mlir/test/Dialect/Tensor/fold-into-pack-and-unpack.mlir - third_party/github.com/llvm/llvm-project - Git at Google

 // RUN: mlir-opt -split-input-file -test-tensor-transform-patterns=test-fold-into-pack-and-unpack  %s | FileCheck %s

 func.func @fold_unpack_slice(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
     %arg2 : index, %arg3 : index) -> tensor<?x?xf32> {
   %0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
       : tensor<?x?x8x4xf32> -> tensor<?x?xf32>
   %1 = tensor.extract_slice %0[0, 0] [%arg2, %arg3] [1, 1] : tensor<?x?xf32> to tensor<?x?xf32>
   return %1 : tensor<?x?xf32>
 }
 //      CHECK: func @fold_unpack_slice(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<?x?x8x4xf32>
 // CHECK-SAME:     %[[ARG1:[a-zA-Z0-9]+]]: tensor<?x?xf32>
 // CHECK-SAME:     %[[ARG2:[a-zA-Z0-9]+]]: index
 // CHECK-SAME:     %[[ARG3:[a-zA-Z0-9]+]]: index
 //      CHECK:   %[[INIT:.+]] = tensor.empty(%[[ARG2]], %[[ARG3]]) : tensor<?x?xf32>
 //      CHECK:   %[[UNPACK:.+]] = tensor.unpack %[[ARG0]] inner_dims_pos = [0, 1] inner_tiles = [8, 4]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[UNPACK]]

 // -----

 func.func @nofold_unpack_slice_non_zero_offset(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
     %arg2 : index, %arg3 : index, %arg4 : index) -> tensor<?x?xf32> {
   %0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
       : tensor<?x?x8x4xf32> -> tensor<?x?xf32>
   %1 = tensor.extract_slice %0[0, %arg4] [%arg2, %arg3] [1, 1] : tensor<?x?xf32> to tensor<?x?xf32>
   return %1 : tensor<?x?xf32>
 }
 // CHECK-LABEL: func @nofold_unpack_slice_non_zero_offset(
 //       CHECK:   %[[UNPACK:.+]] = tensor.unpack
 //       CHECK:   tensor.extract_slice %[[UNPACK]]

 // -----

 func.func @nofold_unpack_slice_non_unit_stride(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
     %arg2 : index, %arg3 : index, %arg4 : index) -> tensor<?x?xf32> {
   %0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
       : tensor<?x?x8x4xf32> -> tensor<?x?xf32>
   %1 = tensor.extract_slice %0[0, 0] [%arg2, %arg3] [%arg4, 1] : tensor<?x?xf32> to tensor<?x?xf32>
   return %1 : tensor<?x?xf32>
 }
 // CHECK-LABEL: func @nofold_unpack_slice_non_unit_stride(
 //       CHECK:   %[[UNPACK:.+]] = tensor.unpack
 //       CHECK:   tensor.extract_slice %[[UNPACK]]

 // -----

 func.func @nofold_unpack_slice_rank_reduced(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
     %arg2 : index, %arg3 : index) -> tensor<f32> {
   %0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
       : tensor<?x?x8x4xf32> -> tensor<?x?xf32>
   %1 = tensor.extract_slice %0[0, 0] [1, 1] [1, 1] : tensor<?x?xf32> to tensor<f32>
   return %1 : tensor<f32>
 }
 // CHECK-LABEL: func @nofold_unpack_slice_rank_reduced(
 //       CHECK:   %[[UNPACK:.+]] = tensor.unpack
 //       CHECK:   tensor.extract_slice %[[UNPACK]]

 // -----

 func.func @pad_pack(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
   %c0 = arith.constant 0 : index
   %cst = arith.constant 0.000000e+00 : f32
   %padded = tensor.pad %src low[0, 0] high[15, 0] {
   ^bb0(%arg0: index, %arg1: index):
     tensor.yield %cst : f32
   } : tensor<16641x16xf32> to tensor<16656x16xf32>
   %empty = tensor.empty() : tensor<2082x1x8x32xf32>
   %pack = tensor.pack %padded padding_value(%cst : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
       : tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
   return %pack : tensor<2082x1x8x32xf32>
 }
 // CHECK-LABEL: func.func @pad_pack
 // CHECK-SAME:    %[[SRC:[a-zA-Z0-9]+]]
 // CHECK:         %[[PAD_VAL:.+]] = arith.constant 0.000000e+00 : f32
 // CHECK:         %[[DEST:.+]] = tensor.empty() : tensor<2082x1x8x32xf32>
 // CHECK:         %[[PACK:.+]] = tensor.pack %[[SRC]]
 // CHECK-SAME:      padding_value(%[[PAD_VAL]] : f32)
 // CHECK-SAME:      inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %[[DEST]]

 // -----

 func.func @nofold_pad_pack(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
   %c0 = arith.constant 0 : index
   %cst = arith.constant 0.000000e+00 : f32
   %padded = tensor.pad %src nofold low[0, 0] high[15, 0] {
   ^bb0(%arg0: index, %arg1: index):
     tensor.yield %cst : f32
   } : tensor<16641x16xf32> to tensor<16656x16xf32>
   %empty = tensor.empty() : tensor<2082x1x8x32xf32>
   %pack = tensor.pack %padded padding_value(%cst : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
       : tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
   return %pack : tensor<2082x1x8x32xf32>
 }
 // CHECK-LABEL: func.func @nofold_pad_pack
 // CHECK:         tensor.pad
 // CHECK:         tensor.pack

 // -----

 func.func @pad_pack_different_padding_value(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
   %c0 = arith.constant 0 : index
   %cst0 = arith.constant 0.000000e+00 : f32
   %cst1 = arith.constant 1.000000e+00 : f32
   %padded = tensor.pad %src low[0, 0] high[15, 0] {
   ^bb0(%arg0: index, %arg1: index):
     tensor.yield %cst0 : f32
   } : tensor<16641x16xf32> to tensor<16656x16xf32>
   %empty = tensor.empty() : tensor<2082x1x8x32xf32>
   %pack = tensor.pack %padded padding_value(%cst1 : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
       : tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
   return %pack : tensor<2082x1x8x32xf32>
 }
 // CHECK-LABEL: func.func @pad_pack_different_padding_value
 // CHECK:         tensor.pad
 // CHECK:         tensor.pack

 // -----

 func.func @tensor_pack_linalg_transpose_fold(%arg0: tensor<56x57x1x64xf32>) -> tensor<1x57x56x2x32xf32> {
   %0 = tensor.empty() : tensor<56x2x1x57x32xf32>
   %pack = tensor.pack %arg0
     outer_dims_perm = [0, 3, 2, 1]
     inner_dims_pos = [3]
     inner_tiles = [32]
     into %0 : tensor<56x57x1x64xf32> -> tensor<56x2x1x57x32xf32>

   %1 = tensor.empty() : tensor<1x57x56x2x32xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<56x2x1x57x32xf32>)
     outs(%1 : tensor<1x57x56x2x32xf32>)
     permutation = [2, 3, 0, 1, 4]
   return %transposed : tensor<1x57x56x2x32xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x57x1x64xf32>)
 //      CHECK:   %[[INIT:.+]] = tensor.empty() : tensor<1x57x56x2x32xf32>
 //      CHECK:   %[[PACK:.+]] = tensor.pack %[[ARG0]]
 // CHECK-SAME:      outer_dims_perm = [2, 1, 0, 3]
 // CHECK-SAME:      inner_dims_pos = [3] inner_tiles = [32]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[PACK]]

 // -----

 func.func @tensor_pack_linalg_transpose_fold_with_padding(%arg0: tensor<56x57x1x55xf32>, %padding: f32) -> tensor<1x57x56x2x32xf32> {
   %0 = tensor.empty() : tensor<56x2x1x57x32xf32>
   %pack = tensor.pack %arg0 padding_value(%padding : f32)
     outer_dims_perm = [0, 3, 2, 1]
     inner_dims_pos = [3]
     inner_tiles = [32]
     into %0 : tensor<56x57x1x55xf32> -> tensor<56x2x1x57x32xf32>

   %1 = tensor.empty() : tensor<1x57x56x2x32xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<56x2x1x57x32xf32>)
     outs(%1 : tensor<1x57x56x2x32xf32>)
     permutation = [2, 3, 0, 1, 4]
   return %transposed : tensor<1x57x56x2x32xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold_with_padding(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x57x1x55xf32>, %[[PADDING:.+]]: f32)
 //      CHECK:   %[[INIT:.+]] = tensor.empty() : tensor<1x57x56x2x32xf32>
 //      CHECK:   %[[PACK:.+]] = tensor.pack %[[ARG0]] padding_value(%[[PADDING]] : f32)
 // CHECK-SAME:      outer_dims_perm = [2, 1, 0, 3]
 // CHECK-SAME:      inner_dims_pos = [3] inner_tiles = [32]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[PACK]]

 // -----

 func.func @tensor_pack_linalg_transpose_fold_no_outer_dims_perm(%arg0: tensor<56x57x1x64xf32>) -> tensor<1x2x56x57x32xf32> {
   %0 = tensor.empty() : tensor<56x57x1x2x32xf32>
   %pack = tensor.pack %arg0
     inner_dims_pos = [3]
     inner_tiles = [32]
     into %0 : tensor<56x57x1x64xf32> -> tensor<56x57x1x2x32xf32>

   %1 = tensor.empty() : tensor<1x2x56x57x32xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<56x57x1x2x32xf32>)
     outs(%1 : tensor<1x2x56x57x32xf32>)
     permutation = [2, 3, 0, 1, 4]
   return %transposed : tensor<1x2x56x57x32xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold_no_outer_dims_perm(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x57x1x64xf32>)
 //      CHECK:   %[[INIT:.+]] = tensor.empty() : tensor<1x2x56x57x32xf32>
 //      CHECK:   %[[PACK:.+]] = tensor.pack %[[ARG0]]
 // CHECK-SAME:      outer_dims_perm = [2, 3, 0, 1]
 // CHECK-SAME:      inner_dims_pos = [3] inner_tiles = [32]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[PACK]]

 // -----

 func.func @tensor_pack_linalg_transpose_fold_tile_dims_transpose(%arg0: tensor<56x72x24x128xf32>) -> tensor<12x56x4x9x32x8x2xf32> {
   %0 = tensor.empty() : tensor<4x9x12x56x8x2x32xf32>
   %pack = tensor.pack %arg0
     outer_dims_perm = [3, 1, 2, 0]
     inner_dims_pos = [1, 2, 3]
     inner_tiles = [8, 2, 32]
     into %0 : tensor<56x72x24x128xf32> -> tensor<4x9x12x56x8x2x32xf32>

   %1 = tensor.empty() : tensor<12x56x4x9x32x8x2xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<4x9x12x56x8x2x32xf32>)
     outs(%1 : tensor<12x56x4x9x32x8x2xf32>)
     permutation = [2, 3, 0, 1, 6, 4, 5]
   return %transposed : tensor<12x56x4x9x32x8x2xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold_tile_dims_transpose(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x72x24x128xf32>)
 //      CHECK:   %[[INIT:.+]] = tensor.empty() : tensor<12x56x4x9x32x8x2xf32>
 //      CHECK:   %[[PACK:.+]] = tensor.pack %[[ARG0]]
 // CHECK-SAME:      outer_dims_perm = [2, 0, 3, 1]
 // CHECK-SAME:      inner_dims_pos = [3, 1, 2] inner_tiles = [32, 8, 2]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[PACK]]

 // -----

 func.func @tensor_pack_linalg_transpose_fold_tile_dims_outer_dims_transpose(%arg0: tensor<56x72x24x128xf32>) -> tensor<9x56x2x12x32x8x4xf32> {
   %0 = tensor.empty() : tensor<4x12x9x56x8x2x32xf32>
   %pack = tensor.pack %arg0
     outer_dims_perm = [3, 2, 1, 0]
     inner_dims_pos = [1, 2, 3]
     inner_tiles = [8, 2, 32]
     into %0 : tensor<56x72x24x128xf32> -> tensor<4x12x9x56x8x2x32xf32>

   %1 = tensor.empty() : tensor<9x56x2x12x32x8x4xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<4x12x9x56x8x2x32xf32>)
     outs(%1 : tensor<9x56x2x12x32x8x4xf32>)
     permutation = [2, 3, 5, 1, 6, 4, 0]
   return %transposed : tensor<9x56x2x12x32x8x4xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold_tile_dims_outer_dims_transpose(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x72x24x128xf32>)
 //      CHECK:   tensor.pack
 //      CHECK:   linalg.transpose

 // -----

 func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims(%arg0: tensor<56x?x?x64xf32>) -> tensor<?x?x56x2x32xf32> {
   %0 = tensor.empty() : tensor<56x2x1x57x32xf32>
   %pack = tensor.pack %arg0
     outer_dims_perm = [0, 3, 2, 1]
     inner_dims_pos = [3]
     inner_tiles = [32]
     into %0 : tensor<56x?x?x64xf32> -> tensor<56x2x1x57x32xf32>

   %1 = tensor.empty() : tensor<1x57x56x2x32xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<56x2x1x57x32xf32>)
     outs(%1 : tensor<1x57x56x2x32xf32>)
     permutation = [2, 3, 0, 1, 4]

   %return_value = tensor.cast %transposed : tensor<1x57x56x2x32xf32> to tensor<?x?x56x2x32xf32>
   return %return_value : tensor<?x?x56x2x32xf32>
 }
 //      CHECK: func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims(
 // CHECK-SAME:     %[[ARG0:.+]]: tensor<56x?x?x64xf32>)
 //      CHECK:   %[[c1:.+]] = arith.constant 1 : index
 //      CHECK:   %[[c2:.+]] = arith.constant 2 : index
 //      CHECK:   %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<56x?x?x64xf32>
 //      CHECK:   %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<56x?x?x64xf32>
 //      CHECK:   %[[INIT:.+]] = tensor.empty(%[[dim_0]], %[[dim]]) : tensor<?x?x56x2x32xf32>
 //      CHECK:   %[[PACK:.+]] = tensor.pack %[[ARG0]]
 // CHECK-SAME:      outer_dims_perm = [2, 1, 0, 3]
 // CHECK-SAME:      inner_dims_pos = [3] inner_tiles = [32]
 // CHECK-SAME:       into %[[INIT]]
 //      CHECK:   return %[[PACK]]

 // -----

 func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_and_tile_dims(%arg0: tensor<56x?x?x128xf32>) -> tensor<?x?x56x9x32x8x2xf32> {
   %0 = tensor.empty() : tensor<56x9x12x4x8x2x32xf32>
   %pack = tensor.pack %arg0
     inner_dims_pos = [1, 2, 3]
     inner_tiles = [8, 2, 32]
     into %0 : tensor<56x?x?x128xf32> -> tensor<56x9x12x4x8x2x32xf32>

   %1 = tensor.empty() : tensor<12x4x56x9x32x8x2xf32>
   %transposed = linalg.transpose
     ins(%pack : tensor<56x9x12x4x8x2x32xf32>)
     outs(%1 : tensor<12x4x56x9x32x8x2xf32>)
     permutation = [2, 3, 0, 1, 6, 4, 5]

   %return_value = tensor.cast %transposed : tensor<12x4x56x9x32x8x2xf32> to tensor<?x?x56x9x32x8x2xf32>
   return %return_value : tensor<?x?x56x9x32x8x2xf32>
 }
 //      CHECK: #[[map:.+]] = affine_map<()[s0] -> (s0 ceildiv 8)>
 //      CHECK: #[[map1:.+]] = affine_map<()[s0] -> (s0 ceildiv 2)>
 //      CHECK: module {
 //      CHECK:   func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_and_tile_dims(
 // CHECK-SAME:   %[[ARG0:.+]]: tensor<56x?x?x128xf32>)
 //      CHECK:     %[[c1:.+]] = arith.constant 1 : index
 //      CHECK:     %[[c2:.+]] = arith.constant 2 : index
 //      CHECK:     %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<56x?x?x128xf32>
 //      CHECK:     %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<56x?x?x128xf32>
 //      CHECK:     %[[mapped_dim1:.+]] = affine.apply #[[map:.+]]()[%[[dim]]]
 //      CHECK:     %[[mapped_dim2:.+]] = affine.apply #[[map1:.+]]()[%[[dim_0]]]
 //      CHECK:     %[[INIT:.+]] = tensor.empty(%[[mapped_dim2]], %[[mapped_dim1]]) : tensor<?x4x56x?x32x8x2xf32>
 //      CHECK:     %[[PACK:.+]] = tensor.pack %[[ARG0]] outer_dims_perm = [2, 3, 0, 1] inner_dims_pos = [3, 1, 2] inner_tiles = [32, 8, 2] into %[[INIT]] : tensor<56x?x?x128xf32> -> tensor<?x4x56x?x32x8x2xf32>
 //      CHECK:     %[[CAST:.+]] = tensor.cast %[[PACK]] : tensor<?x4x56x?x32x8x2xf32> to tensor<?x?x56x9x32x8x2xf32>
 //      CHECK:     return %[[CAST]] : tensor<?x?x56x9x32x8x2xf32>
 //      CHECK:   }

 // -----

 func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims_tile_dims_tile_sizes(%arg0: tensor<?x?x?x?xf32>, %pack_dest: tensor<?x?x?x?x?x?x?xf32>, %transpose_dest: tensor<?x?x?x?x?x?x?xf32>, %tile_p : index, %tile_q : index, %tile_r : index) -> tensor<?x?x?x?x?x?x?xf32> {
   %pack = tensor.pack %arg0
     outer_dims_perm = [3, 0, 2, 1]
     inner_dims_pos = [1, 2, 3]
     inner_tiles = [%tile_p, %tile_q, %tile_r]
     into %pack_dest : tensor<?x?x?x?xf32> -> tensor<?x?x?x?x?x?x?xf32>

   %transposed = linalg.transpose
     ins(%pack : tensor<?x?x?x?x?x?x?xf32>)
     outs(%transpose_dest : tensor<?x?x?x?x?x?x?xf32>)
     permutation = [2, 3, 0, 1, 6, 4, 5]

   return %transposed : tensor<?x?x?x?x?x?x?xf32>
 }
 //      CHECK: #[[map:.+]] = affine_map<()[s0, s1] -> (s0 ceildiv s1)>
 //      CHECK: module {
 //      CHECK:   func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims_tile_dims_tile_sizes(
 // CHECK-SAME:   %[[ARG0:.+]]: tensor<?x?x?x?xf32>,
 // CHECK-SAME:   %[[PACK_DEST:.+]]: tensor<?x?x?x?x?x?x?xf32>, %[[TRANSPOSE_DEST:.+]]: tensor<?x?x?x?x?x?x?xf32>,
 // CHECK-SAME:   %[[ARG1:.+]]: index, %[[ARG2:.+]]: index,
 // CHECK-SAME:   %[[ARG3:.+]]: index)
 //      CHECK:     %[[c0:.+]] = arith.constant 0 : index
 //      CHECK:     %[[c1:.+]] = arith.constant 1 : index
 //      CHECK:     %[[c2:.+]] = arith.constant 2 : index
 //      CHECK:     %[[c3:.+]] = arith.constant 3 : index
 //      CHECK:     %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c0]] : tensor<?x?x?x?xf32>
 //      CHECK:     %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<?x?x?x?xf32>
 //      CHECK:     %[[dim_1:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<?x?x?x?xf32>
 //      CHECK:     %[[dim_2:.+]] = tensor.dim %[[ARG0]], %[[c3]] : tensor<?x?x?x?xf32>
 //      CHECK:     %[[mapped_dim0:.+]] = affine.apply #[[map:.+]]()[%[[dim_2]], %[[ARG3]]]
 //      CHECK:     %[[mapped_dim1:.+]] = affine.apply #[[map:.+]]()[%[[dim_0]], %[[ARG1]]]
 //      CHECK:     %[[mapped_dim2:.+]] = affine.apply #[[map:.+]]()[%[[dim_1]], %[[ARG2]]]
 //      CHECK:     %[[INIT:.+]] = tensor.empty(%[[mapped_dim2]], %[[mapped_dim1]], %[[mapped_dim0]], %[[dim]], %[[ARG3]], %[[ARG1]], %[[ARG2]]) : tensor<?x?x?x?x?x?x?xf32>
 //      CHECK:     %[[PACK:.+]] = tensor.pack %[[ARG0]] outer_dims_perm = [2, 1, 3, 0] inner_dims_pos = [3, 1, 2] inner_tiles = [%[[ARG3]], %[[ARG1]], %[[ARG2]]] into %[[INIT]] : tensor<?x?x?x?xf32> -> tensor<?x?x?x?x?x?x?xf32>
 //      CHECK:     return %[[PACK]] : tensor<?x?x?x?x?x?x?xf32>
 //      CHECK:   }
	// RUN: mlir-opt -split-input-file -test-tensor-transform-patterns=test-fold-into-pack-and-unpack %s \| FileCheck %s

	func.func @fold_unpack_slice(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
	%arg2 : index, %arg3 : index) -> tensor<?x?xf32> {
	%0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
	: tensor<?x?x8x4xf32> -> tensor<?x?xf32>
	%1 = tensor.extract_slice %0[0, 0] [%arg2, %arg3] [1, 1] : tensor<?x?xf32> to tensor<?x?xf32>
	return %1 : tensor<?x?xf32>
	}
	// CHECK: func @fold_unpack_slice(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<?x?x8x4xf32>
	// CHECK-SAME: %[[ARG1:[a-zA-Z0-9]+]]: tensor<?x?xf32>
	// CHECK-SAME: %[[ARG2:[a-zA-Z0-9]+]]: index
	// CHECK-SAME: %[[ARG3:[a-zA-Z0-9]+]]: index
	// CHECK: %[[INIT:.+]] = tensor.empty(%[[ARG2]], %[[ARG3]]) : tensor<?x?xf32>
	// CHECK: %[[UNPACK:.+]] = tensor.unpack %[[ARG0]] inner_dims_pos = [0, 1] inner_tiles = [8, 4]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[UNPACK]]

	// -----

	func.func @nofold_unpack_slice_non_zero_offset(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
	%arg2 : index, %arg3 : index, %arg4 : index) -> tensor<?x?xf32> {
	%0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
	: tensor<?x?x8x4xf32> -> tensor<?x?xf32>
	%1 = tensor.extract_slice %0[0, %arg4] [%arg2, %arg3] [1, 1] : tensor<?x?xf32> to tensor<?x?xf32>
	return %1 : tensor<?x?xf32>
	}
	// CHECK-LABEL: func @nofold_unpack_slice_non_zero_offset(
	// CHECK: %[[UNPACK:.+]] = tensor.unpack
	// CHECK: tensor.extract_slice %[[UNPACK]]

	// -----

	func.func @nofold_unpack_slice_non_unit_stride(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
	%arg2 : index, %arg3 : index, %arg4 : index) -> tensor<?x?xf32> {
	%0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
	: tensor<?x?x8x4xf32> -> tensor<?x?xf32>
	%1 = tensor.extract_slice %0[0, 0] [%arg2, %arg3] [%arg4, 1] : tensor<?x?xf32> to tensor<?x?xf32>
	return %1 : tensor<?x?xf32>
	}
	// CHECK-LABEL: func @nofold_unpack_slice_non_unit_stride(
	// CHECK: %[[UNPACK:.+]] = tensor.unpack
	// CHECK: tensor.extract_slice %[[UNPACK]]

	// -----

	func.func @nofold_unpack_slice_rank_reduced(%arg0 : tensor<?x?x8x4xf32>, %arg1 : tensor<?x?xf32>,
	%arg2 : index, %arg3 : index) -> tensor<f32> {
	%0 = tensor.unpack %arg0 inner_dims_pos = [0, 1] inner_tiles = [8, 4] into %arg1
	: tensor<?x?x8x4xf32> -> tensor<?x?xf32>
	%1 = tensor.extract_slice %0[0, 0] [1, 1] [1, 1] : tensor<?x?xf32> to tensor<f32>
	return %1 : tensor<f32>
	}
	// CHECK-LABEL: func @nofold_unpack_slice_rank_reduced(
	// CHECK: %[[UNPACK:.+]] = tensor.unpack
	// CHECK: tensor.extract_slice %[[UNPACK]]

	// -----

	func.func @pad_pack(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
	%c0 = arith.constant 0 : index
	%cst = arith.constant 0.000000e+00 : f32
	%padded = tensor.pad %src low[0, 0] high[15, 0] {
	^bb0(%arg0: index, %arg1: index):
	tensor.yield %cst : f32
	} : tensor<16641x16xf32> to tensor<16656x16xf32>
	%empty = tensor.empty() : tensor<2082x1x8x32xf32>
	%pack = tensor.pack %padded padding_value(%cst : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
	: tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
	return %pack : tensor<2082x1x8x32xf32>
	}
	// CHECK-LABEL: func.func @pad_pack
	// CHECK-SAME: %[[SRC:[a-zA-Z0-9]+]]
	// CHECK: %[[PAD_VAL:.+]] = arith.constant 0.000000e+00 : f32
	// CHECK: %[[DEST:.+]] = tensor.empty() : tensor<2082x1x8x32xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[SRC]]
	// CHECK-SAME: padding_value(%[[PAD_VAL]] : f32)
	// CHECK-SAME: inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %[[DEST]]

	// -----

	func.func @nofold_pad_pack(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
	%c0 = arith.constant 0 : index
	%cst = arith.constant 0.000000e+00 : f32
	%padded = tensor.pad %src nofold low[0, 0] high[15, 0] {
	^bb0(%arg0: index, %arg1: index):
	tensor.yield %cst : f32
	} : tensor<16641x16xf32> to tensor<16656x16xf32>
	%empty = tensor.empty() : tensor<2082x1x8x32xf32>
	%pack = tensor.pack %padded padding_value(%cst : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
	: tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
	return %pack : tensor<2082x1x8x32xf32>
	}
	// CHECK-LABEL: func.func @nofold_pad_pack
	// CHECK: tensor.pad
	// CHECK: tensor.pack

	// -----

	func.func @pad_pack_different_padding_value(%src: tensor<16641x16xf32>) -> tensor<2082x1x8x32xf32> {
	%c0 = arith.constant 0 : index
	%cst0 = arith.constant 0.000000e+00 : f32
	%cst1 = arith.constant 1.000000e+00 : f32
	%padded = tensor.pad %src low[0, 0] high[15, 0] {
	^bb0(%arg0: index, %arg1: index):
	tensor.yield %cst0 : f32
	} : tensor<16641x16xf32> to tensor<16656x16xf32>
	%empty = tensor.empty() : tensor<2082x1x8x32xf32>
	%pack = tensor.pack %padded padding_value(%cst1 : f32) inner_dims_pos = [0, 1] inner_tiles = [8, 32] into %empty
	: tensor<16656x16xf32> -> tensor<2082x1x8x32xf32>
	return %pack : tensor<2082x1x8x32xf32>
	}
	// CHECK-LABEL: func.func @pad_pack_different_padding_value
	// CHECK: tensor.pad
	// CHECK: tensor.pack

	// -----

	func.func @tensor_pack_linalg_transpose_fold(%arg0: tensor<56x57x1x64xf32>) -> tensor<1x57x56x2x32xf32> {
	%0 = tensor.empty() : tensor<56x2x1x57x32xf32>
	%pack = tensor.pack %arg0
	outer_dims_perm = [0, 3, 2, 1]
	inner_dims_pos = [3]
	inner_tiles = [32]
	into %0 : tensor<56x57x1x64xf32> -> tensor<56x2x1x57x32xf32>

	%1 = tensor.empty() : tensor<1x57x56x2x32xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<56x2x1x57x32xf32>)
	outs(%1 : tensor<1x57x56x2x32xf32>)
	permutation = [2, 3, 0, 1, 4]
	return %transposed : tensor<1x57x56x2x32xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x57x1x64xf32>)
	// CHECK: %[[INIT:.+]] = tensor.empty() : tensor<1x57x56x2x32xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]]
	// CHECK-SAME: outer_dims_perm = [2, 1, 0, 3]
	// CHECK-SAME: inner_dims_pos = [3] inner_tiles = [32]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[PACK]]

	// -----

	func.func @tensor_pack_linalg_transpose_fold_with_padding(%arg0: tensor<56x57x1x55xf32>, %padding: f32) -> tensor<1x57x56x2x32xf32> {
	%0 = tensor.empty() : tensor<56x2x1x57x32xf32>
	%pack = tensor.pack %arg0 padding_value(%padding : f32)
	outer_dims_perm = [0, 3, 2, 1]
	inner_dims_pos = [3]
	inner_tiles = [32]
	into %0 : tensor<56x57x1x55xf32> -> tensor<56x2x1x57x32xf32>

	%1 = tensor.empty() : tensor<1x57x56x2x32xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<56x2x1x57x32xf32>)
	outs(%1 : tensor<1x57x56x2x32xf32>)
	permutation = [2, 3, 0, 1, 4]
	return %transposed : tensor<1x57x56x2x32xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold_with_padding(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x57x1x55xf32>, %[[PADDING:.+]]: f32)
	// CHECK: %[[INIT:.+]] = tensor.empty() : tensor<1x57x56x2x32xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]] padding_value(%[[PADDING]] : f32)
	// CHECK-SAME: outer_dims_perm = [2, 1, 0, 3]
	// CHECK-SAME: inner_dims_pos = [3] inner_tiles = [32]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[PACK]]

	// -----

	func.func @tensor_pack_linalg_transpose_fold_no_outer_dims_perm(%arg0: tensor<56x57x1x64xf32>) -> tensor<1x2x56x57x32xf32> {
	%0 = tensor.empty() : tensor<56x57x1x2x32xf32>
	%pack = tensor.pack %arg0
	inner_dims_pos = [3]
	inner_tiles = [32]
	into %0 : tensor<56x57x1x64xf32> -> tensor<56x57x1x2x32xf32>

	%1 = tensor.empty() : tensor<1x2x56x57x32xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<56x57x1x2x32xf32>)
	outs(%1 : tensor<1x2x56x57x32xf32>)
	permutation = [2, 3, 0, 1, 4]
	return %transposed : tensor<1x2x56x57x32xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold_no_outer_dims_perm(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x57x1x64xf32>)
	// CHECK: %[[INIT:.+]] = tensor.empty() : tensor<1x2x56x57x32xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]]
	// CHECK-SAME: outer_dims_perm = [2, 3, 0, 1]
	// CHECK-SAME: inner_dims_pos = [3] inner_tiles = [32]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[PACK]]

	// -----

	func.func @tensor_pack_linalg_transpose_fold_tile_dims_transpose(%arg0: tensor<56x72x24x128xf32>) -> tensor<12x56x4x9x32x8x2xf32> {
	%0 = tensor.empty() : tensor<4x9x12x56x8x2x32xf32>
	%pack = tensor.pack %arg0
	outer_dims_perm = [3, 1, 2, 0]
	inner_dims_pos = [1, 2, 3]
	inner_tiles = [8, 2, 32]
	into %0 : tensor<56x72x24x128xf32> -> tensor<4x9x12x56x8x2x32xf32>

	%1 = tensor.empty() : tensor<12x56x4x9x32x8x2xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<4x9x12x56x8x2x32xf32>)
	outs(%1 : tensor<12x56x4x9x32x8x2xf32>)
	permutation = [2, 3, 0, 1, 6, 4, 5]
	return %transposed : tensor<12x56x4x9x32x8x2xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold_tile_dims_transpose(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x72x24x128xf32>)
	// CHECK: %[[INIT:.+]] = tensor.empty() : tensor<12x56x4x9x32x8x2xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]]
	// CHECK-SAME: outer_dims_perm = [2, 0, 3, 1]
	// CHECK-SAME: inner_dims_pos = [3, 1, 2] inner_tiles = [32, 8, 2]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[PACK]]

	// -----

	func.func @tensor_pack_linalg_transpose_fold_tile_dims_outer_dims_transpose(%arg0: tensor<56x72x24x128xf32>) -> tensor<9x56x2x12x32x8x4xf32> {
	%0 = tensor.empty() : tensor<4x12x9x56x8x2x32xf32>
	%pack = tensor.pack %arg0
	outer_dims_perm = [3, 2, 1, 0]
	inner_dims_pos = [1, 2, 3]
	inner_tiles = [8, 2, 32]
	into %0 : tensor<56x72x24x128xf32> -> tensor<4x12x9x56x8x2x32xf32>

	%1 = tensor.empty() : tensor<9x56x2x12x32x8x4xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<4x12x9x56x8x2x32xf32>)
	outs(%1 : tensor<9x56x2x12x32x8x4xf32>)
	permutation = [2, 3, 5, 1, 6, 4, 0]
	return %transposed : tensor<9x56x2x12x32x8x4xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold_tile_dims_outer_dims_transpose(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x72x24x128xf32>)
	// CHECK: tensor.pack
	// CHECK: linalg.transpose

	// -----

	func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims(%arg0: tensor<56x?x?x64xf32>) -> tensor<?x?x56x2x32xf32> {
	%0 = tensor.empty() : tensor<56x2x1x57x32xf32>
	%pack = tensor.pack %arg0
	outer_dims_perm = [0, 3, 2, 1]
	inner_dims_pos = [3]
	inner_tiles = [32]
	into %0 : tensor<56x?x?x64xf32> -> tensor<56x2x1x57x32xf32>

	%1 = tensor.empty() : tensor<1x57x56x2x32xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<56x2x1x57x32xf32>)
	outs(%1 : tensor<1x57x56x2x32xf32>)
	permutation = [2, 3, 0, 1, 4]

	%return_value = tensor.cast %transposed : tensor<1x57x56x2x32xf32> to tensor<?x?x56x2x32xf32>
	return %return_value : tensor<?x?x56x2x32xf32>
	}
	// CHECK: func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x?x?x64xf32>)
	// CHECK: %[[c1:.+]] = arith.constant 1 : index
	// CHECK: %[[c2:.+]] = arith.constant 2 : index
	// CHECK: %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<56x?x?x64xf32>
	// CHECK: %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<56x?x?x64xf32>
	// CHECK: %[[INIT:.+]] = tensor.empty(%[[dim_0]], %[[dim]]) : tensor<?x?x56x2x32xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]]
	// CHECK-SAME: outer_dims_perm = [2, 1, 0, 3]
	// CHECK-SAME: inner_dims_pos = [3] inner_tiles = [32]
	// CHECK-SAME: into %[[INIT]]
	// CHECK: return %[[PACK]]

	// -----

	func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_and_tile_dims(%arg0: tensor<56x?x?x128xf32>) -> tensor<?x?x56x9x32x8x2xf32> {
	%0 = tensor.empty() : tensor<56x9x12x4x8x2x32xf32>
	%pack = tensor.pack %arg0
	inner_dims_pos = [1, 2, 3]
	inner_tiles = [8, 2, 32]
	into %0 : tensor<56x?x?x128xf32> -> tensor<56x9x12x4x8x2x32xf32>

	%1 = tensor.empty() : tensor<12x4x56x9x32x8x2xf32>
	%transposed = linalg.transpose
	ins(%pack : tensor<56x9x12x4x8x2x32xf32>)
	outs(%1 : tensor<12x4x56x9x32x8x2xf32>)
	permutation = [2, 3, 0, 1, 6, 4, 5]

	%return_value = tensor.cast %transposed : tensor<12x4x56x9x32x8x2xf32> to tensor<?x?x56x9x32x8x2xf32>
	return %return_value : tensor<?x?x56x9x32x8x2xf32>
	}
	// CHECK: #[[map:.+]] = affine_map<()[s0] -> (s0 ceildiv 8)>
	// CHECK: #[[map1:.+]] = affine_map<()[s0] -> (s0 ceildiv 2)>
	// CHECK: module {
	// CHECK: func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_and_tile_dims(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<56x?x?x128xf32>)
	// CHECK: %[[c1:.+]] = arith.constant 1 : index
	// CHECK: %[[c2:.+]] = arith.constant 2 : index
	// CHECK: %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<56x?x?x128xf32>
	// CHECK: %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<56x?x?x128xf32>
	// CHECK: %[[mapped_dim1:.+]] = affine.apply #[[map:.+]]()[%[[dim]]]
	// CHECK: %[[mapped_dim2:.+]] = affine.apply #[[map1:.+]]()[%[[dim_0]]]
	// CHECK: %[[INIT:.+]] = tensor.empty(%[[mapped_dim2]], %[[mapped_dim1]]) : tensor<?x4x56x?x32x8x2xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]] outer_dims_perm = [2, 3, 0, 1] inner_dims_pos = [3, 1, 2] inner_tiles = [32, 8, 2] into %[[INIT]] : tensor<56x?x?x128xf32> -> tensor<?x4x56x?x32x8x2xf32>
	// CHECK: %[[CAST:.+]] = tensor.cast %[[PACK]] : tensor<?x4x56x?x32x8x2xf32> to tensor<?x?x56x9x32x8x2xf32>
	// CHECK: return %[[CAST]] : tensor<?x?x56x9x32x8x2xf32>
	// CHECK: }

	// -----

	func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims_tile_dims_tile_sizes(%arg0: tensor<?x?x?x?xf32>, %pack_dest: tensor<?x?x?x?x?x?x?xf32>, %transpose_dest: tensor<?x?x?x?x?x?x?xf32>, %tile_p : index, %tile_q : index, %tile_r : index) -> tensor<?x?x?x?x?x?x?xf32> {
	%pack = tensor.pack %arg0
	outer_dims_perm = [3, 0, 2, 1]
	inner_dims_pos = [1, 2, 3]
	inner_tiles = [%tile_p, %tile_q, %tile_r]
	into %pack_dest : tensor<?x?x?x?xf32> -> tensor<?x?x?x?x?x?x?xf32>

	%transposed = linalg.transpose
	ins(%pack : tensor<?x?x?x?x?x?x?xf32>)
	outs(%transpose_dest : tensor<?x?x?x?x?x?x?xf32>)
	permutation = [2, 3, 0, 1, 6, 4, 5]

	return %transposed : tensor<?x?x?x?x?x?x?xf32>
	}
	// CHECK: #[[map:.+]] = affine_map<()[s0, s1] -> (s0 ceildiv s1)>
	// CHECK: module {
	// CHECK: func.func @tensor_pack_linalg_transpose_fold_dynamic_outer_dims_tile_dims_tile_sizes(
	// CHECK-SAME: %[[ARG0:.+]]: tensor<?x?x?x?xf32>,
	// CHECK-SAME: %[[PACK_DEST:.+]]: tensor<?x?x?x?x?x?x?xf32>, %[[TRANSPOSE_DEST:.+]]: tensor<?x?x?x?x?x?x?xf32>,
	// CHECK-SAME: %[[ARG1:.+]]: index, %[[ARG2:.+]]: index,
	// CHECK-SAME: %[[ARG3:.+]]: index)
	// CHECK: %[[c0:.+]] = arith.constant 0 : index
	// CHECK: %[[c1:.+]] = arith.constant 1 : index
	// CHECK: %[[c2:.+]] = arith.constant 2 : index
	// CHECK: %[[c3:.+]] = arith.constant 3 : index
	// CHECK: %[[dim:.+]] = tensor.dim %[[ARG0]], %[[c0]] : tensor<?x?x?x?xf32>
	// CHECK: %[[dim_0:.+]] = tensor.dim %[[ARG0]], %[[c1]] : tensor<?x?x?x?xf32>
	// CHECK: %[[dim_1:.+]] = tensor.dim %[[ARG0]], %[[c2]] : tensor<?x?x?x?xf32>
	// CHECK: %[[dim_2:.+]] = tensor.dim %[[ARG0]], %[[c3]] : tensor<?x?x?x?xf32>
	// CHECK: %[[mapped_dim0:.+]] = affine.apply #[[map:.+]]()[%[[dim_2]], %[[ARG3]]]
	// CHECK: %[[mapped_dim1:.+]] = affine.apply #[[map:.+]]()[%[[dim_0]], %[[ARG1]]]
	// CHECK: %[[mapped_dim2:.+]] = affine.apply #[[map:.+]]()[%[[dim_1]], %[[ARG2]]]
	// CHECK: %[[INIT:.+]] = tensor.empty(%[[mapped_dim2]], %[[mapped_dim1]], %[[mapped_dim0]], %[[dim]], %[[ARG3]], %[[ARG1]], %[[ARG2]]) : tensor<?x?x?x?x?x?x?xf32>
	// CHECK: %[[PACK:.+]] = tensor.pack %[[ARG0]] outer_dims_perm = [2, 1, 3, 0] inner_dims_pos = [3, 1, 2] inner_tiles = [%[[ARG3]], %[[ARG1]], %[[ARG2]]] into %[[INIT]] : tensor<?x?x?x?xf32> -> tensor<?x?x?x?x?x?x?xf32>
	// CHECK: return %[[PACK]] : tensor<?x?x?x?x?x?x?xf32>
	// CHECK: }