pattern matcher: Implemented transformations
This commit is contained in:
parent
f8a7c46273
commit
d445f0639f
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@ -1019,6 +1019,12 @@ Error GDCompiler::_parse_block(CodeGen& codegen,const GDParser::BlockNode *p_blo
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switch(cf->cf_type) {
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case GDParser::ControlFlowNode::CF_MATCH: {
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Error err = _parse_block(codegen,cf->match->compiled_block,p_stack_level,p_break_addr,p_continue_addr);
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if (err)
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return err;
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} break;
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case GDParser::ControlFlowNode::CF_IF: {
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@ -1570,24 +1570,18 @@ bool GDParser::_recover_from_completion() {
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GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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{
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PatternNode *pattern = memnew(PatternNode);
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PatternNode *pattern = alloc_node<PatternNode>();
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GDTokenizer::Token token = tokenizer->get_token();
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if (error_set)
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return NULL;
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if (token == GDTokenizer::TK_EOF) {
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return NULL;
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}
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switch (token) {
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// all the constants like strings and numbers
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case GDTokenizer::TK_CONSTANT: {
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Node *value = _parse_and_reduce_expression(pattern, p_static);
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if (value->type != GDParser::Node::TYPE_CONSTANT) {
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_set_error("Not a constant expression");
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return NULL;
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}
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pattern->pt_type = GDParser::PatternNode::PT_CONSTANT;
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pattern->constant = static_cast<ConstantNode*>(value);
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} break;
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case GDTokenizer::TK_BRACKET_OPEN: {
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tokenizer->advance();
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pattern->pt_type = GDParser::PatternNode::PT_ARRAY;
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@ -1601,7 +1595,9 @@ GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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if (tokenizer->get_token() == GDTokenizer::TK_PERIOD && tokenizer->get_token(1) == GDTokenizer::TK_PERIOD) {
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// match everything
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tokenizer->advance(2);
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pattern->pt_type = GDParser::PatternNode::PT_IGNORE_REST;
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PatternNode *sub_pattern = alloc_node<PatternNode>();
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sub_pattern->pt_type = GDParser::PatternNode::PT_IGNORE_REST;
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pattern->array.push_back(sub_pattern);
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if (tokenizer->get_token() == GDTokenizer::TK_COMMA && tokenizer->get_token(1) == GDTokenizer::TK_BRACKET_CLOSE) {
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tokenizer->advance(2);
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break;
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@ -1634,7 +1630,8 @@ GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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}
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} break;
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case GDTokenizer::TK_IDENTIFIER: {
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case GDTokenizer::TK_PR_VAR: {
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tokenizer->advance();
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pattern->pt_type = GDParser::PatternNode::PT_BIND;
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pattern->bind = tokenizer->get_token_identifier();
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tokenizer->advance();
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@ -1642,7 +1639,7 @@ GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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case GDTokenizer::TK_CURLY_BRACKET_OPEN: {
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tokenizer->advance();
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pattern->pt_type = GDParser::PatternNode::PT_DICITIONARY;
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pattern->pt_type = GDParser::PatternNode::PT_DICTIONARY;
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while (true) {
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if (tokenizer->get_token() == GDTokenizer::TK_CURLY_BRACKET_CLOSE) {
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@ -1653,7 +1650,9 @@ GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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if (tokenizer->get_token() == GDTokenizer::TK_PERIOD && tokenizer->get_token(1) == GDTokenizer::TK_PERIOD) {
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// match everything
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tokenizer->advance(2);
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pattern->pt_type = GDParser::PatternNode::PT_IGNORE_REST;
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PatternNode *sub_pattern = alloc_node<PatternNode>();
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sub_pattern->pt_type = PatternNode::PT_IGNORE_REST;
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pattern->array.push_back(sub_pattern);
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if (tokenizer->get_token() == GDTokenizer::TK_COMMA && tokenizer->get_token(1) == GDTokenizer::TK_CURLY_BRACKET_CLOSE) {
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tokenizer->advance(2);
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break;
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@ -1706,15 +1705,24 @@ GDParser::PatternNode *GDParser::_parse_pattern(bool p_static)
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} break;
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default: {
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_set_error("Not a valid pattern");
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return NULL;
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}
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Node *value = _parse_and_reduce_expression(pattern, p_static);
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if (error_set) {
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return NULL;
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}
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if (value->type == Node::TYPE_IDENTIFIER && static_cast<IdentifierNode*>(value)->name == "_") {
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// wildcard pattern
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pattern->pt_type = PatternNode::PT_WILDCARD;
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break;
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}
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pattern->pt_type = PatternNode::PT_CONSTANT;
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pattern->constant = value;
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} break;
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}
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return pattern;
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}
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void GDParser::_parse_pattern_block(Vector<PatternBranchNode*> &p_block, bool p_static)
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void GDParser::_parse_pattern_block(BlockNode *p_block, Vector<PatternBranchNode*> &p_branches, bool p_static)
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{
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int indent_level = tab_level.back()->get();
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@ -1734,7 +1742,7 @@ void GDParser::_parse_pattern_block(Vector<PatternBranchNode*> &p_block, bool p_
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pending_newline=-1;
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}
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PatternBranchNode *branch = memnew(PatternBranchNode);
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PatternBranchNode *branch = alloc_node<PatternBranchNode>();
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branch->pattern = _parse_pattern(p_static);
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if (!branch->pattern) {
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@ -1746,14 +1754,326 @@ void GDParser::_parse_pattern_block(Vector<PatternBranchNode*> &p_block, bool p_
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return;
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}
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branch->body = memnew(BlockNode);
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branch->body = alloc_node<BlockNode>();
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branch->body->parent_block = p_block;
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p_block->sub_blocks.push_back(branch->body);
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current_block = branch->body;
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_parse_block(branch->body, p_static);
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p_block.push_back(branch);
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current_block = p_block;
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p_branches.push_back(branch);
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}
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}
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void GDParser::_generate_array_pattern(PatternNode *p_array_pattern, Node *p_value_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings)
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{
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bool open_ended = false;
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if (p_array_pattern->array.size() > 0) {
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if (p_array_pattern->array[p_array_pattern->array.size() - 1]->pt_type == PatternNode::PT_IGNORE_REST) {
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open_ended = true;
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}
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}
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// check length
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// typeof(value_to_match) == TYPE_ARRAY && value_to_match.size() >= length
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// typeof(value_to_match) == TYPE_ARRAY && value_to_match.size() == length
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{
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// typecheck
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BuiltInFunctionNode *typeof_node = alloc_node<BuiltInFunctionNode>();
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typeof_node->function = GDFunctions::TYPE_OF;
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OperatorNode *typeof_match_value = alloc_node<OperatorNode>();
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typeof_match_value->op = OperatorNode::OP_CALL;
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typeof_match_value->arguments.push_back(typeof_node);
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typeof_match_value->arguments.push_back(p_value_to_match);
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IdentifierNode *typeof_array = alloc_node<IdentifierNode>();
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typeof_array->name = "TYPE_ARRAY";
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OperatorNode *type_comp = alloc_node<OperatorNode>();
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type_comp->op = OperatorNode::OP_EQUAL;
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type_comp->arguments.push_back(typeof_match_value);
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type_comp->arguments.push_back(typeof_array);
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ConstantNode *length = alloc_node<ConstantNode>();
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length->value = Variant(open_ended ? p_array_pattern->array.size() - 1 : p_array_pattern->array.size());
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OperatorNode *call = alloc_node<OperatorNode>();
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call->op = OperatorNode::OP_CALL;
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call->arguments.push_back(p_value_to_match);
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IdentifierNode *size = alloc_node<IdentifierNode>();
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size->name = "size";
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call->arguments.push_back(size);
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OperatorNode *length_comparison = alloc_node<OperatorNode>();
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length_comparison->op = open_ended ? OperatorNode::OP_GREATER_EQUAL : OperatorNode::OP_EQUAL;
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length_comparison->arguments.push_back(call);
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length_comparison->arguments.push_back(length);
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OperatorNode *type_and_length_comparison = alloc_node<OperatorNode>();
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type_and_length_comparison->op = OperatorNode::OP_AND;
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type_and_length_comparison->arguments.push_back(type_comp);
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type_and_length_comparison->arguments.push_back(length_comparison);
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p_resulting_node = type_and_length_comparison;
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}
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for (int i = 0; i < p_array_pattern->array.size(); i++) {
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PatternNode *pattern = p_array_pattern->array[i];
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Node *condition = NULL;
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ConstantNode *index = alloc_node<ConstantNode>();
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index->value = Variant(i);
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OperatorNode *indexed_value = alloc_node<OperatorNode>();
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indexed_value->op = OperatorNode::OP_INDEX;
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indexed_value->arguments.push_back(p_value_to_match);
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indexed_value->arguments.push_back(index);
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_generate_pattern(pattern, indexed_value, condition, p_bindings);
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OperatorNode *and_node = alloc_node<OperatorNode>();
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and_node->op = OperatorNode::OP_AND;
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and_node->arguments.push_back(p_resulting_node);
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and_node->arguments.push_back(condition);
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p_resulting_node = and_node;
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}
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}
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void GDParser::_generate_bind_pattern(PatternNode *p_bind_pattern, Node *p_value_to_match, Map<StringName, Node*> &p_bindings)
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{
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p_bindings[p_bind_pattern->bind] = p_value_to_match;
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}
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void GDParser::_generate_constant_pattern(PatternNode *p_constant_pattern, Node *p_value_to_match, Node *&p_resulting_node)
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{
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BuiltInFunctionNode *typeof_node = alloc_node<BuiltInFunctionNode>();
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typeof_node->function = GDFunctions::TYPE_OF;
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OperatorNode *typeof_match_value = alloc_node<OperatorNode>();
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typeof_match_value->op = OperatorNode::OP_CALL;
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typeof_match_value->arguments.push_back(typeof_node);
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typeof_match_value->arguments.push_back(p_value_to_match);
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OperatorNode *typeof_pattern_value = alloc_node<OperatorNode>();
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typeof_pattern_value->op = OperatorNode::OP_CALL;
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typeof_pattern_value->arguments.push_back(typeof_node);
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typeof_pattern_value->arguments.push_back(p_constant_pattern->constant);
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OperatorNode *type_comp = alloc_node<OperatorNode>();
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type_comp->op = OperatorNode::OP_EQUAL;
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type_comp->arguments.push_back(typeof_match_value);
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type_comp->arguments.push_back(typeof_pattern_value);
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OperatorNode *value_comp = alloc_node<OperatorNode>();
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value_comp->op = OperatorNode::OP_EQUAL;
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value_comp->arguments.push_back(p_constant_pattern->constant);
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value_comp->arguments.push_back(p_value_to_match);
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OperatorNode *comparison = alloc_node<OperatorNode>();
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comparison->op = OperatorNode::OP_AND;
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comparison->arguments.push_back(type_comp);
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comparison->arguments.push_back(value_comp);
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p_resulting_node = comparison;
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}
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void GDParser::_generate_dict_pattern(PatternNode *p_dict_pattern, Node *p_value_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings)
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{
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bool open_ended = false;
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if (p_dict_pattern->array.size() > 0) {
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open_ended = true;
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print_line("open dictionary");
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}
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// check length
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// typeof(value_to_match) == TYPE_DICTIONARY && value_to_match.size() >= length
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// typeof(value_to_match) == TYPE_DICTIONARY && value_to_match.size() == length
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{
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// typecheck
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BuiltInFunctionNode *typeof_node = alloc_node<BuiltInFunctionNode>();
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typeof_node->function = GDFunctions::TYPE_OF;
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OperatorNode *typeof_match_value = alloc_node<OperatorNode>();
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typeof_match_value->op = OperatorNode::OP_CALL;
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typeof_match_value->arguments.push_back(typeof_node);
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typeof_match_value->arguments.push_back(p_value_to_match);
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IdentifierNode *typeof_dictionary = alloc_node<IdentifierNode>();
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typeof_dictionary->name = "TYPE_DICTIONARY";
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OperatorNode *type_comp = alloc_node<OperatorNode>();
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type_comp->op = OperatorNode::OP_EQUAL;
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type_comp->arguments.push_back(typeof_match_value);
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type_comp->arguments.push_back(typeof_dictionary);
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ConstantNode *length = alloc_node<ConstantNode>();
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length->value = Variant(open_ended ? p_dict_pattern->dictionary.size() - 1 : p_dict_pattern->dictionary.size());
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OperatorNode *call = alloc_node<OperatorNode>();
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call->op = OperatorNode::OP_CALL;
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call->arguments.push_back(p_value_to_match);
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IdentifierNode *size = alloc_node<IdentifierNode>();
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size->name = "size";
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call->arguments.push_back(size);
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OperatorNode *length_comparison = alloc_node<OperatorNode>();
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length_comparison->op = open_ended ? OperatorNode::OP_GREATER_EQUAL : OperatorNode::OP_EQUAL;
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length_comparison->arguments.push_back(call);
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length_comparison->arguments.push_back(length);
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OperatorNode *type_and_length_comparison = alloc_node<OperatorNode>();
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type_and_length_comparison->op = OperatorNode::OP_AND;
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type_and_length_comparison->arguments.push_back(type_comp);
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type_and_length_comparison->arguments.push_back(length_comparison);
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p_resulting_node = type_and_length_comparison;
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}
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for (Map<ConstantNode*, PatternNode*>::Element *e = p_dict_pattern->dictionary.front(); e; e = e->next()) {
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Node *condition = NULL;
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// chech for has, then for pattern
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IdentifierNode *has = alloc_node<IdentifierNode>();
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has->name = "has";
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OperatorNode *has_call = alloc_node<OperatorNode>();
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has_call->op = OperatorNode::OP_CALL;
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has_call->arguments.push_back(p_value_to_match);
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has_call->arguments.push_back(has);
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has_call->arguments.push_back(e->key());
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if (e->value()) {
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OperatorNode *indexed_value = alloc_node<OperatorNode>();
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indexed_value->op = OperatorNode::OP_INDEX;
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indexed_value->arguments.push_back(p_value_to_match);
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indexed_value->arguments.push_back(e->key());
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_generate_pattern(e->value(), indexed_value, condition, p_bindings);
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OperatorNode *has_and_pattern = alloc_node<OperatorNode>();
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has_and_pattern->op = OperatorNode::OP_AND;
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has_and_pattern->arguments.push_back(has_call);
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has_and_pattern->arguments.push_back(condition);
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condition = has_and_pattern;
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} else {
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condition = has_call;
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}
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OperatorNode *and_node = alloc_node<OperatorNode>();
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and_node->op = OperatorNode::OP_AND;
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and_node->arguments.push_back(p_resulting_node);
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and_node->arguments.push_back(condition);
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p_resulting_node = and_node;
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}
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}
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void GDParser::_generate_pattern(PatternNode *p_pattern, Node *p_node_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings)
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{
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switch (p_pattern->pt_type) {
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case PatternNode::PT_CONSTANT: {
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_generate_constant_pattern(p_pattern, p_node_to_match, p_resulting_node);
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} break;
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case PatternNode::PT_BIND: {
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_generate_bind_pattern(p_pattern, p_node_to_match, p_bindings);
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ConstantNode *true_value = alloc_node<ConstantNode>();
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true_value->value = Variant(true);
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p_resulting_node = true_value;
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} break;
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case PatternNode::PT_ARRAY: {
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_generate_array_pattern(p_pattern, p_node_to_match, p_resulting_node, p_bindings);
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} break;
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case PatternNode::PT_DICTIONARY: {
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_generate_dict_pattern(p_pattern, p_node_to_match, p_resulting_node, p_bindings);
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} break;
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case PatternNode::PT_WILDCARD: {
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// simply generate a `true`
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ConstantNode *true_value = alloc_node<ConstantNode>();
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true_value->value = Variant(true);
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p_resulting_node = true_value;
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} break;
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default: {
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} break;
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}
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}
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void GDParser::_transform_match_statment(BlockNode *p_block, MatchNode *p_match_statement)
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{
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LocalVarNode *val_to_match = alloc_node<LocalVarNode>();
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val_to_match->name = "#match_value"; // use a name that can't be referenced in GDscript
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val_to_match->assign = p_match_statement->val_to_match;
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p_block->statements.push_back(val_to_match);
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IdentifierNode *id = alloc_node<IdentifierNode>();
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id->name=val_to_match->name;
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OperatorNode *op = alloc_node<OperatorNode>();
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op->op=OperatorNode::OP_ASSIGN;
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op->arguments.push_back(id);
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op->arguments.push_back(val_to_match->assign);
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p_block->statements.push_back(op);
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for (int i = 0; i < p_match_statement->branches.size(); i++) {
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PatternBranchNode *branch = p_match_statement->branches[i];
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Map<StringName, Node*> bindings;
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Node *resulting_node;
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_generate_pattern(branch->pattern, id, resulting_node, bindings);
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// TEMP: if's for testing
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ControlFlowNode *cf_if = alloc_node<ControlFlowNode>();
|
||||
cf_if->cf_type = ControlFlowNode::CF_IF;
|
||||
cf_if->arguments.push_back(resulting_node);
|
||||
cf_if->body = branch->body;
|
||||
|
||||
p_block->statements.push_back(cf_if);
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
void GDParser::_parse_block(BlockNode *p_block,bool p_static) {
|
||||
|
||||
int indent_level = tab_level.back()->get();
|
||||
|
@ -2161,8 +2481,7 @@ void GDParser::_parse_block(BlockNode *p_block,bool p_static) {
|
|||
|
||||
tokenizer->advance();
|
||||
|
||||
ControlFlowNode *match_node = memnew(ControlFlowNode);
|
||||
match_node->cf_type = ControlFlowNode::CF_MATCH;
|
||||
MatchNode *match_node = alloc_node<MatchNode>();
|
||||
|
||||
Node *val_to_match = _parse_and_reduce_expression(p_block, p_static);
|
||||
|
||||
|
@ -2173,16 +2492,32 @@ void GDParser::_parse_block(BlockNode *p_block,bool p_static) {
|
|||
return;
|
||||
}
|
||||
|
||||
match_node->arguments.push_back(val_to_match);
|
||||
match_node->val_to_match = val_to_match;
|
||||
|
||||
if (!_enter_indent_block()) {
|
||||
_set_error("Expected indented pattern matching block after 'match'");
|
||||
return;
|
||||
}
|
||||
|
||||
_parse_pattern_block(match_node->branches, p_static);
|
||||
BlockNode *compiled_branches = alloc_node<BlockNode>();
|
||||
compiled_branches->parent_block = p_block;
|
||||
compiled_branches->parent_class = p_block->parent_class;
|
||||
|
||||
p_block->statements.push_back(match_node);
|
||||
p_block->sub_blocks.push_back(compiled_branches);
|
||||
|
||||
_parse_pattern_block(compiled_branches, match_node->branches, p_static);
|
||||
|
||||
_transform_match_statment(compiled_branches, match_node);
|
||||
|
||||
match_node->compiled_block = compiled_branches;
|
||||
|
||||
ControlFlowNode *match_cf_node = alloc_node<ControlFlowNode>();
|
||||
match_cf_node->cf_type = ControlFlowNode::CF_MATCH;
|
||||
match_cf_node->match = match_node;
|
||||
|
||||
p_block->statements.push_back(match_cf_node);
|
||||
|
||||
_end_statement();
|
||||
} break;
|
||||
case GDTokenizer::TK_PR_ASSERT: {
|
||||
|
||||
|
|
|
@ -264,14 +264,15 @@ public:
|
|||
enum PatternType {
|
||||
PT_CONSTANT,
|
||||
PT_BIND,
|
||||
PT_DICITIONARY,
|
||||
PT_DICTIONARY,
|
||||
PT_ARRAY,
|
||||
PT_IGNORE_REST
|
||||
PT_IGNORE_REST,
|
||||
PT_WILDCARD
|
||||
};
|
||||
|
||||
PatternType pt_type;
|
||||
|
||||
ConstantNode *constant;
|
||||
Node *constant;
|
||||
StringName bind;
|
||||
Map<ConstantNode*, PatternNode*> dictionary;
|
||||
Vector<PatternNode*> array;
|
||||
|
@ -283,6 +284,13 @@ public:
|
|||
BlockNode *body;
|
||||
};
|
||||
|
||||
struct MatchNode : public Node {
|
||||
Node *val_to_match;
|
||||
Vector<PatternBranchNode*> branches;
|
||||
|
||||
BlockNode *compiled_block;
|
||||
};
|
||||
|
||||
struct ControlFlowNode : public Node {
|
||||
enum CFType {
|
||||
CF_IF,
|
||||
|
@ -299,7 +307,8 @@ public:
|
|||
Vector<Node*> arguments;
|
||||
BlockNode *body;
|
||||
BlockNode *body_else;
|
||||
Vector<PatternBranchNode*> branches;
|
||||
|
||||
MatchNode *match;
|
||||
|
||||
ControlFlowNode *_else; //used for if
|
||||
ControlFlowNode() { type=TYPE_CONTROL_FLOW; cf_type=CF_IF; body=NULL; body_else=NULL;}
|
||||
|
@ -479,9 +488,17 @@ private:
|
|||
|
||||
|
||||
// TODO
|
||||
void _parse_pattern_block(Vector<PatternBranchNode*> &p_block, bool p_static);
|
||||
void _parse_pattern_block(BlockNode *p_block, Vector<PatternBranchNode*> &p_branches, bool p_static);
|
||||
|
||||
PatternNode *_parse_pattern(bool p_static);
|
||||
void _transform_match_statment(BlockNode *p_block, MatchNode *p_match_statement);
|
||||
|
||||
void _generate_pattern(PatternNode *p_pattern, Node *p_node_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings);
|
||||
|
||||
void _generate_array_pattern(PatternNode *p_array_pattern, Node *p_value_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings);
|
||||
void _generate_bind_pattern(PatternNode *p_bind_pattern, Node *p_value_to_match, Map<StringName, Node*> &p_bindings);
|
||||
void _generate_constant_pattern(PatternNode *p_constant_pattern, Node *p_value_to_match, Node *&p_resulting_node);
|
||||
void _generate_dict_pattern(PatternNode *p_dict_pattern, Node *p_value_to_match, Node *&p_resulting_node, Map<StringName, Node*> &p_bindings);
|
||||
|
||||
|
||||
void _parse_block(BlockNode *p_block,bool p_static);
|
||||
|
|
Loading…
Reference in New Issue