// 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 // // AUTOUPDATE // TIP: To test this file alone, run: // TIP: bazel test //toolchain/testing:file_test --test_arg=--file_tests=toolchain/check/testdata/class/extend_adapt.carbon // TIP: To dump output, run: // TIP: bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/class/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 from `SomeClassAdapter` to `SomeClass` [ImplicitAsConversionFailure] // CHECK:STDERR: a.F(); // CHECK:STDERR: ^ // CHECK:STDERR: fail_todo_method_access.carbon:[[@LINE+7]]:3: note: type `SomeClassAdapter` does not implement interface `ImplicitAs` [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 from `SomeClassAdapter` to `SomeClass` [ImplicitAsConversionFailure] // CHECK:STDERR: return a.b; // CHECK:STDERR: ^~~ // CHECK:STDERR: fail_todo_field_access.carbon:[[@LINE+4]]:10: note: type `SomeClassAdapter` does not implement interface `ImplicitAs` [MissingImplInMemberAccessNote] // CHECK:STDERR: return a.b; // CHECK:STDERR: ^~~ // CHECK:STDERR: return a.b; } // --- fail_todo_adapt_non_class.carbon library "[[@TEST_NAME]]"; class StructAdapter { // CHECK:STDERR: fail_todo_adapt_non_class.carbon:[[@LINE+3]]:3: error: semantics TODO: `extending non-class type` [SemanticsTodo] // CHECK:STDERR: extend adapt {.a: i32, .b: i32}; // CHECK:STDERR: ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ extend adapt {.a: i32, .b: i32}; } // CHECK:STDOUT: --- basic.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [template] // CHECK:STDOUT: %SomeClass: type = class_type @SomeClass [template] // CHECK:STDOUT: %Int32.type: type = fn_type @Int32 [template] // CHECK:STDOUT: %.1: type = tuple_type () [template] // CHECK:STDOUT: %Int32: %Int32.type = struct_value () [template] // CHECK:STDOUT: %.2: type = unbound_element_type %SomeClass, i32 [template] // CHECK:STDOUT: %StaticMemberFunction.type: type = fn_type @StaticMemberFunction [template] // CHECK:STDOUT: %StaticMemberFunction: %StaticMemberFunction.type = struct_value () [template] // CHECK:STDOUT: %AdapterMethod.type: type = fn_type @AdapterMethod [template] // CHECK:STDOUT: %AdapterMethod: %AdapterMethod.type = struct_value () [template] // CHECK:STDOUT: %.3: type = struct_type {.a: i32, .b: i32} [template] // CHECK:STDOUT: %.4: = complete_type_witness %.3 [template] // CHECK:STDOUT: %.5: type = ptr_type %.3 [template] // CHECK:STDOUT: %.6: = complete_type_witness %SomeClass [template] // CHECK:STDOUT: %TestStaticMemberFunction.type: type = fn_type @TestStaticMemberFunction [template] // CHECK:STDOUT: %TestStaticMemberFunction: %TestStaticMemberFunction.type = struct_value () [template] // CHECK:STDOUT: %TestAdapterMethod.type: type = fn_type @TestAdapterMethod [template] // CHECK:STDOUT: %TestAdapterMethod: %TestAdapterMethod.type = struct_value () [template] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [template] { // CHECK:STDOUT: .Int32 = %import_ref // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %import_ref: %Int32.type = import_ref Core//prelude/types, inst+15, loaded [template = constants.%Int32] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [template] { // 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 [template = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %SomeClass.decl: type = class_decl @SomeClass [template = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl.loc15: type = class_decl @SomeClassAdapter [template = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %TestStaticMemberFunction.decl: %TestStaticMemberFunction.type = fn_decl @TestStaticMemberFunction [template = constants.%TestStaticMemberFunction] { // CHECK:STDOUT: %a.patt: %SomeClassAdapter = binding_pattern a // CHECK:STDOUT: %a.param_patt: %SomeClassAdapter = value_param_pattern %a.patt, runtime_param0 // CHECK:STDOUT: } { // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [template = constants.%SomeClassAdapter] // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param runtime_param0 // CHECK:STDOUT: %a: %SomeClassAdapter = bind_name a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: %TestAdapterMethod.decl: %TestAdapterMethod.type = fn_decl @TestAdapterMethod [template = constants.%TestAdapterMethod] { // CHECK:STDOUT: %a.patt: %SomeClassAdapter = binding_pattern a // CHECK:STDOUT: %a.param_patt: %SomeClassAdapter = value_param_pattern %a.patt, runtime_param0 // CHECK:STDOUT: } { // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [template = constants.%SomeClassAdapter] // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param runtime_param0 // CHECK:STDOUT: %a: %SomeClassAdapter = bind_name a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [template = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass // CHECK:STDOUT: %.loc17: = complete_type_witness %SomeClass [template = constants.%.6] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: extend name_scope2 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %int.make_type_32.loc7: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc7_10.1: type = value_of_initializer %int.make_type_32.loc7 [template = i32] // CHECK:STDOUT: %.loc7_10.2: type = converted %int.make_type_32.loc7, %.loc7_10.1 [template = i32] // CHECK:STDOUT: %.loc7_8: %.2 = field_decl a, element0 [template] // CHECK:STDOUT: %int.make_type_32.loc8: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc8_10.1: type = value_of_initializer %int.make_type_32.loc8 [template = i32] // CHECK:STDOUT: %.loc8_10.2: type = converted %int.make_type_32.loc8, %.loc8_10.1 [template = i32] // CHECK:STDOUT: %.loc8_8: %.2 = field_decl b, element1 [template] // CHECK:STDOUT: %StaticMemberFunction.decl: %StaticMemberFunction.type = fn_decl @StaticMemberFunction [template = constants.%StaticMemberFunction] {} {} // CHECK:STDOUT: %AdapterMethod.decl: %AdapterMethod.type = fn_decl @AdapterMethod [template = constants.%AdapterMethod] { // CHECK:STDOUT: %self.patt: %SomeClassAdapter = binding_pattern self // CHECK:STDOUT: %self.param_patt: %SomeClassAdapter = value_param_pattern %self.patt, runtime_param0 // CHECK:STDOUT: } { // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl.loc4 [template = constants.%SomeClassAdapter] // CHECK:STDOUT: %self.param: %SomeClassAdapter = value_param runtime_param0 // CHECK:STDOUT: %self: %SomeClassAdapter = bind_name self, %self.param // CHECK:STDOUT: } // CHECK:STDOUT: %.loc13: = complete_type_witness %.3 [template = constants.%.4] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .a = %.loc7_8 // CHECK:STDOUT: .b = %.loc8_8 // CHECK:STDOUT: .StaticMemberFunction = %StaticMemberFunction.decl // CHECK:STDOUT: .AdapterMethod = %AdapterMethod.decl // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @Int32() -> type = "int.make_type_32"; // CHECK:STDOUT: // CHECK:STDOUT: fn @StaticMemberFunction(); // CHECK:STDOUT: // CHECK:STDOUT: fn @AdapterMethod[%self.param_patt: %SomeClassAdapter](); // CHECK:STDOUT: // CHECK:STDOUT: fn @TestStaticMemberFunction(%a.param_patt: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %StaticMemberFunction.ref: %StaticMemberFunction.type = name_ref StaticMemberFunction, @SomeClass.%StaticMemberFunction.decl [template = constants.%StaticMemberFunction] // CHECK:STDOUT: %StaticMemberFunction.call: init %.1 = call %StaticMemberFunction.ref() // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @TestAdapterMethod(%a.param_patt: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %AdapterMethod.ref: %AdapterMethod.type = name_ref AdapterMethod, @SomeClass.%AdapterMethod.decl [template = constants.%AdapterMethod] // CHECK:STDOUT: %.loc24: = bound_method %a.ref, %AdapterMethod.ref // CHECK:STDOUT: %AdapterMethod.call: init %.1 = call %.loc24(%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 [template] // CHECK:STDOUT: %F.type.1: type = fn_type @F.1 [template] // CHECK:STDOUT: %.1: type = tuple_type () [template] // CHECK:STDOUT: %F.1: %F.type.1 = struct_value () [template] // CHECK:STDOUT: %.2: type = struct_type {} [template] // CHECK:STDOUT: %.3: = complete_type_witness %.2 [template] // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [template] // CHECK:STDOUT: %.4: type = ptr_type %.2 [template] // CHECK:STDOUT: %.5: = complete_type_witness %SomeClass [template] // CHECK:STDOUT: %F.type.2: type = fn_type @F.2 [template] // CHECK:STDOUT: %F.2: %F.type.2 = struct_value () [template] // CHECK:STDOUT: %ImplicitAs.type.1: type = generic_interface_type @ImplicitAs [template] // CHECK:STDOUT: %ImplicitAs: %ImplicitAs.type.1 = struct_value () [template] // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic] // CHECK:STDOUT: %ImplicitAs.type.2: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic] // CHECK:STDOUT: %Self.1: @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2) = bind_symbolic_name Self, 1 [symbolic] // CHECK:STDOUT: %Dest.patt: type = symbolic_binding_pattern Dest, 0 [symbolic] // CHECK:STDOUT: %Self.2: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic] // CHECK:STDOUT: %Convert.type.1: type = fn_type @Convert, @ImplicitAs(%Dest) [symbolic] // CHECK:STDOUT: %Convert.1: %Convert.type.1 = struct_value () [symbolic] // CHECK:STDOUT: %.6: type = assoc_entity_type %ImplicitAs.type.2, %Convert.type.1 [symbolic] // CHECK:STDOUT: %.7: %.6 = assoc_entity element0, imports.%import_ref.5 [symbolic] // CHECK:STDOUT: %ImplicitAs.type.3: type = interface_type @ImplicitAs, @ImplicitAs(%SomeClass) [template] // CHECK:STDOUT: %Convert.type.2: type = fn_type @Convert, @ImplicitAs(%SomeClass) [template] // CHECK:STDOUT: %Convert.2: %Convert.type.2 = struct_value () [template] // CHECK:STDOUT: %.8: type = assoc_entity_type %ImplicitAs.type.3, %Convert.type.2 [template] // CHECK:STDOUT: %.9: %.8 = assoc_entity element0, imports.%import_ref.5 [template] // CHECK:STDOUT: %.10: %.6 = assoc_entity element0, imports.%import_ref.6 [symbolic] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [template] { // CHECK:STDOUT: .ImplicitAs = %import_ref.1 // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %import_ref.1: %ImplicitAs.type.1 = import_ref Core//prelude/operators/as, inst+49, loaded [template = constants.%ImplicitAs] // CHECK:STDOUT: %import_ref.2 = import_ref Core//prelude/operators/as, inst+55, unloaded // CHECK:STDOUT: %import_ref.3: @ImplicitAs.%.1 (%.6) = import_ref Core//prelude/operators/as, inst+77, loaded [symbolic = @ImplicitAs.%.2 (constants.%.10)] // CHECK:STDOUT: %import_ref.4 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: %import_ref.5 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: %import_ref.6 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [template] { // 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 [template = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl: type = class_decl @SomeClassAdapter [template = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type.2 = fn_decl @F.2 [template = constants.%F.2] { // CHECK:STDOUT: %a.patt: %SomeClassAdapter = binding_pattern a // CHECK:STDOUT: %a.param_patt: %SomeClassAdapter = value_param_pattern %a.patt, runtime_param0 // CHECK:STDOUT: } { // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl [template = constants.%SomeClassAdapter] // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param runtime_param0 // CHECK:STDOUT: %a: %SomeClassAdapter = bind_name a, %a.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic interface @ImplicitAs(constants.%Dest: type) { // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic = %Dest (constants.%Dest)] // CHECK:STDOUT: %Dest.patt: type = symbolic_binding_pattern Dest, 0 [symbolic = %Dest.patt (constants.%Dest.patt)] // CHECK:STDOUT: // CHECK:STDOUT: !definition: // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic = %ImplicitAs.type (constants.%ImplicitAs.type.2)] // CHECK:STDOUT: %Self: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic = %Self (constants.%Self.2)] // CHECK:STDOUT: %Convert.type: type = fn_type @Convert, @ImplicitAs(%Dest) [symbolic = %Convert.type (constants.%Convert.type.1)] // CHECK:STDOUT: %Convert: @ImplicitAs.%Convert.type (%Convert.type.1) = struct_value () [symbolic = %Convert (constants.%Convert.1)] // CHECK:STDOUT: %.1: type = assoc_entity_type @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2), @ImplicitAs.%Convert.type (%Convert.type.1) [symbolic = %.1 (constants.%.6)] // CHECK:STDOUT: %.2: @ImplicitAs.%.1 (%.6) = assoc_entity element0, imports.%import_ref.5 [symbolic = %.2 (constants.%.7)] // CHECK:STDOUT: // CHECK:STDOUT: interface { // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = imports.%import_ref.2 // CHECK:STDOUT: .Convert = imports.%import_ref.3 // CHECK:STDOUT: witness = (imports.%import_ref.4) // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %F.decl: %F.type.1 = fn_decl @F.1 [template = constants.%F.1] { // CHECK:STDOUT: %self.patt: %SomeClass = binding_pattern self // CHECK:STDOUT: %self.param_patt: %SomeClass = value_param_pattern %self.patt, runtime_param0 // CHECK:STDOUT: } { // CHECK:STDOUT: %Self.ref: type = name_ref Self, constants.%SomeClass [template = constants.%SomeClass] // CHECK:STDOUT: %self.param: %SomeClass = value_param runtime_param0 // CHECK:STDOUT: %self: %SomeClass = bind_name self, %self.param // CHECK:STDOUT: } // CHECK:STDOUT: %.loc6: = complete_type_witness %.2 [template = constants.%.3] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [template = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass // CHECK:STDOUT: %.loc10: = complete_type_witness %SomeClass [template = constants.%.5] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: extend name_scope2 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @F.1[%self.param_patt: %SomeClass](); // CHECK:STDOUT: // CHECK:STDOUT: fn @F.2(%a.param_patt: %SomeClassAdapter) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %F.ref: %F.type.1 = name_ref F, @SomeClass.%F.decl [template = constants.%F.1] // CHECK:STDOUT: %.loc23_4: = bound_method %a.ref, %F.ref // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(constants.%SomeClass) [template = constants.%ImplicitAs.type.3] // CHECK:STDOUT: %.loc23_3.1: %.8 = specific_constant imports.%import_ref.3, @ImplicitAs(constants.%SomeClass) [template = constants.%.9] // CHECK:STDOUT: %Convert.ref: %.8 = name_ref Convert, %.loc23_3.1 [template = constants.%.9] // CHECK:STDOUT: %.loc23_3.2: %SomeClass = converted %a.ref, [template = ] // CHECK:STDOUT: %F.call: init %.1 = call %.loc23_4() // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic fn @Convert(constants.%Dest: type, constants.%Self.1: @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2)) { // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic = %Dest (constants.%Dest)] // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic = %ImplicitAs.type (constants.%ImplicitAs.type.2)] // CHECK:STDOUT: %Self: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic = %Self (constants.%Self.2)] // CHECK:STDOUT: // CHECK:STDOUT: fn[%self.param_patt: @Convert.%Self (%Self.2)]() -> @Convert.%Dest (%Dest); // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(constants.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(@ImplicitAs.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(@Convert.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @Convert(constants.%Dest, constants.%Self.1) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %ImplicitAs.type => constants.%ImplicitAs.type.2 // CHECK:STDOUT: %Self => constants.%Self.1 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(constants.%SomeClass) { // CHECK:STDOUT: %Dest => constants.%SomeClass // CHECK:STDOUT: %Dest.patt => constants.%SomeClass // CHECK:STDOUT: // CHECK:STDOUT: !definition: // CHECK:STDOUT: %ImplicitAs.type => constants.%ImplicitAs.type.3 // CHECK:STDOUT: %Self => constants.%Self.2 // CHECK:STDOUT: %Convert.type => constants.%Convert.type.2 // CHECK:STDOUT: %Convert => constants.%Convert.2 // CHECK:STDOUT: %.1 => constants.%.8 // CHECK:STDOUT: %.2 => constants.%.9 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_field_access.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %SomeClass: type = class_type @SomeClass [template] // CHECK:STDOUT: %Int32.type: type = fn_type @Int32 [template] // CHECK:STDOUT: %.1: type = tuple_type () [template] // CHECK:STDOUT: %Int32: %Int32.type = struct_value () [template] // CHECK:STDOUT: %.2: type = unbound_element_type %SomeClass, i32 [template] // CHECK:STDOUT: %.3: type = struct_type {.a: i32, .b: i32} [template] // CHECK:STDOUT: %.4: = complete_type_witness %.3 [template] // CHECK:STDOUT: %SomeClassAdapter: type = class_type @SomeClassAdapter [template] // CHECK:STDOUT: %.5: type = ptr_type %.3 [template] // CHECK:STDOUT: %.6: = complete_type_witness %SomeClass [template] // CHECK:STDOUT: %F.type: type = fn_type @F [template] // CHECK:STDOUT: %F: %F.type = struct_value () [template] // CHECK:STDOUT: %ImplicitAs.type.1: type = generic_interface_type @ImplicitAs [template] // CHECK:STDOUT: %ImplicitAs: %ImplicitAs.type.1 = struct_value () [template] // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic] // CHECK:STDOUT: %ImplicitAs.type.2: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic] // CHECK:STDOUT: %Self.1: @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2) = bind_symbolic_name Self, 1 [symbolic] // CHECK:STDOUT: %Dest.patt: type = symbolic_binding_pattern Dest, 0 [symbolic] // CHECK:STDOUT: %Self.2: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic] // CHECK:STDOUT: %Convert.type.1: type = fn_type @Convert, @ImplicitAs(%Dest) [symbolic] // CHECK:STDOUT: %Convert.1: %Convert.type.1 = struct_value () [symbolic] // CHECK:STDOUT: %.7: type = assoc_entity_type %ImplicitAs.type.2, %Convert.type.1 [symbolic] // CHECK:STDOUT: %.8: %.7 = assoc_entity element0, imports.%import_ref.6 [symbolic] // CHECK:STDOUT: %ImplicitAs.type.3: type = interface_type @ImplicitAs, @ImplicitAs(%SomeClass) [template] // CHECK:STDOUT: %Convert.type.2: type = fn_type @Convert, @ImplicitAs(%SomeClass) [template] // CHECK:STDOUT: %Convert.2: %Convert.type.2 = struct_value () [template] // CHECK:STDOUT: %.9: type = assoc_entity_type %ImplicitAs.type.3, %Convert.type.2 [template] // CHECK:STDOUT: %.10: %.9 = assoc_entity element0, imports.%import_ref.6 [template] // CHECK:STDOUT: %.11: %.7 = assoc_entity element0, imports.%import_ref.7 [symbolic] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [template] { // CHECK:STDOUT: .Int32 = %import_ref.1 // CHECK:STDOUT: .ImplicitAs = %import_ref.2 // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %import_ref.1: %Int32.type = import_ref Core//prelude/types, inst+15, loaded [template = constants.%Int32] // CHECK:STDOUT: %import_ref.2: %ImplicitAs.type.1 = import_ref Core//prelude/operators/as, inst+49, loaded [template = constants.%ImplicitAs] // CHECK:STDOUT: %import_ref.3 = import_ref Core//prelude/operators/as, inst+55, unloaded // CHECK:STDOUT: %import_ref.4: @ImplicitAs.%.1 (%.7) = import_ref Core//prelude/operators/as, inst+77, loaded [symbolic = @ImplicitAs.%.2 (constants.%.11)] // CHECK:STDOUT: %import_ref.5 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: %import_ref.6 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: %import_ref.7 = import_ref Core//prelude/operators/as, inst+70, unloaded // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [template] { // 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 [template = constants.%SomeClass] {} {} // CHECK:STDOUT: %SomeClassAdapter.decl: type = class_decl @SomeClassAdapter [template = constants.%SomeClassAdapter] {} {} // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [template = constants.%F] { // CHECK:STDOUT: %a.patt: %SomeClassAdapter = binding_pattern a // CHECK:STDOUT: %a.param_patt: %SomeClassAdapter = value_param_pattern %a.patt, runtime_param0 // CHECK:STDOUT: %return.patt: i32 = return_slot_pattern // CHECK:STDOUT: %return.param_patt: i32 = out_param_pattern %return.patt, runtime_param1 // CHECK:STDOUT: } { // CHECK:STDOUT: %SomeClassAdapter.ref: type = name_ref SomeClassAdapter, file.%SomeClassAdapter.decl [template = constants.%SomeClassAdapter] // CHECK:STDOUT: %int.make_type_32: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc13_30.1: type = value_of_initializer %int.make_type_32 [template = i32] // CHECK:STDOUT: %.loc13_30.2: type = converted %int.make_type_32, %.loc13_30.1 [template = i32] // CHECK:STDOUT: %a.param: %SomeClassAdapter = value_param runtime_param0 // CHECK:STDOUT: %a: %SomeClassAdapter = bind_name a, %a.param // CHECK:STDOUT: %return.param: ref i32 = out_param runtime_param1 // CHECK:STDOUT: %return: ref i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic interface @ImplicitAs(constants.%Dest: type) { // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic = %Dest (constants.%Dest)] // CHECK:STDOUT: %Dest.patt: type = symbolic_binding_pattern Dest, 0 [symbolic = %Dest.patt (constants.%Dest.patt)] // CHECK:STDOUT: // CHECK:STDOUT: !definition: // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic = %ImplicitAs.type (constants.%ImplicitAs.type.2)] // CHECK:STDOUT: %Self: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic = %Self (constants.%Self.2)] // CHECK:STDOUT: %Convert.type: type = fn_type @Convert, @ImplicitAs(%Dest) [symbolic = %Convert.type (constants.%Convert.type.1)] // CHECK:STDOUT: %Convert: @ImplicitAs.%Convert.type (%Convert.type.1) = struct_value () [symbolic = %Convert (constants.%Convert.1)] // CHECK:STDOUT: %.1: type = assoc_entity_type @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2), @ImplicitAs.%Convert.type (%Convert.type.1) [symbolic = %.1 (constants.%.7)] // CHECK:STDOUT: %.2: @ImplicitAs.%.1 (%.7) = assoc_entity element0, imports.%import_ref.6 [symbolic = %.2 (constants.%.8)] // CHECK:STDOUT: // CHECK:STDOUT: interface { // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = imports.%import_ref.3 // CHECK:STDOUT: .Convert = imports.%import_ref.4 // CHECK:STDOUT: witness = (imports.%import_ref.5) // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClass { // CHECK:STDOUT: %int.make_type_32.loc5: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc5_10.1: type = value_of_initializer %int.make_type_32.loc5 [template = i32] // CHECK:STDOUT: %.loc5_10.2: type = converted %int.make_type_32.loc5, %.loc5_10.1 [template = i32] // CHECK:STDOUT: %.loc5_8: %.2 = field_decl a, element0 [template] // CHECK:STDOUT: %int.make_type_32.loc6: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc6_10.1: type = value_of_initializer %int.make_type_32.loc6 [template = i32] // CHECK:STDOUT: %.loc6_10.2: type = converted %int.make_type_32.loc6, %.loc6_10.1 [template = i32] // CHECK:STDOUT: %.loc6_8: %.2 = field_decl b, element1 [template] // CHECK:STDOUT: %.loc7: = complete_type_witness %.3 [template = constants.%.4] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClass // CHECK:STDOUT: .a = %.loc5_8 // CHECK:STDOUT: .b = %.loc6_8 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @SomeClassAdapter { // CHECK:STDOUT: %SomeClass.ref: type = name_ref SomeClass, file.%SomeClass.decl [template = constants.%SomeClass] // CHECK:STDOUT: adapt_decl %SomeClass // CHECK:STDOUT: %.loc11: = complete_type_witness %SomeClass [template = constants.%.6] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%SomeClassAdapter // CHECK:STDOUT: extend name_scope2 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @Int32() -> type = "int.make_type_32"; // CHECK:STDOUT: // CHECK:STDOUT: fn @F(%a.param_patt: %SomeClassAdapter) -> i32 { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %a.ref: %SomeClassAdapter = name_ref a, %a // CHECK:STDOUT: %b.ref: %.2 = name_ref b, @SomeClass.%.loc6_8 [template = @SomeClass.%.loc6_8] // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(constants.%SomeClass) [template = constants.%ImplicitAs.type.3] // CHECK:STDOUT: %.loc21_11.1: %.9 = specific_constant imports.%import_ref.4, @ImplicitAs(constants.%SomeClass) [template = constants.%.10] // CHECK:STDOUT: %Convert.ref: %.9 = name_ref Convert, %.loc21_11.1 [template = constants.%.10] // CHECK:STDOUT: %.loc21_11.2: %SomeClass = converted %a.ref, [template = ] // CHECK:STDOUT: %.loc21_11.3: i32 = class_element_access , element1 [template = ] // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: generic fn @Convert(constants.%Dest: type, constants.%Self.1: @ImplicitAs.%ImplicitAs.type (%ImplicitAs.type.2)) { // CHECK:STDOUT: %Dest: type = bind_symbolic_name Dest, 0 [symbolic = %Dest (constants.%Dest)] // CHECK:STDOUT: %ImplicitAs.type: type = interface_type @ImplicitAs, @ImplicitAs(%Dest) [symbolic = %ImplicitAs.type (constants.%ImplicitAs.type.2)] // CHECK:STDOUT: %Self: %ImplicitAs.type.2 = bind_symbolic_name Self, 1 [symbolic = %Self (constants.%Self.2)] // CHECK:STDOUT: // CHECK:STDOUT: fn[%self.param_patt: @Convert.%Self (%Self.2)]() -> @Convert.%Dest (%Dest); // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(constants.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(@ImplicitAs.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(@Convert.%Dest) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %Dest.patt => constants.%Dest // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @Convert(constants.%Dest, constants.%Self.1) { // CHECK:STDOUT: %Dest => constants.%Dest // CHECK:STDOUT: %ImplicitAs.type => constants.%ImplicitAs.type.2 // CHECK:STDOUT: %Self => constants.%Self.1 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: specific @ImplicitAs(constants.%SomeClass) { // CHECK:STDOUT: %Dest => constants.%SomeClass // CHECK:STDOUT: %Dest.patt => constants.%SomeClass // CHECK:STDOUT: // CHECK:STDOUT: !definition: // CHECK:STDOUT: %ImplicitAs.type => constants.%ImplicitAs.type.3 // CHECK:STDOUT: %Self => constants.%Self.2 // CHECK:STDOUT: %Convert.type => constants.%Convert.type.2 // CHECK:STDOUT: %Convert => constants.%Convert.2 // CHECK:STDOUT: %.1 => constants.%.9 // CHECK:STDOUT: %.2 => constants.%.10 // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: --- fail_todo_adapt_non_class.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %StructAdapter: type = class_type @StructAdapter [template] // CHECK:STDOUT: %Int32.type: type = fn_type @Int32 [template] // CHECK:STDOUT: %.1: type = tuple_type () [template] // CHECK:STDOUT: %Int32: %Int32.type = struct_value () [template] // CHECK:STDOUT: %.2: type = struct_type {.a: i32, .b: i32} [template] // CHECK:STDOUT: %.3: type = ptr_type %.2 [template] // CHECK:STDOUT: %.4: = complete_type_witness %.2 [template] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [template] { // CHECK:STDOUT: .Int32 = %import_ref // CHECK:STDOUT: import Core//prelude // CHECK:STDOUT: import Core//prelude/... // CHECK:STDOUT: } // CHECK:STDOUT: %import_ref: %Int32.type = import_ref Core//prelude/types, inst+15, loaded [template = constants.%Int32] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [template] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .StructAdapter = %StructAdapter.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %StructAdapter.decl: type = class_decl @StructAdapter [template = constants.%StructAdapter] {} {} // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @StructAdapter { // CHECK:STDOUT: %int.make_type_32.loc8_21: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc8_21.1: type = value_of_initializer %int.make_type_32.loc8_21 [template = i32] // CHECK:STDOUT: %.loc8_21.2: type = converted %int.make_type_32.loc8_21, %.loc8_21.1 [template = i32] // CHECK:STDOUT: %int.make_type_32.loc8_30: init type = call constants.%Int32() [template = i32] // CHECK:STDOUT: %.loc8_30.1: type = value_of_initializer %int.make_type_32.loc8_30 [template = i32] // CHECK:STDOUT: %.loc8_30.2: type = converted %int.make_type_32.loc8_30, %.loc8_30.1 [template = i32] // CHECK:STDOUT: %.loc8_33: type = struct_type {.a: i32, .b: i32} [template = constants.%.2] // CHECK:STDOUT: adapt_decl %.2 // CHECK:STDOUT: %.loc9: = complete_type_witness %.2 [template = constants.%.4] // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%StructAdapter // CHECK:STDOUT: has_error // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @Int32() -> type = "int.make_type_32"; // CHECK:STDOUT: