import tree:* import vector:* import stack:* import map:* import util:* import string:* import mem:* import io:* adt ast_node { translation_unit: translation_unit, import: import, identifier: identifier, type_def: type_def, adt_def: adt_def, function: function, code_block: code_block, typed_parameter: typed_parameter, expression: expression, boolean_expression: boolean_expression, statement: statement, if_statement: if_statement, match_statement: match_statement, case_statement: case_statement, while_loop: while_loop, for_loop: for_loop, return_statement: return_statement, break_statement: break_statement, continue_statement: continue_statement, defer_statement: defer_statement, assignment_statement: assignment_statement, declaration_statement: declaration_statement, if_comp: if_comp, simple_passthrough: simple_passthrough, passthrough_params: passthrough_params, in_passthrough_params: in_passthrough_params, out_passthrough_params: out_passthrough_params, opt_string: opt_string, param_assign: param_assign, function_call: function_call, value: value } /* total: ASTType type; Type* valueType; Symbol symbol; std::map*>> scope; std::set*> closedVariables; */ fun ast_node_ptr(node: ast_node): *ast_node { var to_ret = new() to_ret->copy_construct(&node) return to_ret } fun ast_translation_unit_ptr(): *ast_node { var obj_var.construct(): translation_unit var ptr = new() ptr->copy_construct(&ast_node::translation_unit(obj_var)) return ptr } obj translation_unit (Object) { var children: vector<*ast_node> fun construct(): *translation_unit { children.construct() return this } fun copy_construct(old: *translation_unit) { children.copy_construct(&old->children) } fun destruct() { children.destruct() } fun operator=(other: ref translation_unit) { destruct() copy_construct(&other) } fun operator==(other: ref translation_unit): bool { return children == other.children } } fun ast_import_ptr(): *ast_node { var to_ret.construct(): import var ptr = new() ptr->copy_construct(&ast_node::import(to_ret)) return ptr } obj import (Object) { var children: vector<*ast_node> fun construct(): *import { children.construct() return this } fun copy_construct(old: *import) { children.copy_construct(&old->children) } fun destruct() { children.destruct() } fun operator=(other: ref import) { destruct() copy_construct(&other) } fun operator==(other: ref import): bool { return children == other.children } } fun ast_identifier_ptr(): *ast_node { var to_ret.construct(): identifier var ptr = new() ptr->copy_construct(&ast_node::identifier(to_ret)) return ptr } obj identifier (Object) { fun construct(): *identifier { return this } fun copy_construct(old: *identifier) { } fun destruct() { } fun operator=(other: ref identifier) { destruct() copy_construct(&other) } fun operator==(other: ref identifier): bool { return true } } fun type_def(): *ast_node { var to_ret.construct(): type_def var ptr = new() ptr->copy_construct(&ast_node::type_def(to_ret)) return ptr } obj type_def (Object) { fun construct(): *type_def { return this } fun copy_construct(old: *type_def) { } fun destruct() { } fun operator=(other: ref type_def) { destruct() copy_construct(&other) } fun operator==(other: ref type_def): bool { return true } } fun adt_def(): *ast_node { var to_ret.construct(): adt_def var ptr = new() ptr->copy_construct(&ast_node::adt_def(to_ret)) return ptr } obj adt_def (Object) { fun construct(): *adt_def { return this } fun copy_construct(old: *adt_def) { } fun destruct() { } fun operator=(other: ref adt_def) { destruct() copy_construct(&other) } fun operator==(other: ref adt_def): bool { return true } } fun function(): *ast_node { var to_ret.construct(): function var ptr = new() ptr->copy_construct(&ast_node::function(to_ret)) return ptr } obj function (Object) { fun construct(): *function { return this } fun copy_construct(old: *function) { } fun destruct() { } fun operator=(other: ref function) { destruct() copy_construct(&other) } fun operator==(other: ref function): bool { return true } } fun code_block(): *ast_node { var to_ret.construct(): code_block var ptr = new() ptr->copy_construct(&ast_node::code_block(to_ret)) return ptr } obj code_block (Object) { fun construct(): *code_block { return this } fun copy_construct(old: *code_block) { } fun destruct() { } fun operator=(other: ref code_block) { destruct() copy_construct(&other) } fun operator==(other: ref code_block): bool { return true } } fun typed_parameter(): *ast_node { var to_ret.construct(): typed_parameter var ptr = new() ptr->copy_construct(&ast_node::typed_parameter(to_ret)) return ptr } obj typed_parameter (Object) { fun construct(): *typed_parameter { return this } fun copy_construct(old: *typed_parameter) { } fun destruct() { } fun operator=(other: ref typed_parameter) { destruct() copy_construct(&other) } fun operator==(other: ref typed_parameter): bool { return true } } fun expression(): *ast_node { var to_ret.construct(): expression var ptr = new() ptr->copy_construct(&ast_node::expression(to_ret)) return ptr } obj expression (Object) { fun construct(): *expression { return this } fun copy_construct(old: *expression) { } fun destruct() { } fun operator=(other: ref expression) { destruct() copy_construct(&other) } fun operator==(other: ref expression): bool { return true } } fun boolean_expression(): *ast_node { var to_ret.construct(): boolean_expression var ptr = new() ptr->copy_construct(&ast_node::boolean_expression(to_ret)) return ptr } obj boolean_expression (Object) { fun construct(): *boolean_expression { return this } fun copy_construct(old: *boolean_expression) { } fun destruct() { } fun operator=(other: ref boolean_expression) { destruct() copy_construct(&other) } fun operator==(other: ref boolean_expression): bool { return true } } fun statement(): *ast_node { var to_ret.construct(): statement var ptr = new() ptr->copy_construct(&ast_node::statement(to_ret)) return ptr } obj statement (Object) { fun construct(): *statement { return this } fun copy_construct(old: *statement) { } fun destruct() { } fun operator=(other: ref statement) { destruct() copy_construct(&other) } fun operator==(other: ref statement): bool { return true } } fun if_statement(): *ast_node { var to_ret.construct(): if_statement var ptr = new() ptr->copy_construct(&ast_node::if_statement(to_ret)) return ptr } obj if_statement (Object) { fun construct(): *if_statement { return this } fun copy_construct(old: *if_statement) { } fun destruct() { } fun operator=(other: ref if_statement) { destruct() copy_construct(&other) } fun operator==(other: ref if_statement): bool { return true } } fun match_statement(): *ast_node { var to_ret.construct(): match_statement var ptr = new() ptr->copy_construct(&ast_node::match_statement(to_ret)) return ptr } obj match_statement (Object) { fun construct(): *match_statement { return this } fun copy_construct(old: *match_statement) { } fun destruct() { } fun operator=(other: ref match_statement) { destruct() copy_construct(&other) } fun operator==(other: ref match_statement): bool { return true } } fun case_statement(): *ast_node { var to_ret.construct(): case_statement var ptr = new() ptr->copy_construct(&ast_node::case_statement(to_ret)) return ptr } obj case_statement (Object) { fun construct(): *case_statement { return this } fun copy_construct(old: *case_statement) { } fun destruct() { } fun operator=(other: ref case_statement) { destruct() copy_construct(&other) } fun operator==(other: ref case_statement): bool { return true } } fun while_loop(): *ast_node { var to_ret.construct(): while_loop var ptr = new() ptr->copy_construct(&ast_node::while_loop(to_ret)) return ptr } obj while_loop (Object) { fun construct(): *while_loop { return this } fun copy_construct(old: *while_loop) { } fun destruct() { } fun operator=(other: ref while_loop) { destruct() copy_construct(&other) } fun operator==(other: ref while_loop): bool { return true } } fun for_loop(): *ast_node { var to_ret.construct(): for_loop var ptr = new() ptr->copy_construct(&ast_node::for_loop(to_ret)) return ptr } obj for_loop (Object) { fun construct(): *for_loop { return this } fun copy_construct(old: *for_loop) { } fun destruct() { } fun operator=(other: ref for_loop) { destruct() copy_construct(&other) } fun operator==(other: ref for_loop): bool { return true } } fun return_statement(): *ast_node { var to_ret.construct(): return_statement var ptr = new() ptr->copy_construct(&ast_node::return_statement(to_ret)) return ptr } obj return_statement (Object) { fun construct(): *return_statement { return this } fun copy_construct(old: *return_statement) { } fun destruct() { } fun operator=(other: ref return_statement) { destruct() copy_construct(&other) } fun operator==(other: ref return_statement): bool { return true } } fun break_statement(): *ast_node { var to_ret.construct(): break_statement var ptr = new() ptr->copy_construct(&ast_node::break_statement(to_ret)) return ptr } obj break_statement (Object) { fun construct(): *break_statement { return this } fun copy_construct(old: *break_statement) { } fun destruct() { } fun operator=(other: ref break_statement) { destruct() copy_construct(&other) } fun operator==(other: ref break_statement): bool { return true } } fun continue_statement(): *ast_node { var to_ret.construct(): continue_statement var ptr = new() ptr->copy_construct(&ast_node::continue_statement(to_ret)) return ptr } obj continue_statement (Object) { fun construct(): *continue_statement { return this } fun copy_construct(old: *continue_statement) { } fun destruct() { } fun operator=(other: ref continue_statement) { destruct() copy_construct(&other) } fun operator==(other: ref continue_statement): bool { return true } } fun defer_statement(): *ast_node { var to_ret.construct(): defer_statement var ptr = new() ptr->copy_construct(&ast_node::defer_statement(to_ret)) return ptr } obj defer_statement (Object) { fun construct(): *defer_statement { return this } fun copy_construct(old: *defer_statement) { } fun destruct() { } fun operator=(other: ref defer_statement) { destruct() copy_construct(&other) } fun operator==(other: ref defer_statement): bool { return true } } fun assignment_statement(): *ast_node { var to_ret.construct(): assignment_statement var ptr = new() ptr->copy_construct(&ast_node::assignment_statement(to_ret)) return ptr } obj assignment_statement (Object) { fun construct(): *assignment_statement { return this } fun copy_construct(old: *assignment_statement) { } fun destruct() { } fun operator=(other: ref assignment_statement) { destruct() copy_construct(&other) } fun operator==(other: ref assignment_statement): bool { return true } } fun declaration_statement(): *ast_node { var to_ret.construct(): declaration_statement var ptr = new() ptr->copy_construct(&ast_node::declaration_statement(to_ret)) return ptr } obj declaration_statement (Object) { fun construct(): *declaration_statement { return this } fun copy_construct(old: *declaration_statement) { } fun destruct() { } fun operator=(other: ref declaration_statement) { destruct() copy_construct(&other) } fun operator==(other: ref declaration_statement): bool { return true } } fun if_comp(): *ast_node { var to_ret.construct(): if_comp var ptr = new() ptr->copy_construct(&ast_node::if_comp(to_ret)) return ptr } obj if_comp (Object) { fun construct(): *if_comp { return this } fun copy_construct(old: *if_comp) { } fun destruct() { } fun operator=(other: ref if_comp) { destruct() copy_construct(&other) } fun operator==(other: ref if_comp): bool { return true } } fun simple_passthrough(): *ast_node { var to_ret.construct(): simple_passthrough var ptr = new() ptr->copy_construct(&ast_node::simple_passthrough(to_ret)) return ptr } obj simple_passthrough (Object) { fun construct(): *simple_passthrough { return this } fun copy_construct(old: *simple_passthrough) { } fun destruct() { } fun operator=(other: ref simple_passthrough) { destruct() copy_construct(&other) } fun operator==(other: ref simple_passthrough): bool { return true } } fun passthrough_params(): *ast_node { var to_ret.construct(): passthrough_params var ptr = new() ptr->copy_construct(&ast_node::passthrough_params(to_ret)) return ptr } obj passthrough_params (Object) { fun construct(): *passthrough_params { return this } fun copy_construct(old: *passthrough_params) { } fun destruct() { } fun operator=(other: ref passthrough_params) { destruct() copy_construct(&other) } fun operator==(other: ref passthrough_params): bool { return true } } fun in_passthrough_params(): *ast_node { var to_ret.construct(): in_passthrough_params var ptr = new() ptr->copy_construct(&ast_node::in_passthrough_params(to_ret)) return ptr } obj in_passthrough_params (Object) { fun construct(): *in_passthrough_params { return this } fun copy_construct(old: *in_passthrough_params) { } fun destruct() { } fun operator=(other: ref in_passthrough_params) { destruct() copy_construct(&other) } fun operator==(other: ref in_passthrough_params): bool { return true } } fun out_passthrough_params(): *ast_node { var to_ret.construct(): out_passthrough_params var ptr = new() ptr->copy_construct(&ast_node::out_passthrough_params(to_ret)) return ptr } obj out_passthrough_params (Object) { fun construct(): *out_passthrough_params { return this } fun copy_construct(old: *out_passthrough_params) { } fun destruct() { } fun operator=(other: ref out_passthrough_params) { destruct() copy_construct(&other) } fun operator==(other: ref out_passthrough_params): bool { return true } } fun opt_string(): *ast_node { var to_ret.construct(): opt_string var ptr = new() ptr->copy_construct(&ast_node::opt_string(to_ret)) return ptr } obj opt_string (Object) { fun construct(): *opt_string { return this } fun copy_construct(old: *opt_string) { } fun destruct() { } fun operator=(other: ref opt_string) { destruct() copy_construct(&other) } fun operator==(other: ref opt_string): bool { return true } } fun param_assign(): *ast_node { var to_ret.construct(): param_assign var ptr = new() ptr->copy_construct(&ast_node::param_assign(to_ret)) return ptr } obj param_assign (Object) { fun construct(): *param_assign { return this } fun copy_construct(old: *param_assign) { } fun destruct() { } fun operator=(other: ref param_assign) { destruct() copy_construct(&other) } fun operator==(other: ref param_assign): bool { return true } } fun function_call(): *ast_node { var to_ret.construct(): function_call var ptr = new() ptr->copy_construct(&ast_node::function_call(to_ret)) return ptr } obj function_call (Object) { fun construct(): *function_call { return this } fun copy_construct(old: *function_call) { } fun destruct() { } fun operator=(other: ref function_call) { destruct() copy_construct(&other) } fun operator==(other: ref function_call): bool { return true } } fun value(): *ast_node { var to_ret.construct(): value var ptr = new() ptr->copy_construct(&ast_node::value(to_ret)) return ptr } obj value (Object) { fun construct(): *value { return this } fun copy_construct(old: *value) { } fun destruct() { } fun operator=(other: ref value) { destruct() copy_construct(&other) } fun operator==(other: ref value): bool { return true } } fun get_ast_children(node: *ast_node): vector<*ast_node> { return vector<*ast_node>() } fun get_ast_name(node: *ast_node): string { return string("ast_node") } fun ast_to_dot(root: *ast_node): string { var ret = string("digraph Kaken {\n") var counter = 0 var node_name_map = map<*ast_node, string>() var get_name = fun(node: *ast_node): string { if (node_name_map.contains_key(node)) return node_name_map[node] var escaped = string("") get_ast_name(node).data.for_each(fun(c: char) { if (c != '"') escaped += c else escaped += "\\\"" }) escaped += to_string(counter++) node_name_map.set(node, escaped) return escaped } var helper: fun(*ast_node):void = fun(node: *ast_node) { get_ast_children(node).for_each(fun(child: *ast_node) { if (!child) return; // where on earth does the null come from ret += string("\"") + get_name(node) + "\" -> \"" + get_name(child) + "\"\n"; helper(child) }) } if (root) helper(root) return ret + "}" }