// 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/primitives.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/struct/reorder_fields.carbon // TIP: To dump output, run: // TIP: bazel run //toolchain/testing:file_test -- --dump_output --file_tests=toolchain/check/testdata/struct/reorder_fields.carbon fn MakeI32() -> i32; fn MakeF64() -> f64; fn F() -> {.a: i32, .b: f64} { let x: {.a: i32, .b: f64} = {.b = MakeF64(), .a = MakeI32()}; let y: {.b: f64, .a: i32} = x; return y; } // CHECK:STDOUT: --- reorder_fields.carbon // CHECK:STDOUT: // CHECK:STDOUT: constants { // 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: %MakeI32.type: type = fn_type @MakeI32 [concrete] // CHECK:STDOUT: %MakeI32: %MakeI32.type = struct_value () [concrete] // CHECK:STDOUT: %int_64: Core.IntLiteral = int_value 64 [concrete] // CHECK:STDOUT: %Float.type: type = fn_type @Float [concrete] // CHECK:STDOUT: %Float: %Float.type = struct_value () [concrete] // CHECK:STDOUT: %pattern_type.3de: type = pattern_type f64 [concrete] // CHECK:STDOUT: %MakeF64.type: type = fn_type @MakeF64 [concrete] // CHECK:STDOUT: %MakeF64: %MakeF64.type = struct_value () [concrete] // CHECK:STDOUT: %struct_type.a.b: type = struct_type {.a: %i32, .b: f64} [concrete] // CHECK:STDOUT: %pattern_type.59f: type = pattern_type %struct_type.a.b [concrete] // CHECK:STDOUT: %F.type: type = fn_type @F [concrete] // CHECK:STDOUT: %F: %F.type = struct_value () [concrete] // CHECK:STDOUT: %struct_type.b.a: type = struct_type {.b: f64, .a: %i32} [concrete] // CHECK:STDOUT: %pattern_type.a24: type = pattern_type %struct_type.b.a [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: imports { // CHECK:STDOUT: %Core: = namespace file.%Core.import, [concrete] { // CHECK:STDOUT: .Int = %Core.Int // CHECK:STDOUT: .Float = %Core.Float // 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.Float: %Float.type = import_ref Core//prelude/parts/float, Float, loaded [concrete = constants.%Float] // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: file { // CHECK:STDOUT: package: = namespace [concrete] { // CHECK:STDOUT: .Core = imports.%Core // CHECK:STDOUT: .MakeI32 = %MakeI32.decl // CHECK:STDOUT: .MakeF64 = %MakeF64.decl // CHECK:STDOUT: .F = %F.decl // CHECK:STDOUT: } // CHECK:STDOUT: %Core.import = import Core // CHECK:STDOUT: %MakeI32.decl: %MakeI32.type = fn_decl @MakeI32 [concrete = constants.%MakeI32] { // 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_param0 [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: %return.param: ref %i32 = out_param call_param0 // CHECK:STDOUT: %return: ref %i32 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: %MakeF64.decl: %MakeF64.type = fn_decl @MakeF64 [concrete = constants.%MakeF64] { // CHECK:STDOUT: %return.patt: %pattern_type.3de = return_slot_pattern [concrete] // CHECK:STDOUT: %return.param_patt: %pattern_type.3de = out_param_pattern %return.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_64: Core.IntLiteral = int_value 64 [concrete = constants.%int_64] // CHECK:STDOUT: %float.make_type: init type = call constants.%Float(%int_64) [concrete = f64] // CHECK:STDOUT: %.loc16_17.1: type = value_of_initializer %float.make_type [concrete = f64] // CHECK:STDOUT: %.loc16_17.2: type = converted %float.make_type, %.loc16_17.1 [concrete = f64] // CHECK:STDOUT: %return.param: ref f64 = out_param call_param0 // CHECK:STDOUT: %return: ref f64 = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: %F.decl: %F.type = fn_decl @F [concrete = constants.%F] { // CHECK:STDOUT: %return.patt: %pattern_type.59f = return_slot_pattern [concrete] // CHECK:STDOUT: %return.param_patt: %pattern_type.59f = out_param_pattern %return.patt, call_param0 [concrete] // CHECK:STDOUT: } { // CHECK:STDOUT: %int_32.loc18: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc18: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %int_64.loc18: Core.IntLiteral = int_value 64 [concrete = constants.%int_64] // CHECK:STDOUT: %float.make_type.loc18: init type = call constants.%Float(%int_64.loc18) [concrete = f64] // CHECK:STDOUT: %.loc18_25.1: type = value_of_initializer %float.make_type.loc18 [concrete = f64] // CHECK:STDOUT: %.loc18_25.2: type = converted %float.make_type.loc18, %.loc18_25.1 [concrete = f64] // CHECK:STDOUT: %struct_type.a.b.loc18: type = struct_type {.a: %i32, .b: f64} [concrete = constants.%struct_type.a.b] // CHECK:STDOUT: %return.param: ref %struct_type.a.b = out_param call_param0 // CHECK:STDOUT: %return: ref %struct_type.a.b = return_slot %return.param // CHECK:STDOUT: } // CHECK:STDOUT: } // CHECK:STDOUT: // CHECK:STDOUT: fn @MakeI32() -> %i32; // CHECK:STDOUT: // CHECK:STDOUT: fn @MakeF64() -> f64; // CHECK:STDOUT: // CHECK:STDOUT: fn @F() -> %return.param: %struct_type.a.b { // CHECK:STDOUT: !entry: // CHECK:STDOUT: name_binding_decl { // CHECK:STDOUT: %x.patt: %pattern_type.59f = binding_pattern x [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: %MakeF64.ref: %MakeF64.type = name_ref MakeF64, file.%MakeF64.decl [concrete = constants.%MakeF64] // CHECK:STDOUT: %MakeF64.call: init f64 = call %MakeF64.ref() // CHECK:STDOUT: %MakeI32.ref: %MakeI32.type = name_ref MakeI32, file.%MakeI32.decl [concrete = constants.%MakeI32] // CHECK:STDOUT: %MakeI32.call: init %i32 = call %MakeI32.ref() // CHECK:STDOUT: %.loc19_62.1: %struct_type.b.a = struct_literal (%MakeF64.call, %MakeI32.call) // CHECK:STDOUT: %.loc19_27: type = splice_block %struct_type.a.b.loc19 [concrete = constants.%struct_type.a.b] { // CHECK:STDOUT: %int_32.loc19: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc19: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %int_64.loc19: Core.IntLiteral = int_value 64 [concrete = constants.%int_64] // CHECK:STDOUT: %float.make_type.loc19: init type = call constants.%Float(%int_64.loc19) [concrete = f64] // CHECK:STDOUT: %.loc19_24.1: type = value_of_initializer %float.make_type.loc19 [concrete = f64] // CHECK:STDOUT: %.loc19_24.2: type = converted %float.make_type.loc19, %.loc19_24.1 [concrete = f64] // CHECK:STDOUT: %struct_type.a.b.loc19: type = struct_type {.a: %i32, .b: f64} [concrete = constants.%struct_type.a.b] // CHECK:STDOUT: } // CHECK:STDOUT: %.loc19_62.2: %i32 = value_of_initializer %MakeI32.call // CHECK:STDOUT: %.loc19_62.3: %i32 = converted %MakeI32.call, %.loc19_62.2 // CHECK:STDOUT: %.loc19_62.4: f64 = value_of_initializer %MakeF64.call // CHECK:STDOUT: %.loc19_62.5: f64 = converted %MakeF64.call, %.loc19_62.4 // CHECK:STDOUT: %struct.loc19: %struct_type.a.b = struct_value (%.loc19_62.3, %.loc19_62.5) // CHECK:STDOUT: %.loc19_62.6: %struct_type.a.b = converted %.loc19_62.1, %struct.loc19 // CHECK:STDOUT: %x: %struct_type.a.b = bind_name x, %.loc19_62.6 // CHECK:STDOUT: name_binding_decl { // CHECK:STDOUT: %y.patt: %pattern_type.a24 = binding_pattern y [concrete] // CHECK:STDOUT: } // CHECK:STDOUT: %x.ref: %struct_type.a.b = name_ref x, %x // CHECK:STDOUT: %.loc20_27: type = splice_block %struct_type.b.a [concrete = constants.%struct_type.b.a] { // CHECK:STDOUT: %int_64.loc20: Core.IntLiteral = int_value 64 [concrete = constants.%int_64] // CHECK:STDOUT: %float.make_type.loc20: init type = call constants.%Float(%int_64.loc20) [concrete = f64] // CHECK:STDOUT: %.loc20_15.1: type = value_of_initializer %float.make_type.loc20 [concrete = f64] // CHECK:STDOUT: %.loc20_15.2: type = converted %float.make_type.loc20, %.loc20_15.1 [concrete = f64] // CHECK:STDOUT: %int_32.loc20: Core.IntLiteral = int_value 32 [concrete = constants.%int_32] // CHECK:STDOUT: %i32.loc20: type = class_type @Int, @Int(constants.%int_32) [concrete = constants.%i32] // CHECK:STDOUT: %struct_type.b.a: type = struct_type {.b: f64, .a: %i32} [concrete = constants.%struct_type.b.a] // CHECK:STDOUT: } // CHECK:STDOUT: %.loc20_31.1: f64 = struct_access %x.ref, element1 // CHECK:STDOUT: %.loc20_31.2: %i32 = struct_access %x.ref, element0 // CHECK:STDOUT: %struct.loc20: %struct_type.b.a = struct_value (%.loc20_31.1, %.loc20_31.2) // CHECK:STDOUT: %.loc20_31.3: %struct_type.b.a = converted %x.ref, %struct.loc20 // CHECK:STDOUT: %y: %struct_type.b.a = bind_name y, %.loc20_31.3 // CHECK:STDOUT: %y.ref: %struct_type.b.a = name_ref y, %y // CHECK:STDOUT: %.loc21_10.1: %i32 = struct_access %y.ref, element1 // CHECK:STDOUT: %.loc21_10.2: ref %i32 = struct_access %return, element1 // CHECK:STDOUT: %.loc21_10.3: init %i32 = initialize_from %.loc21_10.1 to %.loc21_10.2 // CHECK:STDOUT: %.loc21_10.4: f64 = struct_access %y.ref, element0 // CHECK:STDOUT: %.loc21_10.5: ref f64 = struct_access %return, element0 // CHECK:STDOUT: %.loc21_10.6: init f64 = initialize_from %.loc21_10.4 to %.loc21_10.5 // CHECK:STDOUT: %.loc21_10.7: init %struct_type.a.b = struct_init (%.loc21_10.3, %.loc21_10.6) to %return // CHECK:STDOUT: %.loc21_11: init %struct_type.a.b = converted %y.ref, %.loc21_10.7 // CHECK:STDOUT: return %.loc21_11 to %return // CHECK:STDOUT: } // CHECK:STDOUT: