/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve. 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/framework/operator.h" #include "gtest/gtest.h" #include "paddle/framework/op_info.h" #include "paddle/framework/op_registry.h" namespace paddle { namespace framework { static int op_run_num = 0; class OpWithoutKernelTest : public OperatorBase { public: OpWithoutKernelTest(const std::string& type, const VariableNameMap& inputs, const VariableNameMap& outputs, const AttributeMap& attrs) : OperatorBase(type, inputs, outputs, attrs), x(1) {} void Run(const Scope& scope, const platform::DeviceContext& dev_ctx) const override { ++op_run_num; ASSERT_EQ(static_cast(inputs_.size()), 1); ASSERT_EQ(static_cast(outputs_.size()), 1); ASSERT_EQ(scope.FindVar(inputs_.at("input")[0]), nullptr); ASSERT_EQ(x, 1); ASSERT_NE(scope.FindVar(outputs_.at("output")[0]), nullptr); } public: int x{0}; }; class OpeWithoutKernelTestProtoAndCheckerMaker : public OpProtoAndCheckerMaker { public: OpeWithoutKernelTestProtoAndCheckerMaker(OpProto* proto, OpAttrChecker* op_checker) : OpProtoAndCheckerMaker(proto, op_checker) { AddInput("input", "input of test op"); AddOutput("output", "output of test op"); AddAttr("scale", "scale of cosine op"); AddComment("This is test op"); } }; } // namespace framework } // namespace paddle static void BuildVar(const std::string& param_name, std::initializer_list arguments, paddle::framework::OpDesc::Var* var) { var->set_parameter(param_name); for (auto& arg_name : arguments) { *var->mutable_arguments()->Add() = arg_name; } } REGISTER_OP_WITHOUT_GRADIENT( test_operator, paddle::framework::OpWithoutKernelTest, paddle::framework::OpeWithoutKernelTestProtoAndCheckerMaker); TEST(OperatorBase, all) { paddle::framework::OpDesc op_desc; op_desc.set_type("test_operator"); BuildVar("input", {"IN1"}, op_desc.add_inputs()); BuildVar("output", {"OUT1"}, op_desc.add_outputs()); auto attr = op_desc.mutable_attrs()->Add(); attr->set_name("scale"); attr->set_type(paddle::framework::AttrType::FLOAT); attr->set_f(3.14); paddle::platform::CPUDeviceContext device_context; paddle::framework::Scope scope; auto op = paddle::framework::OpRegistry::CreateOp(op_desc); scope.Var("OUT1"); ASSERT_EQ(paddle::framework::op_run_num, 0); op->Run(scope, device_context); ASSERT_EQ(paddle::framework::op_run_num, 1); } namespace paddle { namespace framework { class OpKernelTestProtoAndCheckerMaker : public OpProtoAndCheckerMaker { public: OpKernelTestProtoAndCheckerMaker(OpProto* proto, OpAttrChecker* op_checker) : OpProtoAndCheckerMaker(proto, op_checker) { AddInput("x", "input of test op"); AddOutput("y", "output of test op"); AddAttr("scale", "scale of cosine op") .SetDefault(1.0) .GreaterThan(0.0); AddComment("This is test op"); } }; static int cpu_kernel_run_num = 0; class OpWithKernelTest : public OperatorWithKernel { public: using OperatorWithKernel::OperatorWithKernel; protected: void InferShape(framework::InferShapeContext* ctx) const override {} OpKernelType GetKernelType(const ExecutionContext& ctx) const override { return OpKernelType(DataType::FP32, ctx.GetPlace()); } }; template class CPUKernelTest : public OpKernel { public: void Compute(const ExecutionContext& ctx) const { std::cout << "this is cpu kernel" << std::endl; std::cout << ctx.op().DebugString() << std::endl; cpu_kernel_run_num++; ASSERT_EQ(ctx.op().Input("x"), "IN1"); ASSERT_EQ(ctx.op().Output("y"), "OUT1"); } }; class OpKernelTestMultiInputsProtoAndCheckerMaker : public OpProtoAndCheckerMaker { public: OpKernelTestMultiInputsProtoAndCheckerMaker(OpProto* proto, OpAttrChecker* op_checker) : OpProtoAndCheckerMaker(proto, op_checker) { AddInput("xs", "inputs of test op").AsDuplicable(); AddInput("k", "input of test op"); AddOutput("ys", "outputs of test op").AsDuplicable(); AddAttr("scale", "scale of cosine op") .SetDefault(1.0) .GreaterThan(0.0); AddComment("This is test op"); } }; class CPUKernalMultiInputsTest : public OpKernel { public: void Compute(const ExecutionContext& ctx) const { auto xs = ctx.op().Inputs("xs"); ASSERT_EQ(xs.size(), 3UL); ASSERT_EQ(xs[0], "x0"); ASSERT_EQ(xs[1], "x1"); ASSERT_EQ(xs[2], "x2"); auto inVar0 = ctx.MultiInputVar("xs"); ASSERT_EQ(inVar0.size(), 3U); auto intVar1 = ctx.InputVar("k"); ASSERT_NE(intVar1, nullptr); auto outVar0 = ctx.MultiOutputVar("ys"); ASSERT_EQ(outVar0.size(), 2U); auto inTensor0 = ctx.MultiInput("xs"); ASSERT_EQ(inTensor0.size(), 3U); auto intTensor1 = ctx.Input("k"); ASSERT_NE(intTensor1, nullptr); auto outTensor0 = ctx.MultiOutput("ys"); ASSERT_EQ(outTensor0.size(), 2U); auto k = ctx.op().Input("k"); ASSERT_EQ(k, "k0"); auto ys = ctx.op().Outputs("ys"); ASSERT_EQ(ys.size(), 2UL); ASSERT_EQ(ys[0], "y0"); ASSERT_EQ(ys[1], "y1"); } }; } // namespace framework } // namespace paddle REGISTER_OP_WITHOUT_GRADIENT( op_with_kernel, paddle::framework::OpWithKernelTest, paddle::framework::OpKernelTestProtoAndCheckerMaker); REGISTER_OP_CPU_KERNEL(op_with_kernel, paddle::framework::CPUKernelTest); // test with single input TEST(OpKernel, all) { paddle::framework::OpDesc op_desc; op_desc.set_type("op_with_kernel"); BuildVar("x", {"IN1"}, op_desc.add_inputs()); BuildVar("y", {"OUT1"}, op_desc.add_outputs()); auto attr = op_desc.mutable_attrs()->Add(); attr->set_name("scale"); attr->set_type(paddle::framework::AttrType::FLOAT); attr->set_f(3.14); paddle::platform::CPUDeviceContext cpu_device_context; paddle::framework::Scope scope; auto op = paddle::framework::OpRegistry::CreateOp(op_desc); ASSERT_EQ(paddle::framework::cpu_kernel_run_num, 0); op->Run(scope, cpu_device_context); ASSERT_EQ(paddle::framework::cpu_kernel_run_num, 1); } REGISTER_OP_WITHOUT_GRADIENT( op_multi_inputs_with_kernel, paddle::framework::OpWithKernelTest, paddle::framework::OpKernelTestMultiInputsProtoAndCheckerMaker); REGISTER_OP_CPU_KERNEL(op_multi_inputs_with_kernel, paddle::framework::CPUKernalMultiInputsTest); // test with multi inputs TEST(OpKernel, multi_inputs) { using namespace paddle::framework; OpDesc op_desc; op_desc.set_type("op_multi_inputs_with_kernel"); BuildVar("xs", {"x0", "x1", "x2"}, op_desc.add_inputs()); BuildVar("k", {"k0"}, op_desc.add_inputs()); BuildVar("ys", {"y0", "y1"}, op_desc.add_outputs()); auto attr = op_desc.mutable_attrs()->Add(); attr->set_name("scale"); attr->set_type(paddle::framework::AttrType::FLOAT); attr->set_f(3.14); paddle::platform::CPUDeviceContext cpu_device_context; paddle::framework::Scope scope; scope.Var("x0")->GetMutable(); scope.Var("x1")->GetMutable(); scope.Var("x2")->GetMutable(); scope.Var("k0")->GetMutable(); scope.Var("y0")->GetMutable(); scope.Var("y1")->GetMutable(); auto op = paddle::framework::OpRegistry::CreateOp(op_desc); op->Run(scope, cpu_device_context); } class OperatorClone : public paddle::framework::OperatorBase { public: DEFINE_OP_CLONE_METHOD(OperatorClone); OperatorClone(const std::string& type, const paddle::framework::VariableNameMap& inputs, const paddle::framework::VariableNameMap& outputs, const paddle::framework::AttributeMap& attrs) : OperatorBase(type, inputs, outputs, attrs) {} void Run(const paddle::framework::Scope& scope, const paddle::platform::DeviceContext& dev_ctx) const override {} }; TEST(Operator, Clone) { OperatorClone a("ABC", paddle::framework::VariableNameMap{}, paddle::framework::VariableNameMap{}, paddle::framework::AttributeMap{}); auto b = a.Clone(); ASSERT_EQ(a.Type(), b->Type()); }