/*************************************************************************/ /* gd_parser.cpp */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* http://www.godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2016 Juan Linietsky, Ariel Manzur. */ /* */ /* 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 "gd_parser.h" #include "print_string.h" #include "io/resource_loader.h" #include "os/file_access.h" #include "script_language.h" #include "gd_script.h" template T* GDParser::alloc_node() { 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; } bool GDParser::_end_statement() { if (tokenizer->get_token()==GDTokenizer::TK_SEMICOLON) { tokenizer->advance(); return true; //handle next } else if (tokenizer->get_token()==GDTokenizer::TK_NEWLINE || tokenizer->get_token()==GDTokenizer::TK_EOF) { return true; //will be handled properly } return false; } bool GDParser::_enter_indent_block(BlockNode* p_block) { if (tokenizer->get_token()!=GDTokenizer::TK_COLON) { // 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(); if (tokenizer->get_token()!=GDTokenizer::TK_NEWLINE) { // be more python-like int current = tab_level.back()->get(); tab_level.push_back(current+1); return true; //_set_error("newline expected after ':'."); //return false; } while(true) { if (tokenizer->get_token()!=GDTokenizer::TK_NEWLINE) { return false; //wtf } else if (tokenizer->get_token(1)!=GDTokenizer::TK_NEWLINE) { int indent = tokenizer->get_token_line_indent(); int current = tab_level.back()->get(); if (indent<=current) { print_line("current: "+itos(current)+" indent: "+itos(indent)); print_line("less than current"); return false; } tab_level.push_back(indent); tokenizer->advance(); return true; } else if (p_block) { NewLineNode *nl = alloc_node(); nl->line=tokenizer->get_token_line(); p_block->statements.push_back(nl); } tokenizer->advance(); // go to next newline } } bool GDParser::_parse_arguments(Node* p_parent,Vector& p_args,bool p_static,bool p_can_codecomplete) { if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { tokenizer->advance(); } else { int argidx=0; while(true) { if (tokenizer->get_token()==GDTokenizer::TK_CURSOR) { _make_completable_call(argidx); completion_node=p_parent; } else if (tokenizer->get_token()==GDTokenizer::TK_CONSTANT && tokenizer->get_token_constant().get_type()==Variant::STRING && tokenizer->get_token(1)==GDTokenizer::TK_CURSOR) { //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); if (!arg) return false; p_args.push_back(arg); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { tokenizer->advance(); break; } else if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { if (tokenizer->get_token(1)==GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expression expected"); return false; } tokenizer->advance(); argidx++; } else { // something is broken _set_error("Expected ',' or ')'"); return false; } } } return true; } void GDParser::_make_completable_call(int p_arg) { 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(); } bool GDParser::_get_completable_identifier(CompletionType p_type,StringName& identifier) { identifier=StringName(); if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER) { identifier=tokenizer->get_token_identifier(); tokenizer->advance(); } if (tokenizer->get_token()==GDTokenizer::TK_CURSOR) { 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; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER) { identifier=identifier.operator String() + tokenizer->get_token_identifier().operator String(); tokenizer->advance(); } return true; } return false; } GDParser::Node* GDParser::_parse_expression(Node *p_parent,bool p_static,bool p_allow_assign,bool p_parsing_constant) { // Vector expressions; // Vector operators; Vector expression; Node *expr=NULL; 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 while(tokenizer->get_token()==GDTokenizer::TK_NEWLINE) { tokenizer->advance(); } } if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_OPEN) { //subexpression () tokenizer->advance(); parenthesis++; Node* subexpr = _parse_expression(p_parent,p_static,p_allow_assign,p_parsing_constant); parenthesis--; if (!subexpr) return NULL; if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' in expression"); return NULL; } tokenizer->advance(); expr=subexpr; } else if (tokenizer->get_token()==GDTokenizer::TK_CURSOR) { tokenizer->advance(); continue; //no point in cursor in the middle of expression } else if (tokenizer->get_token()==GDTokenizer::TK_CONSTANT) { //constant defined by tokenizer ConstantNode *constant = alloc_node(); constant->value=tokenizer->get_token_constant(); tokenizer->advance(); expr=constant; } else if (tokenizer->get_token()==GDTokenizer::TK_CONST_PI) { //constant defined by tokenizer ConstantNode *constant = alloc_node(); constant->value=Math_PI; tokenizer->advance(); expr=constant; } else if (tokenizer->get_token()==GDTokenizer::TK_PR_PRELOAD) { //constant defined by tokenizer tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_OPEN) { _set_error("Expected '(' after 'preload'"); return NULL; } tokenizer->advance(); String path; bool valid = false; Node *subexpr = _parse_and_reduce_expression(p_parent, p_static); if (subexpr) { if (subexpr->type == Node::TYPE_CONSTANT) { ConstantNode *cn = static_cast(subexpr); if (cn->value.get_type() == Variant::STRING) { valid = true; path = (String) cn->value; } } } if (!valid) { _set_error("expected string constant as 'preload' argument."); return NULL; } if (path.begins_with("/")) { _set_error("Paths cannot start with '/', absolute paths must start with \'res://\', \'user://\', or \'local://\'"); return NULL; } if (!path.is_abs_path() && base_path!="") path=base_path+"/"+path; path = path.replace("///","//").simplify_path(); if (path==self_path) { _set_error("Can't preload itself (use 'get_script()')."); return NULL; } Ref res; if (!validating) { //this can be too slow for just validating code if (for_completion && ScriptCodeCompletionCache::get_sigleton()) { res = ScriptCodeCompletionCache::get_sigleton()->get_cached_resource(path); } else { res = ResourceLoader::load(path); } if (!res.is_valid()) { _set_error("Can't preload resource at path: "+path); return NULL; } } else { if (!FileAccess::exists(path)) { _set_error("Can't preload resource at path: "+path); return NULL; } } if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' after 'preload' path"); return NULL; } ConstantNode *constant = alloc_node(); constant->value=res; tokenizer->advance(); expr=constant; } else if (tokenizer->get_token()==GDTokenizer::TK_PR_YIELD) { //constant defined by tokenizer tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_OPEN) { _set_error("Expected '(' after 'yield'"); return NULL; } tokenizer->advance(); OperatorNode *yield = alloc_node(); yield->op=OperatorNode::OP_YIELD; if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { expr=yield; tokenizer->advance(); } else { Node *object = _parse_and_reduce_expression(p_parent,p_static); if (!object) return NULL; yield->arguments.push_back(object); if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { _set_error("Expected ',' after first argument of 'yield'"); return NULL; } tokenizer->advance(); Node *signal = _parse_and_reduce_expression(p_parent,p_static); if (!signal) return NULL; yield->arguments.push_back(signal); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' after second argument of 'yield'"); return NULL; } tokenizer->advance(); expr=yield; } } else if (tokenizer->get_token()==GDTokenizer::TK_SELF) { if (p_static) { _set_error("'self'' not allowed in static function or constant expression"); return NULL; } //constant defined by tokenizer SelfNode *self = alloc_node(); tokenizer->advance(); expr=self; } else if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_TYPE && tokenizer->get_token(1)==GDTokenizer::TK_PERIOD) { 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 expected after '.'"); return NULL; } if (!Variant::has_numeric_constant(bi_type,identifier)) { _set_error("Static constant '"+identifier.operator String()+"' not present in built-in type "+Variant::get_type_name(bi_type)+"."); return NULL; } ConstantNode *cn = alloc_node(); cn->value=Variant::get_numeric_constant_value(bi_type,identifier); expr=cn; } else if (tokenizer->get_token(1)==GDTokenizer::TK_PARENTHESIS_OPEN && (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_TYPE || tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER || tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_FUNC)) { //function or constructor OperatorNode *op = alloc_node(); op->op=OperatorNode::OP_CALL; if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_TYPE) { TypeNode *tn = alloc_node(); tn->vtype=tokenizer->get_token_type(); op->arguments.push_back(tn); tokenizer->advance(2); } else if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_FUNC) { BuiltInFunctionNode *bn = alloc_node(); bn->function=tokenizer->get_token_built_in_func(); op->arguments.push_back(bn); tokenizer->advance(2); } else { SelfNode *self = alloc_node(); op->arguments.push_back(self); StringName identifier; if (_get_completable_identifier(COMPLETION_FUNCTION,identifier)) { } IdentifierNode* id = alloc_node(); id->name=identifier; op->arguments.push_back(id); tokenizer->advance(1); } if (tokenizer->get_token()==GDTokenizer::TK_CURSOR) { _make_completable_call(0); completion_node=op; } if (!_parse_arguments(op,op->arguments,p_static,true)) return NULL; expr=op; } else if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER) { //identifier (reference) const ClassNode* cln = current_class; bool bfn = false; StringName identifier; if (_get_completable_identifier(COMPLETION_IDENTIFIER,identifier)) { } if (p_parsing_constant) { for( int i=0; iconstant_expressions.size(); ++i ) { if( cln->constant_expressions[i].identifier == identifier ) { expr = cln->constant_expressions[i].expression; bfn = true; break; } } if (GDScriptLanguage::get_singleton()->get_global_map().has(identifier)) { //check from constants ConstantNode *constant = alloc_node(); constant->value = GDScriptLanguage::get_singleton()->get_global_array()[ GDScriptLanguage::get_singleton()->get_global_map()[identifier] ]; expr=constant; bfn = true; } } if ( !bfn ) { IdentifierNode *id = alloc_node(); id->name = identifier; expr = id; } } else if (/*tokenizer->get_token()==GDTokenizer::TK_OP_ADD ||*/ tokenizer->get_token()==GDTokenizer::TK_OP_SUB || tokenizer->get_token()==GDTokenizer::TK_OP_NOT || tokenizer->get_token()==GDTokenizer::TK_OP_BIT_INVERT) { //single prefix operators like !expr -expr ++expr --expr alloc_node(); Expression e; e.is_op=true; switch(tokenizer->get_token()) { case GDTokenizer::TK_OP_SUB: e.op=OperatorNode::OP_NEG; break; case GDTokenizer::TK_OP_NOT: e.op=OperatorNode::OP_NOT; break; case GDTokenizer::TK_OP_BIT_INVERT: e.op=OperatorNode::OP_BIT_INVERT;; break; default: {} } tokenizer->advance(); if (e.op!=OperatorNode::OP_NOT && tokenizer->get_token()==GDTokenizer::TK_OP_NOT) { _set_error("Misplaced 'not'."); return NULL; } 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;*/ } else if (tokenizer->get_token()==GDTokenizer::TK_BRACKET_OPEN) { // array tokenizer->advance(); ArrayNode *arr = alloc_node(); bool expecting_comma=false; while(true) { if (tokenizer->get_token()==GDTokenizer::TK_EOF) { _set_error("Unterminated array"); return NULL; } else if (tokenizer->get_token()==GDTokenizer::TK_BRACKET_CLOSE) { tokenizer->advance(); break; } else if (tokenizer->get_token()==GDTokenizer::TK_NEWLINE) { tokenizer->advance(); //ignore newline } else if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { if (!expecting_comma) { _set_error("expression or ']' expected"); return NULL; } expecting_comma=false; tokenizer->advance(); //ignore newline } else { //parse expression if (expecting_comma) { _set_error("',' or ']' expected"); return NULL; } Node *n = _parse_expression(arr,p_static,p_allow_assign,p_parsing_constant); if (!n) return NULL; arr->elements.push_back(n); expecting_comma=true; } } expr=arr; } else if (tokenizer->get_token()==GDTokenizer::TK_CURLY_BRACKET_OPEN) { // array tokenizer->advance(); DictionaryNode *dict = alloc_node(); enum DictExpect { DICT_EXPECT_KEY, DICT_EXPECT_COLON, DICT_EXPECT_VALUE, DICT_EXPECT_COMMA }; Node *key=NULL; DictExpect expecting=DICT_EXPECT_KEY; while(true) { if (tokenizer->get_token()==GDTokenizer::TK_EOF) { _set_error("Unterminated dictionary"); return NULL; } else if (tokenizer->get_token()==GDTokenizer::TK_CURLY_BRACKET_CLOSE) { if (expecting==DICT_EXPECT_COLON) { _set_error("':' expected"); return NULL; } if (expecting==DICT_EXPECT_VALUE) { _set_error("value expected"); return NULL; } tokenizer->advance(); break; } else if (tokenizer->get_token()==GDTokenizer::TK_NEWLINE) { tokenizer->advance(); //ignore newline } else if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { if (expecting==DICT_EXPECT_KEY) { _set_error("key or '}' expected"); return NULL; } if (expecting==DICT_EXPECT_VALUE) { _set_error("value expected"); return NULL; } if (expecting==DICT_EXPECT_COLON) { _set_error("':' expected"); return NULL; } expecting=DICT_EXPECT_KEY; tokenizer->advance(); //ignore newline } else if (tokenizer->get_token()==GDTokenizer::TK_COLON) { if (expecting==DICT_EXPECT_KEY) { _set_error("key or '}' expected"); return NULL; } if (expecting==DICT_EXPECT_VALUE) { _set_error("value expected"); return NULL; } if (expecting==DICT_EXPECT_COMMA) { _set_error("',' or '}' expected"); return NULL; } expecting=DICT_EXPECT_VALUE; tokenizer->advance(); //ignore newline } else { if (expecting==DICT_EXPECT_COMMA) { _set_error("',' or '}' expected"); return NULL; } if (expecting==DICT_EXPECT_COLON) { _set_error("':' expected"); return NULL; } if (expecting==DICT_EXPECT_KEY) { if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token(1)==GDTokenizer::TK_OP_ASSIGN) { //lua style identifier, easier to write ConstantNode *cn = alloc_node(); cn->value = tokenizer->get_token_identifier(); 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 NULL; 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 NULL; expecting=DICT_EXPECT_COMMA; DictionaryNode::Pair pair; pair.key=key; pair.value=value; dict->elements.push_back(pair); key=NULL; } } } expr=dict; } else if (tokenizer->get_token()==GDTokenizer::TK_PERIOD && (tokenizer->get_token(1)==GDTokenizer::TK_IDENTIFIER || tokenizer->get_token(1)==GDTokenizer::TK_CURSOR) && tokenizer->get_token(2)==GDTokenizer::TK_PARENTHESIS_OPEN) { // parent call tokenizer->advance(); //goto identifier OperatorNode *op = alloc_node(); op->op=OperatorNode::OP_PARENT_CALL; /*SelfNode *self = alloc_node(); op->arguments.push_back(self); forbidden for now */ StringName identifier; if (_get_completable_identifier(COMPLETION_PARENT_FUNCTION,identifier)) { //indexing stuff } IdentifierNode *id = alloc_node(); id->name=identifier; op->arguments.push_back(id); tokenizer->advance(1); if (!_parse_arguments(op,op->arguments,p_static)) return NULL; expr=op; } else { //find list [ or find dictionary { //print_line("found bug?"); _set_error("Error parsing expression, misplaced: "+String(tokenizer->get_token_name(tokenizer->get_token()))); return NULL; //nothing } if (!expr) { ERR_EXPLAIN("GDParser bug, couldn't figure out what expression is.."); ERR_FAIL_COND_V(!expr,NULL); } /******************/ /* Parse Indexing */ /******************/ while (true) { //expressions can be indexed any number of times if (tokenizer->get_token()==GDTokenizer::TK_PERIOD) { //indexing using "." if (tokenizer->get_token(1)!=GDTokenizer::TK_CURSOR && tokenizer->get_token(1)!=GDTokenizer::TK_IDENTIFIER && tokenizer->get_token(1)!=GDTokenizer::TK_BUILT_IN_FUNC ) { _set_error("Expected identifier as member"); return NULL; } else if (tokenizer->get_token(2)==GDTokenizer::TK_PARENTHESIS_OPEN) { //call!! OperatorNode * op = alloc_node(); op->op=OperatorNode::OP_CALL; tokenizer->advance(); IdentifierNode * id = alloc_node(); if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_FUNC ) { //small hack so built in funcs don't obfuscate methods id->name=GDFunctions::get_func_name(tokenizer->get_token_built_in_func()); tokenizer->advance(); } else { 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); if (tokenizer->get_token()==GDTokenizer::TK_CURSOR) { _make_completable_call(0); completion_node=op; } if (!_parse_arguments(op,op->arguments,p_static,true)) return NULL; expr=op; } else { //simple indexing! OperatorNode * op = alloc_node(); 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 allright } completion_node=op; //indexing stuff } IdentifierNode * id = alloc_node(); id->name=identifier; op->arguments.push_back(expr); op->arguments.push_back(id); expr=op; } } else if (tokenizer->get_token()==GDTokenizer::TK_BRACKET_OPEN) { //indexing using "[]" OperatorNode * op = alloc_node(); op->op=OperatorNode::OP_INDEX; tokenizer->advance(1); Node *subexpr = _parse_expression(op,p_static,p_allow_assign,p_parsing_constant); if (!subexpr) { return NULL; } if (tokenizer->get_token()!=GDTokenizer::TK_BRACKET_CLOSE) { _set_error("Expected ']'"); return NULL; } op->arguments.push_back(expr); op->arguments.push_back(subexpr); tokenizer->advance(1); expr=op; } else break; } /******************/ /* Parse Operator */ /******************/ if (parenthesis>0) { //remove empty space (only allowed if inside parenthesis while(tokenizer->get_token()==GDTokenizer::TK_NEWLINE) { 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 alowed on the first operator #define _VALIDATE_ASSIGN if (!p_allow_assign) { _set_error("Unexpected assign."); return NULL; } p_allow_assign=false; switch(tokenizer->get_token()) { //see operator case GDTokenizer::TK_OP_IN: op=OperatorNode::OP_IN; break; case GDTokenizer::TK_OP_EQUAL: op=OperatorNode::OP_EQUAL ; break; case GDTokenizer::TK_OP_NOT_EQUAL: op=OperatorNode::OP_NOT_EQUAL ; break; case GDTokenizer::TK_OP_LESS: op=OperatorNode::OP_LESS ; break; case GDTokenizer::TK_OP_LESS_EQUAL: op=OperatorNode::OP_LESS_EQUAL ; break; case GDTokenizer::TK_OP_GREATER: op=OperatorNode::OP_GREATER ; break; case GDTokenizer::TK_OP_GREATER_EQUAL: op=OperatorNode::OP_GREATER_EQUAL ; break; case GDTokenizer::TK_OP_AND: op=OperatorNode::OP_AND ; break; case GDTokenizer::TK_OP_OR: op=OperatorNode::OP_OR ; break; case GDTokenizer::TK_OP_ADD: op=OperatorNode::OP_ADD ; break; case GDTokenizer::TK_OP_SUB: op=OperatorNode::OP_SUB ; break; case GDTokenizer::TK_OP_MUL: op=OperatorNode::OP_MUL ; break; case GDTokenizer::TK_OP_DIV: op=OperatorNode::OP_DIV ; break; case GDTokenizer::TK_OP_MOD: op=OperatorNode::OP_MOD ; break; //case GDTokenizer::TK_OP_NEG: op=OperatorNode::OP_NEG ; break; case GDTokenizer::TK_OP_SHIFT_LEFT: op=OperatorNode::OP_SHIFT_LEFT ; break; case GDTokenizer::TK_OP_SHIFT_RIGHT: op=OperatorNode::OP_SHIFT_RIGHT ; break; case GDTokenizer::TK_OP_ASSIGN: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN ; break; case GDTokenizer::TK_OP_ASSIGN_ADD: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_ADD ; break; case GDTokenizer::TK_OP_ASSIGN_SUB: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_SUB ; break; case GDTokenizer::TK_OP_ASSIGN_MUL: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_MUL ; break; case GDTokenizer::TK_OP_ASSIGN_DIV: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_DIV ; break; case GDTokenizer::TK_OP_ASSIGN_MOD: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_MOD ; break; case GDTokenizer::TK_OP_ASSIGN_SHIFT_LEFT: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_SHIFT_LEFT; ; break; case GDTokenizer::TK_OP_ASSIGN_SHIFT_RIGHT: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_SHIFT_RIGHT; ; break; case GDTokenizer::TK_OP_ASSIGN_BIT_AND: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_BIT_AND ; break; case GDTokenizer::TK_OP_ASSIGN_BIT_OR: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_BIT_OR ; break; case GDTokenizer::TK_OP_ASSIGN_BIT_XOR: _VALIDATE_ASSIGN op=OperatorNode::OP_ASSIGN_BIT_XOR ; break; case GDTokenizer::TK_OP_BIT_AND: op=OperatorNode::OP_BIT_AND ; break; case GDTokenizer::TK_OP_BIT_OR: op=OperatorNode::OP_BIT_OR ; break; case GDTokenizer::TK_OP_BIT_XOR: op=OperatorNode::OP_BIT_XOR ; break; case GDTokenizer::TK_PR_EXTENDS: op=OperatorNode::OP_EXTENDS; 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; for(int i=0;i=next_op;i--) { OperatorNode *op = alloc_node(); 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[i].is_op=false; expression[i].node=op; expression.remove(i+1); } } else { if (next_op <1 || next_op>=(expression.size()-1)) { _set_error("Parser bug.."); ERR_FAIL_V(NULL); } OperatorNode *op = alloc_node(); 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(NULL); } 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 an unary op in a valid combination, // due to how precedence works, unaries will always dissapear first _set_error("Unexpected two consecutive operators."); return NULL; } 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[next_op-1].node=op; expression.remove(next_op); expression.remove(next_op); } } return expression[0].node; } GDParser::Node* GDParser::_reduce_expression(Node *p_node,bool p_to_const) { 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(p_node); bool all_constants=true; for(int i=0;ielements.size();i++) { an->elements[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(); Array arr(!p_to_const); //print_line("mk array "+itos(!p_to_const)); arr.resize(an->elements.size()); for(int i=0;ielements.size();i++) { ConstantNode *acn = static_cast(an->elements[i]); arr[i]=acn->value; } cn->value=arr; return cn; } return an; } break; case Node::TYPE_DICTIONARY: { DictionaryNode *dn = static_cast(p_node); bool all_constants=true; for(int i=0;ielements.size();i++) { dn->elements[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[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(); Dictionary dict(!p_to_const); for(int i=0;ielements.size();i++) { ConstantNode *key_c = static_cast(dn->elements[i].key); ConstantNode *value_c = static_cast(dn->elements[i].value); dict[key_c->value]=value_c->value; } cn->value=dict; return cn; } return dn; } break; case Node::TYPE_OPERATOR: { OperatorNode *op=static_cast(p_node); bool all_constants=true; int last_not_constant=-1; for(int i=0;iarguments.size();i++) { op->arguments[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_EXTENDS) { //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 if ((op->arguments[0]->type==Node::TYPE_TYPE || (op->arguments[0]->type==Node::TYPE_BUILT_IN_FUNCTION && GDFunctions::is_deterministic( static_cast(op->arguments[0])->function))) && last_not_constant==0) { //native type constructor or intrinsic function const Variant **vptr=NULL; Vector ptrs; if (op->arguments.size()>1) { ptrs.resize(op->arguments.size()-1); for(int i=0;i(op->arguments[i+1]); ptrs[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(op->arguments[0]); v = Variant::construct(tn->vtype,vptr,ptrs.size(),ce); } else { GDFunctions::Function func = static_cast(op->arguments[0])->function; GDFunctions::call(func,vptr,ptrs.size(),v,ce); } if (ce.error!=Variant::CallError::CALL_OK) { String errwhere; if (op->arguments[0]->type==Node::TYPE_TYPE) { TypeNode *tn = static_cast(op->arguments[0]); errwhere="'"+Variant::get_type_name(tn->vtype)+"'' constructor"; } else { GDFunctions::Function func = static_cast(op->arguments[0])->function; errwhere=String("'")+GDFunctions::get_func_name(func)+"'' intrinsic function"; } 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(); cn->value=v; return cn; } else if (op->arguments[0]->type==Node::TYPE_BUILT_IN_FUNCTION && last_not_constant==0) { } return op; //don't reduce yet } else if (op->op==OperatorNode::OP_YIELD) { return op; } else if (op->op==OperatorNode::OP_INDEX) { //can reduce indices into constant arrays or dictionaries if (all_constants) { ConstantNode *ca = static_cast(op->arguments[0]); ConstantNode *cb = static_cast(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(); cn->value=v; return cn; } /*else if (op->arguments[0]->type==Node::TYPE_CONSTANT && op->arguments[1]->type==Node::TYPE_IDENTIFIER) { ConstantNode *ca = static_cast(op->arguments[0]); IdentifierNode *ib = static_cast(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"); return op; } ConstantNode *cn = alloc_node(); cn->value=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(op->arguments[0]); IdentifierNode *ib = static_cast(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(); cn->value=v; return cn; } return op; } //validate assignment (don't assign to cosntant 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; } } 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(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();\ cn->value=res;\ return cn; #define _REDUCE_BINARY(m_vop)\ bool valid=false;\ Variant res;\ Variant::evaluate(m_vop,static_cast(op->arguments[0])->value,static_cast(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();\ cn->value=res;\ return cn; switch(op->op) { //unary operators case OperatorNode::OP_NEG: { _REDUCE_UNARY(Variant::OP_NEGATE); } 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_SUBSTRACT); } 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; default: { ERR_FAIL_V(op); } } ERR_FAIL_V(op); } break; default: { return p_node; } break; } } GDParser::Node* GDParser::_parse_and_reduce_expression(Node *p_parent,bool p_static,bool p_reduce_const,bool p_allow_assign) { Node* expr=_parse_expression(p_parent,p_static,p_allow_assign,p_reduce_const); if (!expr || error_set) return NULL; expr = _reduce_expression(expr,p_reduce_const); if (!expr || error_set) return NULL; return expr; } bool GDParser::_recover_from_completion() { if (!completion_found) { return false; //can't recover if no completion } //skip stuff until newline while(tokenizer->get_token()!=GDTokenizer::TK_NEWLINE && tokenizer->get_token()!=GDTokenizer::TK_EOF && tokenizer->get_token()!=GDTokenizer::TK_ERROR) { tokenizer->advance(); } completion_found=false; error_set=false; if(tokenizer->get_token() == GDTokenizer::TK_ERROR){ error_set = true; } return true; } void GDParser::_parse_block(BlockNode *p_block,bool p_static) { int indent_level = tab_level.back()->get(); #ifdef DEBUG_ENABLED NewLineNode *nl = alloc_node(); nl->line=tokenizer->get_token_line(); p_block->statements.push_back(nl); #endif while(true) { GDTokenizer::Token token = tokenizer->get_token(); if (error_set) return; if (indent_level>tab_level.back()->get()) { p_block->end_line=tokenizer->get_token_line(); return; //go back a level } if (pending_newline!=-1) { NewLineNode *nl = alloc_node(); nl->line=pending_newline; p_block->statements.push_back(nl); pending_newline=-1; } switch(token) { case GDTokenizer::TK_EOF: p_block->end_line=tokenizer->get_token_line(); case GDTokenizer::TK_ERROR: { return; //go back //end of file! } break; case GDTokenizer::TK_NEWLINE: { if (!_parse_newline()) { if (!error_set) { p_block->end_line=tokenizer->get_token_line(); pending_newline=p_block->end_line; } return; } NewLineNode *nl = alloc_node(); nl->line=tokenizer->get_token_line(); p_block->statements.push_back(nl); } break; case GDTokenizer::TK_CF_PASS: { if (tokenizer->get_token(1)!=GDTokenizer::TK_SEMICOLON && tokenizer->get_token(1)!=GDTokenizer::TK_NEWLINE && tokenizer->get_token(1)!=GDTokenizer::TK_EOF) { _set_error("Expected ';' or ."); return; } tokenizer->advance(); if(tokenizer->get_token()==GDTokenizer::TK_SEMICOLON) { // Ignore semicolon after 'pass' tokenizer->advance(); } } break; case GDTokenizer::TK_PR_VAR: { //variale declaration and (eventual) initialization tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier for local variable name."); return; } StringName n = tokenizer->get_token_identifier(); tokenizer->advance(); p_block->variables.push_back(n); //line? p_block->variable_lines.push_back(tokenizer->get_token_line()); //must know when the local variable is declared LocalVarNode *lv = alloc_node(); lv->name=n; p_block->statements.push_back(lv); Node *assigned=NULL; if (tokenizer->get_token()==GDTokenizer::TK_OP_ASSIGN) { tokenizer->advance(); Node *subexpr=NULL; subexpr = _parse_and_reduce_expression(p_block,p_static); if (!subexpr) { if (_recover_from_completion()) { break; } return; } lv->assign=subexpr; assigned=subexpr; } else { ConstantNode *c = alloc_node(); c->value=Variant(); assigned = c; } IdentifierNode *id = alloc_node(); id->name=n; OperatorNode *op = alloc_node(); op->op=OperatorNode::OP_ASSIGN; op->arguments.push_back(id); op->arguments.push_back(assigned); p_block->statements.push_back(op); if (!_end_statement()) { _set_error("Expected end of statement (var)"); return; } } break; case GDTokenizer::TK_CF_IF: { 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(); cf_if->cf_type=ControlFlowNode::CF_IF; cf_if->arguments.push_back(condition); cf_if->body = alloc_node(); 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 intended 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); while(true) { while(tokenizer->get_token()==GDTokenizer::TK_NEWLINE) { tokenizer->advance(); } if (tab_level.back()->get() < indent_level) { //not at current indent level p_block->end_line=tokenizer->get_token_line(); return; } if (tokenizer->get_token()==GDTokenizer::TK_CF_ELIF) { if (tab_level.back()->get() > indent_level) { _set_error("Invalid indent"); return; } tokenizer->advance(); cf_if->body_else=alloc_node(); cf_if->body_else->parent_block=p_block; p_block->sub_blocks.push_back(cf_if->body_else); ControlFlowNode *cf_else = alloc_node(); cf_else->cf_type=ControlFlowNode::CF_IF; //condition Node *condition = _parse_and_reduce_expression(p_block,p_static); if (!condition) { if (_recover_from_completion()) { break; } return; } cf_else->arguments.push_back(condition); 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(); 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 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; } else if (tokenizer->get_token()==GDTokenizer::TK_CF_ELSE) { if (tab_level.back()->get() > indent_level) { _set_error("Invalid indent"); return; } tokenizer->advance(); cf_if->body_else=alloc_node(); 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 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; break; //after else, exit } else break; } } break; case GDTokenizer::TK_CF_WHILE: { tokenizer->advance(); Node *condition = _parse_and_reduce_expression(p_block,p_static); if (!condition) { if (_recover_from_completion()) { break; } return; } ControlFlowNode *cf_while = alloc_node(); cf_while->cf_type=ControlFlowNode::CF_WHILE; cf_while->arguments.push_back(condition); cf_while->body = alloc_node(); cf_while->body->parent_block=p_block; p_block->sub_blocks.push_back(cf_while->body); if (!_enter_indent_block(cf_while->body)) { _set_error("Expected 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; case GDTokenizer::TK_CF_FOR: { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("identifier expected after 'for'"); } IdentifierNode *id = alloc_node(); id->name=tokenizer->get_token_identifier(); tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_OP_IN) { _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; } ControlFlowNode *cf_for = alloc_node(); cf_for->cf_type=ControlFlowNode::CF_FOR; cf_for->arguments.push_back(id); cf_for->arguments.push_back(container); cf_for->body = alloc_node(); cf_for->body->parent_block=p_block; 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; _parse_block(cf_for->body,p_static); current_block=p_block; if (error_set) return; p_block->statements.push_back(cf_for); } break; case GDTokenizer::TK_CF_CONTINUE: { tokenizer->advance(); ControlFlowNode *cf_continue = alloc_node(); cf_continue->cf_type=ControlFlowNode::CF_CONTINUE; p_block->statements.push_back(cf_continue); if (!_end_statement()) { _set_error("Expected end of statement (continue)"); return; } } break; case GDTokenizer::TK_CF_BREAK: { tokenizer->advance(); ControlFlowNode *cf_break = alloc_node(); cf_break->cf_type=ControlFlowNode::CF_BREAK; p_block->statements.push_back(cf_break); if (!_end_statement()) { _set_error("Expected end of statement (break)"); return; } } break; case GDTokenizer::TK_CF_RETURN: { tokenizer->advance(); ControlFlowNode *cf_return = alloc_node(); cf_return->cf_type=ControlFlowNode::CF_RETURN; if (tokenizer->get_token()==GDTokenizer::TK_SEMICOLON || tokenizer->get_token()==GDTokenizer::TK_NEWLINE || tokenizer->get_token()==GDTokenizer::TK_EOF) { //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_error("Expected end of statement after return expression."); return; } } } break; case GDTokenizer::TK_PR_ASSERT: { tokenizer->advance(); Node *condition = _parse_and_reduce_expression(p_block,p_static); if (!condition) { if (_recover_from_completion()) { break; } return; } AssertNode *an = alloc_node(); an->condition=condition; p_block->statements.push_back(an); if (!_end_statement()) { _set_error("Expected end of statement after assert."); return; } } break; case GDTokenizer::TK_PR_BREAKPOINT: { tokenizer->advance(); BreakpointNode *bn = alloc_node(); p_block->statements.push_back(bn); if (!_end_statement()) { _set_error("Expected end of statement after 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()) { _set_error("Expected end of statement after expression."); return; } } break; /* case GDTokenizer::TK_CF_LOCAL: { if (tokenizer->get_token(1)!=GDTokenizer::TK_SEMICOLON && tokenizer->get_token(1)!=GDTokenizer::TK_NEWLINE ) { _set_error("Expected ';' or ."); } tokenizer->advance(); } break; */ } } } bool GDParser::_parse_newline() { if (tokenizer->get_token(1)!=GDTokenizer::TK_EOF && tokenizer->get_token(1)!=GDTokenizer::TK_NEWLINE) { int indent = tokenizer->get_token_line_indent(); int current_indent = tab_level.back()->get(); if (indent>current_indent) { _set_error("Unexpected indent."); return false; } if (indentget()get(); } tokenizer->advance(); return false; } } tokenizer->advance(); return true; } void GDParser::_parse_extends(ClassNode *p_class) { if (p_class->extends_used) { _set_error("'extends' already used for this class."); 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(); if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_TYPE && tokenizer->get_token_type()==Variant::OBJECT) { p_class->extends_class.push_back(Variant::get_type_name(Variant::OBJECT)); tokenizer->advance(); return; } // see if inheritance happens from a file if (tokenizer->get_token()==GDTokenizer::TK_CONSTANT) { Variant constant = tokenizer->get_token_constant(); if (constant.get_type()!=Variant::STRING) { _set_error("'extends' constant must be a string."); return; } if (((String)(constant)).begins_with("/")) { _set_error("Paths cannot start with '/', absolute paths must start with \'res://\', \'user://\', or \'local://\'"); return; } p_class->extends_file=constant; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PERIOD) { return; } else tokenizer->advance(); } while(true) { if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Invalid 'extends' syntax, expected string constant (path) and/or identifier (parent class)."); return; } StringName identifier=tokenizer->get_token_identifier(); p_class->extends_class.push_back(identifier); tokenizer->advance(1); if (tokenizer->get_token()!=GDTokenizer::TK_PERIOD) return; } } void GDParser::_parse_class(ClassNode *p_class) { int indent_level = tab_level.back()->get(); while(true) { GDTokenizer::Token token = tokenizer->get_token(); if (error_set) return; if (indent_level>tab_level.back()->get()) { p_class->end_line=tokenizer->get_token_line(); return; //go back a level } switch(token) { case GDTokenizer::TK_EOF: p_class->end_line=tokenizer->get_token_line(); case GDTokenizer::TK_ERROR: { return; //go back //end of file! } break; case GDTokenizer::TK_NEWLINE: { if (!_parse_newline()) { if (!error_set) { p_class->end_line=tokenizer->get_token_line(); } return; } } break; case GDTokenizer::TK_PR_EXTENDS: { _parse_extends(p_class); if (error_set) return; if (!_end_statement()) { _set_error("Expected end of statement after extends"); return; } } break; case GDTokenizer::TK_PR_TOOL: { if (p_class->tool) { _set_error("tool used more than once"); return; } p_class->tool=true; tokenizer->advance(); } break; case GDTokenizer::TK_PR_CLASS: { //class inside class :D StringName name; StringName extends; if (tokenizer->get_token(1)!=GDTokenizer::TK_IDENTIFIER) { _set_error("'class' syntax: 'class :' or 'class extends :'"); return; } name = tokenizer->get_token_identifier(1); tokenizer->advance(2); ClassNode *newclass = alloc_node(); newclass->initializer = alloc_node(); newclass->initializer->parent_class=newclass; newclass->ready = alloc_node(); newclass->ready->parent_class=newclass; newclass->name=name; newclass->owner=p_class; p_class->subclasses.push_back(newclass); if (tokenizer->get_token()==GDTokenizer::TK_PR_EXTENDS) { _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.... case GDTokenizer::TK_CF_PASS: { tokenizer->advance(1); } break; */ case GDTokenizer::TK_PR_STATIC: { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PR_FUNCTION) { _set_error("Expected 'func'."); return; } }; //fallthrough to function case GDTokenizer::TK_PR_FUNCTION: { bool _static=false; pending_newline=-1; if (tokenizer->get_token(-1)==GDTokenizer::TK_PR_STATIC) { _static=true; } tokenizer->advance(); StringName name; if (_get_completable_identifier(COMPLETION_VIRTUAL_FUNC,name)) { } if (name==StringName()) { _set_error("Expected identifier after 'func' (syntax: 'func ([arguments]):' )."); return; } for(int i=0;ifunctions.size();i++) { if (p_class->functions[i]->name==name) { _set_error("Function '"+String(name)+"' already exists in this class (at line: "+itos(p_class->functions[i]->line)+")."); } } for(int i=0;istatic_functions.size();i++) { if (p_class->static_functions[i]->name==name) { _set_error("Function '"+String(name)+"' already exists in this class (at line: "+itos(p_class->static_functions[i]->line)+")."); } } if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_OPEN) { _set_error("Expected '(' after identifier (syntax: 'func ([arguments]):' )."); return; } tokenizer->advance(); Vector arguments; Vector default_values; int fnline = tokenizer->get_token_line(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { //has arguments bool defaulting=false; while(true) { if (tokenizer->get_token()==GDTokenizer::TK_PR_VAR) { tokenizer->advance(); //var before the identifier is allowed } if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier for argument."); return; } StringName argname=tokenizer->get_token_identifier(); arguments.push_back(argname); tokenizer->advance(); if (defaulting && tokenizer->get_token()!=GDTokenizer::TK_OP_ASSIGN) { _set_error("Default parameter expected."); return; } //tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_OP_ASSIGN) { defaulting=true; tokenizer->advance(1); Node *defval=NULL; defval=_parse_and_reduce_expression(p_class,_static); if (!defval || error_set) return; OperatorNode *on = alloc_node(); on->op=OperatorNode::OP_ASSIGN; IdentifierNode *in = alloc_node(); in->name=argname; 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); } if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { tokenizer->advance(); continue; } else if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ',' or ')'."); return; } break; } } tokenizer->advance(); BlockNode *block = alloc_node(); block->parent_class=p_class; if (name=="_init") { if (p_class->extends_used) { OperatorNode *cparent = alloc_node(); cparent->op=OperatorNode::OP_PARENT_CALL; block->statements.push_back(cparent); IdentifierNode *id = alloc_node(); id->name="_init"; cparent->arguments.push_back(id); if (tokenizer->get_token()==GDTokenizer::TK_PERIOD) { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_OPEN) { _set_error("expected '(' for parent constructor arguments."); } tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { //has arguments while(true) { Node *arg = _parse_and_reduce_expression(p_class,_static); cparent->arguments.push_back(arg); if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { tokenizer->advance(); continue; } else if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ',' or ')'."); return; } break; } } tokenizer->advance(); } } else { if (tokenizer->get_token()==GDTokenizer::TK_PERIOD) { _set_error("Parent constructor call found for a class without inheritance."); return; } } } if (!_enter_indent_block(block)) { _set_error("Indented block expected."); return; } FunctionNode *function = alloc_node(); function->name=name; function->arguments=arguments; function->default_values=default_values; function->_static=_static; function->line=fnline; 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=NULL; //arguments } break; case GDTokenizer::TK_PR_SIGNAL: { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier after 'signal'."); return; } ClassNode::Signal sig; sig.name = tokenizer->get_token_identifier(); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_OPEN) { tokenizer->advance(); while(true) { if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { tokenizer->advance(); break; } if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier in signal argument."); return; } sig.arguments.push_back(tokenizer->get_token_identifier()); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { tokenizer->advance(); } else if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ',' or ')' after signal parameter identifier."); return; } } } p_class->_signals.push_back(sig); if (!_end_statement()) { _set_error("Expected end of statement (signal)"); return; } } break; case GDTokenizer::TK_PR_EXPORT: { tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_OPEN) { tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_BUILT_IN_TYPE) { Variant::Type type = tokenizer->get_token_type(); if (type==Variant::NIL) { _set_error("Can't export null type."); return; } current_export.type=type; current_export.usage|=PROPERTY_USAGE_SCRIPT_VARIABLE; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { // hint expected next! tokenizer->advance(); switch(current_export.type) { case Variant::INT: { if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="FLAGS") { current_export.hint=PROPERTY_HINT_ALL_FLAGS; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { break; } if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { _set_error("Expected ')' or ',' in bit flags hint."); return; } current_export.hint=PROPERTY_HINT_FLAGS; tokenizer->advance(); bool first = true; while(true) { if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || tokenizer->get_token_constant().get_type()!=Variant::STRING) { current_export=PropertyInfo(); _set_error("Expected a string constant in 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(); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { current_export=PropertyInfo(); _set_error("Expected ')' or ',' in named bit flags hint."); return; } tokenizer->advance(); } break; } if (tokenizer->get_token()==GDTokenizer::TK_CONSTANT && tokenizer->get_token_constant().get_type()==Variant::STRING) { //enumeration current_export.hint=PROPERTY_HINT_ENUM; bool first=true; while(true) { if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || tokenizer->get_token_constant().get_type()!=Variant::STRING) { current_export=PropertyInfo(); _set_error("Expected a string constant in 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(); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { current_export=PropertyInfo(); _set_error("Expected ')' or ',' in enumeration hint."); return; } tokenizer->advance(); } break; } }; //fallthrough to use the same case Variant::REAL: { if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="EASE") { current_export.hint=PROPERTY_HINT_EXP_EASING; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' in hint."); return; } break; } // range if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="EXP") { current_export.hint=PROPERTY_HINT_EXP_RANGE; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; else if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { _set_error("Expected ')' or ',' in exponential range hint."); return; } tokenizer->advance(); } else current_export.hint=PROPERTY_HINT_RANGE; float sign=1.0; if (tokenizer->get_token()==GDTokenizer::TK_OP_SUB) { sign=-1; tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || !tokenizer->get_token_constant().is_num()) { current_export=PropertyInfo(); _set_error("Expected a range in numeric hint."); return; } current_export.hint_string=rtos(sign*double(tokenizer->get_token_constant())); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) { current_export.hint_string="0,"+current_export.hint_string; break; } if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { current_export=PropertyInfo(); _set_error("Expected ',' or ')' in numeric range hint."); return; } tokenizer->advance(); sign=1.0; if (tokenizer->get_token()==GDTokenizer::TK_OP_SUB) { sign=-1; tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || !tokenizer->get_token_constant().is_num()) { current_export=PropertyInfo(); _set_error("Expected a number as upper bound in numeric range hint."); return; } current_export.hint_string+=","+rtos(sign*double(tokenizer->get_token_constant())); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { current_export=PropertyInfo(); _set_error("Expected ',' or ')' in numeric range hint."); return; } tokenizer->advance(); sign=1.0; if (tokenizer->get_token()==GDTokenizer::TK_OP_SUB) { sign=-1; tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || !tokenizer->get_token_constant().is_num()) { current_export=PropertyInfo(); _set_error("Expected a number as step in numeric range hint."); return; } current_export.hint_string+=","+rtos(sign*double(tokenizer->get_token_constant())); tokenizer->advance(); } break; case Variant::STRING: { if (tokenizer->get_token()==GDTokenizer::TK_CONSTANT && tokenizer->get_token_constant().get_type()==Variant::STRING) { //enumeration current_export.hint=PROPERTY_HINT_ENUM; bool first=true; while(true) { if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || tokenizer->get_token_constant().get_type()!=Variant::STRING) { current_export=PropertyInfo(); _set_error("Expected a string constant in 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(); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { current_export=PropertyInfo(); _set_error("Expected ')' or ',' in enumeration hint."); return; } tokenizer->advance(); } break; } if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="DIR") { tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) current_export.hint=PROPERTY_HINT_DIR; else if (tokenizer->get_token()==GDTokenizer::TK_COMMA ) { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER || !(tokenizer->get_token_identifier()=="GLOBAL")) { _set_error("Expected 'GLOBAL' after comma in 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; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' in hint."); return; } } else { _set_error("Expected ')' or ',' in hint."); return; } break; } if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="FILE") { current_export.hint=PROPERTY_HINT_FILE; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="GLOBAL") { if (!p_class->tool) { _set_error("Global filesystem hints may only be used in tool scripts."); return; } current_export.hint=PROPERTY_HINT_GLOBAL_FILE; tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_PARENTHESIS_CLOSE) break; else if (tokenizer->get_token()==GDTokenizer::TK_COMMA) tokenizer->advance(); else { _set_error("Expected ')' or ',' in hint."); return; } } if (tokenizer->get_token()!=GDTokenizer::TK_CONSTANT || tokenizer->get_token_constant().get_type()!=Variant::STRING) { 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(); tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' in hint."); return; } break; } if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER && tokenizer->get_token_identifier()=="MULTILINE") { current_export.hint=PROPERTY_HINT_MULTILINE_TEXT; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { _set_error("Expected ')' in hint."); return; } break; } } break; case Variant::COLOR: { if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER ) { 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; } tokenizer->advance(); } break; default: { current_export=PropertyInfo(); _set_error("Type '"+Variant::get_type_name(type)+"' can't take hints."); return; } break; } } } else if (tokenizer->get_token()==GDTokenizer::TK_IDENTIFIER) { String identifier = tokenizer->get_token_identifier(); if (!ObjectTypeDB::is_type(identifier,"Resource")) { current_export=PropertyInfo(); _set_error("Export hint not a type or resource."); } current_export.type=Variant::OBJECT; current_export.hint=PROPERTY_HINT_RESOURCE_TYPE; current_export.usage|=PROPERTY_USAGE_SCRIPT_VARIABLE; current_export.hint_string=identifier; tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_PARENTHESIS_CLOSE) { current_export=PropertyInfo(); _set_error("Expected ')' or ',' after export hint."); return; } tokenizer->advance(); } if (tokenizer->get_token()!=GDTokenizer::TK_PR_VAR) { current_export=PropertyInfo(); _set_error("Expected 'var'."); return; } }; //fallthrough to var case GDTokenizer::TK_PR_ONREADY: { if (token==GDTokenizer::TK_PR_ONREADY) { //may be fallthrough from export, ignore if so tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_PR_VAR) { _set_error("Expected 'var'."); return; } } }; //fallthrough to var case GDTokenizer::TK_PR_VAR: { //variale declaration and (eventual) initialization ClassNode::Member member; bool autoexport = tokenizer->get_token(-1)==GDTokenizer::TK_PR_EXPORT; if (current_export.type!=Variant::NIL) { member._export=current_export; current_export=PropertyInfo(); } bool onready = tokenizer->get_token(-1)==GDTokenizer::TK_PR_ONREADY; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier for member variable name."); return; } member.identifier=tokenizer->get_token_identifier(); member.expression=NULL; member._export.name=member.identifier; member.line=tokenizer->get_token_line(); tokenizer->advance(); if (tokenizer->get_token()==GDTokenizer::TK_OP_ASSIGN) { #ifdef DEBUG_ENABLED int line = tokenizer->get_token_line(); #endif tokenizer->advance(); Node *subexpr=NULL; subexpr = _parse_and_reduce_expression(p_class,false,autoexport); if (!subexpr) { if (_recover_from_completion()) { break; } return; } //discourage common error if (!onready && subexpr->type==Node::TYPE_OPERATOR) { OperatorNode *op=static_cast(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(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) { if (1)/*(subexpr->type==Node::TYPE_ARRAY) { member._export.type=Variant::ARRAY; } else if (subexpr->type==Node::TYPE_DICTIONARY) { member._export.type=Variant::DICTIONARY; } else*/ { if (subexpr->type!=Node::TYPE_CONSTANT) { _set_error("Type-less export needs a constant expression assigned to infer type."); return; } ConstantNode *cn = static_cast(subexpr); if (cn->value.get_type()==Variant::NIL) { _set_error("Can't accept a null constant expression for infering export type."); return; } member._export.type=cn->value.get_type(); member._export.usage|=PROPERTY_USAGE_SCRIPT_VARIABLE; } } #ifdef TOOLS_ENABLED if (subexpr->type==Node::TYPE_CONSTANT && member._export.type!=Variant::NIL) { ConstantNode *cn = static_cast(subexpr); if (cn->value.get_type()!=Variant::NIL) { member.default_value=cn->value; } } #endif IdentifierNode *id = alloc_node(); id->name=member.identifier; OperatorNode *op = alloc_node(); op->op=OperatorNode::OP_INIT_ASSIGN; op->arguments.push_back(id); op->arguments.push_back(subexpr); #ifdef DEBUG_ENABLED NewLineNode *nl = alloc_node(); nl->line=line; if (onready) p_class->ready->statements.push_back(nl); else p_class->initializer->statements.push_back(nl); #endif if (onready) p_class->ready->statements.push_back(op); else p_class->initializer->statements.push_back(op); } else { if (autoexport) { _set_error("Type-less export needs a constant expression assigned to infer type."); return; } } if (tokenizer->get_token()==GDTokenizer::TK_PR_SETGET) { tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_COMMA) { //just comma means using only getter if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier for setter function after 'notify'."); } member.setter=tokenizer->get_token_identifier(); tokenizer->advance(); } if (tokenizer->get_token()==GDTokenizer::TK_COMMA) { //there is a getter tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected identifier for getter function after ','."); } member.getter=tokenizer->get_token_identifier(); tokenizer->advance(); } } p_class->variables.push_back(member); if (!_end_statement()) { _set_error("Expected end of statement (continue)"); return; } } break; case GDTokenizer::TK_PR_CONST: { //variale declaration and (eventual) initialization ClassNode::Constant constant; tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_IDENTIFIER) { _set_error("Expected name (identifier) for constant."); return; } constant.identifier=tokenizer->get_token_identifier(); tokenizer->advance(); if (tokenizer->get_token()!=GDTokenizer::TK_OP_ASSIGN) { _set_error("Constant expects assignment."); return; } tokenizer->advance(); Node *subexpr=NULL; 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 constant expression"); } constant.expression=subexpr; p_class->constant_expressions.push_back(constant); if (!_end_statement()) { _set_error("Expected end of statement (constant)"); return; } } break; default: { _set_error(String()+"Unexpected token: "+tokenizer->get_token_name(tokenizer->get_token())+":"+tokenizer->get_token_identifier()); return; } break; } } } void GDParser::_set_error(const String& p_error, int p_line, int p_column) { 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; } String GDParser::get_error() const { return error; } int GDParser::get_error_line() const { return error_line; } int GDParser::get_error_column() const { return error_column; } Error GDParser::_parse(const String& p_base_path) { base_path=p_base_path; clear(); //assume class ClassNode *main_class = alloc_node(); main_class->initializer = alloc_node(); main_class->initializer->parent_class=main_class; main_class->ready = alloc_node(); main_class->ready->parent_class=main_class; current_class=main_class; _parse_class(main_class); if (tokenizer->get_token()==GDTokenizer::TK_ERROR) { error_set=false; _set_error("Parse Error: "+tokenizer->get_token_error()); } if (error_set) { return ERR_PARSE_ERROR; } return OK; } Error GDParser::parse_bytecode(const Vector &p_bytecode,const String& p_base_path, const String &p_self_path) { for_completion=false; validating=false; completion_type=COMPLETION_NONE; completion_node=NULL; completion_class=NULL; completion_function=NULL; completion_block=NULL; completion_found=false; current_block=NULL; current_class=NULL; current_function=NULL; self_path=p_self_path; GDTokenizerBuffer *tb = memnew( GDTokenizerBuffer ); tb->set_code_buffer(p_bytecode); tokenizer=tb; Error ret = _parse(p_base_path); memdelete(tb); tokenizer=NULL; return ret; } Error GDParser::parse(const String& p_code, const String& p_base_path, bool p_just_validate, const String &p_self_path,bool p_for_completion) { completion_type=COMPLETION_NONE; completion_node=NULL; completion_class=NULL; completion_function=NULL; completion_block=NULL; completion_found=false; current_block=NULL; current_class=NULL; current_function=NULL; self_path=p_self_path; GDTokenizerText *tt = memnew( GDTokenizerText ); tt->set_code(p_code); validating=p_just_validate; for_completion=p_for_completion; tokenizer=tt; Error ret = _parse(p_base_path); memdelete(tt); tokenizer=NULL; return ret; } bool GDParser::is_tool_script() const { return (head && head->type==Node::TYPE_CLASS && static_cast(head)->tool); } const GDParser::Node *GDParser::get_parse_tree() const { return head; } void GDParser::clear() { while(list) { Node *l=list; list=list->next; memdelete(l); } head=NULL; list=NULL; completion_type=COMPLETION_NONE; completion_node=NULL; completion_class=NULL; completion_function=NULL; completion_block=NULL; current_block=NULL; current_class=NULL; completion_found=false; current_function=NULL; validating=false; for_completion=false; error_set=false; tab_level.clear(); tab_level.push_back(0); error_line=0; error_column=0; pending_newline=-1; parenthesis=0; current_export.type=Variant::NIL; error=""; } GDParser::CompletionType GDParser::get_completion_type() { return completion_type; } StringName GDParser::get_completion_cursor() { return completion_cursor; } int GDParser::get_completion_line() { return completion_line; } Variant::Type GDParser::get_completion_built_in_constant(){ return completion_built_in_constant; } GDParser::Node *GDParser::get_completion_node(){ return completion_node; } GDParser::BlockNode *GDParser::get_completion_block() { return completion_block; } GDParser::ClassNode *GDParser::get_completion_class(){ return completion_class; } GDParser::FunctionNode *GDParser::get_completion_function(){ return completion_function; } int GDParser::get_completion_argument_index() { return completion_argument; } GDParser::GDParser() { head=NULL; list=NULL; tokenizer=NULL; pending_newline=-1; clear(); } GDParser::~GDParser() { clear(); }