import symbol:* import tree:* import vector:* import map:* import util:* import type:* import string:* import mem:* import io:* import ast_nodes:* import ast_transformation:* import hash_set:* import pass_common:* obj function_parent_block { var function: *ast_node var parent: *ast_node var parent_block: *ast_node var parent_function: *ast_node } fun make_function_parent_block(function: *ast_node, parent: *ast_node, parent_block: *ast_node, parent_function: *ast_node): function_parent_block { var result: function_parent_block result.function = function result.parent = parent result.parent_block = parent_block result.parent_function = parent_function return result } fun function_value_lower(name_ast_map: *map,*ast_node>>, ast_to_syntax: *map<*ast_node, *tree>) { var visited = hash_set<*ast_node>() var lambdas = set<*ast_node>() name_ast_map->for_each(fun(name: string, syntax_ast_pair: pair<*tree,*ast_node>) { lambdas.add(syntax_ast_pair.second->translation_unit.lambdas) }) var all_types = set<*type>() var function_value_creation_points = vector() var function_value_call_points = vector() var closed_over_uses = vector>>() name_ast_map->for_each(fun(name: string, syntax_ast_pair: pair<*tree,*ast_node>) { var helper_before = fun(node: *ast_node, parent_chain: *stack<*ast_node>) { var t = get_ast_type(node) if (t) all_types.add(t) match(*node) { ast_node::identifier(backing) { // see if this identifier use is a closed variable in a closure var enclosing_func = parent_chain->item_from_top_satisfying_or(fun(n: *ast_node): bool return is_function(n);, null()) if (enclosing_func && enclosing_func->function.closed_variables.contains(node)) { closed_over_uses.add(make_pair(node, make_pair(parent_chain->top(), enclosing_func))) } } ast_node::function(backing) { var parent = parent_chain->top() // need to use function value if // it isn't a regular function definition (or lambda top reference) var need_done = !is_translation_unit(parent) && !backing.type->is_raw if (need_done) { function_value_creation_points.add(make_function_parent_block(node, parent_chain->top(), parent_chain->item_from_top_satisfying(fun(i: *ast_node): bool return is_code_block(i);), parent_chain->item_from_top_satisfying(fun(i: *ast_node): bool return is_function(i);) )) } } ast_node::function_call(backing) { if (!get_ast_type(backing.func)->is_raw) function_value_call_points.add(make_function_parent_block(backing.func, node, null(), null())) } } } run_on_tree(helper_before, empty_pass_second_half(), syntax_ast_pair.second, &visited) }) println(string("there are ") + function_value_creation_points.size + " function value creation points in the program.") println(string("there are ") + all_types.size() + " all types in the program.") var void_ptr = type_ptr(base_type::void_return(), 1) var lambda_type_to_struct_type_and_call_func = map>(); //freaking vexing parse moved all_types.chaotic_closure(fun(t: *type): set<*type> { if (t->is_function()) return from_vector(t->parameter_types + t->return_type) return set<*type>() }) var all_type_values = all_types.map(fun(t: *type): type return *t;) all_type_values.for_each(fun(t: type) { if (t.is_function() && t.indirection == 0 && !t.is_raw && !lambda_type_to_struct_type_and_call_func.contains_key(t)) { var cleaned = t.clone() cleaned->is_raw = true var new_type_def_name = t.to_string() + "_function_value_struct" var new_type_def = ast_type_def_ptr(new_type_def_name) var func_ident = ast_identifier_ptr("func", cleaned, new_type_def) add_to_scope("func", func_ident, new_type_def) var func_closure_type = cleaned->clone() func_closure_type->parameter_types.add(0, type_ptr(base_type::void_return(), 1)) var func_closure_ident = ast_identifier_ptr("func_closure", func_closure_type, new_type_def) add_to_scope("func_closure", func_closure_ident, new_type_def) var data_ident = ast_identifier_ptr("data", void_ptr, new_type_def) add_to_scope("data", data_ident, new_type_def) new_type_def->type_def.variables.add(ast_declaration_statement_ptr(func_ident, null())) new_type_def->type_def.variables.add(ast_declaration_statement_ptr(func_closure_ident, null())) new_type_def->type_def.variables.add(ast_declaration_statement_ptr(data_ident, null())) add_to_scope("~enclosing_scope", name_ast_map->values.first().second, new_type_def) add_to_scope(new_type_def_name, new_type_def, name_ast_map->values.first().second) name_ast_map->values.first().second->translation_unit.children.add(new_type_def) var lambda_struct_type = type_ptr(new_type_def) var lambda_call_type = type_ptr(vector(lambda_struct_type) + t.parameter_types, t.return_type, 0, false, false, true) // create parameters var lambda_call_func_param = ast_identifier_ptr("func_struct", lambda_struct_type, null()) var lambda_call_parameters = vector(lambda_call_func_param) + cleaned->parameter_types.map(fun(t:*type): *ast_node { return ast_identifier_ptr("pass_through_param", t, null()) }) var lambda_call_function = ast_function_ptr(string("lambda_call"), lambda_call_type, lambda_call_parameters, false) // create call body with if, etc var if_statement = ast_if_statement_ptr(access_expression(lambda_call_func_param, "data")) lambda_call_function->function.body_statement = ast_code_block_ptr(if_statement) if_statement->if_statement.then_part = ast_code_block_ptr(ast_return_statement_ptr(ast_function_call_ptr(access_expression(lambda_call_func_param, "func_closure"), vector(access_expression(lambda_call_func_param, "data")) + lambda_call_parameters.slice(1,-1)))) if_statement->if_statement.else_part = ast_code_block_ptr(ast_return_statement_ptr(ast_function_call_ptr(access_expression(lambda_call_func_param, "func"), lambda_call_parameters.slice(1,-1)))) lambda_type_to_struct_type_and_call_func[t] = make_pair(lambda_struct_type, lambda_call_function) // we have to add it for t and *cleaned since we might get either (we make the lambda's type raw later, so if used at creation point will be cleaned...) // NOPE does this for other functions not lambdas super wrong /*lambda_type_to_struct_type_and_call_func[*cleaned] = make_pair(lambda_struct_type, lambda_call_function)*/ name_ast_map->values.first().second->translation_unit.children.add(new_type_def) name_ast_map->values.first().second->translation_unit.children.add(lambda_call_function) } }) var lambda_creation_funcs = map<*ast_node, *ast_node>() // create the closure type for each lambda var closure_id = 0 lambdas.for_each(fun(l: *ast_node) { var closure_struct_type: *type if (l->function.closed_variables.size()) { var new_type_def_name = string("closure_struct_") + closure_id++ var new_type_def = ast_type_def_ptr(new_type_def_name) l->function.closed_variables.for_each(fun(v: *ast_node) { var closed_var_type = v->identifier.type if (lambda_type_to_struct_type_and_call_func.contains_key(*closed_var_type)) closed_var_type = lambda_type_to_struct_type_and_call_func[*closed_var_type].first var closed_ident = ast_identifier_ptr(v->identifier.name, closed_var_type->clone_with_increased_indirection(), new_type_def) new_type_def->type_def.variables.add(ast_declaration_statement_ptr(closed_ident, null())) add_to_scope(v->identifier.name, closed_ident, new_type_def) }) add_to_scope("~enclosing_scope", name_ast_map->values.first().second, new_type_def) add_to_scope(new_type_def_name, new_type_def, name_ast_map->values.first().second) name_ast_map->values.first().second->translation_unit.children.add(new_type_def) closure_struct_type = type_ptr(new_type_def)->clone_with_increased_indirection() } var return_type = lambda_type_to_struct_type_and_call_func[*l->function.type].first var creation_type = type_ptr(vector<*type>(), return_type, 0, false, false, true) lambda_creation_funcs[l] = ast_function_ptr(l->function.name + "_creation", creation_type, vector<*ast_node>(), false); var body = ast_code_block_ptr() var ident = ast_identifier_ptr("to_ret", return_type, body) body->code_block.children.add(ast_declaration_statement_ptr(ident, null())) body->code_block.children.add(ast_assignment_statement_ptr(access_expression(ident, "func"), l)) body->code_block.children.add(ast_assignment_statement_ptr(access_expression(ident, "func_closure"), l)) if (l->function.closed_variables.size()) { var closure_lambda_param = ast_identifier_ptr("closure_data_pass", closure_struct_type, l) l->function.parameters.add(0, closure_lambda_param) var closure_param = ast_identifier_ptr("closure", closure_struct_type, body) lambda_creation_funcs[l]->function.parameters.add(closure_param) body->code_block.children.add(ast_assignment_statement_ptr(access_expression(ident, "data"), closure_param)) l->function.closed_variables.for_each(fun(v: *ast_node) { // HACK if (v->identifier.name == "this") { // add in an assignment at the beginning of the lambda if (!is_code_block(l->function.body_statement)) error("lambda body isn't a block in function_value_lower") l->function.body_statement->code_block.children.add(0, ast_declaration_statement_ptr(ast_identifier_ptr("this", v->identifier.type, l->function.body_statement), make_operator_call("*", vector(access_expression(closure_lambda_param, v->identifier.name))))) } // have to make sure to clean here as well var closed_param_type = v->identifier.type if (lambda_type_to_struct_type_and_call_func.contains_key(*closed_param_type)) closed_param_type = lambda_type_to_struct_type_and_call_func[*closed_param_type].first var closed_param = ast_identifier_ptr("closed_param", closed_param_type->clone_with_increased_indirection(), l) lambda_creation_funcs[l]->function.parameters.add(closed_param) body->code_block.children.add(ast_assignment_statement_ptr(access_expression(closure_param, v->identifier.name), closed_param)) }) } else { body->code_block.children.add(ast_assignment_statement_ptr(access_expression(ident, "data"), ast_value_ptr(string("0"), type_ptr(base_type::void_return(), 1)))) } body->code_block.children.add(ast_return_statement_ptr(ident)) lambda_creation_funcs[l]->function.body_statement = body name_ast_map->values.first().second->translation_unit.children.add(lambda_creation_funcs[l]) }) function_value_call_points.for_each(fun(p: function_parent_block) { // parent is the function call var function_struct = p.function p.parent->function_call.func = lambda_type_to_struct_type_and_call_func[*get_ast_type(p.function)].second p.parent->function_call.parameters.add(0, function_struct) }) function_value_creation_points.for_each(fun(p: function_parent_block) { var lambda_creation_params = vector<*ast_node>() // add the declaration of the closure struct to the enclosing code block if (p.function->function.closed_variables.size()) { // pull closure type off lambda creation func parameter var closure_type = get_ast_type(lambda_creation_funcs[p.function]->function.parameters[0])->clone_with_decreased_indirection() var closure_struct_ident = ast_identifier_ptr("closure_struct", closure_type, p.parent_block) p.parent_block->code_block.children.add(0,ast_declaration_statement_ptr(closure_struct_ident, null())) lambda_creation_params.add(make_operator_call("&", vector(closure_struct_ident))) p.function->function.closed_variables.for_each(fun(v: *ast_node) { var addr_of = make_operator_call("&", vector(v)) if (p.parent_function->function.closed_variables.contains(v)) { closed_over_uses.add(make_pair(v, make_pair(addr_of, p.parent_function))) } lambda_creation_params.add(addr_of) }) } var func_call = ast_function_call_ptr(lambda_creation_funcs[p.function], lambda_creation_params) replace_with_in(p.function, func_call, p.parent) }) lambdas.for_each(fun(l: *ast_node) l->function.type = l->function.type->clone();) all_types.for_each(fun(t: *type) { if (lambda_type_to_struct_type_and_call_func.contains_key(*t)) *t = *lambda_type_to_struct_type_and_call_func[*t].first }) closed_over_uses.for_each(fun(p: pair<*ast_node, pair<*ast_node, *ast_node>>) { var variable = p.first var parent = p.second.first var lambda = p.second.second var closure_param = lambda->function.parameters[0] replace_with_in(variable, make_operator_call("*", vector(access_expression(closure_param, variable->identifier.name))), parent) }) // now we can make them raw lambdas.for_each(fun(l: *ast_node) { l->function.type->is_raw = true; }) }