mirror of https://github.com/llvm/torch-mlir
[Torch] support binary_cross_entropy_with_logits decomposition (#3741)
parent
a33d1232c5
commit
eb4e59e189
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@ -9224,6 +9224,33 @@ def Torch_AtenBinaryCrossEntropyBackwardOp : Torch_Op<"aten.binary_cross_entropy
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}];
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}
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def Torch_AtenBinaryCrossEntropyWithLogitsOp : Torch_Op<"aten.binary_cross_entropy_with_logits", [
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AllowsTypeRefinement,
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HasValueSemantics,
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ReadOnly
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]> {
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let summary = "Generated op for `aten::binary_cross_entropy_with_logits : (Tensor, Tensor, Tensor?, Tensor?, int) -> (Tensor)`";
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let arguments = (ins
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AnyTorchTensorType:$self,
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AnyTorchTensorType:$target,
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AnyTorchOptionalTensorType:$weight,
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AnyTorchOptionalTensorType:$pos_weight,
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Torch_IntType:$reduction
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);
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let results = (outs
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AnyTorchOptionalTensorType:$result
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);
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let hasCustomAssemblyFormat = 1;
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let extraClassDefinition = [{
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ParseResult AtenBinaryCrossEntropyWithLogitsOp::parse(OpAsmParser &parser, OperationState &result) {
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return parseDefaultTorchOp(parser, result, 5, 1);
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}
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void AtenBinaryCrossEntropyWithLogitsOp::print(OpAsmPrinter &printer) {
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printDefaultTorchOp(printer, *this, 5, 1);
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}
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}];
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}
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def Torch_AtenLogSigmoidForwardOp : Torch_Op<"aten.log_sigmoid_forward", [
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AllowsTypeRefinement,
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HasValueSemantics,
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@ -10289,6 +10289,18 @@ StringRef mlir::torch::Torch::getAbstractInterpLibrary() {
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" %0 = call @__torch__.torch.jit._shape_functions.cross_entropy_loss(%arg0, %arg1, %arg2, %arg3, %arg4, %arg5) : (!torch.list<int>, !torch.list<int>, !torch.optional<list<int>>, !torch.int, !torch.int, !torch.float) -> !torch.list<int>\n"
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" return %0 : !torch.list<int>\n"
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" }\n"
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" func.func @\"__torch_mlir_shape_fn.aten.binary_cross_entropy_with_logits\"(%arg0: !torch.list<int>, %arg1: !torch.list<int>, %arg2: !torch.optional<list<int>>, %arg3: !torch.optional<list<int>>, %arg4: !torch.int) -> !torch.list<int> {\n"
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" %int0 = torch.constant.int 0\n"
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" %0 = torch.prim.ListConstruct : () -> !torch.list<int>\n"
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" %1 = torch.aten.eq.int %arg4, %int0 : !torch.int, !torch.int -> !torch.bool\n"
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" %2 = torch.prim.If %1 -> (!torch.list<int>) {\n"
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" %3 = func.call @__torch__.torch.jit._shape_functions._copy(%arg0) : (!torch.list<int>) -> !torch.list<int>\n"
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" torch.prim.If.yield %3 : !torch.list<int>\n"
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" } else {\n"
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" torch.prim.If.yield %0 : !torch.list<int>\n"
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" }\n"
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" return %2 : !torch.list<int>\n"
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" }\n"
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" func.func @\"__torch_mlir_shape_fn.aten.native_layer_norm\"(%arg0: !torch.list<int>, %arg1: !torch.list<int>, %arg2: !torch.optional<list<int>>, %arg3: !torch.optional<list<int>>, %arg4: !torch.float) -> !torch.tuple<list<int>, list<int>, list<int>> {\n"
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" %0 = call @__torch__.torch.jit._shape_functions.native_layer_norm(%arg0, %arg1) : (!torch.list<int>, !torch.list<int>) -> !torch.tuple<list<int>, list<int>, list<int>>\n"
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" return %0 : !torch.tuple<list<int>, list<int>, list<int>>\n"
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@ -14634,6 +14646,10 @@ StringRef mlir::torch::Torch::getAbstractInterpLibrary() {
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" }\n"
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" return %4 : !torch.int\n"
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" }\n"
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" func.func @\"__torch_mlir_dtype_fn.aten.binary_cross_entropy_with_logits\"(%arg0: !torch.tuple<int, int>, %arg1: !torch.tuple<int, int>, %arg2: !torch.optional<tuple<int, int>>, %arg3: !torch.optional<tuple<int, int>>, %arg4: !torch.int) -> !torch.int {\n"
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" %0:2 = torch.prim.TupleUnpack %arg0 : !torch.tuple<int, int> -> !torch.int, !torch.int\n"
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" return %0#1 : !torch.int\n"
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" }\n"
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" func.func @\"__torch_mlir_dtype_fn.aten.renorm\"(%arg0: !torch.tuple<int, int>, %arg1: !torch.number, %arg2: !torch.int, %arg3: !torch.number) -> !torch.int {\n"
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" %none = torch.constant.none\n"
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" %str = torch.constant.str \"AssertionError: \"\n"
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@ -8799,6 +8799,77 @@ public:
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};
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} // namespace
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namespace {
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class DecomposeAtenBinaryCrossEntropyWithLogitsOp
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: public OpRewritePattern<AtenBinaryCrossEntropyWithLogitsOp> {
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using OpRewritePattern<AtenBinaryCrossEntropyWithLogitsOp>::OpRewritePattern;
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LogicalResult matchAndRewrite(AtenBinaryCrossEntropyWithLogitsOp op,
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PatternRewriter &rewriter) const override {
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Location loc = op.getLoc();
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auto self = op.getSelf();
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auto target = op.getTarget();
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auto posWeight = op.getPosWeight();
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auto weight = op.getWeight();
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auto reduction = op.getReduction();
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Value loss;
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auto one =
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rewriter.create<ConstantIntOp>(loc, rewriter.getI64IntegerAttr(1));
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auto _one =
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rewriter.create<ConstantIntOp>(loc, rewriter.getI64IntegerAttr(-1));
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auto _target =
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rewriter.create<AtenMulScalarOp>(loc, target.getType(), target, _one);
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auto _target_1 = rewriter.create<AtenAddScalarOp>(loc, _target.getType(),
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_target, one, one);
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Value mm =
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rewriter.create<AtenMulTensorOp>(loc, self.getType(), _target_1, self);
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Value logSigm =
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rewriter.create<AtenLogSigmoidOp>(loc, self.getType(), self);
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if (!isa<Torch::NoneType>(posWeight.getType())) {
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auto logWeight = rewriter.create<AtenAddScalarOp>(
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loc, posWeight.getType(),
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rewriter.create<AtenSubScalarOp>(loc, posWeight.getType(), posWeight,
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one, one),
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one, one);
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loss = rewriter.create<AtenSubTensorOp>(
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loc, mm.getType(), mm,
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rewriter.create<AtenMulTensorOp>(loc, logWeight.getType(), logWeight,
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logSigm),
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one);
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} else {
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loss =
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rewriter.create<AtenSubTensorOp>(loc, mm.getType(), mm, logSigm, one);
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}
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if (!isa<Torch::NoneType>(weight.getType())) {
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loss =
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rewriter.create<AtenMulTensorOp>(loc, loss.getType(), loss, weight);
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}
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// apply loss reduction.
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int64_t reductionInt;
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if (!matchPattern(reduction, m_TorchConstantInt(&reductionInt))) {
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return rewriter.notifyMatchFailure(op, "no reduction type is appointed!");
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}
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auto none = rewriter.create<ConstantNoneOp>(loc);
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Value res;
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if (reductionInt == 1) {
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res = rewriter.create<AtenMeanOp>(loc, op.getType(), loss, none);
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} else if (reductionInt == 2) {
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res = rewriter.create<AtenSumOp>(loc, op.getType(), loss, none);
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} else {
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res = loss;
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}
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rewriter.replaceOp(op, res);
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return success();
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}
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};
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} // namespace
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namespace {
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class DecomposeAtenOneHotOp : public OpRewritePattern<AtenOneHotOp> {
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using OpRewritePattern<AtenOneHotOp>::OpRewritePattern;
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@ -9936,6 +10007,8 @@ public:
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addPatternIfTargetOpIsIllegal<DecomposeAtenMovedimIntOp>(patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenOneHotOp>(patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenCrossEntropyLossOp>(patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenBinaryCrossEntropyWithLogitsOp>(
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patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenVarMeanDimOp>(patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenTopkOp>(patterns);
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addPatternIfTargetOpIsIllegal<DecomposeAtenHannWindowPeriodicOp>(patterns);
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@ -1993,6 +1993,14 @@ def aten〇mse_loss〡shape(self: List[int], target: List[int], reduction: int =
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def aten〇cross_entropy_loss〡shape(self: List[int], target: List[int], weight: Optional[List[int]] = None, reduction: int = 1, ignore_index: int = -100, label_smoothing: float = 0.) -> List[int]:
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return upstream_shape_functions.cross_entropy_loss(self, target, weight, reduction, ignore_index, label_smoothing)
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def aten〇binary_cross_entropy_with_logits〡shape(self: List[int], target: List[int], weight: Optional[List[int]] = None, pos_weight: Optional[List[int]] = None, reduction: int = 1) -> List[int]:
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scalar_shape: List[int] = []
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if reduction == 0:
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result_shape = upstream_shape_functions._copy(self)
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else:
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result_shape = scalar_shape
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return result_shape
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@check_shape_function([
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Invocation(TensorOfShape(2, 5, 2, 2, 3), [2, 2, 3], None, None, 1e-6), # Basic case.
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])
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@ -4958,6 +4966,10 @@ def aten〇linalg_norm〡dtype(self_rank_dtype: Tuple[int, int], ord: Optional[U
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return dtype
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return aten〇std〡dtype(self_rank_dtype)
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def aten〇binary_cross_entropy_with_logits〡dtype(self_rank_dtype: Tuple[int, int], target_rank_dtype: Tuple[int, int], weight_rank_dtype: Optional[Tuple[int, int]] = None, pos_weight_rank_dtype: Optional[Tuple[int, int]] = None, reduction: int = 1) -> int:
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self_rank, self_dtype = self_rank_dtype
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return self_dtype
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@check_dtype_function(
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_check_tensors_with_the_same_dtype(
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tensor_shapes=[(3,3)],
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@ -743,6 +743,9 @@ def emit_ops(emitter_td: TextEmitter, registry: Registry):
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emit(
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"aten::binary_cross_entropy_backward : (Tensor, Tensor, Tensor, Tensor?, int) -> (Tensor)"
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)
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emit(
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"aten::binary_cross_entropy_with_logits : (Tensor, Tensor, Tensor?, Tensor?, int) -> (Tensor)"
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)
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emit("aten::log_sigmoid_forward : (Tensor) -> (Tensor, Tensor)")
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emit("aten::log_sigmoid_backward : (Tensor, Tensor, Tensor) -> (Tensor)")
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emit("aten::sigmoid_backward : (Tensor, Tensor) -> (Tensor)")
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@ -2294,6 +2294,29 @@ def CrossEntropyLossNoReductionModule_basic(module, tu: TestUtils):
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module.forward(tu.rand(8, 2), tu.randint(8, high=2))
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class BinaryCrossEntropyWithLogitsStaticModule(torch.nn.Module):
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def __init__(self):
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super().__init__()
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@export
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@annotate_args(
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[
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None,
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([8, 2], torch.float32, True),
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([8, 2], torch.float32, True),
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]
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)
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def forward(self, input, target):
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return torch.ops.aten.binary_cross_entropy_with_logits(
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input, target, reduction=0
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)
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@register_test_case(module_factory=lambda: BinaryCrossEntropyWithLogitsStaticModule())
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def BinaryCrossEntropyWithLogitsStaticModule_basic(module, tu: TestUtils):
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module.forward(tu.rand(8, 2), tu.rand(8, 2))
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# ==============================================================================
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