// 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 SetValueOpArgumentMapping(const ArgumentMappingContext& ctx) { if (ctx.IsDenseTensorInput("Input")) { if (ctx.HasInput("StartsTensorList")) { if (ctx.HasInput("EndsTensorList")) { if (ctx.HasInput("StepsTensorList")) { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } else { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } } else { if (ctx.HasInput("StepsTensorList")) { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } else { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } } } else { if (ctx.HasInput("EndsTensorList")) { if (ctx.HasInput("StepsTensorList")) { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } else { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } } else { if (ctx.HasInput("StepsTensorList")) { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } else { if (ctx.HasInput("ValueTensor")) { return KernelSignature("set_value_with_tensor", {"Input", "ValueTensor"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes"}, {"Out"}); } else if (ctx.HasAttr("fp32_values") && !paddle::any_cast>( ctx.Attr("fp32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp32_values"}, {"Out"}); } else if (ctx.HasAttr("fp64_values") && !paddle::any_cast>( ctx.Attr("fp64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "fp64_values"}, {"Out"}); } else if (ctx.HasAttr("int32_values") && !paddle::any_cast>( ctx.Attr("int32_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "int32_values"}, {"Out"}); } else if (ctx.HasAttr("int64_values") && !paddle::any_cast>( ctx.Attr("int64_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "int64_values"}, {"Out"}); } else if (ctx.HasAttr("bool_values") && !paddle::any_cast>( ctx.Attr("bool_values")) .empty()) { return KernelSignature("set_value", {"Input"}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes", "shape", "bool_values"}, {"Out"}); } } } } } return KernelSignature("unregistered", {}, {}, {}); } KernelSignature SetValueGradOpArgumentMapping( const ArgumentMappingContext& ctx) { if (ctx.HasInput("StartsTensorList")) { if (ctx.HasInput("EndsTensorList")) { if (ctx.HasInput("StepsTensorList")) { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"StartsTensorList", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } else { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"StartsTensorList", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } } else { if (ctx.HasInput("StepsTensorList")) { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"StartsTensorList", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } else { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"StartsTensorList", "ends", "steps", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } } } else { if (ctx.HasInput("EndsTensorList")) { if (ctx.HasInput("StepsTensorList")) { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"starts", "EndsTensorList", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } else { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"starts", "EndsTensorList", "steps", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } } else { if (ctx.HasInput("StepsTensorList")) { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"starts", "ends", "StepsTensorList", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } else { return KernelSignature( "set_value_grad", {GradVarName("Out")}, {"starts", "ends", "steps", "axes", "decrease_axes", "none_axes"}, {GradVarName("Input"), GradVarName("ValueTensor")}); } } } } } // namespace phi PD_REGISTER_ARG_MAPPING_FN(set_value, phi::SetValueOpArgumentMapping); PD_REGISTER_ARG_MAPPING_FN(set_value_grad, phi::SetValueGradOpArgumentMapping);