mlir/test/mlir-tblgen/constraint-unique.td - llvm-project - Git at Google

 // RUN: mlir-tblgen -gen-op-defs -I %S/../../include %s | FileCheck %s

 include "mlir/IR/OpBase.td"

 def Test_Dialect : Dialect {
   let name = "test";
 }

 class NS_Op<string mnemonic, list<OpTrait> traits = []> :
     Op<Test_Dialect, mnemonic, traits>;

 /// Test unique'ing of type, attribute, successor, and region constraints.

 def ATypePred : CPred<"typePred($_self, $_op)">;
 def AType : Type<ATypePred, "a type">;
 def OtherType : Type<ATypePred, "another type">;

 def AnAttrPred : CPred<"attrPred($_self, $_op)">;
 def AnAttr : Attr<AnAttrPred, "an attribute">;
 def OtherAttr : Attr<AnAttrPred, "another attribute">;

 def ASuccessorPred : CPred<"successorPred($_self, $_op)">;
 def ASuccessor : Successor<ASuccessorPred, "a successor">;
 def OtherSuccessor : Successor<ASuccessorPred, "another successor">;

 def ARegionPred : CPred<"regionPred($_self, $_op)">;
 def ARegion : Region<ARegionPred, "a region">;
 def OtherRegion : Region<ARegionPred, "another region">;

 // OpA and OpB have the same type, attribute, successor, and region constraints.

 def OpA : NS_Op<"op_a"> {
   let arguments = (ins AType:$a, AnAttr:$b);
   let results = (outs AType:$ret);
   let successors = (successor ASuccessor:$c);
   let regions = (region ARegion:$d);
 }

 def OpB : NS_Op<"op_b"> {
   let arguments = (ins AType:$a, AnAttr:$b);
   let successors = (successor ASuccessor:$c);
   let regions = (region ARegion:$d);
 }

 // OpC has the same type, attribute, successor, and region predicates but has
 // difference descriptions for them.

 def OpC : NS_Op<"op_c"> {
   let arguments = (ins OtherType:$a, OtherAttr:$b);
   let results = (outs OtherType:$ret);
   let successors = (successor OtherSuccessor:$c);
   let regions = (region OtherRegion:$d);
 }

 /// Test that a type contraint was generated.
 // CHECK:    static ::mlir::LogicalResult [[$A_TYPE_CONSTRAINT:__mlir_ods_local_type_constraint.*]](
 // CHECK:      if (!((typePred(type, *op)))) {
 // CHECK-NEXT:   return op->emitOpError(valueKind) << " #" << valueIndex
 // CHECK-NEXT:       << " must be a type, but got " << type;

 /// Test that duplicate type constraint was not generated.
 // CHECK-NOT:        << " must be a type, but got " << type;

 /// Test that a type constraint with a different description was generated.
 // CHECK:    static ::mlir::LogicalResult [[$O_TYPE_CONSTRAINT:__mlir_ods_local_type_constraint.*]](
 // CHECK:      if (!((typePred(type, *op)))) {
 // CHECK-NEXT:   return op->emitOpError(valueKind) << " #" << valueIndex
 // CHECK-NEXT:       << " must be another type, but got " << type;

 /// Test that an attribute contraint was generated.
 // CHECK:    static ::mlir::LogicalResult [[$A_ATTR_CONSTRAINT:__mlir_ods_local_attr_constraint.*]](
 // CHECK:      if (attr && !((attrPred(attr, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("attribute '") << attrName
 // CHECK-NEXT:       << "' failed to satisfy constraint: an attribute";

 /// Test that duplicate attribute constraint was not generated.
 // CHECK-NOT:        << "' failed to satisfy constraint: an attribute";

 /// Test that a attribute constraint with a different description was generated.
 // CHECK:    static ::mlir::LogicalResult [[$O_ATTR_CONSTRAINT:__mlir_ods_local_attr_constraint.*]](
 // CHECK:      if (attr && !((attrPred(attr, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("attribute '") << attrName
 // CHECK-NEXT:       << "' failed to satisfy constraint: another attribute";

 /// Test that a successor contraint was generated.
 // CHECK:    static ::mlir::LogicalResult [[$A_SUCCESSOR_CONSTRAINT:__mlir_ods_local_successor_constraint.*]](
 // CHECK:      if (!((successorPred(successor, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("successor #") << successorIndex << " ('"
 // CHECK-NEXT:       << successorName << ")' failed to verify constraint: a successor";

 /// Test that duplicate successor constraint was not generated.
 // CHECK-NOT:        << successorName << ")' failed to verify constraint: a successor";

 /// Test that a successor constraint with a different description was generated.
 // CHECK:    static ::mlir::LogicalResult [[$O_SUCCESSOR_CONSTRAINT:__mlir_ods_local_successor_constraint.*]](
 // CHECK:      if (!((successorPred(successor, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("successor #") << successorIndex << " ('"
 // CHECK-NEXT:       << successorName << ")' failed to verify constraint: another successor";

 /// Test that a region contraint was generated.
 // CHECK:    static ::mlir::LogicalResult [[$A_REGION_CONSTRAINT:__mlir_ods_local_region_constraint.*]](
 // CHECK:      if (!((regionPred(region, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("region #") << regionIndex
 // CHECK-NEXT:       << (regionName.empty() ? " " : " ('" + regionName + "') ")
 // CHECK-NEXT:       << "failed to verify constraint: a region";

 /// Test that duplicate region constraint was not generated.
 // CHECK-NOT:        << "failed to verify constraint: a region";

 /// Test that a region constraint with a different description was generated.
 // CHECK:    static ::mlir::LogicalResult [[$O_REGION_CONSTRAINT:__mlir_ods_local_region_constraint.*]](
 // CHECK:      if (!((regionPred(region, *op)))) {
 // CHECK-NEXT:   return op->emitOpError("region #") << regionIndex
 // CHECK-NEXT:       << (regionName.empty() ? " " : " ('" + regionName + "') ")
 // CHECK-NEXT:       << "failed to verify constraint: another region";

 /// Test that the uniqued constraints are being used.
 // CHECK-LABEL: OpA::verify
 // CHECK:         auto [[$B_ATTR:.*b]] = (*this)->getAttr(bAttrName());
 // CHECK:         if (::mlir::failed([[$A_ATTR_CONSTRAINT]](*this, [[$B_ATTR]], "b")))
 // CHECK-NEXT:      return ::mlir::failure();
 // CHECK:         auto [[$A_VALUE_GROUP:.*]] = getODSOperands(0);
 // CHECK:         for (auto [[$A_VALUE:.*]] : [[$A_VALUE_GROUP]])
 // CHECK-NEXT:      if (::mlir::failed([[$A_TYPE_CONSTRAINT]](*this, [[$A_VALUE]].getType(), "operand", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         auto [[$RET_VALUE_GROUP:.*]] = getODSResults(0);
 // CHECK:         for (auto [[$RET_VALUE:.*]] : [[$RET_VALUE_GROUP]])
 // CHECK-NEXT:      if (::mlir::failed([[$A_TYPE_CONSTRAINT]](*this, [[$RET_VALUE]].getType(), "result", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         for (auto &region : ::llvm::makeMutableArrayRef((*this)->getRegion(0)))
 // CHECK-NEXT:      if (::mlir::failed([[$A_REGION_CONSTRAINT]](*this, region, "d", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         for (auto *successor : ::llvm::makeMutableArrayRef(c()))
 // CHECK-NEXT:      if (::mlir::failed([[$A_SUCCESSOR_CONSTRAINT]](*this, successor, "c", index++)))
 // CHECK-NEXT:        return ::mlir::failure();

 /// Test that the op with the same predicates but different with descriptions
 /// uses the different constraints.
 // CHECK-LABEL: OpC::verify
 // CHECK:         auto [[$B_ATTR:.*b]] = (*this)->getAttr(bAttrName());
 // CHECK:         if (::mlir::failed([[$O_ATTR_CONSTRAINT]](*this, [[$B_ATTR]], "b")))
 // CHECK-NEXT:      return ::mlir::failure();
 // CHECK:         auto [[$A_VALUE_GROUP:.*]] = getODSOperands(0);
 // CHECK:         for (auto [[$A_VALUE:.*]] : [[$A_VALUE_GROUP]])
 // CHECK-NEXT:      if (::mlir::failed([[$O_TYPE_CONSTRAINT]](*this, [[$A_VALUE]].getType(), "operand", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         auto [[$RET_VALUE_GROUP:.*]] = getODSResults(0);
 // CHECK:         for (auto [[$RET_VALUE:.*]] : [[$RET_VALUE_GROUP]])
 // CHECK-NEXT:      if (::mlir::failed([[$O_TYPE_CONSTRAINT]](*this, [[$RET_VALUE]].getType(), "result", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         for (auto &region : ::llvm::makeMutableArrayRef((*this)->getRegion(0)))
 // CHECK-NEXT:      if (::mlir::failed([[$O_REGION_CONSTRAINT]](*this, region, "d", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
 // CHECK:         for (auto *successor : ::llvm::makeMutableArrayRef(c()))
 // CHECK-NEXT:      if (::mlir::failed([[$O_SUCCESSOR_CONSTRAINT]](*this, successor, "c", index++)))
 // CHECK-NEXT:        return ::mlir::failure();
	// RUN: mlir-tblgen -gen-op-defs -I %S/../../include %s \| FileCheck %s

	include "mlir/IR/OpBase.td"

	def Test_Dialect : Dialect {
	let name = "test";
	}

	class NS_Op<string mnemonic, list<OpTrait> traits = []> :
	Op<Test_Dialect, mnemonic, traits>;

	/// Test unique'ing of type, attribute, successor, and region constraints.

	def ATypePred : CPred<"typePred($_self, $_op)">;
	def AType : Type<ATypePred, "a type">;
	def OtherType : Type<ATypePred, "another type">;

	def AnAttrPred : CPred<"attrPred($_self, $_op)">;
	def AnAttr : Attr<AnAttrPred, "an attribute">;
	def OtherAttr : Attr<AnAttrPred, "another attribute">;

	def ASuccessorPred : CPred<"successorPred($_self, $_op)">;
	def ASuccessor : Successor<ASuccessorPred, "a successor">;
	def OtherSuccessor : Successor<ASuccessorPred, "another successor">;

	def ARegionPred : CPred<"regionPred($_self, $_op)">;
	def ARegion : Region<ARegionPred, "a region">;
	def OtherRegion : Region<ARegionPred, "another region">;

	// OpA and OpB have the same type, attribute, successor, and region constraints.

	def OpA : NS_Op<"op_a"> {
	let arguments = (ins AType:$a, AnAttr:$b);
	let results = (outs AType:$ret);
	let successors = (successor ASuccessor:$c);
	let regions = (region ARegion:$d);
	}

	def OpB : NS_Op<"op_b"> {
	let arguments = (ins AType:$a, AnAttr:$b);
	let successors = (successor ASuccessor:$c);
	let regions = (region ARegion:$d);
	}

	// OpC has the same type, attribute, successor, and region predicates but has
	// difference descriptions for them.

	def OpC : NS_Op<"op_c"> {
	let arguments = (ins OtherType:$a, OtherAttr:$b);
	let results = (outs OtherType:$ret);
	let successors = (successor OtherSuccessor:$c);
	let regions = (region OtherRegion:$d);
	}

	/// Test that a type contraint was generated.
	// CHECK: static ::mlir::LogicalResult [[$A_TYPE_CONSTRAINT:__mlir_ods_local_type_constraint.*]](
	// CHECK: if (!((typePred(type, *op)))) {
	// CHECK-NEXT: return op->emitOpError(valueKind) << " #" << valueIndex
	// CHECK-NEXT: << " must be a type, but got " << type;

	/// Test that duplicate type constraint was not generated.
	// CHECK-NOT: << " must be a type, but got " << type;

	/// Test that a type constraint with a different description was generated.
	// CHECK: static ::mlir::LogicalResult [[$O_TYPE_CONSTRAINT:__mlir_ods_local_type_constraint.*]](
	// CHECK: if (!((typePred(type, *op)))) {
	// CHECK-NEXT: return op->emitOpError(valueKind) << " #" << valueIndex
	// CHECK-NEXT: << " must be another type, but got " << type;

	/// Test that an attribute contraint was generated.
	// CHECK: static ::mlir::LogicalResult [[$A_ATTR_CONSTRAINT:__mlir_ods_local_attr_constraint.*]](
	// CHECK: if (attr && !((attrPred(attr, *op)))) {
	// CHECK-NEXT: return op->emitOpError("attribute '") << attrName
	// CHECK-NEXT: << "' failed to satisfy constraint: an attribute";

	/// Test that duplicate attribute constraint was not generated.
	// CHECK-NOT: << "' failed to satisfy constraint: an attribute";

	/// Test that a attribute constraint with a different description was generated.
	// CHECK: static ::mlir::LogicalResult [[$O_ATTR_CONSTRAINT:__mlir_ods_local_attr_constraint.*]](
	// CHECK: if (attr && !((attrPred(attr, *op)))) {
	// CHECK-NEXT: return op->emitOpError("attribute '") << attrName
	// CHECK-NEXT: << "' failed to satisfy constraint: another attribute";

	/// Test that a successor contraint was generated.
	// CHECK: static ::mlir::LogicalResult [[$A_SUCCESSOR_CONSTRAINT:__mlir_ods_local_successor_constraint.*]](
	// CHECK: if (!((successorPred(successor, *op)))) {
	// CHECK-NEXT: return op->emitOpError("successor #") << successorIndex << " ('"
	// CHECK-NEXT: << successorName << ")' failed to verify constraint: a successor";

	/// Test that duplicate successor constraint was not generated.
	// CHECK-NOT: << successorName << ")' failed to verify constraint: a successor";

	/// Test that a successor constraint with a different description was generated.
	// CHECK: static ::mlir::LogicalResult [[$O_SUCCESSOR_CONSTRAINT:__mlir_ods_local_successor_constraint.*]](
	// CHECK: if (!((successorPred(successor, *op)))) {
	// CHECK-NEXT: return op->emitOpError("successor #") << successorIndex << " ('"
	// CHECK-NEXT: << successorName << ")' failed to verify constraint: another successor";

	/// Test that a region contraint was generated.
	// CHECK: static ::mlir::LogicalResult [[$A_REGION_CONSTRAINT:__mlir_ods_local_region_constraint.*]](
	// CHECK: if (!((regionPred(region, *op)))) {
	// CHECK-NEXT: return op->emitOpError("region #") << regionIndex
	// CHECK-NEXT: << (regionName.empty() ? " " : " ('" + regionName + "') ")
	// CHECK-NEXT: << "failed to verify constraint: a region";

	/// Test that duplicate region constraint was not generated.
	// CHECK-NOT: << "failed to verify constraint: a region";

	/// Test that a region constraint with a different description was generated.
	// CHECK: static ::mlir::LogicalResult [[$O_REGION_CONSTRAINT:__mlir_ods_local_region_constraint.*]](
	// CHECK: if (!((regionPred(region, *op)))) {
	// CHECK-NEXT: return op->emitOpError("region #") << regionIndex
	// CHECK-NEXT: << (regionName.empty() ? " " : " ('" + regionName + "') ")
	// CHECK-NEXT: << "failed to verify constraint: another region";

	/// Test that the uniqued constraints are being used.
	// CHECK-LABEL: OpA::verify
	// CHECK: auto [[$B_ATTR:.b]] = (this)->getAttr(bAttrName());
	// CHECK: if (::mlir::failed([[$A_ATTR_CONSTRAINT]](*this, [[$B_ATTR]], "b")))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: auto [[$A_VALUE_GROUP:.*]] = getODSOperands(0);
	// CHECK: for (auto [[$A_VALUE:.*]] : [[$A_VALUE_GROUP]])
	// CHECK-NEXT: if (::mlir::failed([[$A_TYPE_CONSTRAINT]](*this, [[$A_VALUE]].getType(), "operand", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: auto [[$RET_VALUE_GROUP:.*]] = getODSResults(0);
	// CHECK: for (auto [[$RET_VALUE:.*]] : [[$RET_VALUE_GROUP]])
	// CHECK-NEXT: if (::mlir::failed([[$A_TYPE_CONSTRAINT]](*this, [[$RET_VALUE]].getType(), "result", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: for (auto &region : ::llvm::makeMutableArrayRef((*this)->getRegion(0)))
	// CHECK-NEXT: if (::mlir::failed([[$A_REGION_CONSTRAINT]](*this, region, "d", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: for (auto *successor : ::llvm::makeMutableArrayRef(c()))
	// CHECK-NEXT: if (::mlir::failed([[$A_SUCCESSOR_CONSTRAINT]](*this, successor, "c", index++)))
	// CHECK-NEXT: return ::mlir::failure();

	/// Test that the op with the same predicates but different with descriptions
	/// uses the different constraints.
	// CHECK-LABEL: OpC::verify
	// CHECK: auto [[$B_ATTR:.b]] = (this)->getAttr(bAttrName());
	// CHECK: if (::mlir::failed([[$O_ATTR_CONSTRAINT]](*this, [[$B_ATTR]], "b")))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: auto [[$A_VALUE_GROUP:.*]] = getODSOperands(0);
	// CHECK: for (auto [[$A_VALUE:.*]] : [[$A_VALUE_GROUP]])
	// CHECK-NEXT: if (::mlir::failed([[$O_TYPE_CONSTRAINT]](*this, [[$A_VALUE]].getType(), "operand", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: auto [[$RET_VALUE_GROUP:.*]] = getODSResults(0);
	// CHECK: for (auto [[$RET_VALUE:.*]] : [[$RET_VALUE_GROUP]])
	// CHECK-NEXT: if (::mlir::failed([[$O_TYPE_CONSTRAINT]](*this, [[$RET_VALUE]].getType(), "result", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: for (auto &region : ::llvm::makeMutableArrayRef((*this)->getRegion(0)))
	// CHECK-NEXT: if (::mlir::failed([[$O_REGION_CONSTRAINT]](*this, region, "d", index++)))
	// CHECK-NEXT: return ::mlir::failure();
	// CHECK: for (auto *successor : ::llvm::makeMutableArrayRef(c()))
	// CHECK-NEXT: if (::mlir::failed([[$O_SUCCESSOR_CONSTRAINT]](*this, successor, "c", index++)))
	// CHECK-NEXT: return ::mlir::failure();