/* Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include "paddle/phi/core/compat/op_utils.h" namespace phi { KernelSignature ReduceSumOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "sum_raw" KernelSignature. // And the InferMeta function(i.e. SumRawInferMeta) is accordance with // the "sum_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature("sum_raw", {"X"}, {"dim", "keep_dim", "reduce_all", "out_dtype"}, {"Out"}); } return KernelSignature( "sum", {"X"}, {"dim", "out_dtype", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceMeanOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "mean_raw" KernelSignature. // And the InferMeta function(i.e. ReduceInferMetaBase) is accordance with // the "mean_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "mean_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("mean", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceProdOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "max_raw" KernelSignature. // And the InferMeta function(i.e. ReduceInferMetaBase) is accordance with // the "max_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "prod_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("prod", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceMaxOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "max_raw" KernelSignature. // And the InferMeta function(i.e. ReduceInferMetaBase) is accordance with // the "max_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "max_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("max", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceMinOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "min_raw" KernelSignature. // And the InferMeta function(i.e. ReduceInferMetaBase) is accordance with // the "min_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "min_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("min", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceAnyOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); // When ctx is InferShapeArgumentMappingContext, the reduce_all is used in // InferShape, so we must return the "any_raw" KernelSignature. // And the InferMeta function(i.e. ReduceInferMetaBase) is accordance with // the "any_raw" KernelSignature if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "any_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("any", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceAllOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("X")) { bool reduce_all = paddle::any_cast(ctx.Attr("reduce_all")); if (ctx.IsForInferShape() || reduce_all) { return KernelSignature( "all_raw", {"X"}, {"dim", "keep_dim", "reduce_all"}, {"Out"}); } return KernelSignature("all", {"X"}, {"dim", "keep_dim"}, {"Out"}); } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature ReduceSumGradOpArgumentMapping( const ArgumentMappingContext& ctx) { return KernelSignature( "sum_grad", {"X", GradVarName("Out")}, {"dim", "keep_dim", "reduce_all", "in_dtype", "out_dtype"}, {GradVarName("X")}); } KernelSignature ReduceMeanGradOpArgumentMapping( const ArgumentMappingContext& ctx) { return KernelSignature( "mean_grad", {"X", GradVarName("Out")}, {"dim", "keep_dim", "reduce_all", "in_dtype", "out_dtype"}, {GradVarName("X")}); } KernelSignature ReduceMaxGradOpArgumentMapping( const ArgumentMappingContext& ctx) { return KernelSignature( "max_grad", {"X", GradVarName("Out"), "Out"}, {"dim", "keep_dim", "reduce_all", "in_dtype", "out_dtype"}, {GradVarName("X")}); } KernelSignature ReduceMinGradOpArgumentMapping( const ArgumentMappingContext& ctx) { return KernelSignature( "min_grad", {"X", GradVarName("Out"), "Out"}, {"dim", "keep_dim", "reduce_all", "in_dtype", "out_dtype"}, {GradVarName("X")}); } KernelSignature ReduceProdGradOpArgumentMapping( const ArgumentMappingContext& ctx) { return KernelSignature( "prod_grad", {"X", GradVarName("Out"), "Out"}, {"dim", "keep_dim", "reduce_all", "in_dtype", "out_dtype"}, {GradVarName("X")}); } } // namespace phi PD_REGISTER_BASE_KERNEL_NAME(reduce_sum, sum); PD_REGISTER_BASE_KERNEL_NAME(reduce_mean, mean); PD_REGISTER_BASE_KERNEL_NAME(reduce_max, max); PD_REGISTER_BASE_KERNEL_NAME(reduce_min, min); PD_REGISTER_BASE_KERNEL_NAME(reduce_prod, prod); PD_REGISTER_BASE_KERNEL_NAME(reduce_all, all); PD_REGISTER_BASE_KERNEL_NAME(reduce_any, any); PD_REGISTER_BASE_KERNEL_NAME(reduce_sum_grad, sum_grad); PD_REGISTER_BASE_KERNEL_NAME(reduce_mean_grad, mean_grad); PD_REGISTER_BASE_KERNEL_NAME(reduce_prod_grad, prod_grad); PD_REGISTER_BASE_KERNEL_NAME(reduce_max_grad, max_grad); PD_REGISTER_BASE_KERNEL_NAME(reduce_min_grad, min_grad); PD_REGISTER_ARG_MAPPING_FN(reduce_sum, phi::ReduceSumOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_mean, phi::ReduceMeanOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_prod, phi::ReduceProdOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_max, phi::ReduceMaxOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_min, phi::ReduceMinOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_all, phi::ReduceAllOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_any, phi::ReduceAnyOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_sum_grad, phi::ReduceSumGradOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_mean_grad, phi::ReduceMeanGradOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_prod_grad, phi::ReduceProdGradOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_max_grad, phi::ReduceMaxGradOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(reduce_min_grad, phi::ReduceMinGradOpArgumentMapping);