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Open XLA pin update - updated to 20231010
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Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -0,0 +1,184 @@ | ||
diff --git a/xla/service/topk_rewriter.cc b/xla/service/topk_rewriter.cc | ||
index da872d962..1b7141055 100644 | ||
--- a/xla/service/topk_rewriter.cc | ||
+++ b/xla/service/topk_rewriter.cc | ||
@@ -196,6 +196,8 @@ std::optional<int64_t> TopkRewriter::SortIsInTopK(HloInstruction* inst) { | ||
return std::nullopt; | ||
} | ||
const int64_t sort_dim = sort->sort_dimension(); | ||
+ const int64_t batch_dim = sort_dim == 1 ? 0 : 1; | ||
+ const bool has_batch = data->shape().rank() == 2; | ||
|
||
bool supported = true; | ||
std::optional<int64_t> k; | ||
@@ -220,15 +222,10 @@ std::optional<int64_t> TopkRewriter::SortIsInTopK(HloInstruction* inst) { | ||
supported = false; | ||
break; | ||
} | ||
- for (int64_t i = 0; i < slice->slice_limits().size(); ++i) { | ||
- if (i != sort_dim && | ||
- slice->slice_limits(i) != slice->operand(0)->shape().dimensions(i)) { | ||
- // Slicing along a non-sort dimension isn't supported. | ||
- supported = false; | ||
- break; | ||
- } | ||
- } | ||
- if (!supported) { | ||
+ if (has_batch && slice->slice_limits(batch_dim) != | ||
+ slice->operand(0)->shape().dimensions(batch_dim)) { | ||
+ // Slicing along the batch dimension isn't supported. | ||
+ supported = false; | ||
break; | ||
} | ||
if (k == std::nullopt) { | ||
@@ -260,57 +257,29 @@ StatusOr<bool> TopkRewriter::TransformToCustomCall( | ||
HloSortInstruction* sort = DynCast<HloSortInstruction>(inst); | ||
HloInstruction* data = sort->mutable_operand(0); | ||
const PrimitiveType element_type = data->shape().element_type(); | ||
- const Shape data_shape = data->shape(); | ||
|
||
- if (element_type != F32 && element_type != BF16) { | ||
+ if ((data->shape().rank() != 1 && data->shape().rank() != 2) || | ||
+ (element_type != F32 && element_type != BF16)) { | ||
continue; | ||
} | ||
|
||
- // Sort dimension must be the first or last dimension. | ||
const int64_t sort_dim = sort->sort_dimension(); | ||
- if (sort_dim != 0 && sort_dim != data_shape.rank() - 1) { | ||
- continue; | ||
- } | ||
+ const int64_t batch_dim = sort_dim == 1 ? 0 : 1; | ||
+ const bool has_batch = data->shape().rank() == 2; | ||
|
||
// Profitability check. | ||
if (!is_profitable_to_convert_(sort, *k)) { | ||
continue; | ||
} | ||
|
||
- HloInstruction* input = data; | ||
- const bool has_batch = data_shape.rank() >= 2; | ||
- const int64_t input_size = data_shape.dimensions(sort_dim); | ||
- int64_t batch_size = 1; | ||
- Shape topk_input_shape; | ||
- | ||
- if (has_batch) { | ||
- // The TopK custom call expects either a 1d tensor or a 2d tensor with | ||
- // the last dimension being the sort dimension. An input with rank > 2 | ||
- // is reshaped into a 2d tensor by combining non-sort dimensions into a | ||
- // single batch dimension. The original non-sort dimensions are | ||
- // restored for the outputs with another reshape after the custom call. | ||
- batch_size = | ||
- ShapeUtil::ElementsIn(data_shape) / data_shape.dimensions(sort_dim); | ||
- topk_input_shape = | ||
- ShapeUtil::MakeShape(element_type, {batch_size, input_size}); | ||
- | ||
- if (data_shape.rank() > 2) { | ||
- // Reshape to 2d. | ||
- input = comp->AddInstruction(HloInstruction::CreateReshape( | ||
- sort_dim == 0 | ||
- ? ShapeUtil::MakeShape(element_type, {input_size, batch_size}) | ||
- : ShapeUtil::MakeShape(element_type, | ||
- {batch_size, input_size}), | ||
- input)); | ||
- } | ||
- | ||
- if (sort_dim == 0) { | ||
- // Transpose for the custom call when sorting the first dimension. | ||
- input = comp->AddInstruction( | ||
- HloInstruction::CreateTranspose(topk_input_shape, input, {1, 0})); | ||
- } | ||
- } else { | ||
- topk_input_shape = data_shape; | ||
+ const int64_t batch_size = | ||
+ has_batch ? sort->operand(0)->shape().dimensions(batch_dim) : 1; | ||
+ const int64_t input_size = sort->operand(0)->shape().dimensions(sort_dim); | ||
+ HloInstruction* input = sort->mutable_operand(0); | ||
+ if (has_batch && sort_dim == 0) { | ||
+ input = comp->AddInstruction(HloInstruction::CreateTranspose( | ||
+ ShapeUtil::MakeShape(element_type, {batch_size, input_size}), input, | ||
+ {1, 0})); | ||
} | ||
|
||
Shape topk_shape = | ||
@@ -331,26 +300,13 @@ StatusOr<bool> TopkRewriter::TransformToCustomCall( | ||
comp->AddInstruction(HloInstruction::CreateGetTupleElement( | ||
topk->shape().tuple_shapes(1), topk, 1)); | ||
|
||
- if (has_batch) { | ||
- if (sort_dim == 0) { | ||
- // Transpose back. | ||
- value_gte = comp->AddInstruction(HloInstruction::CreateTranspose( | ||
- ShapeUtil::MakeShape(element_type, {k.value(), batch_size}), | ||
- value_gte, {1, 0})); | ||
- index_gte = comp->AddInstruction(HloInstruction::CreateTranspose( | ||
- ShapeUtil::MakeShape(S32, {k.value(), batch_size}), index_gte, | ||
- {1, 0})); | ||
- } | ||
- if (data_shape.rank() > 2) { | ||
- // Reshape back. | ||
- std::vector<int64_t> shape_dim(data_shape.dimensions().begin(), | ||
- data_shape.dimensions().end()); | ||
- shape_dim[sort_dim] = k.value(); | ||
- value_gte = comp->AddInstruction(HloInstruction::CreateReshape( | ||
- ShapeUtil::MakeShape(element_type, shape_dim), value_gte)); | ||
- index_gte = comp->AddInstruction(HloInstruction::CreateReshape( | ||
- ShapeUtil::MakeShape(S32, shape_dim), index_gte)); | ||
- } | ||
+ if (has_batch && sort_dim == 0) { | ||
+ value_gte = comp->AddInstruction(HloInstruction::CreateTranspose( | ||
+ ShapeUtil::MakeShape(element_type, {k.value(), batch_size}), | ||
+ value_gte, {1, 0})); | ||
+ index_gte = comp->AddInstruction(HloInstruction::CreateTranspose( | ||
+ ShapeUtil::MakeShape(S32, {k.value(), batch_size}), index_gte, | ||
+ {1, 0})); | ||
} | ||
|
||
for (HloInstruction* user : sort->users()) { | ||
diff --git a/xla/service/topk_rewriter_test.cc b/xla/service/topk_rewriter_test.cc | ||
index 36e723737..25ce150e0 100644 | ||
--- a/xla/service/topk_rewriter_test.cc | ||
+++ b/xla/service/topk_rewriter_test.cc | ||
@@ -326,42 +326,6 @@ ENTRY cluster { | ||
EXPECT_THAT(cc->custom_call_target(), "TopK"); | ||
} | ||
|
||
-TEST_F(TopkRewriterTest, RewriteReshape) { | ||
- const std::string hlo_string = R"( | ||
-HloModule module | ||
-)" + getComparator() + R"( | ||
-ENTRY cluster { | ||
- %arg_tuple.1 = f32[3,8,1234567] parameter(0) | ||
- %iota.4 = s32[3,8,1234567] iota(), iota_dimension=2 | ||
- %sort.27 = (f32[3,8,1234567], s32[3,8,1234567]) sort(%arg_tuple.1, %iota.4), | ||
- dimensions={2}, is_stable=true, to_apply=%compare | ||
- %get-tuple-element.28 = f32[3, 8,1234567] get-tuple-element(%sort.27), index=0 | ||
- %slice.29 = f32[3,8,5] slice(%get-tuple-element.28), slice={[0:3], [0:8], [0:5]} | ||
- %get-tuple-element.30 = s32[3,8,1234567] get-tuple-element(%sort.27), index=1 | ||
- %slice.31 = s32[3,8,5] slice(%get-tuple-element.30), slice={[0:3], [0:8], [0:5]} | ||
- ROOT %tuple.32 = (f32[3,8,5], s32[3,8,5]) tuple(%slice.29, %slice.31) | ||
-})"; | ||
- TF_ASSERT_OK_AND_ASSIGN(auto module, | ||
- ParseAndReturnVerifiedModule(hlo_string)); | ||
- TopkRewriter rewriter( | ||
- [](const HloSortInstruction*, int64_t) { return true; }); | ||
- TF_ASSERT_OK_AND_ASSIGN(bool changed, rewriter.Run(module.get())); | ||
- TF_ASSERT_OK(HloDCE().Run(module.get()).status()); | ||
- EXPECT_TRUE(changed); | ||
- EXPECT_THAT(module->entry_computation()->root_instruction(), | ||
- GmockMatch(m::Tuple( | ||
- m::Reshape(m::GetTupleElement( | ||
- m::CustomCall(m::Reshape(m::Parameter(0))), 0)), | ||
- m::Reshape(m::GetTupleElement( | ||
- m::CustomCall(m::Reshape(m::Parameter(0))), 1))))); | ||
- const HloInstruction* cc = module->entry_computation() | ||
- ->root_instruction() | ||
- ->operand(0) | ||
- ->operand(0) | ||
- ->operand(0); | ||
- EXPECT_THAT(cc->custom_call_target(), "TopK"); | ||
-} | ||
- | ||
TEST_F(TopkRewriterTest, RewriteNoIota) { | ||
const std::string hlo_string = R"( | ||
HloModule module |
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