// 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/class/adapter/extend_adapt.carbon // TIP: To dump output, run: // TIP: bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/class/adapter/extend_adapt.carbon // --- basic.carbon library "[[@TEST_NAME]]"; class SomeClassAdapter; class SomeClass { var a: i32; var b: i32; fn StaticMemberFunction(); fn AdapterMethod[self: SomeClassAdapter](); } class SomeClassAdapter { extend adapt SomeClass; } fn TestStaticMemberFunction(a: SomeClassAdapter) { a.StaticMemberFunction(); } fn TestAdapterMethod(a: SomeClassAdapter) { a.AdapterMethod(); } // --- fail_todo_method_access.carbon library "[[@TEST_NAME]]"; class SomeClass { fn F[self: Self](); } class SomeClassAdapter { extend adapt SomeClass; } fn F(a: SomeClassAdapter) { // CHECK:STDERR: fail_todo_method_access.carbon:[[@LINE+10]]:3: error: cannot implicitly convert expression of type `SomeClassAdapter` to `SomeClass` [ConversionFailure] // CHECK:STDERR: a.F(); // CHECK:STDERR: ^ // CHECK:STDERR: fail_todo_method_access.carbon:[[@LINE+7]]:3: note: type `SomeClassAdapter` does not implement interface `Core.ImplicitAs(SomeClass)` [MissingImplInMemberAccessNote] // CHECK:STDERR: a.F(); // CHECK:STDERR: ^ // CHECK:STDERR: fail_todo_method_access.carbon:[[@LINE-14]]:8: note: initializing function parameter [InCallToFunctionParam] // CHECK:STDERR: fn F[self: Self](); // CHECK:STDERR: ^~~~~~~~~~ // CHECK:STDERR: a.F(); } // --- fail_todo_field_access.carbon library "[[@TEST_NAME]]"; class SomeClass { var a: i32; var b: i32; } class SomeClassAdapter { extend adapt SomeClass; } fn F(a: SomeClassAdapter) -> i32 { // CHECK:STDERR: fail_todo_field_access.carbon:[[@LINE+7]]:10: error: cannot implicitly convert expression of type `SomeClassAdapter` to `SomeClass` [ConversionFailure] // CHECK:STDERR: return a.b; // CHECK:STDERR: ^~~ // CHECK:STDERR: fail_todo_field_access.carbon:[[@LINE+4]]:10: note: type `SomeClassAdapter` does not implement interface `Core.ImplicitAs(SomeClass)` [MissingImplInMemberAccessNote] // CHECK:STDERR: return a.b; // CHECK:STDERR: ^~~ // CHECK:STDERR: return a.b; } // --- fail_todo_adapt_struct.carbon library "[[@TEST_NAME]]"; class StructAdapter { extend adapt {.a: i32, .b: i32}; } fn F(a: StructAdapter) -> i32 { // TODO: This should be allowed. // CHECK:STDERR: fail_todo_adapt_struct.carbon:[[@LINE+4]]:10: error: member name `b` not found in `StructAdapter` [MemberNameNotFoundInInstScope] // CHECK:STDERR: return a.b; // CHECK:STDERR: ^~~ // CHECK:STDERR: return a.b; } // --- fail_todo_adapt_tuple.carbon library "[[@TEST_NAME]]"; class TupleAdapter { extend adapt (i32, i32); } fn F(a: TupleAdapter) -> i32 { // TODO: This should be allowed. // CHECK:STDERR: fail_todo_adapt_tuple.carbon:[[@LINE+4]]:10: error: type `TupleAdapter` does not support tuple indexing; only tuples can be indexed that way [TupleIndexOnANonTupleType] // CHECK:STDERR: return a.1; // CHECK:STDERR: ^~~ // CHECK:STDERR: return a.1; } // --- fail_adapt_builtin.carbon library "[[@TEST_NAME]]"; fn MakeInt(N: Core.IntLiteral()) -> type = "int.make_type_signed"; class IntAdapter { extend adapt MakeInt(32); } fn F(a: IntAdapter) -> i32 { // Builtin types have no member names. // CHECK:STDERR: fail_adapt_builtin.carbon:[[@LINE+4]]:10: error: member name `foo` not found in `IntAdapter` [MemberNameNotFoundInInstScope] // CHECK:STDERR: return a.foo; // CHECK:STDERR: ^~~~~ // CHECK:STDERR: return a.foo; } // CHECK:STDOUT: --- basic.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [concrete] // CHECK:STDOUT: %SomeClass: type = class_type @SomeClass [concrete] // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete] // CHECK:STDOUT: %Int.type: type = generic_class_type @Int [concrete] // CHECK:STDOUT: %empty_tuple.type: type = tuple_type () [concrete] // CHECK:STDOUT: %Int.generic: %Int.type = struct_value () [concrete] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(%int_32) [concrete] // CHECK:STDOUT: %SomeClass.elem: type = unbound_element_type %SomeClass, %i32 [concrete] // CHECK:STDOUT: %SomeClass.StaticMemberFunction.type: type = fn_type @SomeClass.StaticMemberFunction [concrete] // CHECK:STDOUT: %SomeClass.StaticMemberFunction: %SomeClass.StaticMemberFunction.type = struct_value () [concrete] // CHECK:STDOUT: %pattern_type.31a: type = pattern_type %SomeClassAdapter [concrete] // CHECK:STDOUT: %SomeClass.AdapterMethod.type: type = fn_type @SomeClass.AdapterMethod [concrete] // CHECK:STDOUT: %SomeClass.AdapterMethod: %SomeClass.AdapterMethod.type = struct_value () [concrete] // CHECK:STDOUT: %struct_type.a.b: type = struct_type {.a: %i32, .b: %i32} [concrete] // CHECK:STDOUT: %complete_type.705: = complete_type_witness %struct_type.a.b [concrete] // CHECK:STDOUT: %TestStaticMemberFunction.type: type = fn_type @TestStaticMemberFunction [concrete] // CHECK:STDOUT: %TestStaticMemberFunction: %TestStaticMemberFunction.type = struct_value () [concrete] // CHECK:STDOUT: %TestAdapterMethod.type: type = fn_type @TestAdapterMethod [concrete] // CHECK:STDOUT: %TestAdapterMethod: %TestAdapterMethod.type = struct_value () [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .Int = %Core.Int // 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: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .SomeClassAdapter = %SomeClassAdapter.decl.loc4 // CHECK:STDOUT: .SomeClass = %SomeClass.decl // CHECK:STDOUT: .TestStaticMemberFunction = %TestStaticMemberFunction.decl // CHECK:STDOUT: .TestAdapterMethod = %TestAdapterMethod.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %SomeClassAdapter.decl.loc4: type = class_decl @SomeClassAdapter [concrete = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %SomeClass.decl: type = class_decl @SomeClass [concrete = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl.loc15: type = class_decl @SomeClassAdapter [concrete = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %TestStaticMemberFunction.decl: %TestStaticMemberFunction.type = fn_decl @TestStaticMemberFunction [concrete = constants.%TestStaticMemberFunction] { // CHECK:STDOUT: %a.patt: %pattern_type.31a = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.31a = value_param_pattern %a.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param call_param0 // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [concrete = constants.%SomeClassAdapter] // CHECK:STDOUT: %a: %SomeClassAdapter = value_binding a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: %TestAdapterMethod.decl: %TestAdapterMethod.type = fn_decl @TestAdapterMethod [concrete = constants.%TestAdapterMethod] { // CHECK:STDOUT: %a.patt: %pattern_type.31a = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.31a = value_param_pattern %a.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param call_param0 // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [concrete = constants.%SomeClassAdapter] // CHECK:STDOUT: %a: %SomeClassAdapter = value_binding a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [concrete = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass.ref [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%struct_type.a.b [concrete = constants.%complete_type.705] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: .SomeClass = // CHECK:STDOUT: .StaticMemberFunction = // CHECK:STDOUT: .AdapterMethod = // CHECK:STDOUT: extend %SomeClass.ref // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %int_32.loc7: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc7: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc7: %SomeClass.elem = field_decl a, element0 [concrete] // CHECK:STDOUT: %int_32.loc8: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc8: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc8: %SomeClass.elem = field_decl b, element1 [concrete] // CHECK:STDOUT: %SomeClass.StaticMemberFunction.decl: %SomeClass.StaticMemberFunction.type = fn_decl @SomeClass.StaticMemberFunction [concrete = constants.%SomeClass.StaticMemberFunction] {} {} // CHECK:STDOUT: %SomeClass.AdapterMethod.decl: %SomeClass.AdapterMethod.type = fn_decl @SomeClass.AdapterMethod [concrete = constants.%SomeClass.AdapterMethod] { // CHECK:STDOUT: %self.patt: %pattern_type.31a = value_binding_pattern self [concrete] // CHECK:STDOUT: %self.param_patt: %pattern_type.31a = value_param_pattern %self.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %self.param: %SomeClassAdapter = value_param call_param0 // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [concrete = constants.%SomeClassAdapter] // CHECK:STDOUT: %self: %SomeClassAdapter = value_binding self, %self.param // CHECK:STDOUT: } // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%struct_type.a.b [concrete = constants.%complete_type.705] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .a = %.loc7 // CHECK:STDOUT: .b = %.loc8 // CHECK:STDOUT: .StaticMemberFunction = %SomeClass.StaticMemberFunction.decl // CHECK:STDOUT: .SomeClassAdapter = // CHECK:STDOUT: .AdapterMethod = %SomeClass.AdapterMethod.decl // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @SomeClass.StaticMemberFunction(); // CHECK:STDOUT: // CHECK:STDOUT: fn @SomeClass.AdapterMethod(%self.param: %SomeClassAdapter); // CHECK:STDOUT: // CHECK:STDOUT: fn @TestStaticMemberFunction(%a.param: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %StaticMemberFunction.ref: %SomeClass.StaticMemberFunction.type = name_ref StaticMemberFunction, @SomeClass.%SomeClass.StaticMemberFunction.decl [concrete = constants.%SomeClass.StaticMemberFunction] // CHECK:STDOUT: %SomeClass.StaticMemberFunction.call: init %empty_tuple.type = call %StaticMemberFunction.ref() // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @TestAdapterMethod(%a.param: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %AdapterMethod.ref: %SomeClass.AdapterMethod.type = name_ref AdapterMethod, @SomeClass.%SomeClass.AdapterMethod.decl [concrete = constants.%SomeClass.AdapterMethod] // CHECK:STDOUT: %SomeClass.AdapterMethod.bound: = bound_method %a.ref, %AdapterMethod.ref // CHECK:STDOUT: %SomeClass.AdapterMethod.call: init %empty_tuple.type = call %SomeClass.AdapterMethod.bound(%a.ref) // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_method_access.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %SomeClass: type = class_type @SomeClass [concrete] // CHECK:STDOUT: %pattern_type.ea0: type = pattern_type %SomeClass [concrete] // CHECK:STDOUT: %SomeClass.F.type: type = fn_type @SomeClass.F [concrete] // CHECK:STDOUT: %empty_tuple.type: type = tuple_type () [concrete] // CHECK:STDOUT: %SomeClass.F: %SomeClass.F.type = struct_value () [concrete] // CHECK:STDOUT: %empty_struct_type: type = struct_type {} [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness %empty_struct_type [concrete] // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [concrete] // CHECK:STDOUT: %pattern_type.31a: type = pattern_type %SomeClassAdapter [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: %ImplicitAs.type.cc7: type = generic_interface_type @ImplicitAs [concrete] // CHECK:STDOUT: %ImplicitAs.generic: %ImplicitAs.type.cc7 = struct_value () [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .ImplicitAs = %Core.ImplicitAs // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %Core.ImplicitAs: %ImplicitAs.type.cc7 = import_ref Core//prelude/parts/as, ImplicitAs, loaded [concrete = constants.%ImplicitAs.generic] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .SomeClass = %SomeClass.decl // CHECK:STDOUT: .SomeClassAdapter = %SomeClassAdapter.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %SomeClass.decl: type = class_decl @SomeClass [concrete = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl: type = class_decl @SomeClassAdapter [concrete = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %a.patt: %pattern_type.31a = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.31a = value_param_pattern %a.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param call_param0 // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl [concrete = constants.%SomeClassAdapter] // CHECK:STDOUT: %a: %SomeClassAdapter = value_binding a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %SomeClass.F.decl: %SomeClass.F.type = fn_decl @SomeClass.F [concrete = constants.%SomeClass.F] { // CHECK:STDOUT: %self.patt: %pattern_type.ea0 = value_binding_pattern self [concrete] // CHECK:STDOUT: %self.param_patt: %pattern_type.ea0 = value_param_pattern %self.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %self.param: %SomeClass = value_param call_param0 // CHECK:STDOUT: %Self.ref: type = name_ref Self, constants.%SomeClass [concrete = constants.%SomeClass] // CHECK:STDOUT: %self: %SomeClass = value_binding self, %self.param // CHECK:STDOUT: } // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%empty_struct_type [concrete = constants.%complete_type] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .F = %SomeClass.F.decl // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [concrete = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass.ref [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%empty_struct_type [concrete = constants.%complete_type] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: .SomeClass = // CHECK:STDOUT: .F = // CHECK:STDOUT: extend %SomeClass.ref // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @SomeClass.F(%self.param: %SomeClass); // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %F.ref: %SomeClass.F.type = name_ref F, @SomeClass.%SomeClass.F.decl [concrete = constants.%SomeClass.F] // CHECK:STDOUT: %SomeClass.F.bound: = bound_method %a.ref, %F.ref // CHECK:STDOUT: %.loc23: %SomeClass = converted %a.ref, [concrete = ] // CHECK:STDOUT: %SomeClass.F.call: init %empty_tuple.type = call %SomeClass.F.bound() // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_field_access.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %SomeClass: type = class_type @SomeClass [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: %SomeClass.elem: type = unbound_element_type %SomeClass, %i32 [concrete] // CHECK:STDOUT: %struct_type.a.b: type = struct_type {.a: %i32, .b: %i32} [concrete] // CHECK:STDOUT: %complete_type.705: = complete_type_witness %struct_type.a.b [concrete] // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [concrete] // CHECK:STDOUT: %pattern_type.31a: type = pattern_type %SomeClassAdapter [concrete] // CHECK:STDOUT: %.4d5: form = init_form %i32, call_param1 [concrete] // CHECK:STDOUT: %pattern_type.7ce: type = pattern_type %i32 [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: %ImplicitAs.type.cc7: type = generic_interface_type @ImplicitAs [concrete] // CHECK:STDOUT: %ImplicitAs.generic: %ImplicitAs.type.cc7 = struct_value () [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: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .SomeClass = %SomeClass.decl // CHECK:STDOUT: .SomeClassAdapter = %SomeClassAdapter.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %SomeClass.decl: type = class_decl @SomeClass [concrete = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl: type = class_decl @SomeClassAdapter [concrete = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %a.patt: %pattern_type.31a = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.31a = value_param_pattern %a.patt, call_param0 [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_param1 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc13: form = init_form %i32, call_param1 [concrete = constants.%.4d5] // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param call_param0 // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl [concrete = constants.%SomeClassAdapter] // CHECK:STDOUT: %a: %SomeClassAdapter = value_binding a, %a.param // CHECK:STDOUT: %return.param: ref %i32 = out_param call_param1 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %int_32.loc5: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc5: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc5: %SomeClass.elem = field_decl a, element0 [concrete] // CHECK:STDOUT: %int_32.loc6: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc6: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc6: %SomeClass.elem = field_decl b, element1 [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%struct_type.a.b [concrete = constants.%complete_type.705] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .a = %.loc5 // CHECK:STDOUT: .b = %.loc6 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [concrete = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass.ref [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%struct_type.a.b [concrete = constants.%complete_type.705] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: .SomeClass = // CHECK:STDOUT: .b = // CHECK:STDOUT: extend %SomeClass.ref // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param: %SomeClassAdapter) -> %i32 { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %b.ref: %SomeClass.elem = name_ref b, @SomeClass.%.loc6 [concrete = @SomeClass.%.loc6] // CHECK:STDOUT: %.loc21_11.1: %SomeClass = converted %a.ref, [concrete = ] // CHECK:STDOUT: %.loc21_11.2: %i32 = class_element_access , element1 [concrete = ] // CHECK:STDOUT: return to %return.param // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_adapt_struct.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %StructAdapter: type = class_type @StructAdapter [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: %struct_type.a.b: type = struct_type {.a: %i32, .b: %i32} [concrete] // CHECK:STDOUT: %complete_type.705: = complete_type_witness %struct_type.a.b [concrete] // CHECK:STDOUT: %pattern_type.7d8: type = pattern_type %StructAdapter [concrete] // CHECK:STDOUT: %.4d5: form = init_form %i32, call_param1 [concrete] // CHECK:STDOUT: %pattern_type.7ce: type = pattern_type %i32 [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .Int = %Core.Int // 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: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .StructAdapter = %StructAdapter.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %StructAdapter.decl: type = class_decl @StructAdapter [concrete = constants.%StructAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %a.patt: %pattern_type.7d8 = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.7d8 = value_param_pattern %a.patt, call_param0 [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_param1 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc8: form = init_form %i32, call_param1 [concrete = constants.%.4d5] // CHECK:STDOUT: %a.param: %StructAdapter = value_param call_param0 // CHECK:STDOUT: %StructAdapter.ref: type = name_ref StructAdapter, file.%StructAdapter.decl [concrete = constants.%StructAdapter] // CHECK:STDOUT: %a: %StructAdapter = value_binding a, %a.param // CHECK:STDOUT: %return.param: ref %i32 = out_param call_param1 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @StructAdapter { // CHECK:STDOUT: %int_32.loc5_21: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc5_21: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %int_32.loc5_30: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc5_30: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %struct_type.a.b: type = struct_type {.a: %i32, .b: %i32} [concrete = constants.%struct_type.a.b] // CHECK:STDOUT: adapt_decl %struct_type.a.b [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%struct_type.a.b [concrete = constants.%complete_type.705] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%StructAdapter // CHECK:STDOUT: .b = // CHECK:STDOUT: extend %struct_type.a.b // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param: %StructAdapter) -> %i32 { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %StructAdapter = name_ref a, %a // CHECK:STDOUT: %b.ref: = name_ref b, [concrete = ] // CHECK:STDOUT: return to %return.param // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_adapt_tuple.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %TupleAdapter: type = class_type @TupleAdapter [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: %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: %complete_type.65d: = complete_type_witness %tuple.type.d07 [concrete] // CHECK:STDOUT: %pattern_type.3a8: type = pattern_type %TupleAdapter [concrete] // CHECK:STDOUT: %.4d5: form = init_form %i32, call_param1 [concrete] // CHECK:STDOUT: %pattern_type.7ce: type = pattern_type %i32 [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: %int_1: Core.IntLiteral = int_value 1 [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .Int = %Core.Int // 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: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .TupleAdapter = %TupleAdapter.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %TupleAdapter.decl: type = class_decl @TupleAdapter [concrete = constants.%TupleAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %a.patt: %pattern_type.3a8 = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.3a8 = value_param_pattern %a.patt, call_param0 [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_param1 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc8: form = init_form %i32, call_param1 [concrete = constants.%.4d5] // CHECK:STDOUT: %a.param: %TupleAdapter = value_param call_param0 // CHECK:STDOUT: %TupleAdapter.ref: type = name_ref TupleAdapter, file.%TupleAdapter.decl [concrete = constants.%TupleAdapter] // CHECK:STDOUT: %a: %TupleAdapter = value_binding a, %a.param // CHECK:STDOUT: %return.param: ref %i32 = out_param call_param1 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @TupleAdapter { // CHECK:STDOUT: %int_32.loc5_17: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc5_17: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %int_32.loc5_22: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc5_22: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc5_25: %tuple.type.24b = tuple_literal (%i32.loc5_17, %i32.loc5_22) [concrete = constants.%tuple] // CHECK:STDOUT: %.loc5_26: type = converted %.loc5_25, constants.%tuple.type.d07 [concrete = constants.%tuple.type.d07] // CHECK:STDOUT: adapt_decl %.loc5_26 [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%tuple.type.d07 [concrete = constants.%complete_type.65d] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%TupleAdapter // CHECK:STDOUT: extend %.loc5_26 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param: %TupleAdapter) -> %i32 { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %TupleAdapter = name_ref a, %a // CHECK:STDOUT: %int_1: Core.IntLiteral = int_value 1 [concrete = constants.%int_1] // CHECK:STDOUT: return to %return.param // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_adapt_builtin.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %IntLiteral.type: type = fn_type @IntLiteral [concrete] // CHECK:STDOUT: %IntLiteral: %IntLiteral.type = struct_value () [concrete] // CHECK:STDOUT: %pattern_type.98f: type = pattern_type type [concrete] // CHECK:STDOUT: %pattern_type.dc0: type = pattern_type Core.IntLiteral [concrete] // CHECK:STDOUT: %.39d: form = init_form type, call_param1 [concrete] // CHECK:STDOUT: %MakeInt.type: type = fn_type @MakeInt [concrete] // CHECK:STDOUT: %MakeInt: %MakeInt.type = struct_value () [concrete] // CHECK:STDOUT: %IntAdapter: type = class_type @IntAdapter [concrete] // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete] // CHECK:STDOUT: %i32.builtin: type = int_type signed, %int_32 [concrete] // CHECK:STDOUT: %complete_type.f8a: = complete_type_witness %i32.builtin [concrete] // CHECK:STDOUT: %pattern_type.f40: type = pattern_type %IntAdapter [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: %.4d5: form = init_form %i32, call_param1 [concrete] // CHECK:STDOUT: %pattern_type.7ce: type = pattern_type %i32 [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .IntLiteral = %Core.IntLiteral // CHECK:STDOUT: .Int = %Core.Int // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %Core.IntLiteral: %IntLiteral.type = import_ref Core//prelude/parts/int_literal, IntLiteral, loaded [concrete = constants.%IntLiteral] // CHECK:STDOUT: %Core.Int: %Int.type = import_ref Core//prelude/parts/int, Int, loaded [concrete = constants.%Int.generic] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .MakeInt = %MakeInt.decl // CHECK:STDOUT: .IntAdapter = %IntAdapter.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %MakeInt.decl: %MakeInt.type = fn_decl @MakeInt [concrete = constants.%MakeInt] { // CHECK:STDOUT: %N.patt: %pattern_type.dc0 = value_binding_pattern N [concrete] // CHECK:STDOUT: %N.param_patt: %pattern_type.dc0 = value_param_pattern %N.patt, call_param0 [concrete] // CHECK:STDOUT: %return.patt: %pattern_type.98f = return_slot_pattern [concrete] // CHECK:STDOUT: %return.param_patt: %pattern_type.98f = out_param_pattern %return.patt, call_param1 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %.loc4_37: form = init_form type, call_param1 [concrete = constants.%.39d] // CHECK:STDOUT: %N.param: Core.IntLiteral = value_param call_param0 // CHECK:STDOUT: %.loc4_31.1: type = splice_block %.loc4_31.3 [concrete = Core.IntLiteral] { // CHECK:STDOUT: %Core.ref: = name_ref Core, imports.%Core [concrete = imports.%Core] // CHECK:STDOUT: %IntLiteral.ref: %IntLiteral.type = name_ref IntLiteral, imports.%Core.IntLiteral [concrete = constants.%IntLiteral] // CHECK:STDOUT: %IntLiteral.call: init type = call %IntLiteral.ref() [concrete = Core.IntLiteral] // CHECK:STDOUT: %.loc4_31.2: type = value_of_initializer %IntLiteral.call [concrete = Core.IntLiteral] // CHECK:STDOUT: %.loc4_31.3: type = converted %IntLiteral.call, %.loc4_31.2 [concrete = Core.IntLiteral] // CHECK:STDOUT: } // CHECK:STDOUT: %N: Core.IntLiteral = value_binding N, %N.param // CHECK:STDOUT: %return.param: ref type = out_param call_param1 // CHECK:STDOUT: %return: ref type = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: %IntAdapter.decl: type = class_decl @IntAdapter [concrete = constants.%IntAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %a.patt: %pattern_type.f40 = value_binding_pattern a [concrete] // CHECK:STDOUT: %a.param_patt: %pattern_type.f40 = value_param_pattern %a.patt, call_param0 [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_param1 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %.loc10: form = init_form %i32, call_param1 [concrete = constants.%.4d5] // CHECK:STDOUT: %a.param: %IntAdapter = value_param call_param0 // CHECK:STDOUT: %IntAdapter.ref: type = name_ref IntAdapter, file.%IntAdapter.decl [concrete = constants.%IntAdapter] // CHECK:STDOUT: %a: %IntAdapter = value_binding a, %a.param // CHECK:STDOUT: %return.param: ref %i32 = out_param call_param1 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @IntAdapter { // CHECK:STDOUT: %MakeInt.ref: %MakeInt.type = name_ref MakeInt, file.%MakeInt.decl [concrete = constants.%MakeInt] // CHECK:STDOUT: %int_32: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %MakeInt.call: init type = call %MakeInt.ref(%int_32) [concrete = constants.%i32.builtin] // CHECK:STDOUT: %.loc7_27.1: type = value_of_initializer %MakeInt.call [concrete = constants.%i32.builtin] // CHECK:STDOUT: %.loc7_27.2: type = converted %MakeInt.call, %.loc7_27.1 [concrete = constants.%i32.builtin] // CHECK:STDOUT: adapt_decl %.loc7_27.2 [concrete] // CHECK:STDOUT: %complete_type: = complete_type_witness constants.%i32.builtin [concrete = constants.%complete_type.f8a] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%IntAdapter // CHECK:STDOUT: .MakeInt = // CHECK:STDOUT: .foo = // CHECK:STDOUT: extend %.loc7_27.2 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @MakeInt(%N.param: Core.IntLiteral) -> type = "int.make_type_signed"; // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param: %IntAdapter) -> %i32 { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %IntAdapter = name_ref a, %a // CHECK:STDOUT: %foo.ref: = name_ref foo, [concrete = ] // CHECK:STDOUT: return to %return.param // CHECK:STDOUT: } // CHECK:STDOUT: