mlir/test/Dialect/traits.mlir - llvm-project - Git at Google

 // RUN: mlir-opt %s -split-input-file -verify-diagnostics

 // Verify that ops with broadcastable trait verifies operand and result type
 // combinations and emits an error for invalid combinations.

 func @broadcast_scalar_scalar_scalar(tensor<i32>, tensor<i32>) -> tensor<i32> {
 ^bb0(%arg0: tensor<i32>, %arg1: tensor<i32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<i32>, tensor<i32>) -> tensor<i32>
   return %0 : tensor<i32>
 }

 // -----

 func @broadcast_tensor_scalar_tensor(tensor<4xi32>, tensor<i32>) -> tensor<4xi32> {
 ^bb0(%arg0: tensor<4xi32>, %arg1: tensor<i32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xi32>, tensor<i32>) -> tensor<4xi32>
   return %0 : tensor<4xi32>
 }

 // -----

 // Check only one dimension has size 1
 func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x2xi32> {
 ^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x1xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x2xi32>
   return %0 : tensor<4x3x2xi32>
 }

 // -----

 // Check multiple dimensions have size 1
 func @broadcast_tensor_tensor_tensor(tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32> {
 ^bb0(%arg0: tensor<8x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32>
   return %0 : tensor<8x7x6x5xi32>
 }

 // -----

 // Check leading unknown dimension
 func @broadcast_tensor_tensor_tensor(tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<?x7x6x5xi32> {
 ^bb0(%arg0: tensor<?x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<?x7x6x5xi32>
   return %0 : tensor<?x7x6x5xi32>
 }

 // -----

 // Check unknown dimension in the middle
 func @broadcast_tensor_tensor_tensor(tensor<8x1x?x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x?x5xi32> {
 ^bb0(%arg0: tensor<8x1x?x1xi32>, %arg1: tensor<7x1x5xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x?x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x?x5xi32>
   return %0 : tensor<8x7x?x5xi32>
 }

 // -----

 // Check incompatible vector and tensor result type
 func @broadcast_scalar_vector_vector(tensor<4xf32>, tensor<4xf32>) -> vector<4xf32> {
 ^bb0(%arg0: tensor<4xf32>, %arg1: tensor<4xf32>):
   // expected-error @+1 {{cannot broadcast vector with tensor}}
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xf32>, tensor<4xf32>) -> vector<4xf32>
   return %0 : vector<4xf32>
 }

 // -----

 // Check incompatible operand types with known dimension
 func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x3xi32>) -> tensor<4x3x2xi32> {
 ^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x3xi32>):
   // expected-error @+1 {{operands don't have broadcast-compatible shapes}}
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x3xi32>) -> tensor<4x3x2xi32>
   return %0 : tensor<4x3x2xi32>
 }

 // -----

 // Check incompatible result type with known dimension
 func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x3xi32> {
 ^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x1xi32>):
   // expected-error @+1 {{op result type '4x3x3' not broadcast compatible with broadcasted operands's shapes '4x3x2'}}
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x3xi32>
   return %0 : tensor<4x3x3xi32>
 }

 // -----

 // Check incompatible result type with known dimension
 func @broadcast_tensor_tensor_tensor(tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x1xi32> {
 ^bb0(%arg0: tensor<8x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
   // expected-error @+1 {{op result type '8x7x6x1' not broadcast compatible with broadcasted operands's shapes '8x7x6x5'}}
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x1xi32>
   return %0 : tensor<8x7x6x1xi32>
 }

 // -----

 func @broadcast_tensor_tensor_tensor(tensor<2xi32>, tensor<2xi32>) -> tensor<*xi32> {
 ^bb0(%arg0: tensor<2xi32>, %arg1: tensor<2xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<2xi32>, tensor<2xi32>) -> tensor<*xi32>
   return %0 : tensor<*xi32>
 }

 // -----

 func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<?xi32>) -> tensor<4x3x2xi32> {
 ^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<?xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<?xi32>) -> tensor<4x3x2xi32>
   return %0 : tensor<4x3x2xi32>
 }

 // -----

 func @broadcast_tensor_tensor_tensor(%arg0: tensor<?x6x1xi32>, %arg1: tensor<*xi32>) -> tensor<?x6x6xi32> {
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x6x1xi32>, tensor<*xi32>) -> tensor<?x6x6xi32>
   return %0 : tensor<?x6x6xi32>
 }

 // -----

 // Unranked operands but ranked result
 func @broadcast_tensor_tensor_tensor(tensor<*xi32>, tensor<*xi32>) -> tensor<2xi32> {
 ^bb0(%arg0: tensor<*xi32>, %arg1: tensor<*xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<*xi32>, tensor<*xi32>) -> tensor<2xi32>
   return %0 : tensor<2xi32>
 }

 // -----

 // Unranked operand and compatible ranked result
 func @broadcast_tensor_tensor_tensor(tensor<3x2xi32>, tensor<*xi32>) -> tensor<4x3x2xi32> {
 ^bb0(%arg0: tensor<3x2xi32>, %arg1: tensor<*xi32>):
   %0 = "test.broadcastable"(%arg0, %arg0, %arg1) : (tensor<3x2xi32>, tensor<3x2xi32>, tensor<*xi32>) -> tensor<4x3x2xi32>
   return %0 : tensor<4x3x2xi32>
 }

 // -----

 func @broadcast_tensor_tensor_tensor(tensor<3x2xi32>, tensor<*xi32>) -> tensor<2xi32> {
 ^bb0(%arg0: tensor<3x2xi32>, %arg1: tensor<*xi32>):
   // expected-error @+1 {{op result type '2' not broadcast compatible with broadcasted operands's shapes '3x2'}}
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<3x2xi32>, tensor<*xi32>) -> tensor<2xi32>
   return %0 : tensor<2xi32>
 }

 // -----

 func @broadcast_tensor_tensor_tensor(tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32> {
 ^bb0(%arg0: tensor<?x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32>
   return %0 : tensor<8x7x6x5xi32>
 }

 // -----

 func @broadcastDifferentResultType(tensor<4xi32>, tensor<4xi32>) -> tensor<4xi1> {
 ^bb0(%arg0: tensor<4xi32>, %arg1: tensor<4xi32>):
   %0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi1>
   return %0 : tensor<4xi1>
 }
	// RUN: mlir-opt %s -split-input-file -verify-diagnostics

	// Verify that ops with broadcastable trait verifies operand and result type
	// combinations and emits an error for invalid combinations.

	func @broadcast_scalar_scalar_scalar(tensor<i32>, tensor<i32>) -> tensor<i32> {
	^bb0(%arg0: tensor<i32>, %arg1: tensor<i32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<i32>, tensor<i32>) -> tensor<i32>
	return %0 : tensor<i32>
	}

	// -----

	func @broadcast_tensor_scalar_tensor(tensor<4xi32>, tensor<i32>) -> tensor<4xi32> {
	^bb0(%arg0: tensor<4xi32>, %arg1: tensor<i32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xi32>, tensor<i32>) -> tensor<4xi32>
	return %0 : tensor<4xi32>
	}

	// -----

	// Check only one dimension has size 1
	func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x2xi32> {
	^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x1xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x2xi32>
	return %0 : tensor<4x3x2xi32>
	}

	// -----

	// Check multiple dimensions have size 1
	func @broadcast_tensor_tensor_tensor(tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32> {
	^bb0(%arg0: tensor<8x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32>
	return %0 : tensor<8x7x6x5xi32>
	}

	// -----

	// Check leading unknown dimension
	func @broadcast_tensor_tensor_tensor(tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<?x7x6x5xi32> {
	^bb0(%arg0: tensor<?x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<?x7x6x5xi32>
	return %0 : tensor<?x7x6x5xi32>
	}

	// -----

	// Check unknown dimension in the middle
	func @broadcast_tensor_tensor_tensor(tensor<8x1x?x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x?x5xi32> {
	^bb0(%arg0: tensor<8x1x?x1xi32>, %arg1: tensor<7x1x5xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x?x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x?x5xi32>
	return %0 : tensor<8x7x?x5xi32>
	}

	// -----

	// Check incompatible vector and tensor result type
	func @broadcast_scalar_vector_vector(tensor<4xf32>, tensor<4xf32>) -> vector<4xf32> {
	^bb0(%arg0: tensor<4xf32>, %arg1: tensor<4xf32>):
	// expected-error @+1 {{cannot broadcast vector with tensor}}
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xf32>, tensor<4xf32>) -> vector<4xf32>
	return %0 : vector<4xf32>
	}

	// -----

	// Check incompatible operand types with known dimension
	func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x3xi32>) -> tensor<4x3x2xi32> {
	^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x3xi32>):
	// expected-error @+1 {{operands don't have broadcast-compatible shapes}}
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x3xi32>) -> tensor<4x3x2xi32>
	return %0 : tensor<4x3x2xi32>
	}

	// -----

	// Check incompatible result type with known dimension
	func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x3xi32> {
	^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<3x1xi32>):
	// expected-error @+1 {{op result type '4x3x3' not broadcast compatible with broadcasted operands's shapes '4x3x2'}}
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<3x1xi32>) -> tensor<4x3x3xi32>
	return %0 : tensor<4x3x3xi32>
	}

	// -----

	// Check incompatible result type with known dimension
	func @broadcast_tensor_tensor_tensor(tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x1xi32> {
	^bb0(%arg0: tensor<8x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
	// expected-error @+1 {{op result type '8x7x6x1' not broadcast compatible with broadcasted operands's shapes '8x7x6x5'}}
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<8x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x1xi32>
	return %0 : tensor<8x7x6x1xi32>
	}

	// -----

	func @broadcast_tensor_tensor_tensor(tensor<2xi32>, tensor<2xi32>) -> tensor<*xi32> {
	^bb0(%arg0: tensor<2xi32>, %arg1: tensor<2xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<2xi32>, tensor<2xi32>) -> tensor<*xi32>
	return %0 : tensor<*xi32>
	}

	// -----

	func @broadcast_tensor_tensor_tensor(tensor<4x3x2xi32>, tensor<?xi32>) -> tensor<4x3x2xi32> {
	^bb0(%arg0: tensor<4x3x2xi32>, %arg1: tensor<?xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4x3x2xi32>, tensor<?xi32>) -> tensor<4x3x2xi32>
	return %0 : tensor<4x3x2xi32>
	}

	// -----

	func @broadcast_tensor_tensor_tensor(%arg0: tensor<?x6x1xi32>, %arg1: tensor<*xi32>) -> tensor<?x6x6xi32> {
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x6x1xi32>, tensor<*xi32>) -> tensor<?x6x6xi32>
	return %0 : tensor<?x6x6xi32>
	}

	// -----

	// Unranked operands but ranked result
	func @broadcast_tensor_tensor_tensor(tensor<xi32>, tensor<xi32>) -> tensor<2xi32> {
	^bb0(%arg0: tensor<xi32>, %arg1: tensor<xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<xi32>, tensor<xi32>) -> tensor<2xi32>
	return %0 : tensor<2xi32>
	}

	// -----

	// Unranked operand and compatible ranked result
	func @broadcast_tensor_tensor_tensor(tensor<3x2xi32>, tensor<*xi32>) -> tensor<4x3x2xi32> {
	^bb0(%arg0: tensor<3x2xi32>, %arg1: tensor<*xi32>):
	%0 = "test.broadcastable"(%arg0, %arg0, %arg1) : (tensor<3x2xi32>, tensor<3x2xi32>, tensor<*xi32>) -> tensor<4x3x2xi32>
	return %0 : tensor<4x3x2xi32>
	}

	// -----

	func @broadcast_tensor_tensor_tensor(tensor<3x2xi32>, tensor<*xi32>) -> tensor<2xi32> {
	^bb0(%arg0: tensor<3x2xi32>, %arg1: tensor<*xi32>):
	// expected-error @+1 {{op result type '2' not broadcast compatible with broadcasted operands's shapes '3x2'}}
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<3x2xi32>, tensor<*xi32>) -> tensor<2xi32>
	return %0 : tensor<2xi32>
	}

	// -----

	func @broadcast_tensor_tensor_tensor(tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32> {
	^bb0(%arg0: tensor<?x1x6x1xi32>, %arg1: tensor<7x1x5xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<?x1x6x1xi32>, tensor<7x1x5xi32>) -> tensor<8x7x6x5xi32>
	return %0 : tensor<8x7x6x5xi32>
	}

	// -----

	func @broadcastDifferentResultType(tensor<4xi32>, tensor<4xi32>) -> tensor<4xi1> {
	^bb0(%arg0: tensor<4xi32>, %arg1: tensor<4xi32>):
	%0 = "test.broadcastable"(%arg0, %arg1) : (tensor<4xi32>, tensor<4xi32>) -> tensor<4xi1>
	return %0 : tensor<4xi1>
	}