test/Dialect/MemRef/invalid.mlir - llvm-project/mlir - Git at Google

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

 func @dma_start_not_enough_operands() {
   // expected-error@+1 {{expected at least 4 operands}}
   "memref.dma_start"() : () -> ()
 }

 // -----

 func @dma_no_src_memref(%m : f32, %tag : f32, %c0 : index) {
   // expected-error@+1 {{expected source to be of memref type}}
   memref.dma_start %m[%c0], %m[%c0], %c0, %tag[%c0] : f32, f32, f32
 }

 // -----

 func @dma_start_not_enough_operands_for_src(
     %src: memref<2x2x2xf32>, %idx: index) {
   // expected-error@+1 {{expected at least 7 operands}}
   "memref.dma_start"(%src, %idx, %idx, %idx) : (memref<2x2x2xf32>, index, index, index) -> ()
 }

 // -----

 func @dma_start_src_index_wrong_type(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>, %flt: f32) {
   // expected-error@+1 {{expected source indices to be of index type}}
   "memref.dma_start"(%src, %idx, %flt, %dst, %idx, %tag, %idx)
       : (memref<2x2xf32>, index, f32, memref<2xf32,1>, index, memref<i32,2>, index) -> ()
 }

 // -----

 func @dma_no_dst_memref(%m : f32, %tag : f32, %c0 : index) {
   %mref = memref.alloc() : memref<8 x f32>
   // expected-error@+1 {{expected destination to be of memref type}}
   memref.dma_start %mref[%c0], %m[%c0], %c0, %tag[%c0] : memref<8 x f32>, f32, f32
 }

 // -----

 func @dma_start_not_enough_operands_for_dst(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>) {
   // expected-error@+1 {{expected at least 7 operands}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index) -> ()
 }

 // -----

 func @dma_start_dst_index_wrong_type(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>, %flt: f32) {
   // expected-error@+1 {{expected destination indices to be of index type}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %flt, %tag, %idx)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, f32, memref<i32,2>, index) -> ()
 }

 // -----

 func @dma_start_dst_index_wrong_type(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>, %flt: f32) {
   // expected-error@+1 {{expected num elements to be of index type}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %flt, %tag)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, f32, memref<i32,2>) -> ()
 }

 // -----

 func @dma_no_tag_memref(%tag : f32, %c0 : index) {
   %mref = memref.alloc() : memref<8 x f32>
   // expected-error@+1 {{expected tag to be of memref type}}
   memref.dma_start %mref[%c0], %mref[%c0], %c0, %tag[%c0] : memref<8 x f32>, memref<8 x f32>, f32
 }

 // -----

 func @dma_start_not_enough_operands_for_tag(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<2xi32,2>) {
   // expected-error@+1 {{expected at least 8 operands}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>) -> ()
 }

 // -----

 func @dma_start_dst_index_wrong_type(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<2xi32,2>, %flt: f32) {
   // expected-error@+1 {{expected tag indices to be of index type}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %flt)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>, f32) -> ()
 }

 // -----

 func @dma_start_too_many_operands(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>) {
   // expected-error@+1 {{incorrect number of operands}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %idx, %idx)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<i32,2>, index, index, index) -> ()
 }


 // -----

 func @dma_start_wrong_stride_type(
     %src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
     %tag: memref<i32,2>, %flt: f32) {
   // expected-error@+1 {{expected stride and num elements per stride to be of type index}}
   "memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %flt)
       : (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<i32,2>, index, f32) -> ()
 }

 // -----

 func @dma_wait_wrong_index_type(%tag : memref<2x2xi32>, %idx: index, %flt: index) {
   // expected-error@+1 {{expected tagIndices to have the same number of elements as the tagMemRef rank, expected 2, but got 1}}
   "memref.dma_wait"(%tag, %flt, %idx) : (memref<2x2xi32>, index, index) -> ()
   return
 }

 // -----

 func @transpose_not_permutation(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
   // expected-error @+1 {{expected a permutation map}}
   memref.transpose %v (i, j) -> (i, i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
 }

 // -----

 func @transpose_bad_rank(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
   // expected-error @+1 {{expected a permutation map of same rank as the input}}
   memref.transpose %v (i) -> (i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
 }

 // -----

 func @transpose_wrong_type(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
   // expected-error @+1 {{output type 'memref<?x?xf32, affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)>>' does not match transposed input type 'memref<?x?xf32, affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)>>'}}
   memref.transpose %v (i, j) -> (j, i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
 }

 // -----

 func @memref_reinterpret_cast_too_many_offsets(%in: memref<?xf32>) {
   // expected-error @+1 {{expected <= 1 offset values}}
   %out = memref.reinterpret_cast %in to
            offset: [0, 0], sizes: [10, 10], strides: [10, 1]
            : memref<?xf32> to memref<10x10xf32, offset: 0, strides: [10, 1]>
   return
 }

 // -----

 func @memref_reinterpret_cast_incompatible_element_types(%in: memref<*xf32>) {
   // expected-error @+1 {{different element types specified}}
   %out = memref.reinterpret_cast %in to
            offset: [0], sizes: [10], strides: [1]
          : memref<*xf32> to memref<10xi32, offset: 0, strides: [1]>
   return
 }

 // -----

 func @memref_reinterpret_cast_incompatible_memory_space(%in: memref<*xf32>) {
   // expected-error @+1 {{different memory spaces specified}}
   %out = memref.reinterpret_cast %in to
            offset: [0], sizes: [10], strides: [1]
          : memref<*xf32> to memref<10xi32, offset: 0, strides: [1], 2>
   return
 }

 // -----

 func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
   // expected-error @+1 {{expected result type with offset = 2 instead of 1}}
   %out = memref.reinterpret_cast %in to
            offset: [1], sizes: [10], strides: [1]
          : memref<?xf32> to memref<10xf32, offset: 2, strides: [1]>
   return
 }

 // -----

 func @memref_reinterpret_cast_size_mismatch(%in: memref<*xf32>) {
   // expected-error @+1 {{expected result type with size = 10 instead of 1 in dim = 0}}
   %out = memref.reinterpret_cast %in to
            offset: [0], sizes: [10], strides: [1]
          : memref<*xf32> to memref<1xf32, offset: 0, strides: [1]>
   return
 }

 // -----

 func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
   // expected-error @+1 {{expected result type with stride = 2 instead of 1 in dim = 0}}
   %out = memref.reinterpret_cast %in to
            offset: [2], sizes: [10], strides: [2]
          : memref<?xf32> to memref<10xf32, offset: 2, strides: [1]>
   return
 }

 // -----

 func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
   %c0 = arith.constant 0 : index
   %c10 = arith.constant 10 : index
   // expected-error @+1 {{expected result type with size = 10 instead of -1 in dim = 0}}
   %out = memref.reinterpret_cast %in to
            offset: [%c0], sizes: [10, %c10], strides: [%c10, 1]
            : memref<?xf32> to memref<?x?xf32, offset: ?, strides: [?, 1]>
   return
 }

 // -----

 func @memref_reshape_element_type_mismatch(
        %buf: memref<*xf32>, %shape: memref<1xi32>) {
   // expected-error @+1 {{element types of source and destination memref types should be the same}}
   memref.reshape %buf(%shape) : (memref<*xf32>, memref<1xi32>) -> memref<?xi32>
 }

 // -----

 func @memref_reshape_dst_ranked_shape_unranked(
        %buf: memref<*xf32>, %shape: memref<?xi32>) {
   // expected-error @+1 {{cannot use shape operand with dynamic length to reshape to statically-ranked memref type}}
   memref.reshape %buf(%shape) : (memref<*xf32>, memref<?xi32>) -> memref<?xf32>
 }

 // -----

 func @memref_reshape_dst_shape_rank_mismatch(
        %buf: memref<*xf32>, %shape: memref<1xi32>) {
   // expected-error @+1 {{length of shape operand differs from the result's memref rank}}
   memref.reshape %buf(%shape)
     : (memref<*xf32>, memref<1xi32>) -> memref<?x?xf32>
 }

 // -----

 func @memref_reshape_src_affine_map_is_not_identity(
         %buf: memref<4x4xf32, offset: 0, strides: [3, 2]>,
         %shape: memref<1xi32>) {
   // expected-error @+1 {{source memref type should have identity affine map}}
   memref.reshape %buf(%shape)
     : (memref<4x4xf32, offset: 0, strides: [3, 2]>, memref<1xi32>)
     -> memref<8xf32>
 }

 // -----

 func @memref_reshape_result_affine_map_is_not_identity(
         %buf: memref<4x4xf32>, %shape: memref<1xi32>) {
   // expected-error @+1 {{result memref type should have identity affine map}}
   memref.reshape %buf(%shape)
     : (memref<4x4xf32>, memref<1xi32>) -> memref<8xf32, offset: 0, strides: [2]>
 }

 // -----

 // expected-error @+1 {{type should be static shaped memref}}
 memref.global @foo : i32

 // -----

 // expected-error @+1 {{type should be static shaped memref}}
 memref.global @foo : i32 = 5

 // -----

 // expected-error @+1 {{type should be static shaped memref}}
 memref.global @foo : memref<*xf32>

 // -----

 // expected-error @+1 {{type should be static shaped memref}}
 memref.global @foo : memref<?x?xf32>

 // -----

 // expected-error @+1 {{initial value should be a unit or elements attribute}}
 memref.global @foo : memref<2x2xf32>  = "foo"

 // -----

 // expected-error @+1 {{inferred shape of elements literal ([2]) does not match type ([2, 2])}}
 memref.global @foo : memref<2x2xf32> = dense<[0.0, 1.0]>

 // -----

 // expected-error @+1 {{expected valid '@'-identifier for symbol name}}
 memref.global "private" "public" @foo : memref<2x2xf32>  = "foo"

 // -----

 // expected-error @+1 {{expected valid '@'-identifier for symbol name}}
 memref.global constant external @foo : memref<2x2xf32>  = "foo"

 // -----

 // constant qualifier must be after visibility.
 // expected-error @+1 {{expected valid '@'-identifier for symbol name}}
 memref.global constant "private" @foo : memref<2x2xf32>  = "foo"


 // -----

 // expected-error @+1 {{op visibility expected to be one of ["public", "private", "nested"], but got "priate"}}
 memref.global "priate" constant @memref5 : memref<2xf32>  = uninitialized

 // -----

 func @nonexistent_global_memref() {
   // expected-error @+1 {{'gv' does not reference a valid global memref}}
   %0 = memref.get_global @gv : memref<3xf32>
   return
 }

 // -----

 func @foo()

 func @nonexistent_global_memref() {
   // expected-error @+1 {{'foo' does not reference a valid global memref}}
   %0 = memref.get_global @foo : memref<3xf32>
   return
 }

 // -----

 memref.global @gv : memref<3xi32>

 func @mismatched_types() {
   // expected-error @+1 {{result type 'memref<3xf32>' does not match type 'memref<3xi32>' of the global memref @gv}}
   %0 = memref.get_global @gv : memref<3xf32>
   return
 }

 // -----

 // expected-error @+1 {{alignment attribute value 63 is not a power of 2}}
 memref.global "private" @gv : memref<4xf32> = dense<1.0> { alignment = 63 }

 // -----

 func @copy_different_shape(%arg0: memref<2xf32>, %arg1: memref<3xf32>) {
   // expected-error @+1 {{op requires the same shape for all operands}}
   memref.copy %arg0, %arg1 : memref<2xf32> to memref<3xf32>
   return
 }

 // -----

 func @copy_different_eltype(%arg0: memref<2xf32>, %arg1: memref<2xf16>) {
   // expected-error @+1 {{op requires the same element type for all operands}}
   memref.copy %arg0, %arg1 : memref<2xf32> to memref<2xf16>
   return
 }

 // -----

 func @expand_shape(%arg0: memref<f32>) {
   // expected-error @+1 {{expected non-zero memref ranks}}
   %0 = memref.expand_shape %arg0 [[0]] : memref<f32> into memref<f32>
 }

 // -----

 func @collapse_shape_to_higher_rank(%arg0: memref<f32>) {
   // expected-error @+1 {{expected the type 'memref<f32>' to have higher rank than the type = 'memref<1xf32>'}}
   %0 = memref.collapse_shape %arg0 [[0]] : memref<f32> into memref<1xf32>
 }

 // -----

 func @expand_shape_to_smaller_rank(%arg0: memref<1xf32>) {
   // expected-error @+1 {{expected the type 'memref<f32>' to have higher rank than the type = 'memref<1xf32>'}}
   %0 = memref.expand_shape %arg0 [[0]] : memref<1xf32> into memref<f32>
 }

 // -----

 func @collapse_shape(%arg0: memref<?xf32>) {
   // expected-error @+1 {{expected to collapse or expand dims}}
   %0 = memref.collapse_shape %arg0 [[0]] : memref<?xf32> into memref<?xf32>
 }

 // -----

 func @collapse_shape_mismatch_indices_num(%arg0: memref<?x?x?xf32>) {
   // expected-error @+1 {{expected rank of the collapsed type(2) to be the number of reassociation maps(1)}}
   %0 = memref.collapse_shape %arg0 [[0, 1]] :
     memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]>
 }

 // -----

 func @collapse_shape_invalid_reassociation(%arg0: memref<?x?x?xf32>) {
   // expected-error @+1 {{expected reassociation map #1 to be valid and contiguous}}
   %0 = memref.collapse_shape %arg0 [[0, 1], [1, 2]] :
     memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]>
 }

 // -----

 func @collapse_shape_wrong_collapsed_type(%arg0: memref<?x?x?xf32>) {
   // expected-error @+1 {{expected collapsed type to be 'memref<?x?xf32>', but got 'memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>>'}}
   %0 = memref.collapse_shape %arg0 [[0, 1], [2]] :
     memref<?x?x?xf32> into memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>>
 }

 // -----

 func @expand_shape_illegal_dynamic_memref
   (%arg0: memref<?x?x?xf32>) -> memref<?x?x?x4x?xf32> {
   // expected-error @+1 {{invalid to have a single dimension (2) expanded into multiple dynamic dims (2,4)}}
   %0 = memref.expand_shape %arg0 [[0], [1], [2, 3, 4]]
       : memref<?x?x?xf32> into memref<?x?x?x4x?xf32>
   return %0 : memref<?x?x?x4x?xf32>
 }

 // -----

 func @expand_shape_illegal_static_memref
   (%arg0: memref<2x3x20xf32>) -> memref<2x3x2x4x5xf32> {
   // expected-error @+1 {{expected dimension 2 of collapsed type to be static value of 40}}
   %0 = memref.expand_shape %arg0 [[0], [1], [2, 3, 4]]
       : memref<2x3x20xf32> into memref<2x3x2x4x5xf32>
   return %0 : memref<2x3x2x4x5xf32>
 }

 // -----

 func @collapse_shape_illegal_static_memref
   (%arg0: memref<2x3x2x4x5xf32>) -> memref<2x3x20xf32> {
   // expected-error @+1 {{expected dimension 2 of collapsed type to be static value of 40}}
   %0 = memref.collapse_shape %arg0 [[0], [1], [2, 3, 4]]
       : memref<2x3x2x4x5xf32> into memref<2x3x20xf32>
   return %0 : memref<2x3x20xf32>
 }

 // -----

 func @expand_shape_illegal_mixed_memref(%arg0 : memref<?x?xf32>)
     -> memref<?x4x5xf32> {
   // expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 5}}
   %0 = memref.expand_shape %arg0 [[0, 1], [2]]
       : memref<?x?xf32> into memref<?x4x5xf32>
   return %0 : memref<?x4x5xf32>
 }

 // -----

 func @expand_shape_illegal_mixed_memref_2(%arg0 : memref<?x?xf32>)
     -> memref<?x4x5xf32> {
   // expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 20}}
   %0 = memref.expand_shape %arg0 [[0], [1, 2]]
       : memref<?x?xf32> into memref<?x4x5xf32>
   return %0 : memref<?x4x5xf32>
 }

 // -----

 func @collapse_shape_illegal_mixed_memref(%arg0 : memref<?x4x5xf32>)
     -> memref<?x?xf32> {
   // expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 5}}
   %0 = memref.collapse_shape %arg0 [[0, 1], [2]]
       : memref<?x4x5xf32> into memref<?x?xf32>
   return %0 : memref<?x?xf32>
 }

 // -----

 func @collapse_shape_illegal_mixed_memref_2(%arg0 : memref<?x4x5xf32>)
     -> memref<?x?xf32> {
   // expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 20}}
   %0 = memref.collapse_shape %arg0 [[0], [1, 2]]
       : memref<?x4x5xf32> into memref<?x?xf32>
   return %0 : memref<?x?xf32>
 }

 // -----

 func @static_stride_to_dynamic_stride(%arg0 : memref<?x?x?xf32>, %arg1 : index,
     %arg2 : index) -> memref<?x?xf32, offset:?, strides: [?, ?]> {
   // expected-error @+1 {{expected result type to be 'memref<1x?x?xf32, affine_map<(d0, d1, d2)[s0, s1, s2] -> (d0 * s1 + s0 + d1 * s2 + d2)>>' or a rank-reduced version. (mismatch of result sizes)}}
   %0 = memref.subview %arg0[0, 0, 0] [1, %arg1, %arg2] [1, 1, 1] : memref<?x?x?xf32> to memref<?x?xf32, offset: ?, strides: [?, ?]>
   return %0 : memref<?x?xf32, offset: ?, strides: [?, ?]>
 }
	// RUN: mlir-opt -split-input-file %s -verify-diagnostics

	func @dma_start_not_enough_operands() {
	// expected-error@+1 {{expected at least 4 operands}}
	"memref.dma_start"() : () -> ()
	}

	// -----

	func @dma_no_src_memref(%m : f32, %tag : f32, %c0 : index) {
	// expected-error@+1 {{expected source to be of memref type}}
	memref.dma_start %m[%c0], %m[%c0], %c0, %tag[%c0] : f32, f32, f32
	}

	// -----

	func @dma_start_not_enough_operands_for_src(
	%src: memref<2x2x2xf32>, %idx: index) {
	// expected-error@+1 {{expected at least 7 operands}}
	"memref.dma_start"(%src, %idx, %idx, %idx) : (memref<2x2x2xf32>, index, index, index) -> ()
	}

	// -----

	func @dma_start_src_index_wrong_type(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>, %flt: f32) {
	// expected-error@+1 {{expected source indices to be of index type}}
	"memref.dma_start"(%src, %idx, %flt, %dst, %idx, %tag, %idx)
	: (memref<2x2xf32>, index, f32, memref<2xf32,1>, index, memref<i32,2>, index) -> ()
	}

	// -----

	func @dma_no_dst_memref(%m : f32, %tag : f32, %c0 : index) {
	%mref = memref.alloc() : memref<8 x f32>
	// expected-error@+1 {{expected destination to be of memref type}}
	memref.dma_start %mref[%c0], %m[%c0], %c0, %tag[%c0] : memref<8 x f32>, f32, f32
	}

	// -----

	func @dma_start_not_enough_operands_for_dst(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>) {
	// expected-error@+1 {{expected at least 7 operands}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index) -> ()
	}

	// -----

	func @dma_start_dst_index_wrong_type(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>, %flt: f32) {
	// expected-error@+1 {{expected destination indices to be of index type}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %flt, %tag, %idx)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, f32, memref<i32,2>, index) -> ()
	}

	// -----

	func @dma_start_dst_index_wrong_type(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>, %flt: f32) {
	// expected-error@+1 {{expected num elements to be of index type}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %flt, %tag)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, f32, memref<i32,2>) -> ()
	}

	// -----

	func @dma_no_tag_memref(%tag : f32, %c0 : index) {
	%mref = memref.alloc() : memref<8 x f32>
	// expected-error@+1 {{expected tag to be of memref type}}
	memref.dma_start %mref[%c0], %mref[%c0], %c0, %tag[%c0] : memref<8 x f32>, memref<8 x f32>, f32
	}

	// -----

	func @dma_start_not_enough_operands_for_tag(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<2xi32,2>) {
	// expected-error@+1 {{expected at least 8 operands}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>) -> ()
	}

	// -----

	func @dma_start_dst_index_wrong_type(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<2xi32,2>, %flt: f32) {
	// expected-error@+1 {{expected tag indices to be of index type}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %flt)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<2xi32,2>, f32) -> ()
	}

	// -----

	func @dma_start_too_many_operands(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>) {
	// expected-error@+1 {{incorrect number of operands}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %idx, %idx)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<i32,2>, index, index, index) -> ()
	}


	// -----

	func @dma_start_wrong_stride_type(
	%src: memref<2x2xf32>, %idx: index, %dst: memref<2xf32,1>,
	%tag: memref<i32,2>, %flt: f32) {
	// expected-error@+1 {{expected stride and num elements per stride to be of type index}}
	"memref.dma_start"(%src, %idx, %idx, %dst, %idx, %idx, %tag, %idx, %flt)
	: (memref<2x2xf32>, index, index, memref<2xf32,1>, index, index, memref<i32,2>, index, f32) -> ()
	}

	// -----

	func @dma_wait_wrong_index_type(%tag : memref<2x2xi32>, %idx: index, %flt: index) {
	// expected-error@+1 {{expected tagIndices to have the same number of elements as the tagMemRef rank, expected 2, but got 1}}
	"memref.dma_wait"(%tag, %flt, %idx) : (memref<2x2xi32>, index, index) -> ()
	return
	}

	// -----

	func @transpose_not_permutation(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
	// expected-error @+1 {{expected a permutation map}}
	memref.transpose %v (i, j) -> (i, i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
	}

	// -----

	func @transpose_bad_rank(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
	// expected-error @+1 {{expected a permutation map of same rank as the input}}
	memref.transpose %v (i) -> (i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
	}

	// -----

	func @transpose_wrong_type(%v : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>) {
	// expected-error @+1 {{output type 'memref<?x?xf32, affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)>>' does not match transposed input type 'memref<?x?xf32, affine_map<(d0, d1)[s0, s1] -> (d0 * s1 + s0 + d1)>>'}}
	memref.transpose %v (i, j) -> (j, i) : memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>> to memref<?x?xf32, affine_map<(i, j)[off, M]->(off + M * i + j)>>
	}

	// -----

	func @memref_reinterpret_cast_too_many_offsets(%in: memref<?xf32>) {
	// expected-error @+1 {{expected <= 1 offset values}}
	%out = memref.reinterpret_cast %in to
	offset: [0, 0], sizes: [10, 10], strides: [10, 1]
	: memref<?xf32> to memref<10x10xf32, offset: 0, strides: [10, 1]>
	return
	}

	// -----

	func @memref_reinterpret_cast_incompatible_element_types(%in: memref<*xf32>) {
	// expected-error @+1 {{different element types specified}}
	%out = memref.reinterpret_cast %in to
	offset: [0], sizes: [10], strides: [1]
	: memref<*xf32> to memref<10xi32, offset: 0, strides: [1]>
	return
	}

	// -----

	func @memref_reinterpret_cast_incompatible_memory_space(%in: memref<*xf32>) {
	// expected-error @+1 {{different memory spaces specified}}
	%out = memref.reinterpret_cast %in to
	offset: [0], sizes: [10], strides: [1]
	: memref<*xf32> to memref<10xi32, offset: 0, strides: [1], 2>
	return
	}

	// -----

	func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
	// expected-error @+1 {{expected result type with offset = 2 instead of 1}}
	%out = memref.reinterpret_cast %in to
	offset: [1], sizes: [10], strides: [1]
	: memref<?xf32> to memref<10xf32, offset: 2, strides: [1]>
	return
	}

	// -----

	func @memref_reinterpret_cast_size_mismatch(%in: memref<*xf32>) {
	// expected-error @+1 {{expected result type with size = 10 instead of 1 in dim = 0}}
	%out = memref.reinterpret_cast %in to
	offset: [0], sizes: [10], strides: [1]
	: memref<*xf32> to memref<1xf32, offset: 0, strides: [1]>
	return
	}

	// -----

	func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
	// expected-error @+1 {{expected result type with stride = 2 instead of 1 in dim = 0}}
	%out = memref.reinterpret_cast %in to
	offset: [2], sizes: [10], strides: [2]
	: memref<?xf32> to memref<10xf32, offset: 2, strides: [1]>
	return
	}

	// -----

	func @memref_reinterpret_cast_offset_mismatch(%in: memref<?xf32>) {
	%c0 = arith.constant 0 : index
	%c10 = arith.constant 10 : index
	// expected-error @+1 {{expected result type with size = 10 instead of -1 in dim = 0}}
	%out = memref.reinterpret_cast %in to
	offset: [%c0], sizes: [10, %c10], strides: [%c10, 1]
	: memref<?xf32> to memref<?x?xf32, offset: ?, strides: [?, 1]>
	return
	}

	// -----

	func @memref_reshape_element_type_mismatch(
	%buf: memref<*xf32>, %shape: memref<1xi32>) {
	// expected-error @+1 {{element types of source and destination memref types should be the same}}
	memref.reshape %buf(%shape) : (memref<*xf32>, memref<1xi32>) -> memref<?xi32>
	}

	// -----

	func @memref_reshape_dst_ranked_shape_unranked(
	%buf: memref<*xf32>, %shape: memref<?xi32>) {
	// expected-error @+1 {{cannot use shape operand with dynamic length to reshape to statically-ranked memref type}}
	memref.reshape %buf(%shape) : (memref<*xf32>, memref<?xi32>) -> memref<?xf32>
	}

	// -----

	func @memref_reshape_dst_shape_rank_mismatch(
	%buf: memref<*xf32>, %shape: memref<1xi32>) {
	// expected-error @+1 {{length of shape operand differs from the result's memref rank}}
	memref.reshape %buf(%shape)
	: (memref<*xf32>, memref<1xi32>) -> memref<?x?xf32>
	}

	// -----

	func @memref_reshape_src_affine_map_is_not_identity(
	%buf: memref<4x4xf32, offset: 0, strides: [3, 2]>,
	%shape: memref<1xi32>) {
	// expected-error @+1 {{source memref type should have identity affine map}}
	memref.reshape %buf(%shape)
	: (memref<4x4xf32, offset: 0, strides: [3, 2]>, memref<1xi32>)
	-> memref<8xf32>
	}

	// -----

	func @memref_reshape_result_affine_map_is_not_identity(
	%buf: memref<4x4xf32>, %shape: memref<1xi32>) {
	// expected-error @+1 {{result memref type should have identity affine map}}
	memref.reshape %buf(%shape)
	: (memref<4x4xf32>, memref<1xi32>) -> memref<8xf32, offset: 0, strides: [2]>
	}

	// -----

	// expected-error @+1 {{type should be static shaped memref}}
	memref.global @foo : i32

	// -----

	// expected-error @+1 {{type should be static shaped memref}}
	memref.global @foo : i32 = 5

	// -----

	// expected-error @+1 {{type should be static shaped memref}}
	memref.global @foo : memref<*xf32>

	// -----

	// expected-error @+1 {{type should be static shaped memref}}
	memref.global @foo : memref<?x?xf32>

	// -----

	// expected-error @+1 {{initial value should be a unit or elements attribute}}
	memref.global @foo : memref<2x2xf32> = "foo"

	// -----

	// expected-error @+1 {{inferred shape of elements literal ([2]) does not match type ([2, 2])}}
	memref.global @foo : memref<2x2xf32> = dense<[0.0, 1.0]>

	// -----

	// expected-error @+1 {{expected valid '@'-identifier for symbol name}}
	memref.global "private" "public" @foo : memref<2x2xf32> = "foo"

	// -----

	// expected-error @+1 {{expected valid '@'-identifier for symbol name}}
	memref.global constant external @foo : memref<2x2xf32> = "foo"

	// -----

	// constant qualifier must be after visibility.
	// expected-error @+1 {{expected valid '@'-identifier for symbol name}}
	memref.global constant "private" @foo : memref<2x2xf32> = "foo"


	// -----

	// expected-error @+1 {{op visibility expected to be one of ["public", "private", "nested"], but got "priate"}}
	memref.global "priate" constant @memref5 : memref<2xf32> = uninitialized

	// -----

	func @nonexistent_global_memref() {
	// expected-error @+1 {{'gv' does not reference a valid global memref}}
	%0 = memref.get_global @gv : memref<3xf32>
	return
	}

	// -----

	func @foo()

	func @nonexistent_global_memref() {
	// expected-error @+1 {{'foo' does not reference a valid global memref}}
	%0 = memref.get_global @foo : memref<3xf32>
	return
	}

	// -----

	memref.global @gv : memref<3xi32>

	func @mismatched_types() {
	// expected-error @+1 {{result type 'memref<3xf32>' does not match type 'memref<3xi32>' of the global memref @gv}}
	%0 = memref.get_global @gv : memref<3xf32>
	return
	}

	// -----

	// expected-error @+1 {{alignment attribute value 63 is not a power of 2}}
	memref.global "private" @gv : memref<4xf32> = dense<1.0> { alignment = 63 }

	// -----

	func @copy_different_shape(%arg0: memref<2xf32>, %arg1: memref<3xf32>) {
	// expected-error @+1 {{op requires the same shape for all operands}}
	memref.copy %arg0, %arg1 : memref<2xf32> to memref<3xf32>
	return
	}

	// -----

	func @copy_different_eltype(%arg0: memref<2xf32>, %arg1: memref<2xf16>) {
	// expected-error @+1 {{op requires the same element type for all operands}}
	memref.copy %arg0, %arg1 : memref<2xf32> to memref<2xf16>
	return
	}

	// -----

	func @expand_shape(%arg0: memref<f32>) {
	// expected-error @+1 {{expected non-zero memref ranks}}
	%0 = memref.expand_shape %arg0 [[0]] : memref<f32> into memref<f32>
	}

	// -----

	func @collapse_shape_to_higher_rank(%arg0: memref<f32>) {
	// expected-error @+1 {{expected the type 'memref<f32>' to have higher rank than the type = 'memref<1xf32>'}}
	%0 = memref.collapse_shape %arg0 [[0]] : memref<f32> into memref<1xf32>
	}

	// -----

	func @expand_shape_to_smaller_rank(%arg0: memref<1xf32>) {
	// expected-error @+1 {{expected the type 'memref<f32>' to have higher rank than the type = 'memref<1xf32>'}}
	%0 = memref.expand_shape %arg0 [[0]] : memref<1xf32> into memref<f32>
	}

	// -----

	func @collapse_shape(%arg0: memref<?xf32>) {
	// expected-error @+1 {{expected to collapse or expand dims}}
	%0 = memref.collapse_shape %arg0 [[0]] : memref<?xf32> into memref<?xf32>
	}

	// -----

	func @collapse_shape_mismatch_indices_num(%arg0: memref<?x?x?xf32>) {
	// expected-error @+1 {{expected rank of the collapsed type(2) to be the number of reassociation maps(1)}}
	%0 = memref.collapse_shape %arg0 [[0, 1]] :
	memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]>
	}

	// -----

	func @collapse_shape_invalid_reassociation(%arg0: memref<?x?x?xf32>) {
	// expected-error @+1 {{expected reassociation map #1 to be valid and contiguous}}
	%0 = memref.collapse_shape %arg0 [[0, 1], [1, 2]] :
	memref<?x?x?xf32> into memref<?x?xf32, offset: 0, strides: [?, 1]>
	}

	// -----

	func @collapse_shape_wrong_collapsed_type(%arg0: memref<?x?x?xf32>) {
	// expected-error @+1 {{expected collapsed type to be 'memref<?x?xf32>', but got 'memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>>'}}
	%0 = memref.collapse_shape %arg0 [[0, 1], [2]] :
	memref<?x?x?xf32> into memref<?x?xf32, affine_map<(d0, d1)[s0] -> (d0 * s0 + d1)>>
	}

	// -----

	func @expand_shape_illegal_dynamic_memref
	(%arg0: memref<?x?x?xf32>) -> memref<?x?x?x4x?xf32> {
	// expected-error @+1 {{invalid to have a single dimension (2) expanded into multiple dynamic dims (2,4)}}
	%0 = memref.expand_shape %arg0 [[0], [1], [2, 3, 4]]
	: memref<?x?x?xf32> into memref<?x?x?x4x?xf32>
	return %0 : memref<?x?x?x4x?xf32>
	}

	// -----

	func @expand_shape_illegal_static_memref
	(%arg0: memref<2x3x20xf32>) -> memref<2x3x2x4x5xf32> {
	// expected-error @+1 {{expected dimension 2 of collapsed type to be static value of 40}}
	%0 = memref.expand_shape %arg0 [[0], [1], [2, 3, 4]]
	: memref<2x3x20xf32> into memref<2x3x2x4x5xf32>
	return %0 : memref<2x3x2x4x5xf32>
	}

	// -----

	func @collapse_shape_illegal_static_memref
	(%arg0: memref<2x3x2x4x5xf32>) -> memref<2x3x20xf32> {
	// expected-error @+1 {{expected dimension 2 of collapsed type to be static value of 40}}
	%0 = memref.collapse_shape %arg0 [[0], [1], [2, 3, 4]]
	: memref<2x3x2x4x5xf32> into memref<2x3x20xf32>
	return %0 : memref<2x3x20xf32>
	}

	// -----

	func @expand_shape_illegal_mixed_memref(%arg0 : memref<?x?xf32>)
	-> memref<?x4x5xf32> {
	// expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 5}}
	%0 = memref.expand_shape %arg0 [[0, 1], [2]]
	: memref<?x?xf32> into memref<?x4x5xf32>
	return %0 : memref<?x4x5xf32>
	}

	// -----

	func @expand_shape_illegal_mixed_memref_2(%arg0 : memref<?x?xf32>)
	-> memref<?x4x5xf32> {
	// expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 20}}
	%0 = memref.expand_shape %arg0 [[0], [1, 2]]
	: memref<?x?xf32> into memref<?x4x5xf32>
	return %0 : memref<?x4x5xf32>
	}

	// -----

	func @collapse_shape_illegal_mixed_memref(%arg0 : memref<?x4x5xf32>)
	-> memref<?x?xf32> {
	// expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 5}}
	%0 = memref.collapse_shape %arg0 [[0, 1], [2]]
	: memref<?x4x5xf32> into memref<?x?xf32>
	return %0 : memref<?x?xf32>
	}

	// -----

	func @collapse_shape_illegal_mixed_memref_2(%arg0 : memref<?x4x5xf32>)
	-> memref<?x?xf32> {
	// expected-error @+1 {{expected dimension 1 of collapsed type to be static value of 20}}
	%0 = memref.collapse_shape %arg0 [[0], [1, 2]]
	: memref<?x4x5xf32> into memref<?x?xf32>
	return %0 : memref<?x?xf32>
	}

	// -----

	func @static_stride_to_dynamic_stride(%arg0 : memref<?x?x?xf32>, %arg1 : index,
	%arg2 : index) -> memref<?x?xf32, offset:?, strides: [?, ?]> {
	// expected-error @+1 {{expected result type to be 'memref<1x?x?xf32, affine_map<(d0, d1, d2)[s0, s1, s2] -> (d0 * s1 + s0 + d1 * s2 + d2)>>' or a rank-reduced version. (mismatch of result sizes)}}
	%0 = memref.subview %arg0[0, 0, 0] [1, %arg1, %arg2] [1, 1, 1] : memref<?x?x?xf32> to memref<?x?xf32, offset: ?, strides: [?, ?]>
	return %0 : memref<?x?xf32, offset: ?, strides: [?, ?]>
	}