| // RUN: mlir-opt %s -linalg-fuse-elementwise-ops="allow-folding-unit-dim-reshapes=false" -split-input-file | FileCheck %s |
| // RUN: mlir-opt %s -linalg-fuse-elementwise-ops="allow-folding-unit-dim-reshapes=true" -split-input-file | FileCheck %s --check-prefix=FOLDUNITDIM |
| #map0 = affine_map<(d0, d1, d2) -> (d2, d0, d1)> |
| #map1 = affine_map<(d0, d1, d2) -> (d1, d2, d0)> |
| #map2 = affine_map<(d0, d1, d2) -> ()> |
| func @generic_op_reshape_producer_fusion(%arg0 : tensor<?x?x4x?xf32>, |
| %arg1 : tensor<?x?x?xf32>, |
| %arg2 : f32) -> |
| tensor<?x?x?xf32> |
| { |
| %0 = linalg.tensor_collapse_shape %arg0 [[0], [1, 2], [3]] : |
| tensor<?x?x4x?xf32> into tensor<?x?x?xf32> |
| %1 = linalg.generic { |
| indexing_maps = [#map0, #map1, #map2, #map1], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%0, %arg1, %arg2 : tensor<?x?x?xf32>, tensor<?x?x?xf32>, f32) |
| outs(%0 : tensor<?x?x?xf32>) { |
| ^bb0(%arg3: f32, %arg4: f32, %arg5: f32, %s: f32): // no predecessors |
| %1 = arith.mulf %arg3, %arg4 : f32 |
| %2 = arith.addf %1, %arg5 : f32 |
| linalg.yield %2 : f32 |
| } -> tensor<?x?x?xf32> |
| return %1 : tensor<?x?x?xf32> |
| } |
| |
| // CHECK-DAG: #[[MAP5:.+]] = affine_map<(d0, d1, d2, d3) -> (d3, d0, d1, d2)> |
| // CHECK-DAG: #[[MAP6:.+]] = affine_map<(d0, d1, d2, d3) -> (d2, d3, d0, d1)> |
| // CHECK-DAG: #[[MAP7:.+]] = affine_map<(d0, d1, d2, d3) -> ()> |
| // CHECK: func @generic_op_reshape_producer_fusion |
| // CHECK-SAME: %[[ARG0:[a-zA-Z0-9_]+]]: tensor<?x?x4x?xf32> |
| // CHECK-SAME: %[[ARG1:[a-zA-Z0-9_]+]]: tensor<?x?x?xf32> |
| // CHECK-SAME: %[[ARG2:[a-zA-Z0-9_]+]]: f32 |
| // CHECK: %[[T0:.+]] = linalg.tensor_collapse_shape %[[ARG0]] |
| // CHECK-SAME: [0], [1, 2], [3] |
| // CHECK: %[[T1:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // CHECK-SAME: [0], [1], [2, 3] |
| // CHECK: %[[T3:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP5]], #[[MAP6]], #[[MAP7]], #[[MAP6]]] |
| // CHECK-SAME: ["parallel", "parallel", "parallel", "parallel"] |
| // CHECK-SAME: ins(%[[ARG0]], %[[T1]], %[[ARG2]] : tensor<?x?x4x?xf32>, tensor<?x?x?x4xf32>, f32) |
| // CHECK-SAME: outs(%{{.+}} : tensor<?x?x?x4xf32>) |
| // CHECK: %[[T4:.+]] = linalg.tensor_collapse_shape %[[T3]] |
| // CHECK-SAME: [0], [1], [2, 3] |
| // CHECK-SAME: tensor<?x?x?x4xf32> into tensor<?x?x?xf32> |
| // CHECK: return %[[T4]] |
| |
| // ----- |
| |
| #map0 = affine_map<(d0, d1) -> (d0, d1)> |
| #map1 = affine_map<(d0, d1) -> ()> |
| func @generic_op_reshape_consumer_fusion(%arg0 : tensor<?x?xf32>, |
| %arg1 : tensor<?x?xf32>, |
| %arg2 : f32) -> |
| tensor<?x4x?x5xf32> |
| { |
| %0 = linalg.generic { |
| indexing_maps = [#map0, #map0, #map1, #map0], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%arg0, %arg1, %arg2 : tensor<?x?xf32>, tensor<?x?xf32>, f32) |
| outs(%arg0 : tensor<?x?xf32>) { |
| ^bb0(%arg3: f32, %arg4: f32, %arg5: f32, %s: f32): // no predecessors |
| %1 = arith.mulf %arg3, %arg4 : f32 |
| %2 = arith.addf %1, %arg5 : f32 |
| linalg.yield %2 : f32 |
| } -> tensor<?x?xf32> |
| %1 = linalg.tensor_expand_shape %0 [[0], [1, 2, 3]] : |
| tensor<?x?xf32> into tensor<?x4x?x5xf32> |
| return %1 : tensor<?x4x?x5xf32> |
| } |
| |
| // CHECK-DAG: #[[MAP2:.+]] = affine_map<(d0, d1, d2, d3) -> (d0, d1, d2, d3)> |
| // CHECK-DAG: #[[MAP3:.+]] = affine_map<(d0, d1, d2, d3) -> ()> |
| |
| // CHECK: func @generic_op_reshape_consumer_fusion |
| // CHECK-SAME: %[[ARG0:[a-zA-Z0-9_]+]]: tensor<?x?xf32> |
| // CHECK-SAME: %[[ARG1:[a-zA-Z0-9_]+]]: tensor<?x?xf32> |
| // CHECK-SAME: %[[ARG2:[a-zA-Z0-9_]+]]: f32 |
| // CHECK: %[[T0:.+]] = linalg.tensor_expand_shape %[[ARG0]] |
| // CHECK-SAME: [0], [1, 2, 3] |
| // CHECK-SAME: tensor<?x?xf32> into tensor<?x4x?x5xf32> |
| // CHECK: %[[T1:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // CHECK-SAME: [0], [1, 2, 3] |
| // CHECK-SAME: tensor<?x?xf32> into tensor<?x4x?x5xf32> |
| // CHECK: %[[T3:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP2]], #[[MAP2]], #[[MAP3]], #[[MAP2]]] |
| // CHECK-SAME: ["parallel", "parallel", "parallel", "parallel"] |
| // CHECK-SAME: ins(%[[T0]], %[[T1]], %[[ARG2]] : tensor<?x4x?x5xf32>, tensor<?x4x?x5xf32>, f32) |
| // CHECK-SAME: outs(%{{.+}} : tensor<?x4x?x5xf32>) |
| // CHECK: return %[[T3]] : tensor<?x4x?x5xf32> |
| |
| |
| // ----- |
| |
| func @reshape_as_consumer_permutation |
| (%a : tensor<?x?x?xf32>, %b : tensor<?x?xf32>) |
| -> tensor<?x2x?x3x4x?xf32> { |
| %c = linalg.generic { |
| indexing_maps = [affine_map<(d0, d1, d2) -> (d1, d0, d2)>, |
| affine_map<(d0, d1, d2) -> (d1, d2)>, |
| affine_map<(d0, d1, d2) -> (d0, d2, d1)>], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%a, %b : tensor<?x?x?xf32>, tensor<?x?xf32>) |
| outs(%a : tensor<?x?x?xf32>) { |
| ^bb0(%arg0 : f32, %arg1: f32, %s: f32): |
| %1 = arith.addf %arg0, %arg1 : f32 |
| linalg.yield %1 : f32 |
| } -> tensor<?x?x?xf32> |
| %d = linalg.tensor_expand_shape %c [[0, 1], [2], [3, 4, 5]] |
| : tensor<?x?x?xf32> into tensor<?x2x?x3x4x?xf32> |
| return %d : tensor<?x2x?x3x4x?xf32> |
| } |
| // CHECK-DAG: #[[MAP8:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d2, d3, d4, d0, d1, d5)> |
| // CHECK-DAG: #[[MAP9:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d2, d3, d4, d5)> |
| // CHECK-DAG: #[[MAP10:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d0, d1, d5, d2, d3, d4)> |
| // CHECK: func @reshape_as_consumer_permutation |
| // CHECK-SAME: %[[ARG0:[a-zA-Z0-9_]+]]: tensor<?x?x?xf32> |
| // CHECK-SAME: %[[ARG1:[a-zA-Z0-9_]+]]: tensor<?x?xf32> |
| // CHECK: %[[T0:.+]] = linalg.tensor_expand_shape %[[ARG0]] |
| // CHECK-SAME: [0, 1, 2], [3, 4], [5] |
| // CHECK-SAME: tensor<?x?x?xf32> into tensor<3x4x?x?x2x?xf32> |
| // CHECK: %[[T1:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // CHECK-SAME: [0, 1, 2], [3] |
| // CHECK-SAME: tensor<?x?xf32> into tensor<3x4x?x?xf32> |
| // CHECK: %[[T3:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP8]], #[[MAP9]], #[[MAP10]]] |
| // CHECK-SAME: ["parallel", "parallel", "parallel", "parallel", "parallel", "parallel"] |
| // CHECK-SAME: ins(%[[T0]], %[[T1]] : tensor<3x4x?x?x2x?xf32>, tensor<3x4x?x?xf32>) |
| // CHECK-SAME: outs(%{{.+}} : tensor<?x2x?x3x4x?xf32>) |
| // CHECK: return %[[T3]] : tensor<?x2x?x3x4x?xf32> |
| |
| // ----- |
| |
| #map0 = affine_map<(d0, d1) -> (d0, d1)> |
| #map1 = affine_map<(d0, d1, d2) -> (d0, d1)> |
| #map2 = affine_map<(d0, d1, d2) -> (d2)> |
| |
| func @generic_op_reshape_consumer_static(%arg0: tensor<264x4xf32>) |
| -> tensor<8x33x4xf32> { |
| %cst = arith.constant dense<2.000000e+00> : tensor<264x4xf32> |
| %0 = linalg.init_tensor [264, 4] : tensor<264x4xf32> |
| %1 = linalg.generic { |
| indexing_maps = [#map0, #map0, #map0], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%arg0, %cst : tensor<264x4xf32>, tensor<264x4xf32>) |
| outs(%0 : tensor<264x4xf32>) { |
| ^bb0(%arg1: f32, %arg2: f32, %s: f32): // no predecessors |
| %2 = arith.mulf %arg1, %arg2 : f32 |
| linalg.yield %2 : f32 |
| } -> tensor<264x4xf32> |
| %2 = linalg.tensor_expand_shape %1 [[0, 1], [2]] : |
| tensor<264x4xf32> into tensor<8x33x4xf32> |
| return %2 : tensor<8x33x4xf32> |
| } |
| |
| // CHECK-DAG: #[[MAP2:.+]] = affine_map<(d0, d1, d2) -> (d0, d1, d2)> |
| // CHECK: func @generic_op_reshape_consumer_static |
| // CHECK-SAME: %[[ARG0:[a-zA-Z0-9_]+]]: tensor<264x4xf32> |
| // CHECK: %[[T0:.+]] = linalg.tensor_expand_shape %[[ARG0]] |
| // CHECK-SAME: [0, 1], [2] |
| // CHECK-SAME: tensor<264x4xf32> into tensor<8x33x4xf32> |
| // CHECK: %[[T1:.+]] = linalg.init_tensor [8, 33, 4] |
| // CHECK: %[[T2:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP2]], #[[MAP2]]] |
| // CHECK-SAME: ["parallel", "parallel", "parallel"] |
| // CHECK-SAME: ins(%[[T0]] : tensor<8x33x4xf32>) |
| // CHECK-SAME: outs(%[[T1]] : tensor<8x33x4xf32>) |
| // CHECK: return %[[T2]] : tensor<8x33x4xf32> |
| |
| // ----- |
| |
| #map0 = affine_map<(d0, d1, d2) -> (d2, d0, d1)> |
| #map1 = affine_map<(d0, d1, d2) -> (d1, d2, d0)> |
| func @indexed_consumer_reshape_producer_fusion(%arg0 : tensor<?x?x4x?xi32>, |
| %arg1 : tensor<?x?x?xi32>) -> |
| tensor<?x?x?xi32> |
| { |
| %0 = linalg.tensor_collapse_shape %arg0 [[0], [1, 2], [3]]: |
| tensor<?x?x4x?xi32> into tensor<?x?x?xi32> |
| %1 = linalg.generic { |
| indexing_maps = [#map0, #map1, #map1], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%0, %arg1 : tensor<?x?x?xi32>, tensor<?x?x?xi32>) |
| outs(%0 : tensor<?x?x?xi32>) { |
| ^bb0(%arg3: i32, %arg4: i32, %s: i32): |
| %idx0 = linalg.index 0 : index |
| %idx1 = linalg.index 1 : index |
| %idx2 = linalg.index 2 : index |
| %1 = arith.muli %arg3, %arg4 : i32 |
| %2 = arith.index_cast %idx0 : index to i32 |
| %3 = arith.addi %1, %2 : i32 |
| %4 = arith.index_cast %idx1 : index to i32 |
| %5 = arith.addi %3, %4 : i32 |
| %6 = arith.index_cast %idx2 : index to i32 |
| %7 = arith.addi %5, %6 : i32 |
| linalg.yield %7 : i32 |
| } -> tensor<?x?x?xi32> |
| return %1 : tensor<?x?x?xi32> |
| } |
| |
| // Only check the body in the indexed version of the test. |
| // CHECK: #[[MAP:.+]] = affine_map<(d0, d1) -> (d0 + d1 * 4)> |
| // CHECK: func @indexed_consumer_reshape_producer_fusion |
| // CHECK: linalg.generic |
| // CHECK: ^{{.*}}( |
| // CHECK-SAME: %[[ARG3:[a-zA-Z0-9]+]]: i32, %[[ARG4:[a-zA-Z0-9]+]]: i32, |
| // CHECK-SAME: %[[ARG8:[a-zA-Z0-9]+]]: i32) |
| // CHECK-DAG: %[[IDX0:.+]] = linalg.index 0 : index |
| // CHECK-DAG: %[[IDX1:.+]] = linalg.index 1 : index |
| // CHECK-DAG: %[[IDX2:.+]] = linalg.index 2 : index |
| // CHECK-DAG: %[[IDX3:.+]] = linalg.index 3 : index |
| // CHECK-DAG: %[[T3:.+]] = affine.apply #[[MAP]](%[[IDX1]], %[[IDX0]]) |
| // CHECK: %[[T4:.+]] = arith.muli %[[ARG3]], %[[ARG4]] |
| // CHECK: %[[T5:.+]] = arith.index_cast %[[T3]] |
| // CHECK: %[[T6:.+]] = arith.addi %[[T4]], %[[T5]] |
| // CHECK: %[[T7:.+]] = arith.index_cast %[[IDX2]] |
| // CHECK: %[[T8:.+]] = arith.addi %[[T6]], %[[T7]] |
| // CHECK: %[[T9:.+]] = arith.index_cast %[[IDX3]] |
| // CHECK: %[[T10:.+]] = arith.addi %[[T8]], %[[T9]] |
| // CHECK: linalg.yield %[[T10]] |
| |
| // ----- |
| |
| #map0 = affine_map<(d0, d1) -> (d0, d1)> |
| func @indexed_producer_reshape_consumer_fusion(%arg0 : tensor<?x?xi32>, |
| %arg1 : tensor<?x?xi32>) -> |
| tensor<?x?x4x5xi32> |
| { |
| %0 = linalg.generic { |
| indexing_maps = [#map0, #map0, #map0], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%arg0, %arg1 : tensor<?x?xi32>, tensor<?x?xi32>) |
| outs(%arg0 : tensor<?x?xi32>) { |
| ^bb0(%arg3: i32, %arg4: i32, %s: i32): // no predecessors |
| %idx0 = linalg.index 0 : index |
| %idx1 = linalg.index 1 : index |
| %1 = arith.muli %arg3, %arg4 : i32 |
| %2 = arith.index_cast %idx0 : index to i32 |
| %3 = arith.addi %1, %2 : i32 |
| %4 = arith.index_cast %idx1 : index to i32 |
| %5 = arith.addi %3, %4 : i32 |
| linalg.yield %5 : i32 |
| } -> tensor<?x?xi32> |
| %1 = linalg.tensor_expand_shape %0 [[0], [1, 2, 3]] : |
| tensor<?x?xi32> into tensor<?x?x4x5xi32> |
| return %1 : tensor<?x?x4x5xi32> |
| } |
| |
| // Only check the body in the indexed version of the test. |
| // CHECK: #[[MAP:.+]] = affine_map<(d0, d1, d2) -> (d0 + d1 * 5 + d2 * 20)> |
| // CHECK: func @indexed_producer_reshape_consumer_fusion |
| // CHECK: linalg.generic |
| // CHECK: ^{{.*}}( |
| // CHECK-SAME: %[[ARG3:[a-zA-Z0-9]+]]: i32, %[[ARG4:[a-zA-Z0-9]+]]: i32, |
| // CHECK-SAME: %[[ARG5:[a-zA-Z0-9]+]]: i32) |
| // CHECK-DAG: %[[IDX0:.+]] = linalg.index 0 : index |
| // CHECK-DAG: %[[IDX1:.+]] = linalg.index 1 : index |
| // CHECK-DAG: %[[IDX2:.+]] = linalg.index 2 : index |
| // CHECK-DAG: %[[IDX3:.+]] = linalg.index 3 : index |
| // CHECK-DAG: %[[T3:.+]] = affine.apply #[[MAP]](%[[IDX3]], %[[IDX2]], %[[IDX1]]) |
| // CHECK: %[[T4:.+]] = arith.muli %[[ARG3]], %[[ARG4]] |
| // CHECK: %[[T5:.+]] = arith.index_cast %[[IDX0]] |
| // CHECK: %[[T6:.+]] = arith.addi %[[T4]], %[[T5]] |
| // CHECK: %[[T7:.+]] = arith.index_cast %[[T3]] |
| // CHECK: %[[T8:.+]] = arith.addi %[[T6]], %[[T7]] |
| // CHECK: linalg.yield %[[T8]] |
| |
| // ----- |
| |
| func @reshape_as_consumer_permutation |
| (%a : tensor<210x6x4xi32>, %b : tensor<210x4xi32>) |
| -> tensor<2x3x4x5x6x7xi32> { |
| %shape = linalg.init_tensor [6, 4, 210] : tensor<6x4x210xi32> |
| %c = linalg.generic { |
| indexing_maps = [affine_map<(d0, d1, d2) -> (d1, d0, d2)>, |
| affine_map<(d0, d1, d2) -> (d1, d2)>, |
| affine_map<(d0, d1, d2) -> (d0, d2, d1)>], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%a, %b : tensor<210x6x4xi32>, tensor<210x4xi32>) |
| outs(%shape : tensor<6x4x210xi32>) { |
| ^bb0(%arg3 : i32, %arg4: i32, %s: i32): |
| %idx0 = linalg.index 0 : index |
| %idx1 = linalg.index 1 : index |
| %idx2 = linalg.index 2 : index |
| %1 = arith.addi %arg3, %arg4 : i32 |
| %2 = arith.index_cast %idx0 : index to i32 |
| %3 = arith.addi %1, %2 : i32 |
| %4 = arith.index_cast %idx1 : index to i32 |
| %5 = arith.addi %3, %4 : i32 |
| %6 = arith.index_cast %idx2 : index to i32 |
| %7 = arith.addi %5, %6 : i32 |
| linalg.yield %7 : i32 |
| } -> tensor<6x4x210xi32> |
| %d = linalg.tensor_expand_shape %c [[0, 1], [2], [3, 4, 5]] |
| : tensor<6x4x210xi32> into tensor<2x3x4x5x6x7xi32> |
| return %d : tensor<2x3x4x5x6x7xi32> |
| } |
| |
| |
| // CHECK-DAG: #[[MAP5:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d2, d3, d4, d0, d1, d5)> |
| // CHECK-DAG: #[[MAP6:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d2, d3, d4, d5)> |
| // CHECK-DAG: #[[MAP7:.+]] = affine_map<(d0, d1, d2, d3, d4, d5) -> (d0, d1, d5, d2, d3, d4)> |
| // CHECK-DAG: #[[MAP8:.+]] = affine_map<(d0, d1) -> (d0 + d1 * 3)> |
| // CHECK-DAG: #[[MAP9:.+]] = affine_map<(d0, d1, d2) -> (d0 + d1 * 7 + d2 * 42)> |
| // CHECK: func @reshape_as_consumer_permutation |
| // CHECK-SAME: %[[ARG0:.+]]: tensor<210x6x4xi32> |
| // CHECK-SAME: %[[ARG1:.+]]: tensor<210x4xi32> |
| // CHECK-DAG: %[[T1:.+]] = linalg.tensor_expand_shape %[[ARG0]] |
| // CHECK-SAME: [0, 1, 2], [3, 4], [5] |
| // CHECK-DAG: %[[T2:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // CHECK-SAME: [0, 1, 2], [3] |
| // CHECK-DAG: %[[T0:.+]] = linalg.init_tensor [2, 3, 4, 5, 6, 7] |
| // CHECK: %[[T4:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP5]], #[[MAP6]], #[[MAP7]]] |
| // CHECK-SAME: ins(%[[T1]], %[[T2]] : tensor<5x6x7x2x3x4xi32>, tensor<5x6x7x4xi32>) |
| // CHECK-SAME: outs(%[[T0]] : tensor<2x3x4x5x6x7xi32>) |
| // CHECK: ^{{.+}}( |
| // CHECK-SAME: %[[ARG8:[a-zA-Z0-9]+]]: i32, %[[ARG9:[a-zA-Z0-9]+]]: i32, |
| // CHECK-SAME: %[[ARG10:[a-zA-Z0-9]+]]: i32) |
| // CHECK-DAG: %[[IDX0:.+]] = linalg.index 0 : index |
| // CHECK-DAG: %[[IDX1:.+]] = linalg.index 1 : index |
| // CHECK-DAG: %[[IDX2:.+]] = linalg.index 2 : index |
| // CHECK-DAG: %[[IDX3:.+]] = linalg.index 3 : index |
| // CHECK-DAG: %[[IDX4:.+]] = linalg.index 4 : index |
| // CHECK-DAG: %[[IDX5:.+]] = linalg.index 5 : index |
| // CHECK-DAG: %[[T5:.+]] = affine.apply #[[MAP8]](%[[IDX1]], %[[IDX0]]) |
| // CHECK-DAG: %[[T6:.+]] = affine.apply #[[MAP9]](%[[IDX4]], %[[IDX3]], %[[IDX2]]) |
| // CHECK-DAG: %[[T7:.+]] = arith.addi %[[ARG8]], %[[ARG9]] |
| // CHECK: %[[T8:.+]] = arith.index_cast %[[T5]] |
| // CHECK: %[[T9:.+]] = arith.addi %[[T7]], %[[T8]] |
| // CHECK: %[[T10:.+]] = arith.index_cast %[[T6]] |
| // CHECK: %[[T11:.+]] = arith.addi %[[T9]], %[[T10]] |
| // CHECK: %[[T12:.+]] = arith.index_cast %[[IDX5]] |
| // CHECK: %[[T13:.+]] = arith.addi %[[T11]], %[[T12]] |
| |
| // ----- |
| |
| func @reshape_as_producer_projected_permutation( |
| %arg0 : tensor<33x8x?xi32>, %shape : tensor<264x?x4xi32>) -> tensor<264x?x4xi32> |
| { |
| %0 = linalg.tensor_collapse_shape %arg0 [[0, 1], [2]] |
| : tensor<33x8x?xi32> into tensor<264x?xi32> |
| %1 = linalg.generic |
| {indexing_maps = [affine_map<(d0, d1, d2) -> (d0, d1)>, |
| affine_map<(d0, d1, d2) -> (d0, d1, d2)>], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%0 : tensor<264x?xi32>) |
| outs(%shape : tensor<264x?x4xi32>) { |
| ^bb0(%arg1: i32, %s: i32): // no predecessors |
| %idx0 = linalg.index 0 : index |
| %idx1 = linalg.index 1 : index |
| %idx2 = linalg.index 2 : index |
| %2 = arith.index_cast %idx0 : index to i32 |
| %3 = arith.addi %arg1, %2 : i32 |
| %4 = arith.index_cast %idx1 : index to i32 |
| %5 = arith.addi %3, %4 : i32 |
| %6 = arith.index_cast %idx2 : index to i32 |
| %7 = arith.addi %5, %6 : i32 |
| linalg.yield %7 : i32 |
| } -> tensor<264x?x4xi32> |
| return %1 : tensor<264x?x4xi32> |
| } |
| |
| // CHECK-DAG: #[[MAP0:.+]] = affine_map<(d0, d1, d2, d3) -> (d0, d1, d2)> |
| // CHECK-DAG: #[[MAP1:.+]] = affine_map<(d0, d1, d2, d3) -> (d0, d1, d2, d3)> |
| // CHECK-DAG: #[[MAP2:.+]] = affine_map<(d0, d1) -> (d0 + d1 * 8)> |
| // CHECK: @reshape_as_producer_projected_permutation |
| // CHECK-SAME: %[[ARG0:.+]]: tensor<33x8x?xi32> |
| // CHECK: %[[RES:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP0]], #[[MAP1]]] |
| // CHECK-SAME: ins(%[[ARG0]] : tensor<33x8x?xi32>) |
| // CHECK: ^{{.+}}( |
| // CHECK-SAME: %[[ARG1:[a-zA-Z0-9]+]]: i32, |
| // CHECK-SAME: %[[ARG2:[a-zA-Z0-9]+]]: i32) |
| // CHECK-DAG: %[[IDX0:.+]] = linalg.index 0 : index |
| // CHECK-DAG: %[[IDX1:.+]] = linalg.index 1 : index |
| // CHECK-DAG: %[[IDX2:.+]] = linalg.index 2 : index |
| // CHECK-DAG: %[[IDX3:.+]] = linalg.index 3 : index |
| // CHECK-DAG: %[[T0:.+]] = affine.apply #[[MAP2]](%[[IDX1]], %[[IDX0]]) |
| // CHECK: %[[T1:.+]] = arith.index_cast %[[T0]] : index to i32 |
| // CHECK: %[[T2:.+]] = arith.addi %[[ARG1]], %[[T1]] : i32 |
| // CHECK: %[[T3:.+]] = arith.index_cast %[[IDX2]] : index to i32 |
| // CHECK: %[[T4:.+]] = arith.addi %[[T2]], %[[T3]] : i32 |
| // CHECK: %[[T5:.+]] = arith.index_cast %[[IDX3]] : index to i32 |
| // CHECK: %[[T6:.+]] = arith.addi %[[T4]], %[[T5]] : i32 |
| // CHECK: linalg.yield %[[T6]] : i32 |
| // CHECK: %[[RES2:.+]] = linalg.tensor_collapse_shape %[[RES]] |
| // CHECK-SAME: [0, 1], [2], [3] |
| // CHECK-SAME: : tensor<33x8x?x4xi32> into tensor<264x?x4xi32> |
| // CHECK: return %[[RES2]] : tensor<264x?x4xi32> |
| |
| // ----- |
| |
| #map0 = affine_map<(d0, d1) -> (d0, d1)> |
| #map1 = affine_map<(d0, d1) -> (d1, d0)> |
| func @generic_op_reshape_consumer_fusion_projected(%arg0 : tensor<?x?xf32>, |
| %arg1 : tensor<?x?xf32>) -> |
| tensor<?x?x4x5xf32> |
| { |
| %0 = linalg.generic { |
| indexing_maps = [#map0, #map0, #map1], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%arg0, %arg1 : tensor<?x?xf32>, tensor<?x?xf32>) |
| outs(%arg0 : tensor<?x?xf32>) { |
| ^bb0(%arg3: f32, %arg4: f32, %s: f32): // no predecessors |
| %1 = arith.mulf %arg3, %arg4 : f32 |
| linalg.yield %1 : f32 |
| } -> tensor<?x?xf32> |
| %1 = linalg.tensor_expand_shape %0 [[0], [1, 2, 3]] : |
| tensor<?x?xf32> into tensor<?x?x4x5xf32> |
| return %1 : tensor<?x?x4x5xf32> |
| } |
| |
| // CHECK-DAG: #[[MAP4:.+]] = affine_map<(d0, d1, d2, d3) -> (d0, d1, d2, d3)> |
| // CHECK-DAG: #[[MAP5:.+]] = affine_map<(d0, d1, d2, d3) -> (d3, d0, d1, d2)> |
| // CHECK: func @generic_op_reshape_consumer_fusion_projected |
| // CHECK-SAME: %[[ARG0:[a-zA-Z0-9_]+]]: tensor<?x?xf32> |
| // CHECK-SAME: %[[ARG1:[a-zA-Z0-9_]+]]: tensor<?x?xf32> |
| // CHECK: %[[T0:.+]] = linalg.tensor_expand_shape %[[ARG0]] |
| // CHECK-SAME: [0, 1, 2], [3] |
| // CHECK-SAME: tensor<?x?xf32> into tensor<?x4x5x?xf32> |
| // CHECK: %[[T1:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // CHECK-SAME: [0, 1, 2], [3] |
| // CHECK-SAME: tensor<?x?xf32> into tensor<?x4x5x?xf32> |
| // CHECK: %[[T3:.+]] = linalg.generic |
| // CHECK-SAME: indexing_maps = [#[[MAP4]], #[[MAP4]], #[[MAP5]]] |
| // CHECK-SAME: ["parallel", "parallel", "parallel", "parallel"] |
| // CHECK-SAME: ins(%[[T0]], %[[T1]] : tensor<?x4x5x?xf32>, tensor<?x4x5x?xf32>) |
| // CHECK-SAME: outs(%{{.+}} : tensor<?x?x4x5xf32>) |
| // CHECK: return %[[T3]] : tensor<?x?x4x5xf32> |
| |
| // ----- |
| |
| func @unit_dim_reshape_expansion(%arg0 : tensor<1x5xf32>) -> tensor<5x5xf32> { |
| %0 = linalg.tensor_collapse_shape %arg0 [[0, 1]] |
| : tensor<1x5xf32> into tensor<5xf32> |
| %1 = linalg.init_tensor [5, 5] : tensor<5x5xf32> |
| %2 = linalg.generic |
| {indexing_maps = [affine_map<(d0, d1) -> (d0)>, |
| affine_map<(d0, d1) -> (d0, d1)>], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%0 : tensor<5xf32>) outs(%1 : tensor<5x5xf32>) { |
| ^bb0(%arg2: f32, %arg3: f32): // no predecessors |
| linalg.yield %arg2 : f32 |
| } -> tensor<5x5xf32> |
| return %2 : tensor<5x5xf32> |
| } |
| // CHECK: func @unit_dim_reshape_expansion |
| // CHECK-DAG: linalg.tensor_collapse_shape |
| // CHECK-DAG: linalg.init_tensor |
| // CHECK: linalg.generic |
| |
| // ----- |
| |
| func @unit_dim_reshape_collapse(%arg0 : tensor<5xf32>) -> tensor<5x1x5xf32> { |
| %0 = linalg.init_tensor [5, 5] : tensor<5x5xf32> |
| %1 = linalg.generic |
| {indexing_maps = [affine_map<(d0, d1) -> (d0)>, |
| affine_map<(d0, d1) -> (d0, d1)>], |
| iterator_types = ["parallel", "parallel"]} |
| ins(%arg0 : tensor<5xf32>) outs(%0 : tensor<5x5xf32>) { |
| ^bb0(%arg2: f32, %arg3: f32): // no predecessors |
| linalg.yield %arg2 : f32 |
| } -> tensor<5x5xf32> |
| %2 = linalg.tensor_expand_shape %1 [[0, 1], [2]] |
| : tensor<5x5xf32> into tensor<5x1x5xf32> |
| return %2 : tensor<5x1x5xf32> |
| } |
| // CHECK: func @unit_dim_reshape_collapse |
| // CHECK: linalg.init_tensor |
| // CHECK: linalg.generic |
| // CHECK: linalg.tensor_expand_shape |
| |
| // ----- |
| |
| func @unit_dim_reshape_expansion_full |
| (%arg0 : tensor<1x?x1x2x1x4xf32>, %arg1 : tensor<?x2x4xf32>) |
| -> tensor<?x2x4xf32> { |
| %c1 = arith.constant 1 : index |
| %0 = linalg.tensor_collapse_shape %arg0 [[0, 1, 2], [3, 4], [5]] |
| : tensor<1x?x1x2x1x4xf32> into tensor<?x2x4xf32> |
| %1 = tensor.dim %arg0, %c1 : tensor<1x?x1x2x1x4xf32> |
| %2 = linalg.init_tensor [%1, 2, 4] : tensor<?x2x4xf32> |
| %3 = linalg.generic |
| {indexing_maps = [affine_map<(d0, d1, d2) -> (d0, d1, d2)>, |
| affine_map<(d0, d1, d2) -> (d0, d1, d2)>, |
| affine_map<(d0, d1, d2) -> (d0, d1, d2)>], |
| iterator_types = ["parallel", "parallel", "parallel"]} |
| ins(%0, %arg1 : tensor<?x2x4xf32>, tensor<?x2x4xf32>) |
| outs(%2 : tensor<?x2x4xf32>) { |
| ^bb0(%arg2: f32, %arg3: f32, %arg4: f32): // no predecessors |
| %4 = arith.mulf %arg2, %arg3 : f32 |
| linalg.yield %4 : f32 |
| } -> tensor<?x2x4xf32> |
| return %3 : tensor<?x2x4xf32> |
| } |
| // CHECK: func @unit_dim_reshape_expansion_full |
| // CHECK-DAG: linalg.tensor_collapse_shape |
| // CHECK-DAG: linalg.init_tensor |
| // CHECK: linalg.generic |
| // CHECK-SAME: ins(%{{.+}}, %{{.+}} : tensor<?x2x4xf32>, tensor<?x2x4xf32>) |
| |
| // FOLDUNITDIM: func @unit_dim_reshape_expansion_full |
| // FOLDUNITDIM-SAME: %[[ARG0:.+]]: tensor<1x?x1x2x1x4xf32> |
| // FOLDUNITDIM-SAME: %[[ARG1:.+]]: tensor<?x2x4xf32> |
| // FOLDUNITDIM-DAG: %[[RESHAPE:.+]] = linalg.tensor_expand_shape %[[ARG1]] |
| // FOLDUNITDIM: linalg.generic |
| // FOLDUNITDIM-SAME: ins(%[[ARG0]], %[[RESHAPE]] : tensor<1x?x1x2x1x4xf32>, tensor<1x?x1x2x1x4xf32>) |
| // FOLDUNITDIM-SAME: outs(%{{.+}} : tensor<1x?x1x2x1x4xf32>) |
| |