import symbol:* import tree:* import vector:* import map:* import util:* import string:* import mem:* import io:* import ast_nodes:* import ast_transformation:* import pass_common:* fun defer_lower(name_ast_map: *map,*ast_node>>, ast_to_syntax: *map<*ast_node, *tree>) { name_ast_map->for_each(fun(name: string, syntax_ast_pair: pair<*tree,*ast_node>) { var defer_double_stack = stack>() var loop_stack = stack(-1) var helper_before = fun(node: *ast_node, parent_chain: *stack<*ast_node>) { match(*node) { ast_node::defer_statement(backing) { if (is_code_block(parent_chain->top()) || (is_statement(parent_chain->top()) && is_code_block(parent_chain->from_top(1)))) { /*println("defer in codeblock, gonna add at the end")*/ remove_full_statement(node, parent_chain) defer_double_stack.top().push(backing.statement) } else { /*println("defer not in codeblock, so just removing defer part")*/ replace_with_in(node, backing.statement, parent_chain) } } ast_node::code_block(backing) { defer_double_stack.push(stack<*ast_node>()) } ast_node::for_loop(backing) { loop_stack.push(defer_double_stack.size()) } ast_node::while_loop(backing) { loop_stack.push(defer_double_stack.size()) } } } var helper_after = fun(node: *ast_node, parent_chain: *stack<*ast_node>) { match(*node) { ast_node::branching_statement(backing) { var block = ast_code_block_ptr() replace_with_in(node, block, parent_chain) for (var i = 0; i < defer_double_stack.size() - loop_stack.top(); i++;) block->code_block.children.add_all(defer_double_stack.from_top(i).reverse_vector()) block->code_block.children.add(ast_statement_ptr(node)) } ast_node::code_block(backing) { node->code_block.children.add_all(defer_double_stack.pop().reverse_vector()) } ast_node::for_loop(backing) { loop_stack.pop() } ast_node::while_loop(backing) { loop_stack.pop() } } } run_on_tree(helper_before, helper_after, syntax_ast_pair.second) }) }