Canonicalize mhlo.gather to mhlo.slice if it has a single set of constant indices

PiperOrigin-RevId: 330380755
This commit is contained in:
A. Unique TensorFlower 2020-09-07 07:27:42 -07:00 committed by TensorFlow MLIR Team
parent dde1ed56cc
commit 73b4861f2c
3 changed files with 82 additions and 0 deletions

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@ -1065,6 +1065,8 @@ def HLO_GatherOp: HLO_Op<"gather", [NoSideEffect]>, BASE_HLO_GatherOp {
); );
let results = (outs HLO_Tensor); let results = (outs HLO_Tensor);
let hasCanonicalizer = 1;
} }
def HLO_GetDimensionSizeOp: HLO_Op<"get_dimension_size", [NoSideEffect]>, def HLO_GetDimensionSizeOp: HLO_Op<"get_dimension_size", [NoSideEffect]>,

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@ -165,6 +165,57 @@ static LogicalResult Verify(DotGeneralOp op) {
return success(); return success();
} }
//===----------------------------------------------------------------------===//
// GatherOp
//===----------------------------------------------------------------------===//
// Converts gather ops to slice ops in case we have a single set of constant
// indices.
struct GatherSlice : public OpRewritePattern<GatherOp> {
using OpRewritePattern<GatherOp>::OpRewritePattern;
LogicalResult matchAndRewrite(GatherOp gather,
PatternRewriter& rewriter) const override {
DenseIntElementsAttr index;
if (!matchPattern(gather.start_indices(), m_Constant(&index)))
return failure();
const auto& dnums = gather.dimension_numbers();
if (dnums.collapsed_slice_dims().getNumElements() != 0 ||
dnums.index_vector_dim().getInt() != 0 || index.getType().getRank() > 1)
return failure();
// TODO(tberghammer): Remove when the verifier catches this case what is
// invalid if all previous condition holds.
if (index.getNumElements() != dnums.start_index_map().getNumElements())
return failure();
auto slice_end =
llvm::to_vector<8>(gather.slice_sizes().getValues<int64_t>());
llvm::SmallVector<int64_t, 8> slice_start(slice_end.size(), 0);
for (auto it : llvm::zip(dnums.start_index_map().getIntValues(),
index.getIntValues())) {
int64_t map_index = std::get<0>(it).getSExtValue();
int64_t offset = std::get<1>(it).getSExtValue();
slice_start[map_index] += offset;
slice_end[map_index] += offset;
}
llvm::SmallVector<int64_t, 8> slice_stride(slice_end.size(), 1);
rewriter.replaceOpWithNewOp<SliceOp>(
gather, gather.getType(), gather.getOperand(0),
GetI64ElementsAttr(slice_start, &rewriter),
GetI64ElementsAttr(slice_end, &rewriter),
GetI64ElementsAttr(slice_stride, &rewriter));
return success();
}
};
void GatherOp::getCanonicalizationPatterns(OwningRewritePatternList& results,
MLIRContext* context) {
results.insert<GatherSlice>(context);
}
//===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===//
// GetDimensionSizeOp // GetDimensionSizeOp
//===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===//

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@ -665,3 +665,32 @@ func @fold_select_vector(%arg0 : tensor<4xf32>, %arg1 : tensor<4xf32>) -> tensor
return %1 : tensor<4xf32> return %1 : tensor<4xf32>
} }
// CHECK-LABEL: gather_to_slice
func @gather_to_slice(%arg0: tensor<5x6x7xf32>) -> tensor<3x6x5xf32> {
%0 = constant dense<[1, 2]> : tensor<2xi32>
%1 = "mhlo.gather"(%arg0, %0) {
dimension_numbers = {collapsed_slice_dims = dense<> : tensor<0xi64>,
index_vector_dim = 0 : i64,
offset_dims = dense<[0, 1, 2]> : tensor<3xi64>,
start_index_map = dense<[0, 2]> : tensor<2xi64>},
indices_are_sorted = false,
slice_sizes = dense<[3, 6, 5]> : tensor<3xi64>} : (tensor<5x6x7xf32>, tensor<2xi32>) -> tensor<3x6x5xf32>
return %1 : tensor<3x6x5xf32>
// CHECK: %[[RET:.*]] = "mhlo.slice"(%arg0) {limit_indices = dense<[4, 6, 7]> : tensor<3xi64>, start_indices = dense<[1, 0, 2]> : tensor<3xi64>, strides = dense<1> : tensor<3xi64>} : (tensor<5x6x7xf32>) -> tensor<3x6x5xf32>
// CHECK: return %[[RET]] : tensor<3x6x5xf32>
}
// CHECK-LABEL: gather_scalar_index_to_slice
func @gather_scalar_index_to_slice(%arg0: tensor<5x6x7xf32>) -> tensor<5x6x4xf32> {
%0 = constant dense<1> : tensor<i32>
%1 = "mhlo.gather"(%arg0, %0) {
dimension_numbers = {collapsed_slice_dims = dense<> : tensor<0xi64>,
index_vector_dim = 0 : i64,
offset_dims = dense<[0, 1, 2]> : tensor<3xi64>,
start_index_map = dense<[2]> : tensor<1xi64>},
indices_are_sorted = false,
slice_sizes = dense<[5, 6, 4]> : tensor<3xi64>} : (tensor<5x6x7xf32>, tensor<i32>) -> tensor<5x6x4xf32>
return %1 : tensor<5x6x4xf32>
// CHECK: %[[RET:.*]] = "mhlo.slice"(%arg0) {limit_indices = dense<[5, 6, 5]> : tensor<3xi64>, start_indices = dense<[0, 0, 1]> : tensor<3xi64>, strides = dense<1> : tensor<3xi64>} : (tensor<5x6x7xf32>) -> tensor<5x6x4xf32>
// CHECK: return %[[RET]] : tensor<5x6x4xf32>
}