// Part of the Carbon Language project, under the Apache License v2.0 with LLVM // Exceptions. See /LICENSE for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // // INCLUDE-FILE: toolchain/testing/testdata/min_prelude/int.carbon // TODO: Add ranges and switch to "--dump-sem-ir-ranges=only". // EXTRA-ARGS: --dump-sem-ir-ranges=if-present // // AUTOUPDATE // TIP: To test this file alone, run: // TIP: bazel test //toolchain/testing:file_test --test_arg=--file_tests=toolchain/check/testdata/interface/todo_define_not_default.carbon // TIP: To dump output, run: // TIP: bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/interface/todo_define_not_default.carbon interface I { // TODO: A definition without `default` in an interface should be rejected. fn F() {} fn G(a: i32, b: i32) -> i32 = "int.sadd"; // TODO: An associated constant with an initializer without `default` in an // interface should be rejected. let T:! type = (i32, i32); let N:! i32 = 42; } // CHECK:STDOUT: --- todo_define_not_default.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %I.type: type = facet_type <@I> [concrete] // CHECK:STDOUT: %Self.ab9: %I.type = symbolic_binding Self, 0 [symbolic] // CHECK:STDOUT: %I.F.type: type = fn_type @I.F [concrete] // CHECK:STDOUT: %I.F: %I.F.type = struct_value () [concrete] // CHECK:STDOUT: %I.assoc_type: type = assoc_entity_type @I [concrete] // CHECK:STDOUT: %assoc0.524: %I.assoc_type = assoc_entity element0, @I.%I.F.decl [concrete] // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete] // CHECK:STDOUT: %Int.type: type = generic_class_type @Int [concrete] // CHECK:STDOUT: %Int.generic: %Int.type = struct_value () [concrete] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(%int_32) [concrete] // CHECK:STDOUT: %pattern_type.7ce: type = pattern_type %i32 [concrete] // CHECK:STDOUT: %.88a: form = init_form %i32, call_param2 [concrete] // CHECK:STDOUT: %I.G.type: type = fn_type @I.G [concrete] // CHECK:STDOUT: %I.G: %I.G.type = struct_value () [concrete] // CHECK:STDOUT: %assoc1: %I.assoc_type = assoc_entity element1, @I.%I.G.decl [concrete] // CHECK:STDOUT: %assoc2: %I.assoc_type = assoc_entity element2, @I.%T [concrete] // CHECK:STDOUT: %tuple.type.24b: type = tuple_type (type, type) [concrete] // CHECK:STDOUT: %tuple: %tuple.type.24b = tuple_value (%i32, %i32) [concrete] // CHECK:STDOUT: %tuple.type.d07: type = tuple_type (%i32, %i32) [concrete] // CHECK:STDOUT: %assoc3: %I.assoc_type = assoc_entity element3, @I.%N [concrete] // CHECK:STDOUT: %int_42.20e: Core.IntLiteral = int_value 42 [concrete] // CHECK:STDOUT: %ImplicitAs.type.cc7: type = generic_interface_type @ImplicitAs [concrete] // CHECK:STDOUT: %ImplicitAs.generic: %ImplicitAs.type.cc7 = struct_value () [concrete] // CHECK:STDOUT: %ImplicitAs.type.e8c: type = facet_type <@ImplicitAs, @ImplicitAs(%i32)> [concrete] // CHECK:STDOUT: %ImplicitAs.Convert.type.1b6: type = fn_type @ImplicitAs.Convert, @ImplicitAs(%i32) [concrete] // CHECK:STDOUT: %To: Core.IntLiteral = symbolic_binding To, 0 [symbolic] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.type.4e6: type = fn_type @Core.IntLiteral.as.ImplicitAs.impl.Convert, @Core.IntLiteral.as.ImplicitAs.impl(%To) [symbolic] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.3c2: %Core.IntLiteral.as.ImplicitAs.impl.Convert.type.4e6 = struct_value () [symbolic] // CHECK:STDOUT: %ImplicitAs.impl_witness.6bc: = impl_witness imports.%ImplicitAs.impl_witness_table.74f, @Core.IntLiteral.as.ImplicitAs.impl(%int_32) [concrete] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.type.e0d: type = fn_type @Core.IntLiteral.as.ImplicitAs.impl.Convert, @Core.IntLiteral.as.ImplicitAs.impl(%int_32) [concrete] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.0b5: %Core.IntLiteral.as.ImplicitAs.impl.Convert.type.e0d = struct_value () [concrete] // CHECK:STDOUT: %ImplicitAs.facet: %ImplicitAs.type.e8c = facet_value Core.IntLiteral, (%ImplicitAs.impl_witness.6bc) [concrete] // CHECK:STDOUT: %.863: type = fn_type_with_self_type %ImplicitAs.Convert.type.1b6, %ImplicitAs.facet [concrete] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.bound: = bound_method %int_42.20e, %Core.IntLiteral.as.ImplicitAs.impl.Convert.0b5 [concrete] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.specific_fn: = specific_function %Core.IntLiteral.as.ImplicitAs.impl.Convert.0b5, @Core.IntLiteral.as.ImplicitAs.impl.Convert(%int_32) [concrete] // CHECK:STDOUT: %bound_method: = bound_method %int_42.20e, %Core.IntLiteral.as.ImplicitAs.impl.Convert.specific_fn [concrete] // CHECK:STDOUT: %int_42.c68: %i32 = int_value 42 [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .Int = %Core.Int // CHECK:STDOUT: .ImplicitAs = %Core.ImplicitAs // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %Core.Int: %Int.type = import_ref Core//prelude/parts/int, Int, loaded [concrete = constants.%Int.generic] // CHECK:STDOUT: %Core.ImplicitAs: %ImplicitAs.type.cc7 = import_ref Core//prelude/parts/as, ImplicitAs, loaded [concrete = constants.%ImplicitAs.generic] // CHECK:STDOUT: %Core.import_ref.42d: @Core.IntLiteral.as.ImplicitAs.impl.%Core.IntLiteral.as.ImplicitAs.impl.Convert.type (%Core.IntLiteral.as.ImplicitAs.impl.Convert.type.4e6) = import_ref Core//prelude/parts/int, loc{{\d+_\d+}}, loaded [symbolic = @Core.IntLiteral.as.ImplicitAs.impl.%Core.IntLiteral.as.ImplicitAs.impl.Convert (constants.%Core.IntLiteral.as.ImplicitAs.impl.Convert.3c2)] // CHECK:STDOUT: %ImplicitAs.impl_witness_table.74f = impl_witness_table (%Core.import_ref.42d), @Core.IntLiteral.as.ImplicitAs.impl [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .I = %I.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %I.decl: type = interface_decl @I [concrete = constants.%I.type] {} {} // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: interface @I { // CHECK:STDOUT: %Self: %I.type = symbolic_binding Self, 0 [symbolic = constants.%Self.ab9] // CHECK:STDOUT: %I.F.decl: %I.F.type = fn_decl @I.F [concrete = constants.%I.F] {} {} // CHECK:STDOUT: %assoc0: %I.assoc_type = assoc_entity element0, %I.F.decl [concrete = constants.%assoc0.524] // CHECK:STDOUT: %I.G.decl: %I.G.type = fn_decl @I.G [concrete = constants.%I.G] { // CHECK:STDOUT: %a.patt: %pattern_type.7ce = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.7ce = value_param_pattern %a.patt, call_param0 [concrete] // CHECK:STDOUT: %b.patt: %pattern_type.7ce = value_binding_pattern b [concrete] // CHECK:STDOUT: %b.param_patt: %pattern_type.7ce = value_param_pattern %b.patt, call_param1 [concrete] // CHECK:STDOUT: %return.patt: %pattern_type.7ce = return_slot_pattern [concrete] // CHECK:STDOUT: %return.param_patt: %pattern_type.7ce = out_param_pattern %return.patt, call_param2 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32.loc18_27: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc18_27: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc18_27: form = init_form %i32.loc18_27, call_param2 [concrete = constants.%.88a] // CHECK:STDOUT: %a.param: %i32 = value_param call_param0 // CHECK:STDOUT: %.loc18_11: type = splice_block %i32.loc18_11 [concrete = constants.%i32] { // CHECK:STDOUT: %int_32.loc18_11: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc18_11: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: } // CHECK:STDOUT: %a: %i32 = value_binding a, %a.param // CHECK:STDOUT: %b.param: %i32 = value_param call_param1 // CHECK:STDOUT: %.loc18_19: type = splice_block %i32.loc18_19 [concrete = constants.%i32] { // CHECK:STDOUT: %int_32.loc18_19: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc18_19: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: } // CHECK:STDOUT: %b: %i32 = value_binding b, %b.param // CHECK:STDOUT: %return.param: ref %i32 = out_param call_param2 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: %assoc1: %I.assoc_type = assoc_entity element1, %I.G.decl [concrete = constants.%assoc1] // CHECK:STDOUT: %T: type = assoc_const_decl @T [concrete] { // CHECK:STDOUT: %assoc2: %I.assoc_type = assoc_entity element2, @I.%T [concrete = constants.%assoc2] // CHECK:STDOUT: %int_32.loc22_19: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc22_19: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %int_32.loc22_24: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc22_24: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc22_27: %tuple.type.24b = tuple_literal (%i32.loc22_19, %i32.loc22_24) [concrete = constants.%tuple] // CHECK:STDOUT: %.loc22_28: type = converted %.loc22_27, constants.%tuple.type.d07 [concrete = constants.%tuple.type.d07] // CHECK:STDOUT: } // CHECK:STDOUT: %N: %i32 = assoc_const_decl @N [concrete] { // CHECK:STDOUT: %assoc3: %I.assoc_type = assoc_entity element3, @I.%N [concrete = constants.%assoc3] // CHECK:STDOUT: %int_42: Core.IntLiteral = int_value 42 [concrete = constants.%int_42.20e] // CHECK:STDOUT: %impl.elem0: %.863 = impl_witness_access constants.%ImplicitAs.impl_witness.6bc, element0 [concrete = constants.%Core.IntLiteral.as.ImplicitAs.impl.Convert.0b5] // CHECK:STDOUT: %bound_method.loc23_19.1: = bound_method %int_42, %impl.elem0 [concrete = constants.%Core.IntLiteral.as.ImplicitAs.impl.Convert.bound] // CHECK:STDOUT: %specific_fn: = specific_function %impl.elem0, @Core.IntLiteral.as.ImplicitAs.impl.Convert(constants.%int_32) [concrete = constants.%Core.IntLiteral.as.ImplicitAs.impl.Convert.specific_fn] // CHECK:STDOUT: %bound_method.loc23_19.2: = bound_method %int_42, %specific_fn [concrete = constants.%bound_method] // CHECK:STDOUT: %Core.IntLiteral.as.ImplicitAs.impl.Convert.call: init %i32 = call %bound_method.loc23_19.2(%int_42) [concrete = constants.%int_42.c68] // CHECK:STDOUT: %.loc23_19.1: %i32 = value_of_initializer %Core.IntLiteral.as.ImplicitAs.impl.Convert.call [concrete = constants.%int_42.c68] // CHECK:STDOUT: %.loc23_19.2: %i32 = converted %int_42, %.loc23_19.1 [concrete = constants.%int_42.c68] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = %Self // CHECK:STDOUT: .F = %assoc0 // CHECK:STDOUT: .G = %assoc1 // CHECK:STDOUT: .T = @T.%assoc2 // CHECK:STDOUT: .N = @N.%assoc3 // CHECK:STDOUT: witness = (%I.F.decl, %I.G.decl, %T, %N) // CHECK:STDOUT: // CHECK:STDOUT: !requires: // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic assoc_const @T(@I.%Self: %I.type) { // CHECK:STDOUT: !definition: // CHECK:STDOUT: // CHECK:STDOUT: assoc_const T:! type = %.loc22_28; // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic assoc_const @N(@I.%Self: %I.type) { // CHECK:STDOUT: !definition: // CHECK:STDOUT: // CHECK:STDOUT: assoc_const N:! %i32 = %.loc23_19.2; // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic fn @I.F(@I.%Self: %I.type) { // CHECK:STDOUT: !definition: // CHECK:STDOUT: // CHECK:STDOUT: fn() { // CHECK:STDOUT: !entry: // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic fn @I.G(@I.%Self: %I.type) { // CHECK:STDOUT: !definition: // CHECK:STDOUT: // CHECK:STDOUT: fn(%a.param: %i32, %b.param: %i32) -> %i32 = "int.sadd"; // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @I.F(constants.%Self.ab9) {} // CHECK:STDOUT: // CHECK:STDOUT: specific @I.G(constants.%Self.ab9) {} // CHECK:STDOUT: // CHECK:STDOUT: specific @T(constants.%Self.ab9) {} // CHECK:STDOUT: // CHECK:STDOUT: specific @N(constants.%Self.ab9) {} // CHECK:STDOUT: