// This file defines how to compile structs #include #include "../ast.h" #include "../environment.h" #include "../naming.h" #include "../stdlib/tables.h" #include "../stdlib/text.h" #include "../typecheck.h" #include "compilation.h" public Text_t compile_struct_typeinfo(env_t *env, type_t *t, const char *name, arg_ast_t *fields, bool is_secret, bool is_opaque) { Text_t typeinfo_name = namespace_name(env, env->namespace, Texts(name, "$$info")); Text_t type_code = Match(t, StructType)->external ? Text$from_str(name) : Texts("struct ", namespace_name(env, env->namespace, Texts(name, "$$struct"))); int64_t num_fields = 0; for (arg_ast_t *f = fields; f; f = f->next) num_fields += 1; const char *short_name = name; if (strchr(short_name, '$')) short_name = strrchr(short_name, '$') + 1; const char *metamethods = is_packed_data(t) ? "PackedData$metamethods" : "Struct$metamethods"; Text_t typeinfo = Texts( "public const TypeInfo_t ", typeinfo_name, " = {.size=sizeof(", type_code, "), .align=__alignof__(", type_code, "), " ".metamethods=", metamethods, ", " ".tag=StructInfo, .StructInfo.name=\"", short_name, "\"", is_secret ? Text(", .StructInfo.is_secret=true") : EMPTY_TEXT, is_opaque ? Text(", .StructInfo.is_opaque=true") : EMPTY_TEXT, ", .StructInfo.num_fields=", num_fields); if (fields) { typeinfo = Texts(typeinfo, ", .StructInfo.fields=(NamedType_t[", num_fields, "]){"); for (arg_ast_t *f = fields; f; f = f->next) { type_t *field_type = get_arg_ast_type(env, f); typeinfo = Texts(typeinfo, "{\"", f->name, "\", ", compile_type_info(field_type), "}"); if (f->next) typeinfo = Texts(typeinfo, ", "); } typeinfo = Texts(typeinfo, "}"); } return Texts(typeinfo, "};\n"); } public Text_t compile_struct_header(env_t *env, ast_t *ast) { DeclareMatch(def, ast, StructDef); Text_t typeinfo_name = namespace_name(env, env->namespace, Texts(def->name, "$$info")); Text_t type_code = def->external ? Text$from_str(def->name) : Texts("struct ", namespace_name(env, env->namespace, Texts(def->name, "$$struct"))); Text_t fields = EMPTY_TEXT; for (arg_ast_t *field = def->fields; field; field = field->next) { type_t *field_t = get_arg_ast_type(env, field); type_t *check_for_opaque = non_optional(field_t); if (check_for_opaque->tag == StructType && Match(check_for_opaque, StructType)->opaque) { if (field->type) code_err(field->type, "This is an opaque type, so it can't be used as a struct field type"); else if (field->value) code_err(field->value, "This is an opaque type, so it can't be used as a struct field type"); } fields = Texts(fields, compile_declaration(field_t, valid_c_name(field->name)), field_t->tag == BoolType ? Text(":1") : EMPTY_TEXT, ";\n"); } Text_t struct_code = def->external ? EMPTY_TEXT : Texts(type_code, " {\n", fields, "};\n"); type_t *t = Table$str_get(*env->types, def->name); Text_t unpadded_size = def->opaque ? Texts("sizeof(", type_code, ")") : Texts((int64_t)unpadded_struct_size(t)); Text_t typeinfo_code = Texts("extern const TypeInfo_t ", typeinfo_name, ";\n"); Text_t optional_code = EMPTY_TEXT; if (!def->opaque) { optional_code = Texts("DEFINE_OPTIONAL_TYPE(", compile_type(t), ", ", unpadded_size, ", ", namespace_name(env, env->namespace, Texts("$Optional", def->name, "$$type")), ");\n"); } return Texts(struct_code, optional_code, typeinfo_code); } public Text_t compile_empty_struct(type_t *t) { DeclareMatch(struct_, t, StructType); Text_t code = Texts("((", compile_type(t), "){"); for (arg_t *field = struct_->fields; field; field = field->next) { Text_t empty_field = field->default_val ? compile(struct_->env, field->default_val) : compile_empty(field->type); if (empty_field.length == 0) return EMPTY_TEXT; code = Texts(code, empty_field); if (field->next) code = Texts(code, ", "); } return Texts(code, "})"); } public Text_t compile_struct_field_access(env_t *env, ast_t *ast) { DeclareMatch(f, ast, FieldAccess); type_t *fielded_t = get_type(env, f->fielded); type_t *value_t = value_type(fielded_t); for (arg_t *field = Match(value_t, StructType)->fields; field; field = field->next) { if (streq(field->name, f->field)) { if (fielded_t->tag == PointerType) { Text_t fielded = compile_to_pointer_depth(env, f->fielded, 1, false); return Texts("(", fielded, ")->", valid_c_name(f->field)); } else { Text_t fielded = compile(env, f->fielded); return Texts("(", fielded, ").", valid_c_name(f->field)); } } } code_err(ast, "The field '", f->field, "' is not a valid field name of ", type_to_text(value_t)); } public Text_t compile_struct_literal(env_t *env, ast_t *ast, type_t *t, arg_ast_t *args) { DeclareMatch(struct_, t, StructType); if (struct_->opaque) code_err(ast, "This struct is opaque, so I don't know what's inside it!"); call_opts_t constructor_opts = { .promotion = true, .underscores = (env->current_type != NULL && type_eq(env->current_type, t)), }; if (is_valid_call(env, struct_->fields, args, constructor_opts)) { return Texts("((", compile_type(t), "){", compile_arguments(env, ast, struct_->fields, args), "})"); } else if (!constructor_opts.underscores && is_valid_call(env, struct_->fields, args, (call_opts_t){.promotion = true, .underscores = true})) { code_err(ast, "This constructor is passing private fields (those starting with underscores) as positional " "arguments, which is not allowed. \n" " If you need to pass these fields, use a keyword argument."); } code_err(ast, "I could not find a constructor matching these arguments for the struct ", type_to_text(t)); }