// 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/none.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/method_access.carbon // TIP: To dump output, run: // TIP: bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/class/method_access.carbon // --- fail_multiple_bindings.carbon class X { fn F[self: Self](); } fn G(x: X) { // TODO: Produce a better diagnostic for this case. // CHECK:STDERR: fail_multiple_bindings.carbon:[[@LINE+4]]:3: error: member name of type `` in compound member access is not an instance member or an interface member [CompoundMemberAccessDoesNotUseBase] // CHECK:STDERR: x.(x.F)(); // CHECK:STDERR: ^~~~~~~ // CHECK:STDERR: x.(x.F)(); } // CHECK:STDOUT: --- fail_multiple_bindings.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // CHECK:STDOUT: %X: type = class_type @X [concrete] // CHECK:STDOUT: %pattern_type: type = pattern_type %X [concrete] // CHECK:STDOUT: %X.F.type: type = fn_type @X.F [concrete] // CHECK:STDOUT: %empty_tuple.type: type = tuple_type () [concrete] // CHECK:STDOUT: %X.F: %X.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: %G.type: type = fn_type @G [concrete] // CHECK:STDOUT: %G: %G.type = struct_value () [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .X = %X.decl // CHECK:STDOUT: .G = %G.decl // CHECK:STDOUT: } // CHECK:STDOUT: %X.decl: type = class_decl @X [concrete = constants.%X] {} {} // CHECK:STDOUT: %G.decl: %G.type = fn_decl @G [concrete = constants.%G] { // CHECK:STDOUT: %x.patt: %pattern_type = binding_pattern x [concrete] // CHECK:STDOUT: %x.param_patt: %pattern_type = value_param_pattern %x.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %x.param: %X = value_param call_param0 // CHECK:STDOUT: %X.ref: type = name_ref X, file.%X.decl [concrete = constants.%X] // CHECK:STDOUT: %x: %X = bind_name x, %x.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: class @X { // CHECK:STDOUT: %X.F.decl: %X.F.type = fn_decl @X.F [concrete = constants.%X.F] { // CHECK:STDOUT: %self.patt: %pattern_type = binding_pattern self [concrete] // CHECK:STDOUT: %self.param_patt: %pattern_type = value_param_pattern %self.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %self.param: %X = value_param call_param0 // CHECK:STDOUT: %Self.ref: type = name_ref Self, constants.%X [concrete = constants.%X] // CHECK:STDOUT: %self: %X = bind_name self, %self.param // CHECK:STDOUT: } // CHECK:STDOUT: %empty_struct_type: type = struct_type {} [concrete = constants.%empty_struct_type] // CHECK:STDOUT: %complete_type: = complete_type_witness %empty_struct_type [concrete = constants.%complete_type] // CHECK:STDOUT: complete_type_witness = %complete_type // CHECK:STDOUT: // CHECK:STDOUT: !members: // CHECK:STDOUT: .Self = constants.%X // CHECK:STDOUT: .F = %X.F.decl // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @X.F(%self.param: %X); // CHECK:STDOUT: // CHECK:STDOUT: fn @G(%x.param: %X) { // CHECK:STDOUT: !entry: // CHECK:STDOUT: %x.ref.loc12_3: %X = name_ref x, %x // CHECK:STDOUT: %x.ref.loc12_6: %X = name_ref x, %x // CHECK:STDOUT: %F.ref: %X.F.type = name_ref F, @X.%X.F.decl [concrete = constants.%X.F] // CHECK:STDOUT: %X.F.bound: = bound_method %x.ref.loc12_6, %F.ref // CHECK:STDOUT: %X.F.call: init %empty_tuple.type = call %X.F.bound(%x.ref.loc12_6) // CHECK:STDOUT: return // CHECK:STDOUT: } // CHECK:STDOUT: