP " ) {
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current_export . hint = PROPERTY_HINT_EXP_RANGE ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
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} else if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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_set_error ( " Expected \" ) \" or \" , \" in the exponential range hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
} else {
current_export . hint = PROPERTY_HINT_RANGE ;
}
float sign = 1.0 ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_SUB ) {
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sign = - 1 ;
_ADVANCE_AND_CONSUME_NEWLINES ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | ! tokenizer - > get_token_constant ( ) . is_num ( ) ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a range in the numeric hint. " ) ;
return ;
}
current_export . hint_string = rtos ( sign * double ( tokenizer - > get_token_constant ( ) ) ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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current_export . hint_string = " 0, " + current_export . hint_string ;
break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" , \" or \" ) \" in the numeric range hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
sign = 1.0 ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_SUB ) {
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sign = - 1 ;
_ADVANCE_AND_CONSUME_NEWLINES ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | ! tokenizer - > get_token_constant ( ) . is_num ( ) ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a number as upper bound in the numeric range hint. " ) ;
return ;
}
current_export . hint_string + = " , " + rtos ( sign * double ( tokenizer - > get_token_constant ( ) ) ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" , \" or \" ) \" in the numeric range hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
sign = 1.0 ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_SUB ) {
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sign = - 1 ;
_ADVANCE_AND_CONSUME_NEWLINES ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | ! tokenizer - > get_token_constant ( ) . is_num ( ) ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a number as step in the numeric range hint. " ) ;
return ;
}
current_export . hint_string + = " , " + rtos ( sign * double ( tokenizer - > get_token_constant ( ) ) ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
} break ;
case Variant : : STRING : {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CONSTANT & & tokenizer - > get_token_constant ( ) . get_type ( ) = = Variant : : STRING ) {
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//enumeration
current_export . hint = PROPERTY_HINT_ENUM ;
bool first = true ;
while ( true ) {
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | tokenizer - > get_token_constant ( ) . get_type ( ) ! = Variant : : STRING ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected a string constant in the enumeration hint. " ) ;
return ;
}
String c = tokenizer - > get_token_constant ( ) ;
if ( ! first ) {
current_export . hint_string + = " , " ;
} else {
first = false ;
}
current_export . hint_string + = c . xml_escape ( ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" ) \" or \" , \" in the enumeration hint. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
}
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " DIR " ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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current_export . hint = PROPERTY_HINT_DIR ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_IDENTIFIER | | ! ( tokenizer - > get_token_identifier ( ) = = " GLOBAL " ) ) {
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_set_error ( " Expected \" GLOBAL \" after comma in the directory hint. " ) ;
return ;
}
if ( ! p_class - > tool ) {
_set_error ( " Global filesystem hints may only be used in tool scripts. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_GLOBAL_DIR ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the hint. " ) ;
return ;
}
} else {
_set_error ( " Expected \" ) \" or \" , \" in the hint. " ) ;
return ;
}
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " FILE " ) {
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current_export . hint = PROPERTY_HINT_FILE ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " GLOBAL " ) {
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if ( ! p_class - > tool ) {
_set_error ( " Global filesystem hints may only be used in tool scripts. " ) ;
return ;
}
current_export . hint = PROPERTY_HINT_GLOBAL_FILE ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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break ;
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
} else {
_set_error ( " Expected \" ) \" or \" , \" in the hint. " ) ;
return ;
}
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CONSTANT | | tokenizer - > get_token_constant ( ) . get_type ( ) ! = Variant : : STRING ) {
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if ( current_export . hint = = PROPERTY_HINT_GLOBAL_FILE ) {
_set_error ( " Expected string constant with filter. " ) ;
} else {
_set_error ( " Expected \" GLOBAL \" or string constant with filter. " ) ;
}
return ;
}
current_export . hint_string = tokenizer - > get_token_constant ( ) ;
_ADVANCE_AND_CONSUME_NEWLINES ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the hint. " ) ;
return ;
}
break ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " MULTILINE " ) {
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current_export . hint = PROPERTY_HINT_MULTILINE_TEXT ;
_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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_set_error ( " Expected \" ) \" in the hint. " ) ;
return ;
}
break ;
}
} break ;
case Variant : : COLOR : {
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_IDENTIFIER ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Color type hint expects RGB or RGBA as hints. " ) ;
return ;
}
String identifier = tokenizer - > get_token_identifier ( ) ;
if ( identifier = = " RGB " ) {
current_export . hint = PROPERTY_HINT_COLOR_NO_ALPHA ;
} else if ( identifier = = " RGBA " ) {
//none
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " Color type hint expects RGB or RGBA as hints. " ) ;
return ;
}
_ADVANCE_AND_CONSUME_NEWLINES ;
} break ;
default : {
current_export = PropertyInfo ( ) ;
_set_error ( " Type \" " + Variant : : get_type_name ( type ) + " \" can't take hints. " ) ;
return ;
} break ;
}
}
} else {
parenthesis + + ;
Node * subexpr = _parse_and_reduce_expression ( p_class , true , true ) ;
if ( ! subexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
parenthesis - - ;
if ( subexpr - > type ! = Node : : TYPE_CONSTANT ) {
current_export = PropertyInfo ( ) ;
_set_error ( " Expected a constant expression. " ) ;
return ;
}
Variant constant = static_cast < ConstantNode * > ( subexpr ) - > value ;
if ( constant . get_type ( ) = = Variant : : OBJECT ) {
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StringName class_name ;
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CScriptNativeClass * native_class = Object : : cast_to < CScriptNativeClass > ( constant ) ;
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if ( native_class ) {
if ( ClassDB : : is_parent_class ( native_class - > get_name ( ) , " Resource " ) ) {
class_name = native_class - > get_name ( ) ;
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " The export hint isn't a resource type. " ) ;
}
} else {
Ref < Script > res_script = constant ;
StringName script_class ;
if ( res_script . is_valid ( ) ) {
script_class = res_script - > get_language ( ) - > get_global_class_name ( res_script - > get_path ( ) ) ;
if ( ClassDB : : is_parent_class ( ScriptServer : : get_global_class_native_base ( script_class ) , " Resource " ) ) {
class_name = script_class ;
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " The exported script does not extend Resource. " ) ;
}
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " The exported script isn't a script class. " ) ;
}
}
if ( class_name ! = StringName ( ) ) {
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current_export . type = Variant : : OBJECT ;
current_export . hint = PROPERTY_HINT_RESOURCE_TYPE ;
current_export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
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current_export . hint_string = class_name ;
current_export . class_name = class_name ;
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}
} else if ( constant . get_type ( ) = = Variant : : DICTIONARY ) {
// Enumeration
bool is_flags = false ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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_ADVANCE_AND_CONSUME_NEWLINES ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_IDENTIFIER & & tokenizer - > get_token_identifier ( ) = = " FLAGS " ) {
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is_flags = true ;
_ADVANCE_AND_CONSUME_NEWLINES ;
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" FLAGS \" after comma. " ) ;
}
}
current_export . type = Variant : : INT ;
current_export . hint = is_flags ? PROPERTY_HINT_FLAGS : PROPERTY_HINT_ENUM ;
current_export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
Dictionary enum_values = constant ;
List < Variant > keys ;
enum_values . get_key_list ( & keys ) ;
bool first = true ;
for ( List < Variant > : : Element * E = keys . front ( ) ; E ; E = E - > next ( ) ) {
if ( enum_values [ E - > get ( ) ] . get_type ( ) = = Variant : : INT ) {
if ( ! first ) {
current_export . hint_string + = " , " ;
} else {
first = false ;
}
current_export . hint_string + = E - > get ( ) . operator String ( ) . capitalize ( ) . xml_escape ( ) ;
if ( ! is_flags ) {
current_export . hint_string + = " : " ;
current_export . hint_string + = enum_values [ E - > get ( ) ] . operator String ( ) . xml_escape ( ) ;
}
}
}
} else {
current_export = PropertyInfo ( ) ;
_set_error ( " Expected type for export. " ) ;
return ;
}
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PARENTHESIS_CLOSE ) {
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current_export = PropertyInfo ( ) ;
_set_error ( " Expected \" ) \" or \" , \" after the export hint. " ) ;
return ;
}
tokenizer - > advance ( ) ;
parenthesis - - ;
if ( is_arrayed ) {
hint_prefix + = itos ( current_export . type ) ;
if ( current_export . hint ) {
hint_prefix + = " / " + itos ( current_export . hint ) ;
}
current_export . hint_string = hint_prefix + " : " + current_export . hint_string ;
current_export . hint = PROPERTY_HINT_TYPE_STRING ;
current_export . type = Variant : : ARRAY ;
}
# undef _ADVANCE_AND_CONSUME_NEWLINES
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PR_VAR & & tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PR_ONREADY ) {
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current_export = PropertyInfo ( ) ;
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_set_error ( " Expected \" var \" , \" onready \" . " ) ;
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return ;
}
continue ;
} break ;
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case CScriptTokenizer : : TK_PR_ONREADY : {
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//may be fallthrough from export, ignore if so
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_PR_VAR ) {
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_set_error ( " Expected \" var \" . " ) ;
return ;
}
continue ;
} break ;
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case CScriptTokenizer : : TK_PR_VAR : {
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// variable declaration and (eventual) initialization
ClassNode : : Member member ;
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bool autoexport = tokenizer - > get_token ( - 1 ) = = CScriptTokenizer : : TK_PR_EXPORT ;
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if ( current_export . type ! = Variant : : NIL ) {
member . _export = current_export ;
current_export = PropertyInfo ( ) ;
}
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bool onready = tokenizer - > get_token ( - 1 ) = = CScriptTokenizer : : TK_PR_ONREADY ;
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tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Expected an identifier for the member variable name. " ) ;
return ;
}
member . identifier = tokenizer - > get_token_literal ( ) ;
member . expression = nullptr ;
member . _export . name = member . identifier ;
member . line = tokenizer - > get_token_line ( ) ;
member . usages = 0 ;
if ( current_class - > constant_expressions . has ( member . identifier ) ) {
_set_error ( " A constant named \" " + String ( member . identifier ) + " \" already exists in this class (at line: " +
itos ( current_class - > constant_expressions [ member . identifier ] . expression - > line ) + " ). " ) ;
return ;
}
for ( int i = 0 ; i < current_class - > variables . size ( ) ; i + + ) {
if ( current_class - > variables [ i ] . identifier = = member . identifier ) {
_set_error ( " Variable \" " + String ( member . identifier ) + " \" already exists in this class (at line: " +
itos ( current_class - > variables [ i ] . line ) + " ). " ) ;
return ;
}
}
for ( int i = 0 ; i < current_class - > subclasses . size ( ) ; i + + ) {
if ( current_class - > subclasses [ i ] - > name = = member . identifier ) {
_set_error ( " A class named \" " + String ( member . identifier ) + " \" already exists in this class (at line " + itos ( current_class - > subclasses [ i ] - > line ) + " ). " ) ;
return ;
}
}
# ifdef DEBUG_ENABLED
for ( int i = 0 ; i < current_class - > functions . size ( ) ; i + + ) {
if ( current_class - > functions [ i ] - > name = = member . identifier ) {
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_add_warning ( CScriptWarning : : VARIABLE_CONFLICTS_FUNCTION , member . line , member . identifier ) ;
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break ;
}
}
for ( int i = 0 ; i < current_class - > static_functions . size ( ) ; i + + ) {
if ( current_class - > static_functions [ i ] - > name = = member . identifier ) {
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_add_warning ( CScriptWarning : : VARIABLE_CONFLICTS_FUNCTION , member . line , member . identifier ) ;
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break ;
}
}
# endif // DEBUG_ENABLED
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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member . data_type = DataType ( ) ;
member . data_type . infer_type = true ;
tokenizer - > advance ( ) ;
} else if ( ! _parse_type ( member . data_type ) ) {
_set_error ( " Expected a type for the class variable. " ) ;
return ;
}
}
if ( autoexport & & member . data_type . has_type ) {
if ( member . data_type . kind = = DataType : : BUILTIN ) {
member . _export . type = member . data_type . builtin_type ;
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member . _export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
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} else if ( member . data_type . kind = = DataType : : NATIVE ) {
if ( ClassDB : : is_parent_class ( member . data_type . native_type , " Resource " ) ) {
member . _export . type = Variant : : OBJECT ;
member . _export . hint = PROPERTY_HINT_RESOURCE_TYPE ;
member . _export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
member . _export . hint_string = member . data_type . native_type ;
member . _export . class_name = member . data_type . native_type ;
} else {
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_set_error ( vformat ( " Invalid native export type. \" %s \" is not a Resource type. " , member . data_type . native_type ) , member . line ) ;
return ;
}
} else if ( member . data_type . kind = = DataType : : SCRIPT | | member . data_type . kind = = DataType : : CSCRIPT ) {
if ( member . data_type . script_type . is_null ( ) ) {
_set_error ( " Invalid script export type. Could not load member script value. " , member . line ) ;
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return ;
}
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Ref < Script > s = member . data_type . script_type ;
StringName class_name = s - > get_language ( ) - > get_global_class_name ( s - > get_path ( ) ) ;
if ( class_name = = StringName ( ) ) {
_set_error ( " Invalid script export type. The member is a script that has no global script class name. " , member . line ) ;
return ;
}
if ( ! ClassDB : : is_parent_class ( ScriptServer : : get_global_class_native_base ( class_name ) , " Resource " ) ) {
_set_error ( " Invalid script export type. The member is a script class that does not extend a Resource type. " , member . line ) ;
return ;
}
member . _export . type = Variant : : OBJECT ;
member . _export . hint = PROPERTY_HINT_RESOURCE_TYPE ;
member . _export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
member . _export . hint_string = class_name ;
member . _export . class_name = class_name ;
} else if ( member . data_type . kind = = DataType : : UNRESOLVED & & ScriptServer : : is_global_class ( member . data_type . native_type ) ) {
StringName class_name = member . data_type . native_type ;
if ( ClassDB : : is_parent_class ( ScriptServer : : get_global_class_native_base ( class_name ) , " Resource " ) ) {
member . _export . type = Variant : : OBJECT ;
member . _export . hint = PROPERTY_HINT_RESOURCE_TYPE ;
member . _export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
member . _export . hint_string = class_name ;
member . _export . class_name = class_name ;
}
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} else {
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_set_error ( " Invalid export type. Only built-in types and native or script class Resource types can be exported. " , member . line ) ;
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return ;
}
}
# ifdef TOOLS_ENABLED
Variant : : CallError ce ;
member . default_value = Variant : : construct ( member . _export . type , nullptr , 0 , ce ) ;
# endif
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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# ifdef DEBUG_ENABLED
int line = tokenizer - > get_token_line ( ) ;
# endif
tokenizer - > advance ( ) ;
Node * subexpr = _parse_and_reduce_expression ( p_class , false , autoexport | | member . _export . type ! = Variant : : NIL ) ;
if ( ! subexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
//discourage common error
if ( ! onready & & subexpr - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * op = static_cast < OperatorNode * > ( subexpr ) ;
if ( op - > op = = OperatorNode : : OP_CALL & & op - > arguments [ 0 ] - > type = = Node : : TYPE_SELF & & op - > arguments [ 1 ] - > type = = Node : : TYPE_IDENTIFIER ) {
IdentifierNode * id = static_cast < IdentifierNode * > ( op - > arguments [ 1 ] ) ;
if ( id - > name = = " get_node " ) {
_set_error ( " Use \" onready var " + String ( member . identifier ) + " = get_node(...) \" instead. " ) ;
return ;
}
}
}
member . expression = subexpr ;
if ( autoexport & & ! member . data_type . has_type ) {
if ( subexpr - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Type-less export needs a constant expression assigned to infer type. " ) ;
return ;
}
ConstantNode * cn = static_cast < ConstantNode * > ( subexpr ) ;
if ( cn - > value . get_type ( ) = = Variant : : NIL ) {
_set_error ( " Can't accept a null constant expression for inferring export type. " ) ;
return ;
}
if ( ! _reduce_export_var_type ( cn - > value , member . line ) ) {
return ;
}
member . _export . type = cn - > value . get_type ( ) ;
member . _export . usage | = PROPERTY_USAGE_SCRIPT_VARIABLE ;
if ( cn - > value . get_type ( ) = = Variant : : OBJECT ) {
Object * obj = cn - > value ;
Resource * res = Object : : cast_to < Resource > ( obj ) ;
if ( res = = nullptr ) {
_set_error ( " The exported constant isn't a type or resource. " ) ;
return ;
}
member . _export . hint = PROPERTY_HINT_RESOURCE_TYPE ;
member . _export . hint_string = res - > get_class ( ) ;
}
}
# ifdef TOOLS_ENABLED
// Warn if the default value set is not the same as the export type, since it won't be coerced and
// may create wrong expectations.
if ( subexpr - > type = = Node : : TYPE_CONSTANT & & ( member . _export . type ! = Variant : : NIL | | member . data_type . has_type ) ) {
ConstantNode * cn = static_cast < ConstantNode * > ( subexpr ) ;
if ( cn - > value . get_type ( ) ! = Variant : : NIL ) {
if ( member . _export . type ! = Variant : : NIL & & cn - > value . get_type ( ) ! = member . _export . type ) {
if ( ! Variant : : can_convert ( cn - > value . get_type ( ) , member . _export . type ) ) {
_set_error ( " Can't convert the provided value to the export type. " ) ;
return ;
} else if ( ! member . data_type . has_type ) {
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_add_warning ( CScriptWarning : : EXPORT_HINT_TYPE_MISTMATCH , member . line , Variant : : get_type_name ( cn - > value . get_type ( ) ) , Variant : : get_type_name ( member . _export . type ) ) ;
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}
}
}
member . default_value = cn - > value ;
}
# endif
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = member . identifier ;
id - > datatype = member . data_type ;
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_INIT_ASSIGN ;
op - > arguments . push_back ( id ) ;
op - > arguments . push_back ( subexpr ) ;
# ifdef DEBUG_ENABLED
NewLineNode * nl2 = alloc_node < NewLineNode > ( ) ;
nl2 - > line = line ;
if ( onready ) {
p_class - > ready - > statements . push_back ( nl2 ) ;
} else {
p_class - > initializer - > statements . push_back ( nl2 ) ;
}
# endif
if ( onready ) {
p_class - > ready - > statements . push_back ( op ) ;
} else {
p_class - > initializer - > statements . push_back ( op ) ;
}
member . initial_assignment = op ;
} else {
if ( autoexport & & ! member . data_type . has_type ) {
_set_error ( " Type-less export needs a constant expression assigned to infer type. " ) ;
return ;
}
Node * expr ;
if ( member . data_type . has_type ) {
expr = _get_default_value_for_type ( member . data_type ) ;
} else {
DataType exported_type ;
exported_type . has_type = true ;
exported_type . kind = DataType : : BUILTIN ;
exported_type . builtin_type = member . _export . type ;
expr = _get_default_value_for_type ( exported_type ) ;
}
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = member . identifier ;
id - > datatype = member . data_type ;
OperatorNode * op = alloc_node < OperatorNode > ( ) ;
op - > op = OperatorNode : : OP_INIT_ASSIGN ;
op - > arguments . push_back ( id ) ;
op - > arguments . push_back ( expr ) ;
p_class - > initializer - > statements . push_back ( op ) ;
member . initial_assignment = op ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_PR_SETGET ) {
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tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_COMMA ) {
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//just comma means using only getter
if ( ! tokenizer - > is_token_literal ( ) ) {
_set_error ( " Expected an identifier for the setter function after \" setget \" . " ) ;
}
member . setter = tokenizer - > get_token_literal ( ) ;
tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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//there is a getter
tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( ) ) {
_set_error ( " Expected an identifier for the getter function after \" , \" . " ) ;
}
member . getter = tokenizer - > get_token_literal ( ) ;
tokenizer - > advance ( ) ;
}
}
p_class - > variables . push_back ( member ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " var " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_CONST : {
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// constant declaration and initialization
ClassNode : : Constant constant ;
tokenizer - > advance ( ) ;
if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Expected an identifier for the constant. " ) ;
return ;
}
StringName const_id = tokenizer - > get_token_literal ( ) ;
int line = tokenizer - > get_token_line ( ) ;
if ( current_class - > constant_expressions . has ( const_id ) ) {
_set_error ( " Constant \" " + String ( const_id ) + " \" already exists in this class (at line " +
itos ( current_class - > constant_expressions [ const_id ] . expression - > line ) + " ). " ) ;
return ;
}
for ( int i = 0 ; i < current_class - > variables . size ( ) ; i + + ) {
if ( current_class - > variables [ i ] . identifier = = const_id ) {
_set_error ( " A variable named \" " + String ( const_id ) + " \" already exists in this class (at line " +
itos ( current_class - > variables [ i ] . line ) + " ). " ) ;
return ;
}
}
for ( int i = 0 ; i < current_class - > subclasses . size ( ) ; i + + ) {
if ( current_class - > subclasses [ i ] - > name = = const_id ) {
_set_error ( " A class named \" " + String ( const_id ) + " \" already exists in this class (at line " + itos ( current_class - > subclasses [ i ] - > line ) + " ). " ) ;
return ;
}
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COLON ) {
if ( tokenizer - > get_token ( 1 ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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constant . type = DataType ( ) ;
constant . type . infer_type = true ;
tokenizer - > advance ( ) ;
} else if ( ! _parse_type ( constant . type ) ) {
_set_error ( " Expected a type for the class constant. " ) ;
return ;
}
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_OP_ASSIGN ) {
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_set_error ( " Constants must be assigned immediately. " ) ;
return ;
}
tokenizer - > advance ( ) ;
Node * subexpr = _parse_and_reduce_expression ( p_class , true , true ) ;
if ( ! subexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
if ( subexpr - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Expected a constant expression. " , line ) ;
return ;
}
subexpr - > line = line ;
constant . expression = subexpr ;
p_class - > constant_expressions . insert ( const_id , constant ) ;
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " const " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_PR_ENUM : {
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//multiple constant declarations..
int last_assign = - 1 ; // Incremented by 1 right before the assignment.
String enum_name ;
Dictionary enum_dict ;
int enum_start_line = tokenizer - > get_token_line ( ) ;
tokenizer - > advance ( ) ;
if ( tokenizer - > is_token_literal ( 0 , true ) ) {
enum_name = tokenizer - > get_token_literal ( ) ;
if ( current_class - > constant_expressions . has ( enum_name ) ) {
_set_error ( " A constant named \" " + String ( enum_name ) + " \" already exists in this class (at line " +
itos ( current_class - > constant_expressions [ enum_name ] . expression - > line ) + " ). " ) ;
return ;
}
for ( int i = 0 ; i < current_class - > variables . size ( ) ; i + + ) {
if ( current_class - > variables [ i ] . identifier = = enum_name ) {
_set_error ( " A variable named \" " + String ( enum_name ) + " \" already exists in this class (at line " +
itos ( current_class - > variables [ i ] . line ) + " ). " ) ;
return ;
}
}
for ( int i = 0 ; i < current_class - > subclasses . size ( ) ; i + + ) {
if ( current_class - > subclasses [ i ] - > name = = enum_name ) {
_set_error ( " A class named \" " + String ( enum_name ) + " \" already exists in this class (at line " + itos ( current_class - > subclasses [ i ] - > line ) + " ). " ) ;
return ;
}
}
tokenizer - > advance ( ) ;
}
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if ( tokenizer - > get_token ( ) ! = CScriptTokenizer : : TK_CURLY_BRACKET_OPEN ) {
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_set_error ( " Expected \" { \" in the enum declaration. " ) ;
return ;
}
tokenizer - > advance ( ) ;
while ( true ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_NEWLINE ) {
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tokenizer - > advance ( ) ; // Ignore newlines
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} else if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURLY_BRACKET_CLOSE ) {
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tokenizer - > advance ( ) ;
break ; // End of enum
} else if ( ! tokenizer - > is_token_literal ( 0 , true ) ) {
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_EOF ) {
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_set_error ( " Unexpected end of file. " ) ;
} else {
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_set_error ( String ( " Unexpected " ) + CScriptTokenizer : : get_token_name ( tokenizer - > get_token ( ) ) + " , expected an identifier. " ) ;
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}
return ;
} else { // tokenizer->is_token_literal(0, true)
StringName const_id = tokenizer - > get_token_literal ( ) ;
tokenizer - > advance ( ) ;
ConstantNode * enum_value_expr ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_OP_ASSIGN ) {
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tokenizer - > advance ( ) ;
Node * subexpr = _parse_and_reduce_expression ( p_class , true , true ) ;
if ( ! subexpr ) {
if ( _recover_from_completion ( ) ) {
break ;
}
return ;
}
if ( subexpr - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Expected a constant expression. " ) ;
return ;
}
enum_value_expr = static_cast < ConstantNode * > ( subexpr ) ;
if ( enum_value_expr - > value . get_type ( ) ! = Variant : : INT ) {
_set_error ( " Expected an integer value for \" enum \" . " ) ;
return ;
}
last_assign = enum_value_expr - > value ;
} else {
last_assign = last_assign + 1 ;
enum_value_expr = alloc_node < ConstantNode > ( ) ;
enum_value_expr - > value = last_assign ;
enum_value_expr - > datatype = _type_from_variant ( enum_value_expr - > value ) ;
}
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_COMMA ) {
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tokenizer - > advance ( ) ;
} else if ( tokenizer - > is_token_literal ( 0 , true ) ) {
_set_error ( " Unexpected identifier. " ) ;
return ;
}
if ( enum_name ! = " " ) {
enum_dict [ const_id ] = enum_value_expr - > value ;
} else {
if ( current_class - > constant_expressions . has ( const_id ) ) {
_set_error ( " A constant named \" " + String ( const_id ) + " \" already exists in this class (at line " +
itos ( current_class - > constant_expressions [ const_id ] . expression - > line ) + " ). " ) ;
return ;
}
for ( int i = 0 ; i < current_class - > variables . size ( ) ; i + + ) {
if ( current_class - > variables [ i ] . identifier = = const_id ) {
_set_error ( " A variable named \" " + String ( const_id ) + " \" already exists in this class (at line " +
itos ( current_class - > variables [ i ] . line ) + " ). " ) ;
return ;
}
}
for ( int i = 0 ; i < current_class - > subclasses . size ( ) ; i + + ) {
if ( current_class - > subclasses [ i ] - > name = = const_id ) {
_set_error ( " A class named \" " + String ( const_id ) + " \" already exists in this class (at line " + itos ( current_class - > subclasses [ i ] - > line ) + " ). " ) ;
return ;
}
}
ClassNode : : Constant constant ;
constant . type . has_type = true ;
constant . type . kind = DataType : : BUILTIN ;
constant . type . builtin_type = Variant : : INT ;
constant . expression = enum_value_expr ;
p_class - > constant_expressions . insert ( const_id , constant ) ;
}
}
}
if ( enum_name ! = " " ) {
ClassNode : : Constant enum_constant ;
ConstantNode * cn = alloc_node < ConstantNode > ( ) ;
cn - > value = enum_dict ;
cn - > datatype = _type_from_variant ( cn - > value ) ;
cn - > line = enum_start_line ;
enum_constant . expression = cn ;
enum_constant . type = cn - > datatype ;
p_class - > constant_expressions . insert ( enum_name , enum_constant ) ;
}
if ( ! _end_statement ( ) ) {
_set_end_statement_error ( " enum " ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_CONSTANT : {
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if ( tokenizer - > get_token_constant ( ) . get_type ( ) = = Variant : : STRING ) {
tokenizer - > advance ( ) ;
// Ignore
} else {
_set_error ( String ( ) + " Unexpected constant of type: " + Variant : : get_type_name ( tokenizer - > get_token_constant ( ) . get_type ( ) ) ) ;
return ;
}
} break ;
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case CScriptTokenizer : : TK_CF_PASS : {
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tokenizer - > advance ( ) ;
} break ;
default : {
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if ( token = = CScriptTokenizer : : TK_IDENTIFIER ) {
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completion_type = COMPLETION_IDENTIFIER ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_block = current_block ;
completion_ident_is_call = false ;
completion_found = true ;
}
_set_error ( String ( ) + " Unexpected token: " + tokenizer - > get_token_name ( tokenizer - > get_token ( ) ) + " : " + tokenizer - > get_token_identifier ( ) ) ;
return ;
} break ;
}
}
}
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void CScriptParser : : _determine_inheritance ( ClassNode * p_class , bool p_recursive ) {
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if ( p_class - > base_type . has_type ) {
// Already determined
} else if ( p_class - > extends_used ) {
//do inheritance
String path = p_class - > extends_file ;
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Ref < CScript > script ;
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StringName native ;
ClassNode * base_class = nullptr ;
if ( path ! = " " ) {
//path (and optionally subclasses)
if ( path . is_rel_path ( ) ) {
String base = base_path ;
if ( base = = " " | | base . is_rel_path ( ) ) {
_set_error ( " Couldn't resolve relative path for the parent class: " + path , p_class - > line ) ;
return ;
}
path = base . plus_file ( path ) . simplify_path ( ) ;
}
script = ResourceLoader : : load ( path ) ;
if ( script . is_null ( ) ) {
_set_error ( " Couldn't load the base class: " + path , p_class - > line ) ;
return ;
}
if ( ! script - > is_valid ( ) ) {
_set_error ( " Script isn't fully loaded (cyclic preload?): " + path , p_class - > line ) ;
return ;
}
if ( p_class - > extends_class . size ( ) ) {
for ( int i = 0 ; i < p_class - > extends_class . size ( ) ; i + + ) {
String sub = p_class - > extends_class [ i ] ;
if ( script - > get_subclasses ( ) . has ( sub ) ) {
Ref < Script > subclass = script - > get_subclasses ( ) [ sub ] ; //avoid reference from disappearing
script = subclass ;
} else {
_set_error ( " Couldn't find the subclass: " + sub , p_class - > line ) ;
return ;
}
}
}
} else {
if ( p_class - > extends_class . size ( ) = = 0 ) {
_set_error ( " Parser bug: undecidable inheritance. " , p_class - > line ) ;
ERR_FAIL ( ) ;
}
//look around for the subclasses
int extend_iter = 1 ;
String base = p_class - > extends_class [ 0 ] ;
ClassNode * p = p_class - > owner ;
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Ref < CScript > base_script ;
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if ( ScriptServer : : is_global_class ( base ) ) {
base_script = ResourceLoader : : load ( ScriptServer : : get_global_class_path ( base ) ) ;
if ( ! base_script . is_valid ( ) ) {
_set_error ( " The class \" " + base + " \" couldn't be fully loaded (script error or cyclic dependency). " , p_class - > line ) ;
return ;
}
p = nullptr ;
} else {
List < PropertyInfo > props ;
ProjectSettings : : get_singleton ( ) - > get_property_list ( & props ) ;
for ( List < PropertyInfo > : : Element * E = props . front ( ) ; E ; E = E - > next ( ) ) {
String s = E - > get ( ) . name ;
if ( ! s . begins_with ( " autoload/ " ) ) {
continue ;
}
String name = s . get_slice ( " / " , 1 ) ;
if ( name = = base ) {
String singleton_path = ProjectSettings : : get_singleton ( ) - > get ( s ) ;
if ( singleton_path . begins_with ( " * " ) ) {
singleton_path = singleton_path . right ( 1 ) ;
}
if ( ! singleton_path . begins_with ( " res:// " ) ) {
singleton_path = " res:// " + singleton_path ;
}
base_script = ResourceLoader : : load ( singleton_path ) ;
if ( ! base_script . is_valid ( ) ) {
_set_error ( " Class ' " + base + " ' could not be fully loaded (script error or cyclic inheritance). " , p_class - > line ) ;
return ;
}
p = nullptr ;
}
}
}
while ( p ) {
bool found = false ;
for ( int i = 0 ; i < p - > subclasses . size ( ) ; i + + ) {
if ( p - > subclasses [ i ] - > name = = base ) {
ClassNode * test = p - > subclasses [ i ] ;
while ( test ) {
if ( test = = p_class ) {
_set_error ( " Cyclic inheritance. " , test - > line ) ;
return ;
}
if ( test - > base_type . kind = = DataType : : CLASS ) {
test = test - > base_type . class_type ;
} else {
break ;
}
}
found = true ;
if ( extend_iter < p_class - > extends_class . size ( ) ) {
// Keep looking at current classes if possible
base = p_class - > extends_class [ extend_iter + + ] ;
p = p - > subclasses [ i ] ;
} else {
base_class = p - > subclasses [ i ] ;
}
break ;
}
}
if ( base_class ) {
break ;
}
if ( found ) {
continue ;
}
if ( p - > constant_expressions . has ( base ) ) {
if ( p - > constant_expressions [ base ] . expression - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Couldn't resolve the constant \" " + base + " \" . " , p_class - > line ) ;
return ;
}
const ConstantNode * cn = static_cast < const ConstantNode * > ( p - > constant_expressions [ base ] . expression ) ;
base_script = cn - > value ;
if ( base_script . is_null ( ) ) {
_set_error ( " Constant isn't a class: " + base , p_class - > line ) ;
return ;
}
break ;
}
p = p - > owner ;
}
if ( base_script . is_valid ( ) ) {
String ident = base ;
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Ref < CScript > find_subclass = base_script ;
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for ( int i = extend_iter ; i < p_class - > extends_class . size ( ) ; i + + ) {
String subclass = p_class - > extends_class [ i ] ;
ident + = ( " . " + subclass ) ;
if ( find_subclass - > get_subclasses ( ) . has ( subclass ) ) {
find_subclass = find_subclass - > get_subclasses ( ) [ subclass ] ;
} else if ( find_subclass - > get_constants ( ) . has ( subclass ) ) {
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Ref < CScript > new_base_class = find_subclass - > get_constants ( ) [ subclass ] ;
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if ( new_base_class . is_null ( ) ) {
_set_error ( " Constant isn't a class: " + ident , p_class - > line ) ;
return ;
}
find_subclass = new_base_class ;
} else {
_set_error ( " Couldn't find the subclass: " + ident , p_class - > line ) ;
return ;
}
}
script = find_subclass ;
} else if ( ! base_class ) {
if ( p_class - > extends_class . size ( ) > 1 ) {
_set_error ( " Invalid inheritance (unknown class + subclasses). " , p_class - > line ) ;
return ;
}
//if not found, try engine classes
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if ( ! CScriptLanguage : : get_singleton ( ) - > get_global_map ( ) . has ( base ) ) {
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_set_error ( " Unknown class: \" " + base + " \" " , p_class - > line ) ;
return ;
}
native = base ;
}
}
if ( base_class ) {
p_class - > base_type . has_type = true ;
p_class - > base_type . kind = DataType : : CLASS ;
p_class - > base_type . class_type = base_class ;
} else if ( script . is_valid ( ) ) {
p_class - > base_type . has_type = true ;
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p_class - > base_type . kind = DataType : : CSCRIPT ;
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p_class - > base_type . script_type = script ;
p_class - > base_type . native_type = script - > get_instance_base_type ( ) ;
} else if ( native ! = StringName ( ) ) {
p_class - > base_type . has_type = true ;
p_class - > base_type . kind = DataType : : NATIVE ;
p_class - > base_type . native_type = native ;
} else {
_set_error ( " Couldn't determine inheritance. " , p_class - > line ) ;
return ;
}
} else {
// without extends, implicitly extend Reference
p_class - > base_type . has_type = true ;
p_class - > base_type . kind = DataType : : NATIVE ;
p_class - > base_type . native_type = " Reference " ;
}
if ( p_recursive ) {
// Recursively determine subclasses
for ( int i = 0 ; i < p_class - > subclasses . size ( ) ; i + + ) {
_determine_inheritance ( p_class - > subclasses [ i ] , p_recursive ) ;
}
}
}
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String CScriptParser : : DataType : : to_string ( ) const {
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if ( ! has_type ) {
return " var " ;
}
switch ( kind ) {
case BUILTIN : {
if ( builtin_type = = Variant : : NIL ) {
return " null " ;
}
return Variant : : get_type_name ( builtin_type ) ;
} break ;
case NATIVE : {
if ( is_meta_type ) {
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return " CScriptNativeClass " ;
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}
return native_type . operator String ( ) ;
} break ;
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case CSCRIPT : {
Ref < CScript > gds = script_type ;
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const String & gds_class = gds - > get_script_class_name ( ) ;
if ( ! gds_class . empty ( ) ) {
return gds_class ;
}
FALLTHROUGH ;
}
case SCRIPT : {
if ( is_meta_type ) {
return script_type - > get_class_name ( ) . operator String ( ) ;
}
String name = script_type - > get_name ( ) ;
if ( name ! = String ( ) ) {
return name ;
}
name = script_type - > get_path ( ) . get_file ( ) ;
if ( name ! = String ( ) ) {
return name ;
}
return native_type . operator String ( ) ;
} break ;
case CLASS : {
ERR_FAIL_COND_V ( ! class_type , String ( ) ) ;
if ( is_meta_type ) {
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return " CScript " ;
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}
if ( class_type - > name = = StringName ( ) ) {
return " self " ;
}
return class_type - > name . operator String ( ) ;
} break ;
case UNRESOLVED : {
} break ;
}
return " Unresolved " ;
}
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bool CScriptParser : : _parse_type ( DataType & r_type , bool p_can_be_void ) {
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tokenizer - > advance ( ) ;
r_type . has_type = true ;
bool finished = false ;
bool can_index = false ;
String full_name ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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completion_cursor = StringName ( ) ;
completion_type = COMPLETION_TYPE_HINT ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_argument = 0 ;
completion_block = current_block ;
completion_found = true ;
completion_ident_is_call = p_can_be_void ;
tokenizer - > advance ( ) ;
}
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_PR_VOID : {
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if ( ! p_can_be_void ) {
return false ;
}
r_type . kind = DataType : : BUILTIN ;
r_type . builtin_type = Variant : : NIL ;
} break ;
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case CScriptTokenizer : : TK_BUILT_IN_TYPE : {
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r_type . builtin_type = tokenizer - > get_token_type ( ) ;
if ( tokenizer - > get_token_type ( ) = = Variant : : OBJECT ) {
r_type . kind = DataType : : NATIVE ;
r_type . native_type = " Object " ;
} else {
r_type . kind = DataType : : BUILTIN ;
}
} break ;
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case CScriptTokenizer : : TK_IDENTIFIER : {
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r_type . native_type = tokenizer - > get_token_identifier ( ) ;
if ( ClassDB : : class_exists ( r_type . native_type ) | | ClassDB : : class_exists ( " _ " + r_type . native_type . operator String ( ) ) ) {
r_type . kind = DataType : : NATIVE ;
} else {
r_type . kind = DataType : : UNRESOLVED ;
can_index = true ;
full_name = r_type . native_type ;
}
} break ;
default : {
return false ;
}
}
tokenizer - > advance ( ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_CURSOR ) {
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completion_cursor = r_type . native_type ;
completion_type = COMPLETION_TYPE_HINT ;
completion_class = current_class ;
completion_function = current_function ;
completion_line = tokenizer - > get_token_line ( ) ;
completion_argument = 0 ;
completion_block = current_block ;
completion_found = true ;
completion_ident_is_call = p_can_be_void ;
tokenizer - > advance ( ) ;
}
if ( can_index ) {
while ( ! finished ) {
switch ( tokenizer - > get_token ( ) ) {
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case CScriptTokenizer : : TK_PERIOD : {
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if ( ! can_index ) {
_set_error ( " Unexpected \" . \" . " ) ;
return false ;
}
can_index = false ;
tokenizer - > advance ( ) ;
} break ;
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case CScriptTokenizer : : TK_CURSOR :
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case CScriptTokenizer : : TK_IDENTIFIER : {
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if ( can_index ) {
_set_error ( " Unexpected identifier. " ) ;
return false ;
}
StringName id ;
bool has_completion = _get_completable_identifier ( COMPLETION_TYPE_HINT_INDEX , id ) ;
if ( id = = StringName ( ) ) {
id = " @temp " ;
}
full_name + = " . " + id . operator String ( ) ;
can_index = true ;
if ( has_completion ) {
completion_cursor = full_name ;
}
} break ;
default : {
finished = true ;
} break ;
}
}
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if ( tokenizer - > get_token ( - 1 ) = = CScriptTokenizer : : TK_PERIOD ) {
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_set_error ( " Expected a subclass identifier. " ) ;
return false ;
}
r_type . native_type = full_name ;
}
return true ;
}
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CScriptParser : : DataType CScriptParser : : _resolve_type ( const DataType & p_source , int p_line ) {
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if ( ! p_source . has_type ) {
return p_source ;
}
if ( p_source . kind ! = DataType : : UNRESOLVED ) {
return p_source ;
}
Vector < String > full_name = p_source . native_type . operator String ( ) . split ( " . " , false ) ;
int name_part = 0 ;
DataType result ;
result . has_type = true ;
while ( name_part < full_name . size ( ) ) {
bool found = false ;
StringName id = full_name [ name_part ] ;
DataType base_type = result ;
ClassNode * p = nullptr ;
if ( name_part = = 0 ) {
if ( ScriptServer : : is_global_class ( id ) ) {
String script_path = ScriptServer : : get_global_class_path ( id ) ;
if ( script_path = = self_path ) {
result . kind = DataType : : CLASS ;
result . class_type = static_cast < ClassNode * > ( head ) ;
} else {
Ref < Script > script = ResourceLoader : : load ( script_path ) ;
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Ref < CScript > gds = script ;
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if ( gds . is_valid ( ) ) {
if ( ! gds - > is_valid ( ) ) {
_set_error ( " The class \" " + id + " \" couldn't be fully loaded (script error or cyclic dependency). " , p_line ) ;
return DataType ( ) ;
}
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result . kind = DataType : : CSCRIPT ;
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result . script_type = gds ;
} else if ( script . is_valid ( ) ) {
result . kind = DataType : : SCRIPT ;
result . script_type = script ;
} else {
_set_error ( " The class \" " + id + " \" was found in global scope, but its script couldn't be loaded. " , p_line ) ;
return DataType ( ) ;
}
}
name_part + + ;
continue ;
}
List < PropertyInfo > props ;
ProjectSettings : : get_singleton ( ) - > get_property_list ( & props ) ;
String singleton_path ;
for ( List < PropertyInfo > : : Element * E = props . front ( ) ; E ; E = E - > next ( ) ) {
String s = E - > get ( ) . name ;
if ( ! s . begins_with ( " autoload/ " ) ) {
continue ;
}
String name = s . get_slice ( " / " , 1 ) ;
if ( name = = id ) {
singleton_path = ProjectSettings : : get_singleton ( ) - > get ( s ) ;
if ( singleton_path . begins_with ( " * " ) ) {
singleton_path = singleton_path . right ( 1 ) ;
}
if ( ! singleton_path . begins_with ( " res:// " ) ) {
singleton_path = " res:// " + singleton_path ;
}
break ;
}
}
if ( ! singleton_path . empty ( ) ) {
Ref < Script > script = ResourceLoader : : load ( singleton_path ) ;
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Ref < CScript > gds = script ;
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if ( gds . is_valid ( ) ) {
if ( ! gds - > is_valid ( ) ) {
_set_error ( " Class ' " + id + " ' could not be fully loaded (script error or cyclic inheritance). " , p_line ) ;
return DataType ( ) ;
}
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result . kind = DataType : : CSCRIPT ;
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result . script_type = gds ;
} else if ( script . is_valid ( ) ) {
result . kind = DataType : : SCRIPT ;
result . script_type = script ;
} else {
_set_error ( " Couldn't fully load singleton script ' " + id + " ' (possible cyclic reference or parse error). " , p_line ) ;
return DataType ( ) ;
}
name_part + + ;
continue ;
}
p = current_class ;
} else if ( base_type . kind = = DataType : : CLASS ) {
p = base_type . class_type ;
}
while ( p ) {
if ( p - > constant_expressions . has ( id ) ) {
if ( p - > constant_expressions [ id ] . expression - > type ! = Node : : TYPE_CONSTANT ) {
_set_error ( " Parser bug: unresolved constant. " , p_line ) ;
ERR_FAIL_V ( result ) ;
}
const ConstantNode * cn = static_cast < const ConstantNode * > ( p - > constant_expressions [ id ] . expression ) ;
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Ref < CScript > gds = cn - > value ;
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if ( gds . is_valid ( ) ) {
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result . kind = DataType : : CSCRIPT ;
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result . script_type = gds ;
found = true ;
} else {
Ref < Script > scr = cn - > value ;
if ( scr . is_valid ( ) ) {
result . kind = DataType : : SCRIPT ;
result . script_type = scr ;
found = true ;
}
}
break ;
}
// Inner classes
ClassNode * outer_class = p ;
while ( outer_class ) {
if ( outer_class - > name = = id ) {
found = true ;
result . kind = DataType : : CLASS ;
result . class_type = outer_class ;
break ;
}
for ( int i = 0 ; i < outer_class - > subclasses . size ( ) ; i + + ) {
if ( outer_class - > subclasses [ i ] = = p ) {
continue ;
}
if ( outer_class - > subclasses [ i ] - > name = = id ) {
found = true ;
result . kind = DataType : : CLASS ;
result . class_type = outer_class - > subclasses [ i ] ;
break ;
}
}
if ( found ) {
break ;
}
outer_class = outer_class - > owner ;
}
if ( ! found & & p - > base_type . kind = = DataType : : CLASS ) {
p = p - > base_type . class_type ;
} else {
base_type = p - > base_type ;
break ;
}
}
// Still look for class constants in parent scripts
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if ( ! found & & ( base_type . kind = = DataType : : CSCRIPT | | base_type . kind = = DataType : : SCRIPT ) ) {
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Ref < Script > scr = base_type . script_type ;
ERR_FAIL_COND_V ( scr . is_null ( ) , result ) ;
while ( scr . is_valid ( ) ) {
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RBMap < StringName , Variant > constants ;
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scr - > get_constants ( & constants ) ;
if ( constants . has ( id ) ) {
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Ref < CScript > gds = constants [ id ] ;
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if ( gds . is_valid ( ) ) {
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result . kind = DataType : : CSCRIPT ;
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result . script_type = gds ;
found = true ;
} else {
Ref < Script > scr2 = constants [ id ] ;
if ( scr2 . is_valid ( ) ) {
result . kind = DataType : : SCRIPT ;
result . script_type = scr2 ;
found = true ;
}
}
}
if ( found ) {
break ;
} else {
scr = scr - > get_base_script ( ) ;
}
}
}
if ( ! found & & ! for_completion ) {
String base ;
if ( name_part = = 0 ) {
base = " self " ;
} else {
base = result . to_string ( ) ;
}
_set_error ( " The identifier \" " + String ( id ) +
" \" isn't a valid type (not a script or class), or couldn't be found on base \" " + base + " \" . " ,
p_line ) ;
return DataType ( ) ;
}
name_part + + ;
}
return result ;
}
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CScriptParser : : DataType CScriptParser : : _type_from_variant ( const Variant & p_value ) const {
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DataType result ;
result . has_type = true ;
result . is_constant = true ;
result . kind = DataType : : BUILTIN ;
result . builtin_type = p_value . get_type ( ) ;
if ( result . builtin_type = = Variant : : OBJECT ) {
Object * obj = p_value . operator Object * ( ) ;
if ( ! obj ) {
return DataType ( ) ;
}
result . native_type = obj - > get_class_name ( ) ;
Ref < Script > scr = p_value ;
if ( scr . is_valid ( ) ) {
result . is_meta_type = true ;
} else {
result . is_meta_type = false ;
scr = obj - > get_script ( ) ;
}
if ( scr . is_valid ( ) ) {
result . script_type = scr ;
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Ref < CScript > gds = scr ;
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if ( gds . is_valid ( ) ) {
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result . kind = DataType : : CSCRIPT ;
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} else {
result . kind = DataType : : SCRIPT ;
}
result . native_type = scr - > get_instance_base_type ( ) ;
} else {
result . kind = DataType : : NATIVE ;
}
}
return result ;
}
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CScriptParser : : DataType CScriptParser : : _type_from_property ( const PropertyInfo & p_property , bool p_nil_is_variant ) const {
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DataType ret ;
if ( p_property . type = = Variant : : NIL & & ( p_nil_is_variant | | ( p_property . usage & PROPERTY_USAGE_NIL_IS_VARIANT ) ) ) {
// Variant
return ret ;
}
ret . has_type = true ;
ret . builtin_type = p_property . type ;
if ( p_property . type = = Variant : : OBJECT ) {
ret . kind = DataType : : NATIVE ;
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ret . native_type = " Object " ;
if ( p_property . class_name ! = StringName ( ) ) {
if ( ScriptServer : : is_global_class ( p_property . class_name ) ) {
String p = ScriptServer : : get_global_class_path ( p_property . class_name ) ;
ret . native_type = ScriptServer : : get_global_class_native_base ( p_property . class_name ) ;
if ( CScriptLanguage : : get_singleton ( ) - > get_extension ( ) = = p . get_extension ( ) ) {
ret . kind = DataType : : CSCRIPT ;
ret . script_type = ResourceLoader : : load ( p , " CScript " ) ;
} else {
ret . kind = DataType : : SCRIPT ;
ret . script_type = ResourceLoader : : load ( p , " Script " ) ;
}
} else {
ret . native_type = p_property . class_name ;
}
}
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} else {
ret . kind = DataType : : BUILTIN ;
}
return ret ;
}
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CScriptParser : : DataType CScriptParser : : _type_from_gdtype ( const CScriptDataType & p_gdtype ) const {
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DataType result ;
if ( ! p_gdtype . has_type ) {
return result ;
}
result . has_type = true ;
result . builtin_type = p_gdtype . builtin_type ;
result . native_type = p_gdtype . native_type ;
result . script_type = Ref < Script > ( p_gdtype . script_type ) ;
switch ( p_gdtype . kind ) {
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case CScriptDataType : : UNINITIALIZED : {
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ERR_PRINT ( " Uninitialized datatype. Please report a bug. " ) ;
} break ;
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case CScriptDataType : : BUILTIN : {
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result . kind = DataType : : BUILTIN ;
} break ;
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case CScriptDataType : : NATIVE : {
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result . kind = DataType : : NATIVE ;
} break ;
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case CScriptDataType : : CSCRIPT : {
result . kind = DataType : : CSCRIPT ;
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} break ;
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case CScriptDataType : : SCRIPT : {
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result . kind = DataType : : SCRIPT ;
} break ;
}
return result ;
}
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CScriptParser : : DataType CScriptParser : : _get_operation_type ( const Variant : : Operator p_op , const DataType & p_a , const DataType & p_b , bool & r_valid ) const {
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if ( ! p_a . has_type | | ! p_b . has_type ) {
r_valid = true ;
return DataType ( ) ;
}
Variant : : Type a_type = p_a . kind = = DataType : : BUILTIN ? p_a . builtin_type : Variant : : OBJECT ;
Variant : : Type b_type = p_b . kind = = DataType : : BUILTIN ? p_b . builtin_type : Variant : : OBJECT ;
Variant a ;
REF a_ref ;
if ( a_type = = Variant : : OBJECT ) {
a_ref . instance ( ) ;
a = a_ref ;
} else {
Variant : : CallError err ;
a = Variant : : construct ( a_type , nullptr , 0 , err ) ;
if ( err . error ! = Variant : : CallError : : CALL_OK ) {
r_valid = false ;
return DataType ( ) ;
}
}
Variant b ;
REF b_ref ;
if ( b_type = = Variant : : OBJECT ) {
b_ref . instance ( ) ;
b = b_ref ;
} else {
Variant : : CallError err ;
b = Variant : : construct ( b_type , nullptr , 0 , err ) ;
if ( err . error ! = Variant : : CallError : : CALL_OK ) {
r_valid = false ;
return DataType ( ) ;
}
}
// Avoid division by zero
if ( a_type = = Variant : : INT | | a_type = = Variant : : REAL ) {
Variant : : evaluate ( Variant : : OP_ADD , a , 1 , a , r_valid ) ;
}
if ( b_type = = Variant : : INT | | b_type = = Variant : : REAL ) {
Variant : : evaluate ( Variant : : OP_ADD , b , 1 , b , r_valid ) ;
}
if ( a_type = = Variant : : STRING & & b_type ! = Variant : : ARRAY ) {
a = " %s " ; // Work around for formatting operator (%)
}
Variant ret ;
Variant : : evaluate ( p_op , a , b , ret , r_valid ) ;
if ( r_valid ) {
return _type_from_variant ( ret ) ;
}
return DataType ( ) ;
}
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Variant : : Operator CScriptParser : : _get_variant_operation ( const OperatorNode : : Operator & p_op ) const {
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switch ( p_op ) {
case OperatorNode : : OP_NEG : {
return Variant : : OP_NEGATE ;
} break ;
case OperatorNode : : OP_POS : {
return Variant : : OP_POSITIVE ;
} break ;
case OperatorNode : : OP_NOT : {
return Variant : : OP_NOT ;
} break ;
case OperatorNode : : OP_BIT_INVERT : {
return Variant : : OP_BIT_NEGATE ;
} break ;
case OperatorNode : : OP_IN : {
return Variant : : OP_IN ;
} break ;
case OperatorNode : : OP_EQUAL : {
return Variant : : OP_EQUAL ;
} break ;
case OperatorNode : : OP_NOT_EQUAL : {
return Variant : : OP_NOT_EQUAL ;
} break ;
case OperatorNode : : OP_LESS : {
return Variant : : OP_LESS ;
} break ;
case OperatorNode : : OP_LESS_EQUAL : {
return Variant : : OP_LESS_EQUAL ;
} break ;
case OperatorNode : : OP_GREATER : {
return Variant : : OP_GREATER ;
} break ;
case OperatorNode : : OP_GREATER_EQUAL : {
return Variant : : OP_GREATER_EQUAL ;
} break ;
case OperatorNode : : OP_AND : {
return Variant : : OP_AND ;
} break ;
case OperatorNode : : OP_OR : {
return Variant : : OP_OR ;
} break ;
case OperatorNode : : OP_ASSIGN_ADD :
case OperatorNode : : OP_ADD : {
return Variant : : OP_ADD ;
} break ;
case OperatorNode : : OP_ASSIGN_SUB :
case OperatorNode : : OP_SUB : {
return Variant : : OP_SUBTRACT ;
} break ;
case OperatorNode : : OP_ASSIGN_MUL :
case OperatorNode : : OP_MUL : {
return Variant : : OP_MULTIPLY ;
} break ;
case OperatorNode : : OP_ASSIGN_DIV :
case OperatorNode : : OP_DIV : {
return Variant : : OP_DIVIDE ;
} break ;
case OperatorNode : : OP_ASSIGN_MOD :
case OperatorNode : : OP_MOD : {
return Variant : : OP_MODULE ;
} break ;
case OperatorNode : : OP_ASSIGN_BIT_AND :
case OperatorNode : : OP_BIT_AND : {
return Variant : : OP_BIT_AND ;
} break ;
case OperatorNode : : OP_ASSIGN_BIT_OR :
case OperatorNode : : OP_BIT_OR : {
return Variant : : OP_BIT_OR ;
} break ;
case OperatorNode : : OP_ASSIGN_BIT_XOR :
case OperatorNode : : OP_BIT_XOR : {
return Variant : : OP_BIT_XOR ;
} break ;
case OperatorNode : : OP_ASSIGN_SHIFT_LEFT :
case OperatorNode : : OP_SHIFT_LEFT : {
return Variant : : OP_SHIFT_LEFT ;
}
case OperatorNode : : OP_ASSIGN_SHIFT_RIGHT :
case OperatorNode : : OP_SHIFT_RIGHT : {
return Variant : : OP_SHIFT_RIGHT ;
}
default : {
return Variant : : OP_MAX ;
} break ;
}
}
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bool CScriptParser : : _is_type_compatible ( const DataType & p_container , const DataType & p_expression , bool p_allow_implicit_conversion ) const {
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// Ignore for completion
if ( ! check_types | | for_completion ) {
return true ;
}
// Can't test if not all have type
if ( ! p_container . has_type | | ! p_expression . has_type ) {
return true ;
}
// Should never get here unresolved
ERR_FAIL_COND_V ( p_container . kind = = DataType : : UNRESOLVED , false ) ;
ERR_FAIL_COND_V ( p_expression . kind = = DataType : : UNRESOLVED , false ) ;
if ( p_container . kind = = DataType : : BUILTIN & & p_expression . kind = = DataType : : BUILTIN ) {
bool valid = p_container . builtin_type = = p_expression . builtin_type ;
if ( p_allow_implicit_conversion ) {
valid = valid | | Variant : : can_convert_strict ( p_expression . builtin_type , p_container . builtin_type ) ;
}
return valid ;
}
if ( p_container . kind = = DataType : : BUILTIN & & p_container . builtin_type = = Variant : : OBJECT ) {
// Object built-in is a special case, it's compatible with any object and with null
if ( p_expression . kind = = DataType : : BUILTIN ) {
return p_expression . builtin_type = = Variant : : NIL ;
}
// If it's not a built-in, must be an object
return true ;
}
if ( p_container . kind = = DataType : : BUILTIN | | ( p_expression . kind = = DataType : : BUILTIN & & p_expression . builtin_type ! = Variant : : NIL ) ) {
// Can't mix built-ins with objects
return false ;
}
// From now on everything is objects, check polymorphism
// The container must be the same class or a superclass of the expression
if ( p_expression . kind = = DataType : : BUILTIN & & p_expression . builtin_type = = Variant : : NIL ) {
// Null can be assigned to object types
return true ;
}
StringName expr_native ;
Ref < Script > expr_script ;
ClassNode * expr_class = nullptr ;
switch ( p_expression . kind ) {
case DataType : : NATIVE : {
if ( p_container . kind ! = DataType : : NATIVE ) {
// Non-native type can't be a superclass of a native type
return false ;
}
if ( p_expression . is_meta_type ) {
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expr_native = CScriptNativeClass : : get_class_static ( ) ;
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} else {
expr_native = p_expression . native_type ;
}
} break ;
case DataType : : SCRIPT :
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case DataType : : CSCRIPT : {
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if ( p_container . kind = = DataType : : CLASS ) {
// This cannot be resolved without cyclic dependencies, so just bail out
return false ;
}
if ( p_expression . is_meta_type ) {
expr_native = p_expression . script_type - > get_class_name ( ) ;
} else {
expr_script = p_expression . script_type ;
expr_native = expr_script - > get_instance_base_type ( ) ;
}
} break ;
case DataType : : CLASS : {
if ( p_expression . is_meta_type ) {
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expr_native = CScript : : get_class_static ( ) ;
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} else {
expr_class = p_expression . class_type ;
ClassNode * base = expr_class ;
while ( base - > base_type . kind = = DataType : : CLASS ) {
base = base - > base_type . class_type ;
}
expr_native = base - > base_type . native_type ;
expr_script = base - > base_type . script_type ;
}
} break ;
case DataType : : BUILTIN : // Already handled above
case DataType : : UNRESOLVED : // Not allowed, see above
break ;
}
// Some classes are prefixed with `_` internally
if ( ! ClassDB : : class_exists ( expr_native ) ) {
expr_native = " _ " + expr_native ;
}
switch ( p_container . kind ) {
case DataType : : NATIVE : {
if ( p_container . is_meta_type ) {
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return ClassDB : : is_parent_class ( expr_native , CScriptNativeClass : : get_class_static ( ) ) ;
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} else {
StringName container_native = ClassDB : : class_exists ( p_container . native_type ) ? p_container . native_type : StringName ( " _ " + p_container . native_type ) ;
return ClassDB : : is_parent_class ( expr_native , container_native ) ;
}
} break ;
case DataType : : SCRIPT :
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case DataType : : CSCRIPT : {
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if ( p_container . is_meta_type ) {
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return ClassDB : : is_parent_class ( expr_native , CScript : : get_class_static ( ) ) ;
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}
if ( expr_class = = head & & p_container . script_type - > get_path ( ) = = self_path ) {
// Special case: container is self script and expression is self
return true ;
}
while ( expr_script . is_valid ( ) ) {
if ( expr_script = = p_container . script_type ) {
return true ;
}
expr_script = expr_script - > get_base_script ( ) ;
}
return false ;
} break ;
case DataType : : CLASS : {
if ( p_container . is_meta_type ) {
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return ClassDB : : is_parent_class ( expr_native , CScript : : get_class_static ( ) ) ;
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}
if ( p_container . class_type = = head & & expr_script . is_valid ( ) & & expr_script - > get_path ( ) = = self_path ) {
// Special case: container is self and expression is self script
return true ;
}
while ( expr_class ) {
if ( expr_class = = p_container . class_type ) {
return true ;
}
expr_class = expr_class - > base_type . class_type ;
}
return false ;
} break ;
case DataType : : BUILTIN : // Already handled above
case DataType : : UNRESOLVED : // Not allowed, see above
break ;
}
return false ;
}
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CScriptParser : : Node * CScriptParser : : _get_default_value_for_type ( const DataType & p_type , int p_line ) {
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Node * result ;
if ( p_type . has_type & & p_type . kind = = DataType : : BUILTIN & & p_type . builtin_type ! = Variant : : NIL & & p_type . builtin_type ! = Variant : : OBJECT ) {
if ( p_type . builtin_type = = Variant : : ARRAY ) {
result = alloc_node < ArrayNode > ( ) ;
} else if ( p_type . builtin_type = = Variant : : DICTIONARY ) {
result = alloc_node < DictionaryNode > ( ) ;
} else {
ConstantNode * c = alloc_node < ConstantNode > ( ) ;
Variant : : CallError err ;
c - > value = Variant : : construct ( p_type . builtin_type , nullptr , 0 , err ) ;
result = c ;
}
} else {
ConstantNode * c = alloc_node < ConstantNode > ( ) ;
c - > value = Variant ( ) ;
result = c ;
}
result - > line = p_line ;
return result ;
}
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CScriptParser : : DataType CScriptParser : : _reduce_node_type ( Node * p_node ) {
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# ifdef DEBUG_ENABLED
if ( p_node - > get_datatype ( ) . has_type & & p_node - > type ! = Node : : TYPE_ARRAY & & p_node - > type ! = Node : : TYPE_DICTIONARY ) {
# else
if ( p_node - > get_datatype ( ) . has_type ) {
# endif
return p_node - > get_datatype ( ) ;
}
DataType node_type ;
switch ( p_node - > type ) {
case Node : : TYPE_CONSTANT : {
node_type = _type_from_variant ( static_cast < ConstantNode * > ( p_node ) - > value ) ;
} break ;
case Node : : TYPE_TYPE : {
TypeNode * tn = static_cast < TypeNode * > ( p_node ) ;
node_type . has_type = true ;
node_type . is_meta_type = true ;
node_type . kind = DataType : : BUILTIN ;
node_type . builtin_type = tn - > vtype ;
} break ;
case Node : : TYPE_ARRAY : {
node_type . has_type = true ;
node_type . kind = DataType : : BUILTIN ;
node_type . builtin_type = Variant : : ARRAY ;
# ifdef DEBUG_ENABLED
// Check stuff inside the array
ArrayNode * an = static_cast < ArrayNode * > ( p_node ) ;
for ( int i = 0 ; i < an - > elements . size ( ) ; i + + ) {
_reduce_node_type ( an - > elements [ i ] ) ;
}
# endif // DEBUG_ENABLED
} break ;
case Node : : TYPE_DICTIONARY : {
node_type . has_type = true ;
node_type . kind = DataType : : BUILTIN ;
node_type . builtin_type = Variant : : DICTIONARY ;
# ifdef DEBUG_ENABLED
// Check stuff inside the dictionarty
DictionaryNode * dn = static_cast < DictionaryNode * > ( p_node ) ;
for ( int i = 0 ; i < dn - > elements . size ( ) ; i + + ) {
_reduce_node_type ( dn - > elements [ i ] . key ) ;
_reduce_node_type ( dn - > elements [ i ] . value ) ;
}
# endif // DEBUG_ENABLED
} break ;
case Node : : TYPE_SELF : {
node_type . has_type = true ;
node_type . kind = DataType : : CLASS ;
node_type . class_type = current_class ;
node_type . is_constant = true ;
} break ;
case Node : : TYPE_IDENTIFIER : {
IdentifierNode * id = static_cast < IdentifierNode * > ( p_node ) ;
if ( id - > declared_block ) {
node_type = id - > declared_block - > variables [ id - > name ] - > get_datatype ( ) ;
id - > declared_block - > variables [ id - > name ] - > usages + = 1 ;
} else if ( id - > name = = " #match_value " ) {
// It's a special id just for the match statetement, ignore
break ;
} else if ( current_function & & current_function - > arguments . find ( id - > name ) > = 0 ) {
int idx = current_function - > arguments . find ( id - > name ) ;
node_type = current_function - > argument_types [ idx ] ;
} else {
node_type = _reduce_identifier_type ( nullptr , id - > name , id - > line , false ) ;
}
} break ;
case Node : : TYPE_CAST : {
CastNode * cn = static_cast < CastNode * > ( p_node ) ;
DataType source_type = _reduce_node_type ( cn - > source_node ) ;
cn - > cast_type = _resolve_type ( cn - > cast_type , cn - > line ) ;
if ( source_type . has_type ) {
bool valid = false ;
if ( check_types ) {
if ( cn - > cast_type . kind = = DataType : : BUILTIN & & source_type . kind = = DataType : : BUILTIN ) {
valid = Variant : : can_convert ( source_type . builtin_type , cn - > cast_type . builtin_type ) ;
}
if ( cn - > cast_type . kind ! = DataType : : BUILTIN & & source_type . kind ! = DataType : : BUILTIN ) {
valid = _is_type_compatible ( cn - > cast_type , source_type ) | | _is_type_compatible ( source_type , cn - > cast_type ) ;
}
if ( ! valid ) {
_set_error ( " Invalid cast. Cannot convert from \" " + source_type . to_string ( ) +
" \" to \" " + cn - > cast_type . to_string ( ) + " \" . " ,
cn - > line ) ;
return DataType ( ) ;
}
}
} else {
# ifdef DEBUG_ENABLED
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_add_warning ( CScriptWarning : : UNSAFE_CAST , cn - > line , cn - > cast_type . to_string ( ) ) ;
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# endif // DEBUG_ENABLED
_mark_line_as_unsafe ( cn - > line ) ;
}
node_type = cn - > cast_type ;
} break ;
case Node : : TYPE_OPERATOR : {
OperatorNode * op = static_cast < OperatorNode * > ( p_node ) ;
switch ( op - > op ) {
case OperatorNode : : OP_CALL :
case OperatorNode : : OP_PARENT_CALL : {
node_type = _reduce_function_call_type ( op ) ;
} break ;
case OperatorNode : : OP_IS :
case OperatorNode : : OP_IS_BUILTIN : {
if ( op - > arguments . size ( ) ! = 2 ) {
_set_error ( " Parser bug: binary operation without 2 arguments. " , op - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
DataType value_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
DataType type_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
if ( check_types & & type_type . has_type ) {
if ( ! type_type . is_meta_type & & ( type_type . kind ! = DataType : : NATIVE | | ! ClassDB : : is_parent_class ( type_type . native_type , " Script " ) ) ) {
_set_error ( " Invalid \" is \" test: the right operand isn't a type (neither a native type nor a script). " , op - > line ) ;
return DataType ( ) ;
}
type_type . is_meta_type = false ; // Test the actual type
if ( ! _is_type_compatible ( type_type , value_type ) & & ! _is_type_compatible ( value_type , type_type ) ) {
if ( op - > op = = OperatorNode : : OP_IS ) {
_set_error ( " A value of type \" " + value_type . to_string ( ) + " \" will never be an instance of \" " + type_type . to_string ( ) + " \" . " , op - > line ) ;
} else {
_set_error ( " A value of type \" " + value_type . to_string ( ) + " \" will never be of type \" " + type_type . to_string ( ) + " \" . " , op - > line ) ;
}
return DataType ( ) ;
}
}
node_type . has_type = true ;
node_type . is_constant = true ;
node_type . is_meta_type = false ;
node_type . kind = DataType : : BUILTIN ;
node_type . builtin_type = Variant : : BOOL ;
} break ;
// Unary operators
case OperatorNode : : OP_NEG :
case OperatorNode : : OP_POS :
case OperatorNode : : OP_NOT :
case OperatorNode : : OP_BIT_INVERT : {
DataType argument_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
if ( ! argument_type . has_type ) {
break ;
}
Variant : : Operator var_op = _get_variant_operation ( op - > op ) ;
bool valid = false ;
node_type = _get_operation_type ( var_op , argument_type , argument_type , valid ) ;
if ( check_types & & ! valid ) {
_set_error ( " Invalid operand type ( \" " + argument_type . to_string ( ) +
" \" ) to unary operator \" " + Variant : : get_operator_name ( var_op ) + " \" . " ,
op - > line , op - > column ) ;
return DataType ( ) ;
}
} break ;
// Binary operators
case OperatorNode : : OP_IN :
case OperatorNode : : OP_EQUAL :
case OperatorNode : : OP_NOT_EQUAL :
case OperatorNode : : OP_LESS :
case OperatorNode : : OP_LESS_EQUAL :
case OperatorNode : : OP_GREATER :
case OperatorNode : : OP_GREATER_EQUAL :
case OperatorNode : : OP_AND :
case OperatorNode : : OP_OR :
case OperatorNode : : OP_ADD :
case OperatorNode : : OP_SUB :
case OperatorNode : : OP_MUL :
case OperatorNode : : OP_DIV :
case OperatorNode : : OP_MOD :
case OperatorNode : : OP_SHIFT_LEFT :
case OperatorNode : : OP_SHIFT_RIGHT :
case OperatorNode : : OP_BIT_AND :
case OperatorNode : : OP_BIT_OR :
case OperatorNode : : OP_BIT_XOR : {
if ( op - > arguments . size ( ) ! = 2 ) {
_set_error ( " Parser bug: binary operation without 2 arguments. " , op - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
DataType argument_a_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
DataType argument_b_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
if ( ! argument_a_type . has_type | | ! argument_b_type . has_type ) {
_mark_line_as_unsafe ( op - > line ) ;
break ;
}
Variant : : Operator var_op = _get_variant_operation ( op - > op ) ;
bool valid = false ;
node_type = _get_operation_type ( var_op , argument_a_type , argument_b_type , valid ) ;
if ( check_types & & ! valid ) {
_set_error ( " Invalid operand types ( \" " + argument_a_type . to_string ( ) + " \" and \" " +
argument_b_type . to_string ( ) + " \" ) to operator \" " + Variant : : get_operator_name ( var_op ) + " \" . " ,
op - > line , op - > column ) ;
return DataType ( ) ;
}
# ifdef DEBUG_ENABLED
if ( var_op = = Variant : : OP_DIVIDE & & argument_a_type . kind = = DataType : : BUILTIN & & argument_a_type . builtin_type = = Variant : : INT & &
argument_b_type . kind = = DataType : : BUILTIN & & argument_b_type . builtin_type = = Variant : : INT ) {
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_add_warning ( CScriptWarning : : INTEGER_DIVISION , op - > line ) ;
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}
# endif // DEBUG_ENABLED
} break ;
// Ternary operators
case OperatorNode : : OP_TERNARY_IF : {
if ( op - > arguments . size ( ) ! = 3 ) {
_set_error ( " Parser bug: ternary operation without 3 arguments. " ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
DataType true_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
DataType false_type = _reduce_node_type ( op - > arguments [ 2 ] ) ;
// Check arguments[0] errors.
_reduce_node_type ( op - > arguments [ 0 ] ) ;
// If types are equal, then the expression is of the same type
// If they are compatible, return the broader type
if ( true_type = = false_type | | _is_type_compatible ( true_type , false_type ) ) {
node_type = true_type ;
} else if ( _is_type_compatible ( false_type , true_type ) ) {
node_type = false_type ;
} else {
# ifdef DEBUG_ENABLED
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_add_warning ( CScriptWarning : : INCOMPATIBLE_TERNARY , op - > line ) ;
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# endif // DEBUG_ENABLED
}
} break ;
// Assignment should never happen within an expression
case OperatorNode : : OP_ASSIGN :
case OperatorNode : : OP_ASSIGN_ADD :
case OperatorNode : : OP_ASSIGN_SUB :
case OperatorNode : : OP_ASSIGN_MUL :
case OperatorNode : : OP_ASSIGN_DIV :
case OperatorNode : : OP_ASSIGN_MOD :
case OperatorNode : : OP_ASSIGN_SHIFT_LEFT :
case OperatorNode : : OP_ASSIGN_SHIFT_RIGHT :
case OperatorNode : : OP_ASSIGN_BIT_AND :
case OperatorNode : : OP_ASSIGN_BIT_OR :
case OperatorNode : : OP_ASSIGN_BIT_XOR :
case OperatorNode : : OP_INIT_ASSIGN : {
_set_error ( " Assignment inside an expression isn't allowed (parser bug?). " , op - > line ) ;
return DataType ( ) ;
} break ;
case OperatorNode : : OP_INDEX_NAMED : {
if ( op - > arguments . size ( ) ! = 2 ) {
_set_error ( " Parser bug: named index with invalid arguments. " , op - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
if ( op - > arguments [ 1 ] - > type ! = Node : : TYPE_IDENTIFIER ) {
_set_error ( " Parser bug: named index without identifier argument. " , op - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
DataType base_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
IdentifierNode * member_id = static_cast < IdentifierNode * > ( op - > arguments [ 1 ] ) ;
if ( base_type . has_type ) {
if ( check_types & & base_type . kind = = DataType : : BUILTIN ) {
// Variant type, just test if it's possible
DataType result ;
switch ( base_type . builtin_type ) {
case Variant : : NIL :
case Variant : : DICTIONARY : {
result . has_type = false ;
} break ;
default : {
Variant : : CallError err ;
Variant temp = Variant : : construct ( base_type . builtin_type , nullptr , 0 , err ) ;
bool valid = false ;
Variant res = temp . get ( member_id - > name . operator String ( ) , & valid ) ;
if ( valid ) {
result = _type_from_variant ( res ) ;
} else if ( check_types ) {
_set_error ( " Can't get index \" " + String ( member_id - > name . operator String ( ) ) + " \" on base \" " +
base_type . to_string ( ) + " \" . " ,
op - > line ) ;
return DataType ( ) ;
}
} break ;
}
result . is_constant = false ;
node_type = result ;
} else {
node_type = _reduce_identifier_type ( & base_type , member_id - > name , op - > line , true ) ;
# ifdef DEBUG_ENABLED
if ( ! node_type . has_type ) {
_mark_line_as_unsafe ( op - > line ) ;
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_add_warning ( CScriptWarning : : UNSAFE_PROPERTY_ACCESS , op - > line , member_id - > name . operator String ( ) , base_type . to_string ( ) ) ;
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}
# endif // DEBUG_ENABLED
}
} else {
_mark_line_as_unsafe ( op - > line ) ;
}
if ( error_set ) {
return DataType ( ) ;
}
} break ;
case OperatorNode : : OP_INDEX : {
if ( op - > arguments [ 1 ] - > type = = Node : : TYPE_CONSTANT ) {
ConstantNode * cn = static_cast < ConstantNode * > ( op - > arguments [ 1 ] ) ;
if ( cn - > value . get_type ( ) = = Variant : : STRING ) {
// Treat this as named indexing
IdentifierNode * id = alloc_node < IdentifierNode > ( ) ;
id - > name = cn - > value . operator StringName ( ) ;
id - > datatype = cn - > datatype ;
op - > op = OperatorNode : : OP_INDEX_NAMED ;
op - > arguments . write [ 1 ] = id ;
return _reduce_node_type ( op ) ;
}
}
DataType base_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
DataType index_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
if ( ! base_type . has_type ) {
_mark_line_as_unsafe ( op - > line ) ;
break ;
}
if ( check_types & & index_type . has_type ) {
if ( base_type . kind = = DataType : : BUILTIN ) {
// Check if indexing is valid
bool error = index_type . kind ! = DataType : : BUILTIN & & base_type . builtin_type ! = Variant : : DICTIONARY ;
if ( ! error ) {
switch ( base_type . builtin_type ) {
// Expect int or real as index
case Variant : : POOL_BYTE_ARRAY :
case Variant : : POOL_COLOR_ARRAY :
case Variant : : POOL_INT_ARRAY :
case Variant : : POOL_REAL_ARRAY :
case Variant : : POOL_STRING_ARRAY :
case Variant : : POOL_VECTOR2_ARRAY :
case Variant : : POOL_VECTOR2I_ARRAY :
case Variant : : POOL_VECTOR3_ARRAY :
case Variant : : POOL_VECTOR3I_ARRAY :
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case Variant : : POOL_VECTOR4_ARRAY :
case Variant : : POOL_VECTOR4I_ARRAY :
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case Variant : : ARRAY :
case Variant : : STRING : {
error = index_type . builtin_type ! = Variant : : INT & & index_type . builtin_type ! = Variant : : REAL ;
} break ;
// Expect String only
case Variant : : RECT2 :
case Variant : : RECT2I :
case Variant : : PLANE :
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case Variant : : QUATERNION :
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case Variant : : AABB :
case Variant : : OBJECT : {
error = index_type . builtin_type ! = Variant : : STRING ;
} break ;
// Expect String or number
case Variant : : VECTOR2 :
case Variant : : VECTOR2I :
case Variant : : VECTOR3 :
case Variant : : VECTOR3I :
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case Variant : : VECTOR4 :
case Variant : : VECTOR4I :
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case Variant : : TRANSFORM2D :
case Variant : : BASIS :
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case Variant : : TRANSFORM :
case Variant : : PROJECTION : {
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error = index_type . builtin_type ! = Variant : : INT & & index_type . builtin_type ! = Variant : : REAL & &
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 ;
default : {
}
}
}
if ( error ) {
_set_error ( " Invalid index type ( " + index_type . to_string ( ) + " ) for base \" " + base_type . to_string ( ) + " \" . " ,
op - > line ) ;
return DataType ( ) ;
}
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if ( op - > arguments [ 1 ] - > type = = CScriptParser : : Node : : TYPE_CONSTANT ) {
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ConstantNode * cn = static_cast < ConstantNode * > ( op - > arguments [ 1 ] ) ;
// Index is a constant, just try it if possible
switch ( base_type . builtin_type ) {
// Arrays/string have variable indexing, can't test directly
case Variant : : STRING :
case Variant : : ARRAY :
case Variant : : DICTIONARY :
case Variant : : POOL_BYTE_ARRAY :
case Variant : : POOL_COLOR_ARRAY :
case Variant : : POOL_INT_ARRAY :
case Variant : : POOL_REAL_ARRAY :
case Variant : : POOL_STRING_ARRAY :
case Variant : : POOL_VECTOR2_ARRAY :
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case Variant : : POOL_VECTOR2I_ARRAY :
case Variant : : POOL_VECTOR3_ARRAY :
case Variant : : POOL_VECTOR3I_ARRAY :
case Variant : : POOL_VECTOR4_ARRAY :
case Variant : : POOL_VECTOR4I_ARRAY : {
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break ;
}
default : {
Variant : : CallError err ;
Variant temp = Variant : : construct ( base_type . builtin_type , nullptr , 0 , err ) ;
bool valid = false ;
Variant res = temp . get ( cn - > value , & valid ) ;
if ( valid ) {
node_type = _type_from_variant ( res ) ;
node_type . is_constant = false ;
} else if ( check_types ) {
_set_error ( " Can't get index \" " + String ( cn - > value ) + " \" on base \" " +
base_type . to_string ( ) + " \" . " ,
op - > line ) ;
return DataType ( ) ;
}
} break ;
}
} else {
_mark_line_as_unsafe ( op - > line ) ;
}
} else if ( ! for_completion & & ( index_type . kind ! = DataType : : BUILTIN | | index_type . builtin_type ! = Variant : : STRING ) ) {
_set_error ( " Only strings can be used as an index in the base type \" " + base_type . to_string ( ) + " \" . " , op - > line ) ;
return DataType ( ) ;
}
}
if ( check_types & & ! node_type . has_type & & base_type . kind = = DataType : : BUILTIN ) {
// Can infer indexing type for some variant types
DataType result ;
result . has_type = true ;
result . kind = DataType : : BUILTIN ;
switch ( base_type . builtin_type ) {
// Can't index at all
case Variant : : NIL :
case Variant : : BOOL :
case Variant : : INT :
case Variant : : REAL :
case Variant : : NODE_PATH :
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case Variant : : RID : {
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_set_error ( " Can't index on a value of type \" " + base_type . to_string ( ) + " \" . " , op - > line ) ;
return DataType ( ) ;
} break ;
// Return int
case Variant : : POOL_BYTE_ARRAY :
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case Variant : : VECTOR2I :
case Variant : : VECTOR3I :
case Variant : : VECTOR4I :
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case Variant : : POOL_INT_ARRAY : {
result . builtin_type = Variant : : INT ;
} break ;
// Return real
case Variant : : POOL_REAL_ARRAY :
case Variant : : VECTOR2 :
case Variant : : VECTOR3 :
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case Variant : : VECTOR4 :
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case Variant : : QUATERNION : {
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result . builtin_type = Variant : : REAL ;
} break ;
// Return color
case Variant : : POOL_COLOR_ARRAY : {
result . builtin_type = Variant : : COLOR ;
} break ;
// Return string
case Variant : : POOL_STRING_ARRAY :
case Variant : : STRING : {
result . builtin_type = Variant : : STRING ;
} break ;
// Return Vector2
case Variant : : POOL_VECTOR2_ARRAY :
case Variant : : TRANSFORM2D :
case Variant : : RECT2 : {
result . builtin_type = Variant : : VECTOR2 ;
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} break ;
case Variant : : POOL_VECTOR2I_ARRAY :
case Variant : : RECT2I : {
result . builtin_type = Variant : : VECTOR2I ;
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} break ;
// Return Vector3
case Variant : : POOL_VECTOR3_ARRAY :
case Variant : : AABB :
case Variant : : BASIS : {
result . builtin_type = Variant : : VECTOR3 ;
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} break ;
case Variant : : POOL_VECTOR3I_ARRAY : {
result . builtin_type = Variant : : VECTOR3I ;
} break ;
case Variant : : PROJECTION : {
result . builtin_type = Variant : : VECTOR4 ;
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} break ;
// Depends on the index
case Variant : : TRANSFORM :
case Variant : : PLANE :
case Variant : : COLOR :
default : {
result . has_type = false ;
} break ;
}
node_type = result ;
}
} break ;
default : {
_set_error ( " Parser bug: unhandled operation. " , op - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
}
} break ;
default : {
}
}
node_type = _resolve_type ( node_type , p_node - > line ) ;
p_node - > set_datatype ( node_type ) ;
return node_type ;
}
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bool CScriptParser : : _get_function_signature ( DataType & p_base_type , const StringName & p_function , DataType & r_return_type , List < DataType > & r_arg_types , int & r_default_arg_count , bool & r_static , bool & r_vararg ) const {
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r_static = false ;
r_default_arg_count = 0 ;
DataType original_type = p_base_type ;
ClassNode * base = nullptr ;
FunctionNode * callee = nullptr ;
if ( p_base_type . kind = = DataType : : CLASS ) {
base = p_base_type . class_type ;
}
// Look up the current file (parse tree)
while ( ! callee & & base ) {
for ( int i = 0 ; i < base - > static_functions . size ( ) ; i + + ) {
FunctionNode * func = base - > static_functions [ i ] ;
if ( p_function = = func - > name ) {
r_static = true ;
callee = func ;
break ;
}
}
if ( ! callee & & ! p_base_type . is_meta_type ) {
for ( int i = 0 ; i < base - > functions . size ( ) ; i + + ) {
FunctionNode * func = base - > functions [ i ] ;
if ( p_function = = func - > name ) {
callee = func ;
break ;
}
}
}
p_base_type = base - > base_type ;
if ( p_base_type . kind = = DataType : : CLASS ) {
base = p_base_type . class_type ;
} else {
break ;
}
}
if ( callee ) {
r_return_type = callee - > get_datatype ( ) ;
for ( int i = 0 ; i < callee - > argument_types . size ( ) ; i + + ) {
r_arg_types . push_back ( callee - > argument_types [ i ] ) ;
}
r_default_arg_count = callee - > default_values . size ( ) ;
return true ;
}
// Nothing in current file, check parent script
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Ref < CScript > base_gdscript ;
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Ref < Script > base_script ;
StringName native ;
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if ( p_base_type . kind = = DataType : : CSCRIPT ) {
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base_gdscript = p_base_type . script_type ;
if ( base_gdscript . is_null ( ) | | ! base_gdscript - > is_valid ( ) ) {
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// CScript wasn't properly compíled, don't bother trying
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return false ;
}
} else if ( p_base_type . kind = = DataType : : SCRIPT ) {
base_script = p_base_type . script_type ;
} else if ( p_base_type . kind = = DataType : : NATIVE ) {
native = p_base_type . native_type ;
}
while ( base_gdscript . is_valid ( ) ) {
native = base_gdscript - > get_instance_base_type ( ) ;
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RBMap < StringName , CScriptFunction * > funcs = base_gdscript - > get_member_functions ( ) ;
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if ( funcs . has ( p_function ) ) {
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CScriptFunction * f = funcs [ p_function ] ;
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r_static = f - > is_static ( ) ;
r_default_arg_count = f - > get_default_argument_count ( ) ;
r_return_type = _type_from_gdtype ( f - > get_return_type ( ) ) ;
for ( int i = 0 ; i < f - > get_argument_count ( ) ; i + + ) {
r_arg_types . push_back ( _type_from_gdtype ( f - > get_argument_type ( i ) ) ) ;
}
return true ;
}
base_gdscript = base_gdscript - > get_base_script ( ) ;
}
while ( base_script . is_valid ( ) ) {
native = base_script - > get_instance_base_type ( ) ;
MethodInfo mi = base_script - > get_method_info ( p_function ) ;
if ( ! ( mi = = MethodInfo ( ) ) ) {
r_return_type = _type_from_property ( mi . return_val , false ) ;
r_default_arg_count = mi . default_arguments . size ( ) ;
for ( List < PropertyInfo > : : Element * E = mi . arguments . front ( ) ; E ; E = E - > next ( ) ) {
r_arg_types . push_back ( _type_from_property ( E - > get ( ) ) ) ;
}
return true ;
}
base_script = base_script - > get_base_script ( ) ;
}
if ( native = = StringName ( ) ) {
// Empty native class, might happen in some Script implementations
// Just ignore it
return false ;
}
# ifdef DEBUG_METHODS_ENABLED
// Only native remains
if ( ! ClassDB : : class_exists ( native ) ) {
native = " _ " + native . operator String ( ) ;
}
if ( ! ClassDB : : class_exists ( native ) ) {
if ( ! check_types ) {
return false ;
}
ERR_FAIL_V_MSG ( false , " Parser bug: Class ' " + String ( native ) + " ' not found. " ) ;
}
MethodBind * method = ClassDB : : get_method ( native , p_function ) ;
if ( ! method ) {
// Try virtual methods
List < MethodInfo > virtuals ;
ClassDB : : get_virtual_methods ( native , & virtuals ) ;
for ( const List < MethodInfo > : : Element * E = virtuals . front ( ) ; E ; E = E - > next ( ) ) {
const MethodInfo & mi = E - > get ( ) ;
if ( mi . name = = p_function ) {
r_default_arg_count = mi . default_arguments . size ( ) ;
for ( const List < PropertyInfo > : : Element * pi = mi . arguments . front ( ) ; pi ; pi = pi - > next ( ) ) {
r_arg_types . push_back ( _type_from_property ( pi - > get ( ) ) ) ;
}
r_return_type = _type_from_property ( mi . return_val , false ) ;
r_vararg = mi . flags & METHOD_FLAG_VARARG ;
return true ;
}
}
// If the base is a script, it might be trying to access members of the Script class itself
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if ( original_type . is_meta_type & & ! ( p_function = = " new " ) & & ( original_type . kind = = DataType : : SCRIPT | | original_type . kind = = DataType : : CSCRIPT ) ) {
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method = ClassDB : : get_method ( original_type . script_type - > get_class_name ( ) , p_function ) ;
if ( method ) {
r_static = true ;
} else {
// Try virtual methods of the script type
virtuals . clear ( ) ;
ClassDB : : get_virtual_methods ( original_type . script_type - > get_class_name ( ) , & virtuals ) ;
for ( const List < MethodInfo > : : Element * E = virtuals . front ( ) ; E ; E = E - > next ( ) ) {
const MethodInfo & mi = E - > get ( ) ;
if ( mi . name = = p_function ) {
r_default_arg_count = mi . default_arguments . size ( ) ;
for ( const List < PropertyInfo > : : Element * pi = mi . arguments . front ( ) ; pi ; pi = pi - > next ( ) ) {
r_arg_types . push_back ( _type_from_property ( pi - > get ( ) ) ) ;
}
r_return_type = _type_from_property ( mi . return_val , false ) ;
r_static = true ;
r_vararg = mi . flags & METHOD_FLAG_VARARG ;
return true ;
}
}
return false ;
}
} else {
return false ;
}
}
r_default_arg_count = method - > get_default_argument_count ( ) ;
if ( method - > get_name ( ) = = " get_script " ) {
r_return_type = DataType ( ) ; // Variant for now and let runtime decide.
} else {
r_return_type = _type_from_property ( method - > get_return_info ( ) , false ) ;
}
r_vararg = method - > is_vararg ( ) ;
for ( int i = 0 ; i < method - > get_argument_count ( ) ; i + + ) {
r_arg_types . push_back ( _type_from_property ( method - > get_argument_info ( i ) ) ) ;
}
return true ;
# else
return false ;
# endif
}
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CScriptParser : : DataType CScriptParser : : _reduce_function_call_type ( const OperatorNode * p_call ) {
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if ( p_call - > arguments . size ( ) < 1 ) {
_set_error ( " Parser bug: function call without enough arguments. " , p_call - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
DataType return_type ;
List < DataType > arg_types ;
int default_args_count = 0 ;
String callee_name ;
bool is_vararg = false ;
# ifdef DEBUG_ENABLED
int arg_count = p_call - > arguments . size ( ) ;
# endif
switch ( p_call - > arguments [ 0 ] - > type ) {
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case CScriptParser : : Node : : TYPE_TYPE : {
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// Built-in constructor, special case
TypeNode * tn = static_cast < TypeNode * > ( p_call - > arguments [ 0 ] ) ;
Vector < DataType > par_types ;
par_types . resize ( p_call - > arguments . size ( ) - 1 ) ;
for ( int i = 1 ; i < p_call - > arguments . size ( ) ; i + + ) {
par_types . write [ i - 1 ] = _reduce_node_type ( p_call - > arguments [ i ] ) ;
}
if ( error_set ) {
return DataType ( ) ;
}
// Special case: check copy constructor. Those are defined implicitly in Variant.
if ( par_types . size ( ) = = 1 ) {
if ( ! par_types [ 0 ] . has_type | | ( par_types [ 0 ] . kind = = DataType : : BUILTIN & & par_types [ 0 ] . builtin_type = = tn - > vtype ) ) {
DataType result ;
result . has_type = true ;
result . kind = DataType : : BUILTIN ;
result . builtin_type = tn - > vtype ;
return result ;
}
}
bool match = false ;
List < MethodInfo > constructors ;
Variant : : get_constructor_list ( tn - > vtype , & constructors ) ;
PropertyInfo return_type2 ;
for ( List < MethodInfo > : : Element * E = constructors . front ( ) ; E ; E = E - > next ( ) ) {
MethodInfo & mi = E - > get ( ) ;
if ( p_call - > arguments . size ( ) - 1 < mi . arguments . size ( ) - mi . default_arguments . size ( ) ) {
continue ;
}
if ( p_call - > arguments . size ( ) - 1 > mi . arguments . size ( ) ) {
continue ;
}
bool types_match = true ;
for ( int i = 0 ; i < par_types . size ( ) ; i + + ) {
DataType arg_type ;
if ( mi . arguments [ i ] . type ! = Variant : : NIL ) {
arg_type . has_type = true ;
arg_type . kind = mi . arguments [ i ] . type = = Variant : : OBJECT ? DataType : : NATIVE : DataType : : BUILTIN ;
arg_type . builtin_type = mi . arguments [ i ] . type ;
arg_type . native_type = mi . arguments [ i ] . class_name ;
}
if ( ! _is_type_compatible ( arg_type , par_types [ i ] , true ) ) {
types_match = false ;
break ;
} else {
# ifdef DEBUG_ENABLED
if ( arg_type . kind = = DataType : : BUILTIN & & arg_type . builtin_type = = Variant : : INT & & par_types [ i ] . kind = = DataType : : BUILTIN & & par_types [ i ] . builtin_type = = Variant : : REAL ) {
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_add_warning ( CScriptWarning : : NARROWING_CONVERSION , p_call - > line , Variant : : get_type_name ( tn - > vtype ) ) ;
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}
# endif // DEBUG_ENABLED
}
}
if ( types_match ) {
match = true ;
return_type2 = mi . return_val ;
break ;
}
}
if ( match ) {
return _type_from_property ( return_type2 , false ) ;
} else if ( check_types ) {
String err = " No constructor of ' " ;
err + = Variant : : get_type_name ( tn - > vtype ) ;
err + = " ' matches the signature ' " ;
err + = Variant : : get_type_name ( tn - > vtype ) + " ( " ;
for ( int i = 0 ; i < par_types . size ( ) ; i + + ) {
if ( i > 0 ) {
err + = " , " ;
}
err + = par_types [ i ] . to_string ( ) ;
}
err + = " )'. " ;
_set_error ( err , p_call - > line , p_call - > column ) ;
return DataType ( ) ;
}
return DataType ( ) ;
} break ;
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case CScriptParser : : Node : : TYPE_BUILT_IN_FUNCTION : {
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BuiltInFunctionNode * func = static_cast < BuiltInFunctionNode * > ( p_call - > arguments [ 0 ] ) ;
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MethodInfo mi = CScriptFunctions : : get_info ( func - > function ) ;
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return_type = _type_from_property ( mi . return_val , false ) ;
// Check all arguments beforehand to solve warnings
for ( int i = 1 ; i < p_call - > arguments . size ( ) ; i + + ) {
_reduce_node_type ( p_call - > arguments [ i ] ) ;
}
// Check arguments
is_vararg = mi . flags & METHOD_FLAG_VARARG ;
default_args_count = mi . default_arguments . size ( ) ;
callee_name = mi . name ;
# ifdef DEBUG_ENABLED
arg_count - = 1 ;
# endif
// Check each argument type
for ( List < PropertyInfo > : : Element * E = mi . arguments . front ( ) ; E ; E = E - > next ( ) ) {
arg_types . push_back ( _type_from_property ( E - > get ( ) ) ) ;
}
} break ;
default : {
if ( p_call - > op = = OperatorNode : : OP_CALL & & p_call - > arguments . size ( ) < 2 ) {
_set_error ( " Parser bug: self method call without enough arguments. " , p_call - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
int arg_id = p_call - > op = = OperatorNode : : OP_CALL ? 1 : 0 ;
if ( p_call - > arguments [ arg_id ] - > type ! = Node : : TYPE_IDENTIFIER ) {
_set_error ( " Parser bug: invalid function call argument. " , p_call - > line ) ;
ERR_FAIL_V ( DataType ( ) ) ;
}
// Check all arguments beforehand to solve warnings
for ( int i = arg_id + 1 ; i < p_call - > arguments . size ( ) ; i + + ) {
_reduce_node_type ( p_call - > arguments [ i ] ) ;
}
IdentifierNode * func_id = static_cast < IdentifierNode * > ( p_call - > arguments [ arg_id ] ) ;
callee_name = func_id - > name ;
# ifdef DEBUG_ENABLED
arg_count - = 1 + arg_id ;
# endif
DataType base_type ;
if ( p_call - > op = = OperatorNode : : OP_PARENT_CALL ) {
base_type = current_class - > base_type ;
} else {
base_type = _reduce_node_type ( p_call - > arguments [ 0 ] ) ;
}
if ( ! base_type . has_type | | ( base_type . kind = = DataType : : BUILTIN & & base_type . builtin_type = = Variant : : NIL ) ) {
_mark_line_as_unsafe ( p_call - > line ) ;
return DataType ( ) ;
}
if ( base_type . kind = = DataType : : BUILTIN ) {
Variant : : CallError err ;
Variant tmp = Variant : : construct ( base_type . builtin_type , nullptr , 0 , err ) ;
if ( check_types ) {
if ( ! tmp . has_method ( callee_name ) ) {
_set_error ( " The method \" " + callee_name + " \" isn't declared on base \" " + base_type . to_string ( ) + " \" . " , p_call - > line ) ;
return DataType ( ) ;
}
default_args_count = Variant : : get_method_default_arguments ( base_type . builtin_type , callee_name ) . size ( ) ;
const Vector < Variant : : Type > & var_arg_types = Variant : : get_method_argument_types ( base_type . builtin_type , callee_name ) ;
for ( int i = 0 ; i < var_arg_types . size ( ) ; i + + ) {
DataType argtype ;
if ( var_arg_types [ i ] ! = Variant : : NIL ) {
argtype . has_type = true ;
argtype . kind = DataType : : BUILTIN ;
argtype . builtin_type = var_arg_types [ i ] ;
}
arg_types . push_back ( argtype ) ;
}
}
bool rets = false ;
return_type . has_type = true ;
return_type . kind = DataType : : BUILTIN ;
return_type . builtin_type = Variant : : get_method_return_type ( base_type . builtin_type , callee_name , & rets ) ;
// If the method returns, but it might return any type, (Variant::NIL), pretend we don't know the type.
// At least make sure we know that it returns
if ( rets & & return_type . builtin_type = = Variant : : NIL ) {
return_type . has_type = false ;
}
break ;
}
DataType original_type = base_type ;
bool is_initializer = callee_name = = " new " ;
bool is_get_script = p_call - > arguments [ 0 ] - > type = = Node : : TYPE_SELF & & callee_name = = " get_script " ;
bool is_static = false ;
bool valid = false ;
if ( is_initializer & & original_type . is_meta_type ) {
// Try to check it as initializer
base_type = original_type ;
callee_name = " _init " ;
base_type . is_meta_type = false ;
valid = _get_function_signature ( base_type , callee_name , return_type , arg_types ,
default_args_count , is_static , is_vararg ) ;
return_type = original_type ;
return_type . is_meta_type = false ;
valid = true ; // There's always an initializer, we can assume this is true
}
if ( is_get_script ) {
// get_script() can be considered a meta-type.
return_type . kind = DataType : : CLASS ;
return_type . class_type = static_cast < ClassNode * > ( head ) ;
return_type . is_meta_type = true ;
valid = true ;
}
if ( ! valid ) {
base_type = original_type ;
return_type = DataType ( ) ;
valid = _get_function_signature ( base_type , callee_name , return_type , arg_types ,
default_args_count , is_static , is_vararg ) ;
}
if ( ! valid ) {
# ifdef DEBUG_ENABLED
if ( p_call - > arguments [ 0 ] - > type = = Node : : TYPE_SELF ) {
_set_error ( " The method \" " + callee_name + " \" isn't declared in the current class. " , p_call - > line ) ;
return DataType ( ) ;
}
DataType tmp_type ;
valid = _get_member_type ( original_type , func_id - > name , tmp_type ) ;
if ( valid ) {
if ( tmp_type . is_constant ) {
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_add_warning ( CScriptWarning : : CONSTANT_USED_AS_FUNCTION , p_call - > line , callee_name , original_type . to_string ( ) ) ;
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} else {
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_add_warning ( CScriptWarning : : PROPERTY_USED_AS_FUNCTION , p_call - > line , callee_name , original_type . to_string ( ) ) ;
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}
}
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_add_warning ( CScriptWarning : : UNSAFE_METHOD_ACCESS , p_call - > line , callee_name , original_type . to_string ( ) ) ;
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_mark_line_as_unsafe ( p_call - > line ) ;
# endif // DEBUG_ENABLED
return DataType ( ) ;
}
# ifdef DEBUG_ENABLED
if ( current_function & & ! for_completion & & ! is_static & & p_call - > arguments [ 0 ] - > type = = Node : : TYPE_SELF & & current_function - > _static ) {
_set_error ( " Can't call non-static function from a static function. " , p_call - > line ) ;
return DataType ( ) ;
}
if ( check_types & & ! is_static & & ! is_initializer & & base_type . is_meta_type ) {
_set_error ( " Non-static function \" " + String ( callee_name ) + " \" can only be called from an instance. " , p_call - > line ) ;
return DataType ( ) ;
}
// Check signal emission for warnings
if ( callee_name = = " emit_signal " & & p_call - > op = = OperatorNode : : OP_CALL & & p_call - > arguments [ 0 ] - > type = = Node : : TYPE_SELF & & p_call - > arguments . size ( ) > = 3 & & p_call - > arguments [ 2 ] - > type = = Node : : TYPE_CONSTANT ) {
ConstantNode * sig = static_cast < ConstantNode * > ( p_call - > arguments [ 2 ] ) ;
String emitted = sig - > value . get_type ( ) = = Variant : : STRING ? sig - > value . operator String ( ) : " " ;
for ( int i = 0 ; i < current_class - > _signals . size ( ) ; i + + ) {
if ( current_class - > _signals [ i ] . name = = emitted ) {
current_class - > _signals . write [ i ] . emissions + = 1 ;
break ;
}
}
}
# endif // DEBUG_ENABLED
} break ;
}
# ifdef DEBUG_ENABLED
if ( ! check_types ) {
return return_type ;
}
if ( arg_count < arg_types . size ( ) - default_args_count ) {
_set_error ( " Too few arguments for \" " + callee_name + " () \" call. Expected at least " + itos ( arg_types . size ( ) - default_args_count ) + " . " , p_call - > line ) ;
return return_type ;
}
if ( ! is_vararg & & arg_count > arg_types . size ( ) ) {
_set_error ( " Too many arguments for \" " + callee_name + " () \" call. Expected at most " + itos ( arg_types . size ( ) ) + " . " , p_call - > line ) ;
return return_type ;
}
int arg_diff = p_call - > arguments . size ( ) - arg_count ;
for ( int i = arg_diff ; i < p_call - > arguments . size ( ) ; i + + ) {
DataType par_type = _reduce_node_type ( p_call - > arguments [ i ] ) ;
if ( ( i - arg_diff ) > = arg_types . size ( ) ) {
continue ;
}
DataType arg_type = arg_types [ i - arg_diff ] ;
if ( ! par_type . has_type ) {
_mark_line_as_unsafe ( p_call - > line ) ;
} else if ( ! _is_type_compatible ( arg_types [ i - arg_diff ] , par_type , true ) ) {
// Supertypes are acceptable for dynamic compliance
if ( ! _is_type_compatible ( par_type , arg_types [ i - arg_diff ] ) ) {
_set_error ( " At \" " + callee_name + " () \" call, argument " + itos ( i - arg_diff + 1 ) + " . The passed argument's type ( " +
par_type . to_string ( ) + " ) doesn't match the function's expected argument type ( " +
arg_types [ i - arg_diff ] . to_string ( ) + " ). " ,
p_call - > line ) ;
return DataType ( ) ;
} else {
_mark_line_as_unsafe ( p_call - > line ) ;
}
} else {
if ( arg_type . kind = = DataType : : BUILTIN & & arg_type . builtin_type = = Variant : : INT & & par_type . kind = = DataType : : BUILTIN & & par_type . builtin_type = = Variant : : REAL ) {
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_add_warning ( CScriptWarning : : NARROWING_CONVERSION , p_call - > line , callee_name ) ;
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}
}
}
# endif // DEBUG_ENABLED
return return_type ;
}
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bool CScriptParser : : _get_member_type ( const DataType & p_base_type , const StringName & p_member , DataType & r_member_type , bool * r_is_const ) const {
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DataType base_type = p_base_type ;
// Check classes in current file
ClassNode * base = nullptr ;
if ( base_type . kind = = DataType : : CLASS ) {
base = base_type . class_type ;
}
while ( base ) {
if ( base - > constant_expressions . has ( p_member ) ) {
if ( r_is_const ) {
* r_is_const = true ;
}
r_member_type = base - > constant_expressions [ p_member ] . expression - > get_datatype ( ) ;
return true ;
}
if ( ! base_type . is_meta_type ) {
for ( int i = 0 ; i < base - > variables . size ( ) ; i + + ) {
if ( base - > variables [ i ] . identifier = = p_member ) {
r_member_type = base - > variables [ i ] . data_type ;
base - > variables . write [ i ] . usages + = 1 ;
return true ;
}
}
} else {
for ( int i = 0 ; i < base - > subclasses . size ( ) ; i + + ) {
ClassNode * c = base - > subclasses [ i ] ;
if ( c - > name = = p_member ) {
DataType class_type ;
class_type . has_type = true ;
class_type . is_constant = true ;
class_type . is_meta_type = true ;
class_type . kind = DataType : : CLASS ;
class_type . class_type = c ;
r_member_type = class_type ;
return true ;
}
}
}
base_type = base - > base_type ;
if ( base_type . kind = = DataType : : CLASS ) {
base = base_type . class_type ;
} else {
break ;
}
}
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Ref < CScript > gds ;
if ( base_type . kind = = DataType : : CSCRIPT ) {
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gds = base_type . script_type ;
if ( gds . is_null ( ) | | ! gds - > is_valid ( ) ) {
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// CScript wasn't properly compíled, don't bother trying
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return false ;
}
}
Ref < Script > scr ;
if ( base_type . kind = = DataType : : SCRIPT ) {
scr = base_type . script_type ;
}
StringName native ;
if ( base_type . kind = = DataType : : NATIVE ) {
native = base_type . native_type ;
}
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// Check CScripts
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while ( gds . is_valid ( ) ) {
if ( gds - > get_constants ( ) . has ( p_member ) ) {
Variant c = gds - > get_constants ( ) [ p_member ] ;
r_member_type = _type_from_variant ( c ) ;
return true ;
}
if ( ! base_type . is_meta_type ) {
if ( gds - > get_members ( ) . has ( p_member ) ) {
r_member_type = _type_from_gdtype ( gds - > get_member_type ( p_member ) ) ;
return true ;
}
}
native = gds - > get_instance_base_type ( ) ;
if ( gds - > get_base_script ( ) . is_valid ( ) ) {
gds = gds - > get_base_script ( ) ;
scr = gds - > get_base_script ( ) ;
bool is_meta = base_type . is_meta_type ;
base_type = _type_from_variant ( scr . operator Variant ( ) ) ;
base_type . is_meta_type = is_meta ;
} else {
break ;
}
}
# define IS_USAGE_MEMBER(m_usage) (!(m_usage & (PROPERTY_USAGE_GROUP | PROPERTY_USAGE_CATEGORY)))
// Check other script types
while ( scr . is_valid ( ) ) {
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RBMap < StringName , Variant > constants ;
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scr - > get_constants ( & constants ) ;
if ( constants . has ( p_member ) ) {
r_member_type = _type_from_variant ( constants [ p_member ] ) ;
return true ;
}
List < PropertyInfo > properties ;
scr - > get_script_property_list ( & properties ) ;
for ( List < PropertyInfo > : : Element * E = properties . front ( ) ; E ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_member & & IS_USAGE_MEMBER ( E - > get ( ) . usage ) ) {
r_member_type = _type_from_property ( E - > get ( ) ) ;
return true ;
}
}
base_type = _type_from_variant ( scr . operator Variant ( ) ) ;
native = scr - > get_instance_base_type ( ) ;
scr = scr - > get_base_script ( ) ;
}
if ( native = = StringName ( ) ) {
// Empty native class, might happen in some Script implementations
// Just ignore it
return false ;
}
// Check ClassDB
if ( ! ClassDB : : class_exists ( native ) ) {
native = " _ " + native . operator String ( ) ;
}
if ( ! ClassDB : : class_exists ( native ) ) {
if ( ! check_types ) {
return false ;
}
ERR_FAIL_V_MSG ( false , " Parser bug: Class \" " + String ( native ) + " \" not found. " ) ;
}
bool valid = false ;
ClassDB : : get_integer_constant ( native , p_member , & valid ) ;
if ( valid ) {
DataType ct ;
ct . has_type = true ;
ct . is_constant = true ;
ct . kind = DataType : : BUILTIN ;
ct . builtin_type = Variant : : INT ;
r_member_type = ct ;
return true ;
}
if ( ! base_type . is_meta_type ) {
List < PropertyInfo > properties ;
ClassDB : : get_property_list ( native , & properties ) ;
for ( List < PropertyInfo > : : Element * E = properties . front ( ) ; E ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_member & & IS_USAGE_MEMBER ( E - > get ( ) . usage ) ) {
// Check if a getter exists
StringName getter_name = ClassDB : : get_property_getter ( native , p_member ) ;
if ( getter_name ! = StringName ( ) ) {
// Use the getter return type
# ifdef DEBUG_METHODS_ENABLED
MethodBind * getter_method = ClassDB : : get_method ( native , getter_name ) ;
if ( getter_method ) {
r_member_type = _type_from_property ( getter_method - > get_return_info ( ) ) ;
} else {
r_member_type = DataType ( ) ;
}
# else
r_member_type = DataType ( ) ;
# endif
} else {
r_member_type = _type_from_property ( E - > get ( ) ) ;
}
return true ;
}
}
}
// 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 & & ( p_base_type . kind = = DataType : : SCRIPT | | p_base_type . kind = = DataType : : CSCRIPT ) ) {
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native = p_base_type . script_type - > get_class_name ( ) ;
ClassDB : : get_integer_constant ( native , p_member , & valid ) ;
if ( valid ) {
DataType ct ;
ct . has_type = true ;
ct . is_constant = true ;
ct . kind = DataType : : BUILTIN ;
ct . builtin_type = Variant : : INT ;
r_member_type = ct ;
return true ;
}
List < PropertyInfo > properties ;
ClassDB : : get_property_list ( native , & properties ) ;
for ( List < PropertyInfo > : : Element * E = properties . front ( ) ; E ; E = E - > next ( ) ) {
if ( E - > get ( ) . name = = p_member & & IS_USAGE_MEMBER ( E - > get ( ) . usage ) ) {
// Check if a getter exists
StringName getter_name = ClassDB : : get_property_getter ( native , p_member ) ;
if ( getter_name ! = StringName ( ) ) {
// Use the getter return type
# ifdef DEBUG_METHODS_ENABLED
MethodBind * getter_method = ClassDB : : get_method ( native , getter_name ) ;
if ( getter_method ) {
r_member_type = _type_from_property ( getter_method - > get_return_info ( ) ) ;
} else {
r_member_type = DataType ( ) ;
}
# else
r_member_type = DataType ( ) ;
# endif
} else {
r_member_type = _type_from_property ( E - > get ( ) ) ;
}
return true ;
}
}
}
# undef IS_USAGE_MEMBER
return false ;
}
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CScriptParser : : DataType CScriptParser : : _reduce_identifier_type ( const DataType * p_base_type , const StringName & p_identifier , int p_line , bool p_is_indexing ) {
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if ( p_base_type & & ! p_base_type - > has_type ) {
return DataType ( ) ;
}
DataType base_type ;
DataType member_type ;
if ( ! p_base_type ) {
base_type . has_type = true ;
base_type . is_constant = true ;
base_type . kind = DataType : : CLASS ;
base_type . class_type = current_class ;
} else {
base_type = DataType ( * p_base_type ) ;
}
bool is_const = false ;
if ( _get_member_type ( base_type , p_identifier , member_type , & is_const ) ) {
if ( ! p_base_type & & current_function & & current_function - > _static & & ! is_const ) {
_set_error ( " Can't access member variable ( \" " + p_identifier . operator String ( ) + " \" ) from a static function. " , p_line ) ;
return DataType ( ) ;
}
return member_type ;
}
if ( p_is_indexing ) {
// Don't look for globals since this is an indexed identifier
return DataType ( ) ;
}
if ( ! p_base_type ) {
// Possibly this is a global, check before failing
if ( ClassDB : : class_exists ( p_identifier ) | | ClassDB : : class_exists ( " _ " + p_identifier . operator String ( ) ) ) {
DataType result ;
result . has_type = true ;
result . is_constant = true ;
result . is_meta_type = true ;
if ( Engine : : get_singleton ( ) - > has_singleton ( p_identifier ) | | Engine : : get_singleton ( ) - > has_singleton ( " _ " + p_identifier . operator String ( ) ) ) {
result . is_meta_type = false ;
}
result . kind = DataType : : NATIVE ;
result . native_type = p_identifier ;
return result ;
}
ClassNode * outer_class = current_class ;
while ( outer_class ) {
if ( outer_class - > name = = p_identifier ) {
DataType result ;
result . has_type = true ;
result . is_constant = true ;
result . is_meta_type = true ;
result . kind = DataType : : CLASS ;
result . class_type = outer_class ;
return result ;
}
if ( outer_class - > constant_expressions . has ( p_identifier ) ) {
return outer_class - > constant_expressions [ p_identifier ] . type ;
}
for ( int i = 0 ; i < outer_class - > subclasses . size ( ) ; i + + ) {
if ( outer_class - > subclasses [ i ] = = current_class ) {
continue ;
}
if ( outer_class - > subclasses [ i ] - > name = = p_identifier ) {
DataType result ;
result . has_type = true ;
result . is_constant = true ;
result . is_meta_type = true ;
result . kind = DataType : : CLASS ;
result . class_type = outer_class - > subclasses [ i ] ;
return result ;
}
}
outer_class = outer_class - > owner ;
}
if ( ScriptServer : : is_global_class ( p_identifier ) ) {
Ref < Script > scr = ResourceLoader : : load ( ScriptServer : : get_global_class_path ( p_identifier ) ) ;
if ( scr . is_valid ( ) ) {
DataType result ;
result . has_type = true ;
result . script_type = scr ;
result . is_constant = true ;
result . is_meta_type = true ;
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Ref < CScript > gds = scr ;
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if ( gds . is_valid ( ) ) {
if ( ! gds - > is_valid ( ) ) {
_set_error ( " The class \" " + p_identifier + " \" couldn't be fully loaded (script error or cyclic dependency). " ) ;
return DataType ( ) ;
}
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result . kind = DataType : : CSCRIPT ;
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} else {
result . kind = DataType : : SCRIPT ;
}
return result ;
}
_set_error ( " The class \" " + p_identifier + " \" was found in global scope, but its script couldn't be loaded. " ) ;
return DataType ( ) ;
}
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if ( CScriptLanguage : : get_singleton ( ) - > get_global_map ( ) . has ( p_identifier ) ) {
int idx = CScriptLanguage : : get_singleton ( ) - > get_global_map ( ) [ p_identifier ] ;
Variant g = CScriptLanguage : : get_singleton ( ) - > get_global_array ( ) [ idx ] ;
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return _type_from_variant ( g ) ;
}
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if ( CScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) . has ( p_identifier ) ) {
Variant g = CScriptLanguage : : get_singleton ( ) - > get_named_globals_map ( ) [ p_identifier ] ;
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return _type_from_variant ( g ) ;
}
// Non-tool singletons aren't loaded, check project settings
List < PropertyInfo > props ;
ProjectSettings : : get_singleton ( ) - > get_property_list ( & props ) ;
for ( List < PropertyInfo > : : Element * E = props . front ( ) ; E ; E = E - > next ( ) ) {
String s = E - > get ( ) . name ;
if ( ! s . begins_with ( " autoload/ " ) ) {
continue ;
}
String name = s . get_slice ( " / " , 1 ) ;
if ( name = = p_identifier ) {
String script = ProjectSettings : : get_singleton ( ) - > get ( s ) ;
if ( script . begins_with ( " * " ) ) {
script = script . right ( 1 ) ;
}
if ( ! script . begins_with ( " res:// " ) ) {
script = " res:// " + script ;
}
Ref < Script > singleton = ResourceLoader : : load ( script ) ;
if ( singleton . is_valid ( ) ) {
DataType result ;
result . has_type = true ;
result . is_constant = true ;
result . script_type = singleton ;
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Ref < CScript > gds = singleton ;
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if ( gds . is_valid ( ) ) {
if ( ! gds - > is_valid ( ) ) {
_set_error ( " Couldn't fully load the singleton script \" " + p_identifier + " \" (possible cyclic reference or parse error). " , p_line ) ;
return DataType ( ) ;
}
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result . kind = DataType : : CSCRIPT ;
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} else {
result . kind = DataType : : SCRIPT ;
}
}
}
}
// This means looking in the current class, which type is always known
_set_error ( " The identifier \" " + p_identifier . operator String ( ) + " \" isn't declared in the current scope. " , p_line ) ;
}
# ifdef DEBUG_ENABLED
{
DataType tmp_type ;
List < DataType > arg_types ;
int argcount ;
bool _static ;
bool vararg ;
if ( _get_function_signature ( base_type , p_identifier , tmp_type , arg_types , argcount , _static , vararg ) ) {
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_add_warning ( CScriptWarning : : FUNCTION_USED_AS_PROPERTY , p_line , p_identifier . operator String ( ) , base_type . to_string ( ) ) ;
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}
}
# endif // DEBUG_ENABLED
_mark_line_as_unsafe ( p_line ) ;
return DataType ( ) ;
}
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void CScriptParser : : _check_class_level_types ( ClassNode * p_class ) {
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// Names of internal object properties that we check to avoid overriding them.
// "__meta__" could also be in here, but since it doesn't really affect object metadata,
// it is okay to override it on script.
StringName script_name = CoreStringNames : : get_singleton ( ) - > _script ;
_mark_line_as_safe ( p_class - > line ) ;
// Constants
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for ( RBMap < StringName , ClassNode : : Constant > : : Element * E = p_class - > constant_expressions . front ( ) ; E ; E = E - > next ( ) ) {
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ClassNode : : Constant & c = E - > get ( ) ;
_mark_line_as_safe ( c . expression - > line ) ;
DataType cont = _resolve_type ( c . type , c . expression - > line ) ;
DataType expr = _resolve_type ( c . expression - > get_datatype ( ) , c . expression - > line ) ;
if ( check_types & & ! _is_type_compatible ( cont , expr ) ) {
_set_error ( " The constant value type ( " + expr . to_string ( ) + " ) isn't compatible with declared type ( " + cont . to_string ( ) + " ). " ,
c . expression - > line ) ;
return ;
}
expr . is_constant = true ;
c . type = expr ;
c . expression - > set_datatype ( expr ) ;
DataType tmp ;
const StringName & constant_name = E - > key ( ) ;
if ( constant_name = = script_name | | _get_member_type ( p_class - > base_type , constant_name , tmp ) ) {
_set_error ( " The member \" " + String ( constant_name ) + " \" already exists in a parent class. " , c . expression - > line ) ;
return ;
}
}
// Function declarations
for ( int i = 0 ; i < p_class - > static_functions . size ( ) ; i + + ) {
_check_function_types ( p_class - > static_functions [ i ] ) ;
if ( error_set ) {
return ;
}
}
for ( int i = 0 ; i < p_class - > functions . size ( ) ; i + + ) {
_check_function_types ( p_class - > functions [ i ] ) ;
if ( error_set ) {
return ;
}
}
// Class variables
for ( int i = 0 ; i < p_class - > variables . size ( ) ; i + + ) {
ClassNode : : Member & v = p_class - > variables . write [ i ] ;
DataType tmp ;
if ( v . identifier = = script_name | | _get_member_type ( p_class - > base_type , v . identifier , tmp ) ) {
_set_error ( " The member \" " + String ( v . identifier ) + " \" already exists in a parent class. " , v . line ) ;
return ;
}
_mark_line_as_safe ( v . line ) ;
v . data_type = _resolve_type ( v . data_type , v . line ) ;
v . initial_assignment - > arguments [ 0 ] - > set_datatype ( v . data_type ) ;
if ( v . expression ) {
DataType expr_type = _reduce_node_type ( v . expression ) ;
if ( check_types & & ! _is_type_compatible ( v . data_type , expr_type ) ) {
// Try supertype test
if ( _is_type_compatible ( expr_type , v . data_type ) ) {
_mark_line_as_unsafe ( v . line ) ;
} else {
// Try with implicit conversion
if ( v . data_type . kind ! = DataType : : BUILTIN | | ! _is_type_compatible ( v . data_type , expr_type , true ) ) {
_set_error ( " The assigned expression's type ( " + expr_type . to_string ( ) + " ) doesn't match the variable's type ( " +
v . data_type . to_string ( ) + " ). " ,
v . line ) ;
return ;
}
// Replace assignment with implicit conversion
BuiltInFunctionNode * convert = alloc_node < BuiltInFunctionNode > ( ) ;
convert - > line = v . line ;
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convert - > function = CScriptFunctions : : TYPE_CONVERT ;
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ConstantNode * tgt_type = alloc_node < ConstantNode > ( ) ;
tgt_type - > line = v . line ;
tgt_type - > value = ( int ) v . data_type . builtin_type ;
OperatorNode * convert_call = alloc_node < OperatorNode > ( ) ;
convert_call - > line = v . line ;
convert_call - > op = OperatorNode : : OP_CALL ;
convert_call - > arguments . push_back ( convert ) ;
convert_call - > arguments . push_back ( v . expression ) ;
convert_call - > arguments . push_back ( tgt_type ) ;
v . expression = convert_call ;
v . initial_assignment - > arguments . write [ 1 ] = convert_call ;
}
}
if ( v . data_type . infer_type ) {
if ( ! expr_type . has_type ) {
_set_error ( " The assigned value doesn't have a set type; the variable type can't be inferred. " , v . line ) ;
return ;
}
if ( expr_type . kind = = DataType : : BUILTIN & & expr_type . builtin_type = = Variant : : NIL ) {
_set_error ( " The variable type cannot be inferred because its value is \" null \" . " , v . line ) ;
return ;
}
v . data_type = expr_type ;
v . data_type . is_constant = false ;
}
}
// Check export hint
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if ( v . _export . type ! = Variant : : NIL ) {
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DataType export_type = _type_from_property ( v . _export ) ;
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if ( export_type . kind = = DataType : : CSCRIPT | | export_type . kind = = DataType : : SCRIPT ) {
String class_name = v . _export . class_name ;
if ( ScriptServer : : is_global_class ( class_name ) ) {
class_name = ScriptServer : : get_global_class_native_base ( class_name ) ;
}
if ( ! ClassDB : : is_parent_class ( class_name , " Resource " ) ) {
_set_error ( vformat ( " Exported script-defined type (%s) must inherit from Resource. " , export_type . to_string ( ) ) , v . line ) ;
return ;
}
}
if ( v . data_type . has_type ) {
if ( ! _is_type_compatible ( v . data_type , export_type , true ) ) {
_set_error ( vformat ( " The export hint's type (%s) doesn't match the variable's type (%s). " , export_type . to_string ( ) , v . data_type . to_string ( ) ) , v . line ) ;
return ;
}
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}
}
// Setter and getter
if ( v . setter = = StringName ( ) & & v . getter = = StringName ( ) ) {
continue ;
}
bool found_getter = false ;
bool found_setter = false ;
for ( int j = 0 ; j < p_class - > functions . size ( ) ; j + + ) {
if ( v . setter = = p_class - > functions [ j ] - > name ) {
found_setter = true ;
FunctionNode * setter = p_class - > functions [ j ] ;
if ( setter - > get_required_argument_count ( ) ! = 1 & &
! ( setter - > get_required_argument_count ( ) = = 0 & & setter - > default_values . size ( ) > 0 ) ) {
_set_error ( " The setter function needs to receive exactly 1 argument. See \" " + setter - > name +
" () \" definition at line " + itos ( setter - > line ) + " . " ,
v . line ) ;
return ;
}
if ( ! _is_type_compatible ( v . data_type , setter - > argument_types [ 0 ] ) ) {
_set_error ( " The setter argument's type ( " + setter - > argument_types [ 0 ] . to_string ( ) +
" ) doesn't match the variable's type ( " + v . data_type . to_string ( ) + " ). See \" " +
setter - > name + " () \" definition at line " + itos ( setter - > line ) + " . " ,
v . line ) ;
return ;
}
continue ;
}
if ( v . getter = = p_class - > functions [ j ] - > name ) {
found_getter = true ;
FunctionNode * getter = p_class - > functions [ j ] ;
if ( getter - > get_required_argument_count ( ) ! = 0 ) {
_set_error ( " The getter function can't receive arguments. See \" " + getter - > name +
" () \" definition at line " + itos ( getter - > line ) + " . " ,
v . line ) ;
return ;
}
if ( ! _is_type_compatible ( v . data_type , getter - > get_datatype ( ) ) ) {
_set_error ( " The getter return type ( " + getter - > get_datatype ( ) . to_string ( ) +
" ) doesn't match the variable's type ( " + v . data_type . to_string ( ) +
" ). See \" " + getter - > name + " () \" definition at line " + itos ( getter - > line ) + " . " ,
v . line ) ;
return ;
}
}
if ( found_getter & & found_setter ) {
break ;
}
}
if ( ( found_getter | | v . getter = = StringName ( ) ) & & ( found_setter | | v . setter = = StringName ( ) ) ) {
continue ;
}
// Check for static functions
for ( int j = 0 ; j < p_class - > static_functions . size ( ) ; j + + ) {
if ( v . setter = = p_class - > static_functions [ j ] - > name ) {
FunctionNode * setter = p_class - > static_functions [ j ] ;
_set_error ( " The setter can't be a static function. See \" " + setter - > name + " () \" definition at line " + itos ( setter - > line ) + " . " , v . line ) ;
return ;
}
if ( v . getter = = p_class - > static_functions [ j ] - > name ) {
FunctionNode * getter = p_class - > static_functions [ j ] ;
_set_error ( " The getter can't be a static function. See \" " + getter - > name + " () \" definition at line " + itos ( getter - > line ) + " . " , v . line ) ;
return ;
}
}
if ( ! found_setter & & v . setter ! = StringName ( ) ) {
_set_error ( " The setter function isn't defined. " , v . line ) ;
return ;
}
if ( ! found_getter & & v . getter ! = StringName ( ) ) {
_set_error ( " The getter function isn't defined. " , v . line ) ;
return ;
}
}
// Signals
DataType base = p_class - > base_type ;
while ( base . kind = = DataType : : CLASS ) {
ClassNode * base_class = base . class_type ;
for ( int i = 0 ; i < p_class - > _signals . size ( ) ; i + + ) {
for ( int j = 0 ; j < base_class - > _signals . size ( ) ; j + + ) {
if ( p_class - > _signals [ i ] . name = = base_class - > _signals [ j ] . name ) {
_set_error ( " The signal \" " + p_class - > _signals [ i ] . name + " \" already exists in a parent class. " , p_class - > _signals [ i ] . line ) ;
return ;
}
}
}
base = base_class - > base_type ;
}
StringName native ;
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if ( base . kind = = DataType : : CSCRIPT | | base . kind = = DataType : : SCRIPT ) {
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Ref < Script > scr = base . script_type ;
if ( scr . is_valid ( ) & & scr - > is_valid ( ) ) {
native = scr - > get_instance_base_type ( ) ;
for ( int i = 0 ; i < p_class - > _signals . size ( ) ; i + + ) {
if ( scr - > has_script_signal ( p_class - > _signals [ i ] . name ) ) {
_set_error ( " The signal \" " + p_class - > _signals [ i ] . name + " \" already exists in a parent class. " , p_class - > _signals [ i ] . line ) ;
return ;
}
}
}
} else if ( base . kind = = DataType : : NATIVE ) {
native = base . native_type ;
}
if ( native ! = StringName ( ) ) {
for ( int i = 0 ; i < p_class - > _signals . size ( ) ; i + + ) {
if ( ClassDB : : has_signal ( native , p_class - > _signals [ i ] . name ) ) {
_set_error ( " The signal \" " + p_class - > _signals [ i ] . name + " \" already exists in a parent class. " , p_class - > _signals [ i ] . line ) ;
return ;
}
}
}
// Inner classes
for ( int i = 0 ; i < p_class - > subclasses . size ( ) ; i + + ) {
current_class = p_class - > subclasses [ i ] ;
_check_class_level_types ( current_class ) ;
if ( error_set ) {
return ;
}
current_class = p_class ;
}
}
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void CScriptParser : : _check_function_types ( FunctionNode * p_function ) {
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p_function - > return_type = _resolve_type ( p_function - > return_type , p_function - > line ) ;
// Arguments
int defaults_ofs = p_function - > arguments . size ( ) - p_function - > default_values . size ( ) ;
for ( int i = 0 ; i < p_function - > arguments . size ( ) ; i + + ) {
if ( i < defaults_ofs ) {
p_function - > argument_types . write [ i ] = _resolve_type ( p_function - > argument_types [ i ] , p_function - > line ) ;
} else {
if ( p_function - > default_values [ i - defaults_ofs ] - > type ! = Node : : TYPE_OPERATOR ) {
_set_error ( " Parser bug: invalid argument default value. " , p_function - > line , p_function - > column ) ;
return ;
}
OperatorNode * op = static_cast < OperatorNode * > ( p_function - > default_values [ i - defaults_ofs ] ) ;
if ( op - > op ! = OperatorNode : : OP_ASSIGN | | op - > arguments . size ( ) ! = 2 ) {
_set_error ( " Parser bug: invalid argument default value operation. " , p_function - > line ) ;
return ;
}
DataType def_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
if ( p_function - > argument_types [ i ] . infer_type ) {
def_type . is_constant = false ;
p_function - > argument_types . write [ i ] = def_type ;
} else {
p_function - > argument_types . write [ i ] = _resolve_type ( p_function - > argument_types [ i ] , p_function - > line ) ;
if ( ! _is_type_compatible ( p_function - > argument_types [ i ] , def_type , true ) ) {
String arg_name = p_function - > arguments [ i ] ;
_set_error ( " Value type ( " + def_type . to_string ( ) + " ) doesn't match the type of argument ' " +
arg_name + " ' ( " + p_function - > argument_types [ i ] . to_string ( ) + " ). " ,
p_function - > line ) ;
}
}
}
# ifdef DEBUG_ENABLED
if ( p_function - > arguments_usage [ i ] = = 0 & & ! p_function - > arguments [ i ] . operator String ( ) . begins_with ( " _ " ) ) {
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_add_warning ( CScriptWarning : : UNUSED_ARGUMENT , p_function - > line , p_function - > name , p_function - > arguments [ i ] . operator String ( ) ) ;
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}
for ( int j = 0 ; j < current_class - > variables . size ( ) ; j + + ) {
if ( current_class - > variables [ j ] . identifier = = p_function - > arguments [ i ] ) {
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_add_warning ( CScriptWarning : : SHADOWED_VARIABLE , p_function - > line , p_function - > arguments [ i ] , itos ( current_class - > variables [ j ] . line ) ) ;
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}
}
# endif // DEBUG_ENABLED
}
if ( ! ( p_function - > name = = " _init " ) ) {
// Signature for the initializer may vary
# ifdef DEBUG_ENABLED
DataType return_type ;
List < DataType > arg_types ;
int default_arg_count = 0 ;
bool _static = false ;
bool vararg = false ;
DataType base_type = current_class - > base_type ;
if ( _get_function_signature ( base_type , p_function - > name , return_type , arg_types , default_arg_count , _static , vararg ) ) {
bool valid = _static = = p_function - > _static ;
valid = valid & & return_type = = p_function - > return_type ;
int argsize_diff = p_function - > arguments . size ( ) - arg_types . size ( ) ;
valid = valid & & argsize_diff > = 0 ;
valid = valid & & p_function - > default_values . size ( ) > = default_arg_count + argsize_diff ;
int i = 0 ;
for ( List < DataType > : : Element * E = arg_types . front ( ) ; valid & & E ; E = E - > next ( ) ) {
valid = valid & & E - > get ( ) = = p_function - > argument_types [ i + + ] ;
}
if ( ! valid ) {
String parent_signature = return_type . has_type ? return_type . to_string ( ) : " Variant " ;
if ( parent_signature = = " null " ) {
parent_signature = " void " ;
}
parent_signature + = " " + p_function - > name + " ( " ;
if ( arg_types . size ( ) ) {
int j = 0 ;
for ( List < DataType > : : Element * E = arg_types . front ( ) ; E ; E = E - > next ( ) ) {
if ( E ! = arg_types . front ( ) ) {
parent_signature + = " , " ;
}
String arg = E - > get ( ) . to_string ( ) ;
if ( arg = = " null " | | arg = = " var " ) {
arg = " Variant " ;
}
parent_signature + = arg ;
if ( j = = arg_types . size ( ) - default_arg_count ) {
parent_signature + = " =default " ;
}
j + + ;
}
}
parent_signature + = " ) " ;
_set_error ( " The function signature doesn't match the parent. Parent signature is: \" " + parent_signature + " \" . " , p_function - > line ) ;
return ;
}
}
# endif // DEBUG_ENABLED
} else {
if ( p_function - > return_type . has_type & & ( p_function - > return_type . kind ! = DataType : : BUILTIN | | p_function - > return_type . builtin_type ! = Variant : : NIL ) ) {
_set_error ( " The constructor can't return a value. " , p_function - > line ) ;
return ;
}
}
if ( p_function - > return_type . has_type & & ( p_function - > return_type . kind ! = DataType : : BUILTIN | | p_function - > return_type . builtin_type ! = Variant : : NIL ) ) {
if ( ! p_function - > body - > has_return ) {
_set_error ( " A non-void function must return a value in all possible paths. " , p_function - > line ) ;
return ;
}
}
}
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void CScriptParser : : _check_class_blocks_types ( ClassNode * p_class ) {
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// Function blocks
for ( int i = 0 ; i < p_class - > static_functions . size ( ) ; i + + ) {
current_function = p_class - > static_functions [ i ] ;
current_block = current_function - > body ;
_mark_line_as_safe ( current_function - > line ) ;
_check_block_types ( current_block ) ;
current_block = nullptr ;
current_function = nullptr ;
if ( error_set ) {
return ;
}
}
for ( int i = 0 ; i < p_class - > functions . size ( ) ; i + + ) {
current_function = p_class - > functions [ i ] ;
current_block = current_function - > body ;
_mark_line_as_safe ( current_function - > line ) ;
_check_block_types ( current_block ) ;
current_block = nullptr ;
current_function = nullptr ;
if ( error_set ) {
return ;
}
}
# ifdef DEBUG_ENABLED
// Warnings
for ( int i = 0 ; i < p_class - > variables . size ( ) ; i + + ) {
if ( p_class - > variables [ i ] . usages = = 0 ) {
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_add_warning ( CScriptWarning : : UNUSED_CLASS_VARIABLE , p_class - > variables [ i ] . line , p_class - > variables [ i ] . identifier ) ;
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}
}
for ( int i = 0 ; i < p_class - > _signals . size ( ) ; i + + ) {
if ( p_class - > _signals [ i ] . emissions = = 0 ) {
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_add_warning ( CScriptWarning : : UNUSED_SIGNAL , p_class - > _signals [ i ] . line , p_class - > _signals [ i ] . name ) ;
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}
}
# endif // DEBUG_ENABLED
// Inner classes
for ( int i = 0 ; i < p_class - > subclasses . size ( ) ; i + + ) {
current_class = p_class - > subclasses [ i ] ;
_check_class_blocks_types ( current_class ) ;
if ( error_set ) {
return ;
}
current_class = p_class ;
}
}
# ifdef DEBUG_ENABLED
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static String _find_function_name ( const CScriptParser : : OperatorNode * p_call ) {
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switch ( p_call - > arguments [ 0 ] - > type ) {
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case CScriptParser : : Node : : TYPE_TYPE : {
return Variant : : get_type_name ( static_cast < CScriptParser : : TypeNode * > ( p_call - > arguments [ 0 ] ) - > vtype ) ;
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} break ;
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case CScriptParser : : Node : : TYPE_BUILT_IN_FUNCTION : {
return CScriptFunctions : : get_func_name ( static_cast < CScriptParser : : BuiltInFunctionNode * > ( p_call - > arguments [ 0 ] ) - > function ) ;
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} break ;
default : {
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int id_index = p_call - > op = = CScriptParser : : OperatorNode : : OP_PARENT_CALL ? 0 : 1 ;
if ( p_call - > arguments . size ( ) > id_index & & p_call - > arguments [ id_index ] - > type = = CScriptParser : : Node : : TYPE_IDENTIFIER ) {
return static_cast < CScriptParser : : IdentifierNode * > ( p_call - > arguments [ id_index ] ) - > name ;
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}
} break ;
}
return String ( ) ;
}
# endif // DEBUG_ENABLED
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void CScriptParser : : _check_block_types ( BlockNode * p_block ) {
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Node * last_var_assign = nullptr ;
// Check each statement
for ( int z = 0 ; z < p_block - > statements . size ( ) ; z + + ) {
Node * statement = p_block - > statements [ z ] ;
switch ( statement - > type ) {
case Node : : TYPE_NEWLINE :
case Node : : TYPE_BREAKPOINT : {
// Nothing to do
} break ;
case Node : : TYPE_ASSERT : {
AssertNode * an = static_cast < AssertNode * > ( statement ) ;
_mark_line_as_safe ( an - > line ) ;
_reduce_node_type ( an - > condition ) ;
_reduce_node_type ( an - > message ) ;
} break ;
case Node : : TYPE_LOCAL_VAR : {
LocalVarNode * lv = static_cast < LocalVarNode * > ( statement ) ;
lv - > datatype = _resolve_type ( lv - > datatype , lv - > line ) ;
_mark_line_as_safe ( lv - > line ) ;
last_var_assign = lv - > assign ;
if ( lv - > assign ) {
lv - > assign_op - > arguments [ 0 ] - > set_datatype ( lv - > datatype ) ;
DataType assign_type = _reduce_node_type ( lv - > assign ) ;
# ifdef DEBUG_ENABLED
if ( assign_type . has_type & & assign_type . kind = = DataType : : BUILTIN & & assign_type . builtin_type = = Variant : : NIL ) {
if ( lv - > assign - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * call = static_cast < OperatorNode * > ( lv - > assign ) ;
if ( call - > op = = OperatorNode : : OP_CALL | | call - > op = = OperatorNode : : OP_PARENT_CALL ) {
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_add_warning ( CScriptWarning : : VOID_ASSIGNMENT , lv - > line , _find_function_name ( call ) ) ;
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}
}
}
for ( int i = 0 ; i < current_class - > variables . size ( ) ; i + + ) {
if ( current_class - > variables [ i ] . identifier = = lv - > name ) {
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_add_warning ( CScriptWarning : : SHADOWED_VARIABLE , lv - > line , lv - > name , itos ( current_class - > variables [ i ] . line ) ) ;
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}
}
# endif // DEBUG_ENABLED
if ( ! _is_type_compatible ( lv - > datatype , assign_type ) ) {
// Try supertype test
if ( _is_type_compatible ( assign_type , lv - > datatype ) ) {
_mark_line_as_unsafe ( lv - > line ) ;
} else {
// Try implicit conversion
if ( lv - > datatype . kind ! = DataType : : BUILTIN | | ! _is_type_compatible ( lv - > datatype , assign_type , true ) ) {
_set_error ( " The assigned value type ( " + assign_type . to_string ( ) + " ) doesn't match the variable's type ( " +
lv - > datatype . to_string ( ) + " ). " ,
lv - > line ) ;
return ;
}
// Replace assignment with implicit conversion
BuiltInFunctionNode * convert = alloc_node < BuiltInFunctionNode > ( ) ;
convert - > line = lv - > line ;
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convert - > function = CScriptFunctions : : TYPE_CONVERT ;
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ConstantNode * tgt_type = alloc_node < ConstantNode > ( ) ;
tgt_type - > line = lv - > line ;
tgt_type - > value = ( int ) lv - > datatype . builtin_type ;
OperatorNode * convert_call = alloc_node < OperatorNode > ( ) ;
convert_call - > line = lv - > line ;
convert_call - > op = OperatorNode : : OP_CALL ;
convert_call - > arguments . push_back ( convert ) ;
convert_call - > arguments . push_back ( lv - > assign ) ;
convert_call - > arguments . push_back ( tgt_type ) ;
lv - > assign = convert_call ;
lv - > assign_op - > arguments . write [ 1 ] = convert_call ;
# ifdef DEBUG_ENABLED
if ( lv - > datatype . builtin_type = = Variant : : INT & & assign_type . builtin_type = = Variant : : REAL ) {
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_add_warning ( CScriptWarning : : NARROWING_CONVERSION , lv - > line ) ;
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}
# endif // DEBUG_ENABLED
}
}
if ( lv - > datatype . infer_type ) {
if ( ! assign_type . has_type ) {
_set_error ( " The assigned value doesn't have a set type; the variable type can't be inferred. " , lv - > line ) ;
return ;
}
if ( assign_type . kind = = DataType : : BUILTIN & & assign_type . builtin_type = = Variant : : NIL ) {
_set_error ( " The variable type cannot be inferred because its value is \" null \" . " , lv - > line ) ;
return ;
}
lv - > datatype = assign_type ;
lv - > datatype . is_constant = false ;
}
if ( lv - > datatype . has_type & & ! assign_type . has_type ) {
_mark_line_as_unsafe ( lv - > line ) ;
}
}
} break ;
case Node : : TYPE_OPERATOR : {
OperatorNode * op = static_cast < OperatorNode * > ( statement ) ;
switch ( op - > op ) {
case OperatorNode : : OP_ASSIGN :
case OperatorNode : : OP_ASSIGN_ADD :
case OperatorNode : : OP_ASSIGN_SUB :
case OperatorNode : : OP_ASSIGN_MUL :
case OperatorNode : : OP_ASSIGN_DIV :
case OperatorNode : : OP_ASSIGN_MOD :
case OperatorNode : : OP_ASSIGN_SHIFT_LEFT :
case OperatorNode : : OP_ASSIGN_SHIFT_RIGHT :
case OperatorNode : : OP_ASSIGN_BIT_AND :
case OperatorNode : : OP_ASSIGN_BIT_OR :
case OperatorNode : : OP_ASSIGN_BIT_XOR : {
if ( op - > arguments . size ( ) < 2 ) {
_set_error ( " Parser bug: operation without enough arguments. " , op - > line , op - > column ) ;
return ;
}
if ( op - > arguments [ 1 ] = = last_var_assign ) {
// Assignment was already checked
break ;
}
_mark_line_as_safe ( op - > line ) ;
DataType lh_type = _reduce_node_type ( op - > arguments [ 0 ] ) ;
if ( error_set ) {
return ;
}
if ( check_types ) {
if ( ! lh_type . has_type ) {
if ( op - > arguments [ 0 ] - > type = = Node : : TYPE_OPERATOR ) {
_mark_line_as_unsafe ( op - > line ) ;
}
}
if ( lh_type . is_constant ) {
_set_error ( " Can't assign a new value to a constant. " , op - > line ) ;
return ;
}
}
DataType rh_type ;
if ( op - > op ! = OperatorNode : : OP_ASSIGN ) {
// Validate operation
DataType arg_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
if ( ! arg_type . has_type ) {
_mark_line_as_unsafe ( op - > line ) ;
break ;
}
Variant : : Operator oper = _get_variant_operation ( op - > op ) ;
bool valid = false ;
rh_type = _get_operation_type ( oper , lh_type , arg_type , valid ) ;
if ( check_types & & ! valid ) {
_set_error ( " Invalid operand types ( \" " + lh_type . to_string ( ) + " \" and \" " + arg_type . to_string ( ) +
" \" ) to assignment operator \" " + Variant : : get_operator_name ( oper ) + " \" . " ,
op - > line ) ;
return ;
}
} else {
rh_type = _reduce_node_type ( op - > arguments [ 1 ] ) ;
}
# ifdef DEBUG_ENABLED
if ( rh_type . has_type & & rh_type . kind = = DataType : : BUILTIN & & rh_type . builtin_type = = Variant : : NIL ) {
if ( op - > arguments [ 1 ] - > type = = Node : : TYPE_OPERATOR ) {
OperatorNode * call = static_cast < OperatorNode * > ( op - > arguments [ 1 ] ) ;
if ( call - > op = = OperatorNode : : OP_CALL | | call - > op = = OperatorNode : : OP_PARENT_CALL ) {
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_add_warning ( CScriptWarning : : VOID_ASSIGNMENT , op - > line , _find_function_name ( call ) ) ;
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}
}
}
# endif // DEBUG_ENABLED
bool type_match = lh_type . has_type & & rh_type . has_type ;
if ( check_types & & ! _is_type_compatible ( lh_type , rh_type ) ) {
type_match = false ;
// Try supertype test
if ( _is_type_compatible ( rh_type , lh_type ) ) {
_mark_line_as_unsafe ( op - > line ) ;
} else {
// Try implicit conversion
if ( lh_type . kind ! = DataType : : BUILTIN | | ! _is_type_compatible ( lh_type , rh_type , true ) ) {
_set_error ( " The assigned value's type ( " + rh_type . to_string ( ) + " ) doesn't match the variable's type ( " +
lh_type . to_string ( ) + " ). " ,
op - > line ) ;
return ;
}
if ( op - > op = = OperatorNode : : OP_ASSIGN ) {
// Replace assignment with implicit conversion
BuiltInFunctionNode * convert = alloc_node < BuiltInFunctionNode > ( ) ;
convert - > line = op - > line ;
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convert - > function = CScriptFunctions : : TYPE_CONVERT ;
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ConstantNode * tgt_type = alloc_node < ConstantNode > ( ) ;
tgt_type - > line = op - > line ;
tgt_type - > value = ( int ) lh_type . builtin_type ;
OperatorNode * convert_call = alloc_node < OperatorNode > ( ) ;
convert_call - > line = op - > line ;
convert_call - > op = OperatorNode : : OP_CALL ;
convert_call - > arguments . push_back ( convert ) ;
convert_call - > arguments . push_back ( op - > arguments [ 1 ] ) ;
convert_call - > arguments . push_back ( tgt_type ) ;
op - > arguments . write [ 1 ] = convert_call ;
type_match = true ; // Since we are converting, the type is matching
}
# ifdef DEBUG_ENABLED
if ( lh_type . builtin_type = = Variant : : INT & & rh_type . builtin_type = = Variant : : REAL ) {
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_add_warning ( CScriptWarning : : NARROWING_CONVERSION , op - > line ) ;
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}
# endif // DEBUG_ENABLED
}
}
# ifdef DEBUG_ENABLED
if ( ! rh_type . has_type & & ( op - > op ! = OperatorNode : : OP_ASSIGN | | lh_type . has_type | | op - > arguments [ 0 ] - > type = = Node : : TYPE_OPERATOR ) ) {
_mark_line_as_unsafe ( op - > line ) ;
}
# endif // DEBUG_ENABLED
op - > datatype . has_type = type_match ;
} break ;
case OperatorNode : : OP_CALL :
case OperatorNode : : OP_PARENT_CALL : {
_mark_line_as_safe ( op - > line ) ;
DataType func_type = _reduce_function_call_type ( op ) ;
# ifdef DEBUG_ENABLED
if ( func_type . has_type & & ( func_type . kind ! = DataType : : BUILTIN | | func_type . builtin_type ! = Variant : : NIL ) ) {
// Figure out function name for warning
String func_name = _find_function_name ( op ) ;
if ( func_name . empty ( ) ) {
func_name = " <undetected name> " ;
}
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_add_warning ( CScriptWarning : : RETURN_VALUE_DISCARDED , op - > line , func_name ) ;
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}
# endif // DEBUG_ENABLED
if ( error_set ) {
return ;
}
} break ;
default : {
_mark_line_as_safe ( op - > line ) ;
_reduce_node_type ( op ) ; // Test for safety anyway
# ifdef DEBUG_ENABLED
if ( op - > op = = OperatorNode : : OP_TERNARY_IF ) {
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_add_warning ( CScriptWarning : : STANDALONE_TERNARY , statement - > line ) ;
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} else {
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_add_warning ( CScriptWarning : : STANDALONE_EXPRESSION , statement - > line ) ;
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}
# endif // DEBUG_ENABLED
}
}
} break ;
case Node : : TYPE_CONTROL_FLOW : {
ControlFlowNode * cf = static_cast < ControlFlowNode * > ( statement ) ;
_mark_line_as_safe ( cf - > line ) ;
switch ( cf - > cf_type ) {
case ControlFlowNode : : CF_RETURN : {
DataType function_type = current_function - > get_datatype ( ) ;
DataType ret_type ;
if ( cf - > arguments . size ( ) > 0 ) {
ret_type = _reduce_node_type ( cf - > arguments [ 0 ] ) ;
if ( error_set ) {
return ;
}
}
if ( ! function_type . has_type ) {
break ;
}
if ( function_type . kind = = DataType : : BUILTIN & & function_type . builtin_type = = Variant : : NIL ) {
// Return void, should not have arguments
if ( cf - > arguments . size ( ) > 0 ) {
_set_error ( " A void function cannot return a value. " , cf - > line , cf - > column ) ;
return ;
}
} else {
// Return something, cannot be empty
if ( cf - > arguments . size ( ) = = 0 ) {
_set_error ( " A non-void function must return a value. " , cf - > line , cf - > column ) ;
return ;
}
if ( ! _is_type_compatible ( function_type , ret_type ) ) {
_set_error ( " The returned value type ( " + ret_type . to_string ( ) + " ) doesn't match the function return type ( " +
function_type . to_string ( ) + " ). " ,
cf - > line , cf - > column ) ;
return ;
}
}
} break ;
case ControlFlowNode : : CF_MATCH : {
MatchNode * match_node = cf - > match ;
_transform_match_statment ( match_node ) ;
} break ;
default : {
if ( cf - > body_else ) {
_mark_line_as_safe ( cf - > body_else - > line ) ;
}
for ( int i = 0 ; i < cf - > arguments . size ( ) ; i + + ) {
_reduce_node_type ( cf - > arguments [ i ] ) ;
}
} break ;
}
} break ;
case Node : : TYPE_CONSTANT : {
ConstantNode * cn = static_cast < ConstantNode * > ( statement ) ;
// Strings are fine since they can be multiline comments
if ( cn - > value . get_type ( ) = = Variant : : STRING ) {
break ;
}
FALLTHROUGH ;
}
default : {
_mark_line_as_safe ( statement - > line ) ;
_reduce_node_type ( statement ) ; // Test for safety anyway
# ifdef DEBUG_ENABLED
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_add_warning ( CScriptWarning : : STANDALONE_EXPRESSION , statement - > line ) ;
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# endif // DEBUG_ENABLED
}
}
}
// Parse sub blocks
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for ( const List < BlockNode * > : : Element * E = p_block - > sub_blocks . front ( ) ; E ; E = E - > next ( ) ) {
current_block = E - > get ( ) ;
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_check_block_types ( current_block ) ;
current_block = p_block ;
if ( error_set ) {
return ;
}
}
# ifdef DEBUG_ENABLED
// Warnings check
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for ( RBMap < StringName , LocalVarNode * > : : Element * E = p_block - > variables . front ( ) ; E ; E = E - > next ( ) ) {
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LocalVarNode * lv = E - > get ( ) ;
if ( ! lv - > name . operator String ( ) . begins_with ( " _ " ) ) {
if ( lv - > usages = = 0 ) {
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_add_warning ( CScriptWarning : : UNUSED_VARIABLE , lv - > line , lv - > name ) ;
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} else if ( lv - > assignments = = 0 ) {
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_add_warning ( CScriptWarning : : UNASSIGNED_VARIABLE , lv - > line , lv - > name ) ;
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}
}
}
# endif // DEBUG_ENABLED
}
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void CScriptParser : : _set_error ( const String & p_error , int p_line , int p_column ) {
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if ( error_set ) {
return ; //allow no further errors
}
error = p_error ;
error_line = p_line < 0 ? tokenizer - > get_token_line ( ) : p_line ;
error_column = p_column < 0 ? tokenizer - > get_token_column ( ) : p_column ;
error_set = true ;
}
# ifdef DEBUG_ENABLED
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void CScriptParser : : _add_warning ( int p_code , int p_line , const String & p_symbol1 , const String & p_symbol2 , const String & p_symbol3 , const String & p_symbol4 ) {
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Vector < String > symbols ;
if ( ! p_symbol1 . empty ( ) ) {
symbols . push_back ( p_symbol1 ) ;
}
if ( ! p_symbol2 . empty ( ) ) {
symbols . push_back ( p_symbol2 ) ;
}
if ( ! p_symbol3 . empty ( ) ) {
symbols . push_back ( p_symbol3 ) ;
}
if ( ! p_symbol4 . empty ( ) ) {
symbols . push_back ( p_symbol4 ) ;
}
_add_warning ( p_code , p_line , symbols ) ;
}
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void CScriptParser : : _add_warning ( int p_code , int p_line , const Vector < String > & p_symbols ) {
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if ( GLOBAL_GET ( " debug/gdscript/warnings/exclude_addons " ) . booleanize ( ) & & base_path . begins_with ( " res://addons/ " ) ) {
return ;
}
if ( tokenizer - > is_ignoring_warnings ( ) | | ! GLOBAL_GET ( " debug/gdscript/warnings/enable " ) . booleanize ( ) ) {
return ;
}
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String warn_name = CScriptWarning : : get_name_from_code ( ( CScriptWarning : : Code ) p_code ) . to_lower ( ) ;
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if ( tokenizer - > get_warning_global_skips ( ) . has ( warn_name ) ) {
return ;
}
if ( ! GLOBAL_GET ( " debug/gdscript/warnings/ " + warn_name ) ) {
return ;
}
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CScriptWarning warn ;
warn . code = ( CScriptWarning : : Code ) p_code ;
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warn . symbols = p_symbols ;
warn . line = p_line = = - 1 ? tokenizer - > get_token_line ( ) : p_line ;
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List < CScriptWarning > : : Element * before = nullptr ;
for ( List < CScriptWarning > : : Element * E = warnings . front ( ) ; E ; E = E - > next ( ) ) {
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if ( E - > get ( ) . line > warn . line ) {
break ;
}
before = E ;
}
if ( before ) {
warnings . insert_after ( before , warn ) ;
} else {
warnings . push_front ( warn ) ;
}
}
# endif // DEBUG_ENABLED
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String CScriptParser : : get_error ( ) const {
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return error ;
}
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int CScriptParser : : get_error_line ( ) const {
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return error_line ;
}
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int CScriptParser : : get_error_column ( ) const {
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return error_column ;
}
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bool CScriptParser : : has_error ( ) const {
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return error_set ;
}
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Error CScriptParser : : _parse ( const String & p_base_path ) {
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base_path = p_base_path ;
//assume class
ClassNode * main_class = alloc_node < ClassNode > ( ) ;
main_class - > initializer = alloc_node < BlockNode > ( ) ;
main_class - > initializer - > parent_class = main_class ;
main_class - > ready = alloc_node < BlockNode > ( ) ;
main_class - > ready - > parent_class = main_class ;
current_class = main_class ;
_parse_class ( main_class ) ;
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if ( tokenizer - > get_token ( ) = = CScriptTokenizer : : TK_ERROR ) {
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error_set = false ;
_set_error ( " Parse error: " + tokenizer - > get_token_error ( ) ) ;
}
bool for_completion_error_set = false ;
if ( error_set & & for_completion ) {
for_completion_error_set = true ;
error_set = false ;
}
if ( error_set ) {
return ERR_PARSE_ERROR ;
}
if ( dependencies_only ) {
return OK ;
}
_determine_inheritance ( main_class ) ;
if ( error_set ) {
return ERR_PARSE_ERROR ;
}
current_class = main_class ;
current_function = nullptr ;
current_block = nullptr ;
if ( for_completion ) {
check_types = false ;
}
// Resolve all class-level stuff before getting into function blocks
_check_class_level_types ( main_class ) ;
if ( error_set ) {
return ERR_PARSE_ERROR ;
}
// Resolve the function blocks
_check_class_blocks_types ( main_class ) ;
if ( for_completion_error_set ) {
error_set = true ;
}
if ( error_set ) {
return ERR_PARSE_ERROR ;
}
# ifdef DEBUG_ENABLED
// Resolve warning ignores
Vector < Pair < int , String > > warning_skips = tokenizer - > get_warning_skips ( ) ;
bool warning_is_error = GLOBAL_GET ( " debug/gdscript/warnings/treat_warnings_as_errors " ) . booleanize ( ) ;
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for ( List < CScriptWarning > : : Element * E = warnings . front ( ) ; E ; ) {
CScriptWarning & w = E - > get ( ) ;
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int skip_index = - 1 ;
for ( int i = 0 ; i < warning_skips . size ( ) ; i + + ) {
if ( warning_skips [ i ] . first > w . line ) {
break ;
}
skip_index = i ;
}
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List < CScriptWarning > : : Element * next = E - > next ( ) ;
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bool erase = false ;
if ( skip_index ! = - 1 ) {
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if ( warning_skips [ skip_index ] . second = = CScriptWarning : : get_name_from_code ( w . code ) . to_lower ( ) ) {
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erase = true ;
}
warning_skips . remove ( skip_index ) ;
}
if ( erase ) {
warnings . erase ( E ) ;
} else if ( warning_is_error ) {
_set_error ( w . get_message ( ) + " (warning treated as error) " , w . line ) ;
return ERR_PARSE_ERROR ;
}
E = next ;
}
# endif // DEBUG_ENABLED
return OK ;
}
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Error CScriptParser : : parse_bytecode ( const Vector < uint8_t > & p_bytecode , const String & p_base_path , const String & p_self_path ) {
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clear ( ) ;
self_path = p_self_path ;
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CScriptTokenizerBuffer * tb = memnew ( CScriptTokenizerBuffer ) ;
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tb - > set_code_buffer ( p_bytecode ) ;
tokenizer = tb ;
Error ret = _parse ( p_base_path ) ;
memdelete ( tb ) ;
tokenizer = nullptr ;
return ret ;
}
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Error CScriptParser : : parse ( const String & p_code , const String & p_base_path , bool p_just_validate , const String & p_self_path , bool p_for_completion , RBSet < int > * r_safe_lines , bool p_dependencies_only ) {
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clear ( ) ;
self_path = p_self_path ;
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CScriptTokenizerText * tt = memnew ( CScriptTokenizerText ) ;
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tt - > set_code ( p_code ) ;
validating = p_just_validate ;
for_completion = p_for_completion ;
dependencies_only = p_dependencies_only ;
# ifdef DEBUG_ENABLED
safe_lines = r_safe_lines ;
# endif // DEBUG_ENABLED
tokenizer = tt ;
Error ret = _parse ( p_base_path ) ;
memdelete ( tt ) ;
tokenizer = nullptr ;
return ret ;
}
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bool CScriptParser : : is_tool_script ( ) const {
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return ( head & & head - > type = = Node : : TYPE_CLASS & & static_cast < const ClassNode * > ( head ) - > tool ) ;
}
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const CScriptParser : : Node * CScriptParser : : get_parse_tree ( ) const {
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return head ;
}
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void CScriptParser : : clear ( ) {
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while ( list ) {
Node * l = list ;
list = list - > next ;
memdelete ( l ) ;
}
head = nullptr ;
list = nullptr ;
completion_type = COMPLETION_NONE ;
completion_node = nullptr ;
completion_class = nullptr ;
completion_function = nullptr ;
completion_block = nullptr ;
current_block = nullptr ;
current_class = nullptr ;
completion_found = false ;
current_function = nullptr ;
validating = false ;
for_completion = false ;
error_set = false ;
indent_level . clear ( ) ;
indent_level . push_back ( IndentLevel ( 0 , 0 ) ) ;
error_line = 0 ;
error_column = 0 ;
pending_newline = - 1 ;
parenthesis = 0 ;
current_export . type = Variant : : NIL ;
check_types = true ;
dependencies_only = false ;
dependencies . clear ( ) ;
error = " " ;
# ifdef DEBUG_ENABLED
safe_lines = nullptr ;
# endif // DEBUG_ENABLED
}
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CScriptParser : : CompletionType CScriptParser : : get_completion_type ( ) {
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return completion_type ;
}
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StringName CScriptParser : : get_completion_cursor ( ) {
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return completion_cursor ;
}
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int CScriptParser : : get_completion_line ( ) {
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return completion_line ;
}
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Variant : : Type CScriptParser : : get_completion_built_in_constant ( ) {
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return completion_built_in_constant ;
}
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CScriptParser : : Node * CScriptParser : : get_completion_node ( ) {
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return completion_node ;
}
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CScriptParser : : BlockNode * CScriptParser : : get_completion_block ( ) {
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return completion_block ;
}
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CScriptParser : : ClassNode * CScriptParser : : get_completion_class ( ) {
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return completion_class ;
}
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CScriptParser : : FunctionNode * CScriptParser : : get_completion_function ( ) {
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return completion_function ;
}
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int CScriptParser : : get_completion_argument_index ( ) {
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return completion_argument ;
}
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int CScriptParser : : get_completion_identifier_is_function ( ) {
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return completion_ident_is_call ;
}
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CScriptParser : : CScriptParser ( ) {
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head = nullptr ;
list = nullptr ;
tokenizer = nullptr ;
pending_newline = - 1 ;
clear ( ) ;
}
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CScriptParser : : ~ CScriptParser ( ) {
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clear ( ) ;
}