| // RUN: mlir-opt <%s -split-input-file -verify-diagnostics |
| |
| func @tensor.cast_mismatching_constants(%arg0: tensor<1xf32>) { |
| // expected-error@+1 {{operand type 'tensor<1xf32>' and result type 'tensor<2xf32>' are cast incompatible}} |
| %0 = tensor.cast %arg0 : tensor<1xf32> to tensor<2xf32> |
| return |
| } |
| |
| // ----- |
| |
| func @extract_too_many_indices(%arg0: tensor<?xf32>) { |
| // expected-error@+1 {{incorrect number of indices for extract_element}} |
| %0 = tensor.extract %arg0[] : tensor<?xf32> |
| return |
| } |
| |
| // ----- |
| |
| func @insert_too_many_indices(%arg0: f32, %arg1: tensor<?xf32>) { |
| // expected-error@+1 {{incorrect number of indices}} |
| %0 = tensor.insert %arg0 into %arg1[] : tensor<?xf32> |
| return |
| } |
| |
| // ----- |
| |
| func @tensor.from_elements_wrong_result_type() { |
| // expected-error@+2 {{'result' must be 1D tensor of any type values, but got 'tensor<*xi32>'}} |
| %c0 = arith.constant 0 : i32 |
| %0 = tensor.from_elements %c0 : tensor<*xi32> |
| return |
| } |
| |
| // ----- |
| |
| func @tensor.from_elements_wrong_elements_count() { |
| // expected-error@+2 {{1 operands present, but expected 2}} |
| %c0 = arith.constant 0 : index |
| %0 = tensor.from_elements %c0 : tensor<2xindex> |
| return |
| } |
| |
| // ----- |
| |
| func @tensor.generate(%m : index) |
| -> tensor<?x3x?xf32> { |
| // expected-error @+1 {{must have as many index operands as dynamic extents in the result type}} |
| %tnsr = tensor.generate %m { |
| ^bb0(%i : index, %j : index, %k : index): |
| %elem = arith.constant 8.0 : f32 |
| tensor.yield %elem : f32 |
| } : tensor<?x3x?xf32> |
| return %tnsr : tensor<?x3x?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.generate(%m : index, %n : index) |
| -> tensor<?x3x?xf32> { |
| // expected-error @+1 {{must have one body argument per input dimension}} |
| %tnsr = tensor.generate %m, %n { |
| ^bb0(%i : index, %j : index): |
| %elem = arith.constant 8.0 : f32 |
| tensor.yield %elem : f32 |
| } : tensor<?x3x?xf32> |
| return %tnsr : tensor<?x3x?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.generate(%m : index, %n : index) |
| -> tensor<?x3x?xf32> { |
| // expected-error @+1 {{all body arguments must be index}} |
| %tnsr = tensor.generate %m, %n { |
| ^bb0(%i : index, %j : index, %k : i64): |
| %elem = arith.constant 8.0 : f32 |
| tensor.yield %elem : f32 |
| } : tensor<?x3x?xf32> |
| return %tnsr : tensor<?x3x?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.generate(%m : index, %n : index) |
| -> tensor<?x3x?xf32> { |
| // expected-error @+2 {{op expects regions to end with 'tensor.yield', found 'std.return'}} |
| // expected-note @+1 {{in custom textual format, the absence of terminator implies 'tensor.yield'}} |
| %tnsr = tensor.generate %m, %n { |
| ^bb0(%i : index, %j : index, %k : index): |
| %elem = arith.constant 8.0 : f32 |
| return %elem : f32 |
| } : tensor<?x3x?xf32> |
| return %tnsr : tensor<?x3x?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.generate(%m : index, %n : index) |
| -> tensor<?x3x?xf32> { |
| // expected-error @+1 {{body must be terminated with a `yield` operation of the tensor element type}} |
| %tnsr = tensor.generate %m, %n { |
| ^bb0(%i : index, %j : index, %k : index): |
| %elem = arith.constant 8 : i32 |
| tensor.yield %elem : i32 |
| } : tensor<?x3x?xf32> |
| return %tnsr : tensor<?x3x?xf32> |
| } |
| // ----- |
| |
| func @tensor.reshape_element_type_mismatch( |
| %buf: tensor<*xf32>, %shape: tensor<1xi32>) { |
| // expected-error @+1 {{element types of source and destination tensor types should be the same}} |
| tensor.reshape %buf(%shape) : (tensor<*xf32>, tensor<1xi32>) -> tensor<?xi32> |
| } |
| |
| // ----- |
| |
| func @tensor.reshape_dst_ranked_shape_unranked( |
| %buf: tensor<*xf32>, %shape: tensor<?xi32>) { |
| // expected-error @+1 {{cannot use shape operand with dynamic length to reshape to statically-ranked tensor type}} |
| tensor.reshape %buf(%shape) : (tensor<*xf32>, tensor<?xi32>) -> tensor<?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.reshape_dst_shape_rank_mismatch( |
| %buf: tensor<*xf32>, %shape: tensor<1xi32>) { |
| // expected-error @+1 {{length of shape operand differs from the result's tensor rank}} |
| tensor.reshape %buf(%shape) |
| : (tensor<*xf32>, tensor<1xi32>) -> tensor<?x?xf32> |
| } |
| |
| // ----- |
| |
| func @tensor.reshape_num_elements_mismatch( |
| %buf: tensor<1xf32>, %shape: tensor<1xi32>) { |
| // expected-error @+1 {{source and destination tensor should have the same number of elements}} |
| tensor.reshape %buf(%shape) |
| : (tensor<1xf32>, tensor<1xi32>) -> tensor<10xf32> |
| } |