| //===-- TestOps.td - Test dialect operation definitions ----*- tablegen -*-===// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #ifndef TEST_OPS |
| #define TEST_OPS |
| |
| include "mlir/IR/OpBase.td" |
| include "mlir/IR/OpAsmInterface.td" |
| include "mlir/Analysis/CallInterfaces.td" |
| include "mlir/Analysis/InferTypeOpInterface.td" |
| |
| def TEST_Dialect : Dialect { |
| let name = "test"; |
| let cppNamespace = ""; |
| } |
| |
| class TEST_Op<string mnemonic, list<OpTrait> traits = []> : |
| Op<TEST_Dialect, mnemonic, traits>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Types |
| //===----------------------------------------------------------------------===// |
| |
| def ComplexF64 : Complex<F64>; |
| def ComplexOp : TEST_Op<"complex_f64"> { |
| let results = (outs ComplexF64); |
| } |
| |
| def ComplexTensorOp : TEST_Op<"complex_f64_tensor"> { |
| let results = (outs TensorOf<[ComplexF64]>); |
| } |
| |
| def AnyShaped: ShapedContainerType<[AnyType], IsShapedTypePred, "shaped">; |
| |
| def TupleOp : TEST_Op<"tuple_32_bit"> { |
| let results = (outs TupleOf<[I32, F32]>); |
| } |
| |
| def NestedTupleOp : TEST_Op<"nested_tuple_32_bit"> { |
| let results = (outs NestedTupleOf<[I32, F32]>); |
| } |
| |
| def TakesStaticMemRefOp : TEST_Op<"takes_static_memref"> { |
| let arguments = (ins AnyStaticShapeMemRef:$x); |
| } |
| |
| def RankLessThan2I8F32MemRefOp : TEST_Op<"rank_less_than_2_I8_F32_memref"> { |
| let results = (outs MemRefRankOf<[I8, F32], [0, 1]>); |
| } |
| |
| def NDTensorOfOp : TEST_Op<"nd_tensor_of"> { |
| let arguments = (ins |
| 0DTensorOf<[F32]>:$arg0, |
| 1DTensorOf<[F32]>:$arg1, |
| 2DTensorOf<[I16]>:$arg2, |
| 3DTensorOf<[I16]>:$arg3, |
| 4DTensorOf<[I16]>:$arg4 |
| ); |
| } |
| |
| def RankedTensorOp : TEST_Op<"ranked_tensor_op"> { |
| let arguments = (ins AnyRankedTensor:$input); |
| } |
| |
| def MultiTensorRankOf : TEST_Op<"multi_tensor_rank_of"> { |
| let arguments = (ins |
| TensorRankOf<[I8, I32, F32], [0, 1]>:$arg0 |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Symbols |
| //===----------------------------------------------------------------------===// |
| |
| def SymbolOp : TEST_Op<"symbol", [Symbol]> { |
| let summary = "operation which defines a new symbol"; |
| let arguments = (ins StrAttr:$sym_name, |
| OptionalAttr<StrAttr>:$sym_visibility); |
| } |
| |
| def SymbolScopeOp : TEST_Op<"symbol_scope", |
| [SymbolTable, SingleBlockImplicitTerminator<"TerminatorOp">]> { |
| let summary = "operation which defines a new symbol table"; |
| let regions = (region SizedRegion<1>:$region); |
| } |
| |
| def SymbolTableRegionOp : TEST_Op<"symbol_table_region", [SymbolTable]> { |
| let summary = "operation which defines a new symbol table without a " |
| "restriction on a terminator"; |
| let regions = (region SizedRegion<1>:$region); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Operands |
| //===----------------------------------------------------------------------===// |
| |
| def MixedNormalVariadicOperandOp : TEST_Op< |
| "mixed_normal_variadic_operand", [SameVariadicOperandSize]> { |
| let arguments = (ins |
| Variadic<AnyTensor>:$input1, |
| AnyTensor:$input2, |
| Variadic<AnyTensor>:$input3 |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Results |
| //===----------------------------------------------------------------------===// |
| |
| def MixedNormalVariadicResults : TEST_Op< |
| "mixed_normal_variadic_result", [SameVariadicResultSize]> { |
| let results = (outs |
| Variadic<AnyTensor>:$output1, |
| AnyTensor:$output2, |
| Variadic<AnyTensor>:$output3 |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Attributes |
| //===----------------------------------------------------------------------===// |
| |
| def NonNegIntAttrOp : TEST_Op<"non_negative_int_attr"> { |
| let arguments = (ins |
| NonNegativeI32Attr:$i32attr, |
| NonNegativeI64Attr:$i64attr |
| ); |
| } |
| |
| def PositiveIntAttrOp : TEST_Op<"positive_int_attr"> { |
| let arguments = (ins |
| PositiveI32Attr:$i32attr, |
| PositiveI64Attr:$i64attr |
| ); |
| } |
| |
| def TypeArrayAttrOp : TEST_Op<"type_array_attr"> { |
| let arguments = (ins TypeArrayAttr:$attr); |
| } |
| def TypeStringAttrWithTypeOp : TEST_Op<"string_attr_with_type"> { |
| let arguments = (ins StrAttr:$attr); |
| let printer = [{ p << getAttr("attr"); }]; |
| let parser = [{ |
| Attribute attr; |
| Type stringType = OpaqueType::get(Identifier::get("foo", |
| result.getContext()), "string", |
| result.getContext()); |
| return parser.parseAttribute(attr, stringType, "attr", result.attributes); |
| }]; |
| } |
| |
| def StrCaseA: StrEnumAttrCase<"A">; |
| def StrCaseB: StrEnumAttrCase<"B">; |
| |
| def SomeStrEnum: StrEnumAttr< |
| "SomeStrEnum", "", [StrCaseA, StrCaseB]>; |
| |
| def StrEnumAttrOp : TEST_Op<"str_enum_attr"> { |
| let arguments = (ins SomeStrEnum:$attr); |
| let results = (outs I32:$val); |
| } |
| |
| def I32Case5: I32EnumAttrCase<"case5", 5>; |
| def I32Case10: I32EnumAttrCase<"case10", 10>; |
| |
| def SomeI32Enum: I32EnumAttr< |
| "SomeI32Enum", "", [I32Case5, I32Case10]>; |
| |
| def I32EnumAttrOp : TEST_Op<"i32_enum_attr"> { |
| let arguments = (ins SomeI32Enum:$attr); |
| let results = (outs I32:$val); |
| } |
| |
| def I64Case5: I64EnumAttrCase<"case5", 5>; |
| def I64Case10: I64EnumAttrCase<"case10", 10>; |
| |
| def SomeI64Enum: I64EnumAttr< |
| "SomeI64Enum", "", [I64Case5, I64Case10]>; |
| |
| def I64EnumAttrOp : TEST_Op<"i64_enum_attr"> { |
| let arguments = (ins SomeI64Enum:$attr); |
| let results = (outs I32:$val); |
| } |
| |
| def FloatElementsAttrOp : TEST_Op<"float_elements_attr"> { |
| let arguments = (ins |
| RankedF32ElementsAttr<[2]>:$scalar_f32_attr, |
| RankedF64ElementsAttr<[4, 8]>:$tensor_f64_attr |
| ); |
| } |
| |
| // A pattern that updates dense<[3.0, 4.0]> to dense<[5.0, 6.0]>. |
| // This tests both matching and generating float elements attributes. |
| def UpdateFloatElementsAttr : Pat< |
| (FloatElementsAttrOp |
| ConstantAttr<RankedF32ElementsAttr<[2]>, "{3.0f, 4.0f}">:$f32attr, |
| $f64attr), |
| (FloatElementsAttrOp |
| ConstantAttr<RankedF32ElementsAttr<[2]>, "{5.0f, 6.0f}">:$f32attr, |
| $f64attr)>; |
| |
| def IntElementsAttrOp : TEST_Op<"int_elements_attr"> { |
| let arguments = (ins |
| RankedI32ElementsAttr<[2]>:$vector_i32_attr, |
| RankedI64ElementsAttr<[4, 8]>:$matrix_i64_attr |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Attribute Constraints |
| //===----------------------------------------------------------------------===// |
| |
| def SymbolRefOp : TEST_Op<"symbol_ref_attr"> { |
| let arguments = (ins |
| Confined<FlatSymbolRefAttr, [ReferToOp<"FuncOp">]>:$symbol |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Regions |
| //===----------------------------------------------------------------------===// |
| |
| def OneRegionOp : TEST_Op<"one_region_op", []> { |
| let regions = (region AnyRegion); |
| } |
| |
| def TwoRegionOp : TEST_Op<"two_region_op", []> { |
| let regions = (region AnyRegion, AnyRegion); |
| } |
| |
| def SizedRegionOp : TEST_Op<"sized_region_op", []> { |
| let regions = (region SizedRegion<2>:$my_region, SizedRegion<1>); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Call Interfaces |
| //===----------------------------------------------------------------------===// |
| |
| def ConversionCallOp : TEST_Op<"conversion_call_op", |
| [CallOpInterface]> { |
| let arguments = (ins Variadic<AnyType>:$inputs, SymbolRefAttr:$callee); |
| let results = (outs Variadic<AnyType>); |
| |
| let extraClassDeclaration = [{ |
| /// Get the argument operands to the called function. |
| operand_range getArgOperands() { return inputs(); } |
| |
| /// Return the callee of this operation. |
| CallInterfaceCallable getCallableForCallee() { |
| return getAttrOfType<SymbolRefAttr>("callee"); |
| } |
| }]; |
| } |
| |
| def FunctionalRegionOp : TEST_Op<"functional_region_op", |
| [CallableOpInterface]> { |
| let regions = (region AnyRegion:$body); |
| let results = (outs FunctionType); |
| |
| let extraClassDeclaration = [{ |
| Region *getCallableRegion() { return &body(); } |
| ArrayRef<Type> getCallableResults() { |
| return getType().cast<FunctionType>().getResults(); |
| } |
| }]; |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Traits |
| //===----------------------------------------------------------------------===// |
| |
| def SameOperandElementTypeOp : TEST_Op<"same_operand_element_type", |
| [SameOperandsElementType]> { |
| let arguments = (ins AnyType, AnyType); |
| let results = (outs AnyType); |
| } |
| |
| def SameOperandAndResultElementTypeOp : TEST_Op<"same_operand_and_result_element_type", |
| [SameOperandsAndResultElementType]> { |
| let arguments = (ins Variadic<AnyType>); |
| let results = (outs Variadic<AnyType>); |
| } |
| |
| def SameOperandShapeOp : TEST_Op<"same_operand_shape", [SameOperandsShape]> { |
| let arguments = (ins Variadic<AnyShaped>); |
| } |
| |
| def SameOperandAndResultShapeOp : TEST_Op<"same_operand_and_result_shape", |
| [SameOperandsAndResultShape]> { |
| let arguments = (ins Variadic<AnyShaped>); |
| let results = (outs Variadic<AnyShaped>); |
| } |
| |
| def SameOperandAndResultTypeOp : TEST_Op<"same_operand_and_result_type", |
| [SameOperandsAndResultType]> { |
| let arguments = (ins Variadic<AnyType>); |
| let results = (outs Variadic<AnyType>); |
| } |
| |
| def ArgAndResHaveFixedElementTypesOp : |
| TEST_Op<"arg_and_res_have_fixed_element_types", |
| [PredOpTrait<"fixed type combination", |
| And<[ElementTypeIsPred<"x", I32>, |
| ElementTypeIsPred<"y", F32>]>>, |
| ElementTypeIs<"res", I16>]> { |
| let arguments = (ins |
| AnyShaped:$x, AnyShaped:$y); |
| let results = (outs AnyShaped:$res); |
| } |
| |
| def OperandsHaveSameElementType : TEST_Op<"operands_have_same_element_type", [ |
| AllElementTypesMatch<["x", "y"]>]> { |
| let arguments = (ins AnyType:$x, AnyType:$y); |
| } |
| |
| def OperandZeroAndResultHaveSameElementType : TEST_Op< |
| "operand0_and_result_have_same_element_type", |
| [AllElementTypesMatch<["x", "res"]>]> { |
| let arguments = (ins AnyType:$x, AnyType:$y); |
| let results = (outs AnyType:$res); |
| } |
| |
| def OperandsHaveSameType : |
| TEST_Op<"operands_have_same_type", [AllTypesMatch<["x", "y"]>]> { |
| let arguments = (ins AnyType:$x, AnyType:$y); |
| } |
| |
| def OperandZeroAndResultHaveSameType : |
| TEST_Op<"operand0_and_result_have_same_type", |
| [AllTypesMatch<["x", "res"]>]> { |
| let arguments = (ins AnyType:$x, AnyType:$y); |
| let results = (outs AnyType:$res); |
| } |
| |
| def OperandsHaveSameRank : |
| TEST_Op<"operands_have_same_rank", [AllRanksMatch<["x", "y"]>]> { |
| let arguments = (ins AnyShaped:$x, AnyShaped:$y); |
| } |
| |
| def OperandZeroAndResultHaveSameRank : |
| TEST_Op<"operand0_and_result_have_same_rank", |
| [AllRanksMatch<["x", "res"]>]> { |
| let arguments = (ins AnyShaped:$x, AnyShaped:$y); |
| let results = (outs AnyShaped:$res); |
| } |
| |
| def OperandZeroAndResultHaveSameShape : |
| TEST_Op<"operand0_and_result_have_same_shape", |
| [AllShapesMatch<["x", "res"]>]> { |
| let arguments = (ins AnyShaped:$x, AnyShaped:$y); |
| let results = (outs AnyShaped:$res); |
| } |
| |
| def OperandZeroAndResultHaveSameElementCount : |
| TEST_Op<"operand0_and_result_have_same_element_count", |
| [AllElementCountsMatch<["x", "res"]>]> { |
| let arguments = (ins AnyShaped:$x, AnyShaped:$y); |
| let results = (outs AnyShaped:$res); |
| } |
| |
| def FourEqualsFive : |
| TEST_Op<"four_equals_five", [AllMatch<["5", "4"], "4 equals 5">]>; |
| |
| def OperandRankEqualsResultSize : |
| TEST_Op<"operand_rank_equals_result_size", |
| [AllMatch<[Rank<"operand">.result, ElementCount<"result">.result], |
| "operand rank equals result size">]> { |
| let arguments = (ins AnyShaped:$operand); |
| let results = (outs AnyShaped:$result); |
| } |
| |
| def IfFirstOperandIsNoneThenSoIsSecond : |
| TEST_Op<"if_first_operand_is_none_then_so_is_second", [PredOpTrait< |
| "has either both none type operands or first is not none", |
| Or<[ |
| And<[TypeIsPred<"x", NoneType>, TypeIsPred<"y", NoneType>]>, |
| Neg<TypeIsPred<"x", NoneType>>]>>]> { |
| let arguments = (ins AnyType:$x, AnyType:$y); |
| } |
| |
| def BroadcastableOp : TEST_Op<"broadcastable", [ResultsBroadcastableShape]> { |
| let arguments = (ins Variadic<AnyTensor>); |
| let results = (outs AnyTensor); |
| } |
| |
| // There the "HasParent" trait. |
| def ParentOp : TEST_Op<"parent">; |
| def ChildOp : TEST_Op<"child", [HasParent<"ParentOp">]>; |
| |
| |
| def TerminatorOp : TEST_Op<"finish", [Terminator]>; |
| def SingleBlockImplicitTerminatorOp : TEST_Op<"SingleBlockImplicitTerminator", |
| [SingleBlockImplicitTerminator<"TerminatorOp">]> { |
| let regions = (region SizedRegion<1>:$region); |
| } |
| |
| def I32ElementsAttrOp : TEST_Op<"i32ElementsAttr"> { |
| let arguments = (ins I32ElementsAttr:$attr); |
| } |
| |
| def OpWithInferTypeInterfaceOp : TEST_Op<"op_with_infer_type_if", [ |
| DeclareOpInterfaceMethods<InferTypeOpInterface>]> { |
| let arguments = (ins AnyTensor, AnyTensor); |
| let results = (outs AnyTensor); |
| } |
| |
| def InferTensorType : NativeOpTrait<"InferTensorType">; |
| def OpWithShapedTypeInferTypeInterfaceOp : TEST_Op<"op_with_shaped_type_infer_type_if", |
| [ |
| // Op implements infer type op interface. |
| InferTypeOpInterface, |
| // The op will have methods implementing the ShapedType type infer interface. |
| DeclareOpInterfaceMethods<InferShapedTypeOpInterface>, |
| // The op produces tensors and will use the ShapedType type infer interface |
| // along with knowledge that it is producing Tensors to infer shape. |
| InferTensorType |
| ]> { |
| let arguments = (ins AnyTensor, AnyTensor); |
| let results = (outs AnyTensor); |
| } |
| |
| def IsNotScalar : Constraint<CPred<"$0.getType().getRank() != 0">>; |
| |
| def UpdateAttr : Pat<(I32ElementsAttrOp $attr), |
| (I32ElementsAttrOp ConstantAttr<I32ElementsAttr, "0">), |
| [(IsNotScalar $attr)]>; |
| |
| def TestBranchOp : TEST_Op<"br", [Terminator]> { |
| let successors = (successor AnySuccessor:$target); |
| } |
| |
| def AttrSizedOperandOp : TEST_Op<"attr_sized_operands", |
| [AttrSizedOperandSegments]> { |
| let arguments = (ins |
| Variadic<I32>:$a, |
| Variadic<I32>:$b, |
| I32:$c, |
| Variadic<I32>:$d, |
| I32ElementsAttr:$operand_segment_sizes |
| ); |
| } |
| |
| def AttrSizedResultOp : TEST_Op<"attr_sized_results", |
| [AttrSizedResultSegments]> { |
| let arguments = (ins |
| I32ElementsAttr:$result_segment_sizes |
| ); |
| let results = (outs |
| Variadic<I32>:$a, |
| Variadic<I32>:$b, |
| I32:$c, |
| Variadic<I32>:$d |
| ); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Patterns |
| //===----------------------------------------------------------------------===// |
| |
| def OpA : TEST_Op<"op_a"> { |
| let arguments = (ins I32, I32Attr:$attr); |
| let results = (outs I32); |
| } |
| |
| def OpB : TEST_Op<"op_b"> { |
| let arguments = (ins I32, I32Attr:$attr); |
| let results = (outs I32); |
| } |
| |
| // Test named pattern. |
| def TestNamedPatternRule : Pat<(OpA $input, $attr), (OpB $input, $attr)>; |
| |
| // Test with fused location. |
| def : Pat<(OpA (OpA $input, $attr), $bttr), (OpB $input, $bttr)>; |
| |
| // Test added benefit. |
| def OpD : TEST_Op<"op_d">, Arguments<(ins I32)>, Results<(outs I32)>; |
| def OpE : TEST_Op<"op_e">, Arguments<(ins I32)>, Results<(outs I32)>; |
| def OpF : TEST_Op<"op_f">, Arguments<(ins I32)>, Results<(outs I32)>; |
| def OpG : TEST_Op<"op_g">, Arguments<(ins I32)>, Results<(outs I32)>; |
| // Verify that bumping benefit results in selecting different op. |
| def : Pat<(OpD $input), (OpE $input)>; |
| def : Pat<(OpD $input), (OpF $input), [], (addBenefit 10)>; |
| // Verify that patterns with more source nodes are selected before those with fewer. |
| def : Pat<(OpG $input), (OpB $input, ConstantAttr<I32Attr, "20">:$attr)>; |
| def : Pat<(OpG (OpG $input)), (OpB $input, ConstantAttr<I32Attr, "34">:$attr)>; |
| |
| // Test patterns for zero-result op. |
| def OpH : TEST_Op<"op_h">, Arguments<(ins I32)>, Results<(outs)>; |
| def OpI : TEST_Op<"op_i">, Arguments<(ins I32)>, Results<(outs)>; |
| def : Pat<(OpH $input), (OpI $input)>; |
| |
| // Test patterns for zero-input op. |
| def OpJ : TEST_Op<"op_j">, Arguments<(ins)>, Results<(outs I32)>; |
| def OpK : TEST_Op<"op_k">, Arguments<(ins)>, Results<(outs I32)>; |
| def : Pat<(OpJ), (OpK)>; |
| |
| // Test `$_` for ignoring op argument match. |
| def TestIgnoreArgMatchSrcOp : TEST_Op<"ignore_arg_match_src"> { |
| let arguments = (ins |
| AnyType:$a, AnyType:$b, AnyType:$c, |
| AnyAttr:$d, AnyAttr:$e, AnyAttr:$f); |
| } |
| def TestIgnoreArgMatchDstOp : TEST_Op<"ignore_arg_match_dst"> { |
| let arguments = (ins AnyType:$b, AnyAttr:$f); |
| } |
| def : Pat<(TestIgnoreArgMatchSrcOp $_, $b, I32, I64Attr:$_, $_, $f), |
| (TestIgnoreArgMatchDstOp $b, $f)>; |
| |
| def OpInterleavedOperandAttribute1 : TEST_Op<"interleaved_operand_attr1"> { |
| let arguments = (ins |
| I32:$input1, |
| I64Attr:$attr1, |
| I32:$input2, |
| I64Attr:$attr2 |
| ); |
| } |
| |
| def OpInterleavedOperandAttribute2 : TEST_Op<"interleaved_operand_attr2"> { |
| let arguments = (ins |
| I32:$input1, |
| I64Attr:$attr1, |
| I32:$input2, |
| I64Attr:$attr2 |
| ); |
| } |
| |
| def ManyArgsOp : TEST_Op<"many_arguments"> { |
| let arguments = (ins |
| I32:$input1, I32:$input2, I32:$input3, I32:$input4, I32:$input5, |
| I32:$input6, I32:$input7, I32:$input8, I32:$input9, |
| I64Attr:$attr1, I64Attr:$attr2, I64Attr:$attr3, I64Attr:$attr4, |
| I64Attr:$attr5, I64Attr:$attr6, I64Attr:$attr7, I64Attr:$attr8, |
| I64Attr:$attr9 |
| ); |
| } |
| |
| // Test that DRR does not blow up when seeing lots of arguments. |
| def : Pat<(ManyArgsOp |
| $input1, $input2, $input3, $input4, $input5, |
| $input6, $input7, $input8, $input9, |
| ConstantAttr<I64Attr, "42">, |
| $attr2, $attr3, $attr4, $attr5, $attr6, |
| $attr7, $attr8, $attr9), |
| (ManyArgsOp |
| $input1, $input2, $input3, $input4, $input5, |
| $input6, $input7, $input8, $input9, |
| ConstantAttr<I64Attr, "24">, |
| $attr2, $attr3, $attr4, $attr5, $attr6, |
| $attr7, $attr8, $attr9)>; |
| |
| // Test that we can capture and reference interleaved operands and attributes. |
| def : Pat<(OpInterleavedOperandAttribute1 $input1, $attr1, $input2, $attr2), |
| (OpInterleavedOperandAttribute2 $input1, $attr1, $input2, $attr2)>; |
| |
| // Test NativeCodeCall. |
| def OpNativeCodeCall1 : TEST_Op<"native_code_call1"> { |
| let arguments = (ins |
| I32:$input1, I32:$input2, |
| BoolAttr:$choice, |
| I64Attr:$attr1, I64Attr:$attr2 |
| ); |
| let results = (outs I32); |
| } |
| def OpNativeCodeCall2 : TEST_Op<"native_code_call2"> { |
| let arguments = (ins I32:$input, I64ArrayAttr:$attr); |
| let results = (outs I32); |
| } |
| // Native code call to invoke a C++ function |
| def CreateOperand: NativeCodeCall<"chooseOperand($0, $1, $2)">; |
| // Native code call to invoke a C++ expression |
| def CreateArrayAttr: NativeCodeCall<"$_builder.getArrayAttr({$0, $1})">; |
| // Test that we can use NativeCodeCall to create operand and attribute. |
| // This pattern chooses between $input1 and $input2 according to $choice and |
| // it combines $attr1 and $attr2 into an array attribute. |
| def : Pat<(OpNativeCodeCall1 $input1, $input2, |
| ConstBoolAttrTrue:$choice, $attr1, $attr2), |
| (OpNativeCodeCall2 (CreateOperand $input1, $input2, $choice), |
| (CreateArrayAttr $attr1, $attr2))>; |
| // Note: the following is just for testing purpose. |
| // Should use the replaceWithValue directive instead. |
| def UseOpResult: NativeCodeCall<"$0">; |
| // Test that we can use NativeCodeCall to create result. |
| def : Pat<(OpNativeCodeCall1 $input1, $input2, |
| ConstBoolAttrFalse, $attr1, $attr2), |
| (UseOpResult $input2)>; |
| |
| def OpNativeCodeCall3 : TEST_Op<"native_code_call3"> { |
| let arguments = (ins I32:$input); |
| let results = (outs I32); |
| } |
| // Test that NativeCodeCall is not ignored if it is not used to directly |
| // replace the matched root op. |
| def : Pattern<(OpNativeCodeCall3 $input), |
| [(NativeCodeCall<"createOpI($_builder, $0)"> $input), (OpK)]>; |
| |
| // Test AllAttrConstraintsOf. |
| def OpAllAttrConstraint1 : TEST_Op<"all_attr_constraint_of1"> { |
| let arguments = (ins I64ArrayAttr:$attr); |
| let results = (outs I32); |
| } |
| def OpAllAttrConstraint2 : TEST_Op<"all_attr_constraint_of2"> { |
| let arguments = (ins I64ArrayAttr:$attr); |
| let results = (outs I32); |
| } |
| def Constraint0 : AttrConstraint< |
| CPred<"$_self.cast<ArrayAttr>()[0]." |
| "cast<IntegerAttr>().getInt() == 0">, |
| "[0] == 0">; |
| def Constraint1 : AttrConstraint< |
| CPred<"$_self.cast<ArrayAttr>()[1].cast<IntegerAttr>().getInt() == 1">, |
| "[1] == 1">; |
| def : Pat<(OpAllAttrConstraint1 |
| AllAttrConstraintsOf<[Constraint0, Constraint1]>:$attr), |
| (OpAllAttrConstraint2 $attr)>; |
| |
| // Op for testing RewritePattern removing op with inner ops. |
| def TestOpWithRegionPattern : TEST_Op<"op_with_region_pattern"> { |
| let regions = (region SizedRegion<1>:$region); |
| let hasCanonicalizer = 1; |
| } |
| |
| // Op for testing trivial removal via folding of op with inner ops and no uses. |
| def TestOpWithRegionFoldNoSideEffect : TEST_Op< |
| "op_with_region_fold_no_side_effect", [NoSideEffect]> { |
| let regions = (region SizedRegion<1>:$region); |
| } |
| |
| // Op for testing folding of outer op with inner ops. |
| def TestOpWithRegionFold : TEST_Op<"op_with_region_fold"> { |
| let arguments = (ins I32:$operand); |
| let results = (outs I32); |
| let regions = (region SizedRegion<1>:$region); |
| let hasFolder = 1; |
| } |
| |
| def TestOpWithVariadicResultsAndFolder: TEST_Op<"op_with_variadic_results_and_folder"> { |
| let arguments = (ins Variadic<I32>:$operands); |
| let results = (outs Variadic<I32>); |
| let hasFolder = 1; |
| } |
| |
| def TestCommutativeOp : TEST_Op<"op_commutative", [Commutative]> { |
| let arguments = (ins I32:$op1, I32:$op2, I32:$op3, I32:$op4); |
| let results = (outs I32); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Patterns (Symbol Binding) |
| |
| // Test symbol binding. |
| def OpSymbolBindingA : TEST_Op<"symbol_binding_a", []> { |
| let arguments = (ins I32:$operand, I64Attr:$attr); |
| let results = (outs I32); |
| } |
| def OpSymbolBindingB : TEST_Op<"symbol_binding_b", []> { |
| let arguments = (ins I32:$operand); |
| let results = (outs I32); |
| |
| let builders = [ |
| OpBuilder< |
| "Builder *builder, OperationState &state, Value operand", |
| [{ |
| state.types.assign({builder->getIntegerType(32)}); |
| state.addOperands({operand}); |
| }]> |
| ]; |
| } |
| def OpSymbolBindingC : TEST_Op<"symbol_binding_c", []> { |
| let arguments = (ins I32:$operand); |
| let results = (outs I32); |
| let builders = OpSymbolBindingB.builders; |
| } |
| def OpSymbolBindingD : TEST_Op<"symbol_binding_d", []> { |
| let arguments = (ins I32:$input1, I32:$input2, I64Attr:$attr); |
| let results = (outs I32); |
| } |
| def HasOneUse: Constraint<CPred<"$0.hasOneUse()">, "has one use">; |
| def : Pattern< |
| // Bind to source pattern op operand/attribute/result |
| (OpSymbolBindingA:$res_a $operand, $attr), [ |
| // Bind to auxiliary op result |
| (OpSymbolBindingC:$res_c (OpSymbolBindingB:$res_b $operand)), |
| |
| // Use bound symbols in resultant ops |
| (OpSymbolBindingD $res_b, $res_c, $attr)], |
| // Use bound symbols in additional constraints |
| [(HasOneUse $res_a)]>; |
| |
| def OpSymbolBindingNoResult : TEST_Op<"symbol_binding_no_result", []> { |
| let arguments = (ins I32:$operand); |
| } |
| |
| // Test that we can bind to an op without results and reference it later. |
| def : Pat<(OpSymbolBindingNoResult:$op $operand), |
| (NativeCodeCall<"handleNoResultOp($_builder, $0)"> $op)>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Patterns (Attributes) |
| |
| // Test matching against op attributes. |
| def OpAttrMatch1 : TEST_Op<"match_op_attribute1"> { |
| let arguments = (ins |
| I32Attr:$required_attr, |
| OptionalAttr<I32Attr>:$optional_attr, |
| DefaultValuedAttr<I32Attr, "42">:$default_valued_attr, |
| I32Attr:$more_attr |
| ); |
| let results = (outs I32); |
| } |
| def OpAttrMatch2 : TEST_Op<"match_op_attribute2"> { |
| let arguments = OpAttrMatch1.arguments; |
| let results = (outs I32); |
| } |
| def MoreConstraint : AttrConstraint< |
| CPred<"$_self.cast<IntegerAttr>().getInt() == 4">, "more constraint">; |
| def : Pat<(OpAttrMatch1 $required, $optional, $default_valued, |
| MoreConstraint:$more), |
| (OpAttrMatch2 $required, $optional, $default_valued, $more)>; |
| |
| // Test unit attrs. |
| def OpAttrMatch3 : TEST_Op<"match_op_attribute3"> { |
| let arguments = (ins UnitAttr:$attr); |
| let results = (outs I32); |
| } |
| def OpAttrMatch4 : TEST_Op<"match_op_attribute4"> { |
| let arguments = (ins UnitAttr:$attr1, UnitAttr:$attr2); |
| let results = (outs I32); |
| } |
| def : Pat<(OpAttrMatch3 $attr), (OpAttrMatch4 ConstUnitAttr, $attr)>; |
| |
| // Test with constant attr. |
| def OpC : TEST_Op<"op_c">, Arguments<(ins I32)>, Results<(outs I32)>; |
| def : Pat<(OpC $input), (OpB $input, ConstantAttr<I32Attr, "17">:$attr)>; |
| |
| // Test string enum attribute in rewrites. |
| def : Pat<(StrEnumAttrOp StrCaseA), (StrEnumAttrOp StrCaseB)>; |
| // Test integer enum attribute in rewrites. |
| def : Pat<(I32EnumAttrOp I32Case5), (I32EnumAttrOp I32Case10)>; |
| def : Pat<(I64EnumAttrOp I64Case5), (I64EnumAttrOp I64Case10)>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Patterns (Multi-result Ops) |
| |
| def MultiResultOpKind1: I64EnumAttrCase<"kind1", 1>; |
| def MultiResultOpKind2: I64EnumAttrCase<"kind2", 2>; |
| def MultiResultOpKind3: I64EnumAttrCase<"kind3", 3>; |
| def MultiResultOpKind4: I64EnumAttrCase<"kind4", 4>; |
| def MultiResultOpKind5: I64EnumAttrCase<"kind5", 5>; |
| def MultiResultOpKind6: I64EnumAttrCase<"kind6", 6>; |
| |
| def MultiResultOpEnum: I64EnumAttr< |
| "MultiResultOpEnum", "Multi-result op kinds", [ |
| MultiResultOpKind1, MultiResultOpKind2, MultiResultOpKind3, |
| MultiResultOpKind4, MultiResultOpKind5, MultiResultOpKind6 |
| ]>; |
| |
| def ThreeResultOp : TEST_Op<"three_result"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs I32:$result1, F32:$result2, F32:$result3); |
| } |
| |
| def AnotherThreeResultOp : TEST_Op<"another_three_result"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs I32:$result1, F32:$result2, F32:$result3); |
| } |
| |
| def TwoResultOp : TEST_Op<"two_result"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs I32:$result1, F32:$result2); |
| |
| let builders = [ |
| OpBuilder< |
| "Builder *builder, OperationState &state, IntegerAttr kind", |
| [{ |
| auto i32 = builder->getIntegerType(32); |
| auto f32 = builder->getF32Type(); |
| state.types.assign({i32, f32}); |
| state.addAttribute("kind", kind); |
| }]> |
| ]; |
| } |
| |
| def AnotherTwoResultOp : TEST_Op<"another_two_result"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs F32:$result1, F32:$result2); |
| } |
| |
| def OneResultOp1 : TEST_Op<"one_result1"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs F32:$result1); |
| } |
| |
| def OneResultOp2 : TEST_Op<"one_result2"> { |
| let arguments = (ins MultiResultOpEnum:$kind); |
| let results = (outs I32:$result1); |
| } |
| |
| def OneResultOp3 : TEST_Op<"one_result3"> { |
| let arguments = (ins F32); |
| let results = (outs I32:$result1); |
| } |
| |
| // Test using multi-result op as a whole |
| def : Pat<(ThreeResultOp MultiResultOpKind1), |
| (AnotherThreeResultOp MultiResultOpKind1)>; |
| |
| // Test using multi-result op as a whole for partial replacement |
| def : Pattern<(ThreeResultOp MultiResultOpKind2), |
| [(TwoResultOp MultiResultOpKind2), |
| (OneResultOp1 MultiResultOpKind2)]>; |
| def : Pattern<(ThreeResultOp MultiResultOpKind3), |
| [(OneResultOp2 MultiResultOpKind3), |
| (AnotherTwoResultOp MultiResultOpKind3)]>; |
| |
| // Test using results separately in a multi-result op |
| def : Pattern<(ThreeResultOp MultiResultOpKind4), |
| [(TwoResultOp:$res1__0 MultiResultOpKind4), |
| (OneResultOp1 MultiResultOpKind4), |
| (TwoResultOp:$res2__1 MultiResultOpKind4)]>; |
| |
| // Test referencing a single value in the value pack |
| // This rule only matches TwoResultOp if its second result has no use. |
| def : Pattern<(TwoResultOp:$res MultiResultOpKind5), |
| [(OneResultOp2 MultiResultOpKind5), |
| (OneResultOp1 MultiResultOpKind5)], |
| [(HasNoUseOf:$res__1)]>; |
| |
| // Test using auxiliary ops for replacing multi-result op |
| def : Pattern< |
| (ThreeResultOp MultiResultOpKind6), [ |
| // Auxiliary op generated to help building the final result but not |
| // directly used to replace the source op's results. |
| (TwoResultOp:$interm MultiResultOpKind6), |
| |
| (OneResultOp3 $interm__1), |
| (AnotherTwoResultOp MultiResultOpKind6) |
| ]>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Patterns (Variadic Ops) |
| |
| def OneVResOneVOperandOp1 : TEST_Op<"one_variadic_out_one_variadic_in1"> { |
| let arguments = (ins Variadic<I32>); |
| let results = (outs Variadic<I32>); |
| } |
| def OneVResOneVOperandOp2 : TEST_Op<"one_variadic_out_one_variadic_in2"> { |
| let arguments = (ins Variadic<I32>); |
| let results = (outs Variadic<I32>); |
| } |
| |
| // Rewrite an op with one variadic operand and one variadic result to |
| // another similar op. |
| def : Pat<(OneVResOneVOperandOp1 $inputs), (OneVResOneVOperandOp2 $inputs)>; |
| |
| def MixedVOperandOp1 : TEST_Op<"mixed_variadic_in1", |
| [SameVariadicOperandSize]> { |
| let arguments = (ins |
| Variadic<I32>:$input1, |
| F32:$input2, |
| Variadic<I32>:$input3 |
| ); |
| } |
| |
| def MixedVOperandOp2 : TEST_Op<"mixed_variadic_in2", |
| [SameVariadicOperandSize]> { |
| let arguments = (ins |
| Variadic<I32>:$input1, |
| F32:$input2, |
| Variadic<I32>:$input3 |
| ); |
| } |
| |
| // Rewrite an op with both variadic operands and normal operands. |
| def : Pat<(MixedVOperandOp1 $input1, $input2, $input3), |
| (MixedVOperandOp2 $input1, $input2, $input3)>; |
| |
| def MixedVResultOp1 : TEST_Op<"mixed_variadic_out1", [SameVariadicResultSize]> { |
| let results = (outs |
| Variadic<I32>:$output1, |
| F32:$output2, |
| Variadic<I32>:$output3 |
| ); |
| } |
| |
| def MixedVResultOp2 : TEST_Op<"mixed_variadic_out2", [SameVariadicResultSize]> { |
| let results = (outs |
| Variadic<I32>:$output1, |
| F32:$output2, |
| Variadic<I32>:$output3 |
| ); |
| } |
| |
| // Rewrite an op with both variadic results and normal results. |
| // Note that because we are generating the op with a top-level result pattern, |
| // we are able to deduce the correct result types for the generated op using |
| // the information from the matched root op. |
| def : Pat<(MixedVResultOp1), (MixedVResultOp2)>; |
| |
| def OneI32ResultOp : TEST_Op<"one_i32_out"> { |
| let results = (outs I32); |
| } |
| |
| def MixedVOperandOp3 : TEST_Op<"mixed_variadic_in3", |
| [SameVariadicOperandSize]> { |
| let arguments = (ins |
| I32:$input1, |
| Variadic<I32>:$input2, |
| Variadic<I32>:$input3, |
| I32Attr:$count |
| ); |
| |
| let results = (outs I32); |
| } |
| |
| def MixedVResultOp3 : TEST_Op<"mixed_variadic_out3", |
| [SameVariadicResultSize]> { |
| let arguments = (ins I32Attr:$count); |
| |
| let results = (outs |
| I32:$output1, |
| Variadic<I32>:$output2, |
| Variadic<I32>:$output3 |
| ); |
| |
| // We will use this op in a nested result pattern, where we cannot deduce the |
| // result type. So need to provide a builder not requiring result types. |
| let builders = [ |
| OpBuilder< |
| "Builder *builder, OperationState &state, IntegerAttr count", |
| [{ |
| auto i32Type = builder->getIntegerType(32); |
| state.addTypes(i32Type); // $output1 |
| SmallVector<Type, 4> types(count.getInt(), i32Type); |
| state.addTypes(types); // $output2 |
| state.addTypes(types); // $output3 |
| state.addAttribute("count", count); |
| }]> |
| ]; |
| } |
| |
| // Generates an op with variadic results using nested pattern. |
| def : Pat<(OneI32ResultOp), |
| (MixedVOperandOp3 |
| (MixedVResultOp3:$results__0 ConstantAttr<I32Attr, "2">), |
| (replaceWithValue $results__1), |
| (replaceWithValue $results__2), |
| ConstantAttr<I32Attr, "2">)>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Legalization |
| //===----------------------------------------------------------------------===// |
| |
| def Test_LegalizerEnum_Success : StrEnumAttrCase<"Success">; |
| def Test_LegalizerEnum_Failure : StrEnumAttrCase<"Failure">; |
| |
| def Test_LegalizerEnum : StrEnumAttr<"Success", "Failure", |
| [Test_LegalizerEnum_Success, Test_LegalizerEnum_Failure]>; |
| |
| def ILLegalOpA : TEST_Op<"illegal_op_a">, Results<(outs I32)>; |
| def ILLegalOpB : TEST_Op<"illegal_op_b">, Results<(outs I32)>; |
| def ILLegalOpC : TEST_Op<"illegal_op_c">, Results<(outs I32)>; |
| def ILLegalOpD : TEST_Op<"illegal_op_d">, Results<(outs I32)>; |
| def ILLegalOpE : TEST_Op<"illegal_op_e">, Results<(outs I32)>; |
| def ILLegalOpF : TEST_Op<"illegal_op_f">, Results<(outs I32)>; |
| def LegalOpA : TEST_Op<"legal_op_a">, |
| Arguments<(ins Test_LegalizerEnum:$status)>, Results<(outs I32)>; |
| def LegalOpB : TEST_Op<"legal_op_b">, Results<(outs I32)>; |
| |
| // Check that smaller pattern depths are chosen, i.e. prioritize more direct |
| // mappings. |
| def : Pat<(ILLegalOpA), (LegalOpA Test_LegalizerEnum_Success)>; |
| |
| def : Pat<(ILLegalOpA), (ILLegalOpB)>; |
| def : Pat<(ILLegalOpB), (LegalOpA Test_LegalizerEnum_Failure)>; |
| |
| // Check that the higher benefit pattern is taken for multiple legalizations |
| // with the same depth. |
| def : Pat<(ILLegalOpC), (ILLegalOpD)>; |
| def : Pat<(ILLegalOpD), (LegalOpA Test_LegalizerEnum_Failure)>; |
| |
| def : Pat<(ILLegalOpC), (ILLegalOpE), [], (addBenefit 10)>; |
| def : Pat<(ILLegalOpE), (LegalOpA Test_LegalizerEnum_Success)>; |
| |
| // Check that patterns use the most up-to-date value when being replaced. |
| def TestRewriteOp : TEST_Op<"rewrite">, |
| Arguments<(ins AnyType)>, Results<(outs AnyType)>; |
| def : Pat<(TestRewriteOp $input), (replaceWithValue $input)>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test Type Legalization |
| //===----------------------------------------------------------------------===// |
| |
| def TestRegionBuilderOp : TEST_Op<"region_builder">; |
| def TestReturnOp : TEST_Op<"return", [Terminator]>, |
| Arguments<(ins Variadic<AnyType>)>; |
| def TestCastOp : TEST_Op<"cast">, |
| Arguments<(ins Variadic<AnyType>)>, Results<(outs AnyType)>; |
| def TestInvalidOp : TEST_Op<"invalid", [Terminator]>, |
| Arguments<(ins Variadic<AnyType>)>; |
| def TestTypeProducerOp : TEST_Op<"type_producer">, |
| Results<(outs AnyType)>; |
| def TestTypeConsumerOp : TEST_Op<"type_consumer">, |
| Arguments<(ins AnyType)>; |
| def TestValidOp : TEST_Op<"valid", [Terminator]>, |
| Arguments<(ins Variadic<AnyType>)>; |
| |
| //===----------------------------------------------------------------------===// |
| // Test parser. |
| //===----------------------------------------------------------------------===// |
| |
| def WrappedKeywordOp : TEST_Op<"wrapped_keyword"> { |
| let arguments = (ins StrAttr:$keyword); |
| let parser = [{ return ::parse$cppClass(parser, result); }]; |
| let printer = [{ return ::print(p, *this); }]; |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test region argument list parsing. |
| |
| def IsolatedRegionOp : TEST_Op<"isolated_region", [IsolatedFromAbove]> { |
| let summary = "isolated region operation"; |
| let description = [{ |
| Test op with an isolated region, to test passthrough region arguments. Each |
| argument is of index type. |
| }]; |
| |
| let arguments = (ins Index); |
| let regions = (region SizedRegion<1>:$region); |
| let parser = [{ return ::parse$cppClass(parser, result); }]; |
| let printer = [{ return ::print(p, *this); }]; |
| } |
| |
| def WrappingRegionOp : TEST_Op<"wrapping_region", |
| [SingleBlockImplicitTerminator<"TestReturnOp">]> { |
| let summary = "wrapping region operation"; |
| let description = [{ |
| Test op wrapping another op in a region, to test calling |
| parseGenericOperation from the custom parser. |
| }]; |
| |
| let results = (outs Variadic<AnyType>); |
| let regions = (region SizedRegion<1>:$region); |
| let parser = [{ return ::parse$cppClass(parser, result); }]; |
| let printer = [{ return ::print(p, *this); }]; |
| } |
| |
| def PolyForOp : TEST_Op<"polyfor"> |
| { |
| let summary = "polyfor operation"; |
| let description = [{ |
| Test op with multiple region arguments, each argument of index type. |
| }]; |
| |
| let regions = (region SizedRegion<1>:$region); |
| let parser = [{ return ::parse$cppClass(parser, result); }]; |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test OpAsmInterface. |
| |
| def AsmInterfaceOp : TEST_Op<"asm_interface_op"> { |
| let results = (outs AnyType:$first, Variadic<AnyType>:$middle_results, |
| AnyType); |
| } |
| |
| def AsmDialectInterfaceOp : TEST_Op<"asm_dialect_interface_op"> { |
| let results = (outs AnyType); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // Test Op Asm Format |
| //===----------------------------------------------------------------------===// |
| |
| def FormatLiteralOp : TEST_Op<"format_literal_op"> { |
| let assemblyFormat = [{ |
| `keyword_$.` `->` `:` `,` `=` `<` `>` `(` `)` `[` `]` attr-dict |
| }]; |
| } |
| |
| // Test that we elide attributes that are within the syntax. |
| def FormatAttrOp : TEST_Op<"format_attr_op"> { |
| let arguments = (ins I64Attr:$attr); |
| let assemblyFormat = "$attr attr-dict"; |
| } |
| |
| // Test that we elide attributes that are within the syntax. |
| def FormatAttrDictWithKeywordOp : TEST_Op<"format_attr_dict_w_keyword"> { |
| let arguments = (ins I64Attr:$attr); |
| let assemblyFormat = "attr-dict-with-keyword"; |
| } |
| |
| // Test that we don't need to provide types in the format if they are buildable. |
| def FormatBuildableTypeOp : TEST_Op<"format_buildable_type_op"> { |
| let arguments = (ins I64:$buildable); |
| let results = (outs I64:$buildable_res); |
| let assemblyFormat = "$buildable attr-dict"; |
| } |
| |
| // Test various mixings of result type formatting. |
| class FormatResultBase<string name, string fmt> : TEST_Op<name> { |
| let results = (outs I64:$buildable_res, AnyMemRef:$result); |
| let assemblyFormat = fmt; |
| } |
| def FormatResultAOp : FormatResultBase<"format_result_a_op", [{ |
| type($result) attr-dict |
| }]>; |
| def FormatResultBOp : FormatResultBase<"format_result_b_op", [{ |
| type(results) attr-dict |
| }]>; |
| def FormatResultCOp : FormatResultBase<"format_result_c_op", [{ |
| functional-type($buildable_res, $result) attr-dict |
| }]>; |
| |
| // Test various mixings of operand type formatting. |
| class FormatOperandBase<string name, string fmt> : TEST_Op<name> { |
| let arguments = (ins I64:$buildable, AnyMemRef:$operand); |
| let assemblyFormat = fmt; |
| } |
| |
| def FormatOperandAOp : FormatOperandBase<"format_operand_a_op", [{ |
| operands `:` type(operands) attr-dict |
| }]>; |
| def FormatOperandBOp : FormatOperandBase<"format_operand_b_op", [{ |
| operands `:` type($operand) attr-dict |
| }]>; |
| def FormatOperandCOp : FormatOperandBase<"format_operand_c_op", [{ |
| $buildable `,` $operand `:` type(operands) attr-dict |
| }]>; |
| def FormatOperandDOp : FormatOperandBase<"format_operand_d_op", [{ |
| $buildable `,` $operand `:` type($operand) attr-dict |
| }]>; |
| def FormatOperandEOp : FormatOperandBase<"format_operand_e_op", [{ |
| $buildable `,` $operand `:` type($buildable) `,` type($operand) attr-dict |
| }]>; |
| |
| def FormatSuccessorAOp : TEST_Op<"format_successor_a_op", [Terminator]> { |
| let successors = (successor VariadicSuccessor<AnySuccessor>:$targets); |
| let assemblyFormat = "$targets attr-dict"; |
| } |
| |
| #endif // TEST_OPS |