/* 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 #include #include #include "paddle/framework/backward.h" #include "paddle/framework/lod_tensor.h" #include "paddle/framework/op_registry.h" #include "paddle/operators/cond_op.h" #include "paddle/operators/net_op.h" #include "paddle/operators/recurrent_op.h" #include "paddle/platform/enforce.h" #include "paddle/platform/place.h" #include "paddle/pybind/exception.h" #include "paddle/pybind/pybind.h" #include "paddle/pybind/tensor_py.h" #include "paddle/string/to_string.h" #include "pybind11/numpy.h" #include "pybind11/pybind11.h" #include "pybind11/stl.h" namespace py = pybind11; namespace paddle { namespace pybind { static size_t UniqueIntegerGenerator() { static std::atomic generator; return generator.fetch_add(1); } bool IsCompileGPU() { #ifdef PADDLE_ONLY_CPU return false; #else return true; #endif } PYBIND11_PLUGIN(core) { py::module m("core", "C++ core of PaddlePaddle"); // using framework in this function. Since it is inside a function, it will // not cause namespace pollution. using namespace paddle::framework; // NOLINT BindException(m); py::class_(m, "Tensor", py::buffer_protocol()) .def_buffer( [](Tensor &self) -> py::buffer_info { return CastToPyBuffer(self); }) .def("get_dims", [](const Tensor &self) { return vectorize(self.dims()); }) .def("set_dims", [](Tensor &self, const std::vector &dim) { self.Resize(make_ddim(dim)); }) .def("alloc_float", [](Tensor &self, paddle::platform::GPUPlace &place) { self.mutable_data(place); }) .def("alloc_float", [](Tensor &self, paddle::platform::CPUPlace &place) { self.mutable_data(place); }) .def("alloc_int", [](Tensor &self, paddle::platform::CPUPlace &place) { self.mutable_data(place); }) .def("alloc_int", [](Tensor &self, paddle::platform::GPUPlace &place) { self.mutable_data(place); }) .def("set", PyCPUTensorSetFromArray) .def("set", PyCPUTensorSetFromArray) #ifndef PADDLE_ONLY_CPU .def("set", PyCUDATensorSetFromArray) .def("set", PyCUDATensorSetFromArray) #endif .def("shape", [](Tensor &self) { return vectorize(self.dims()); }) .def("set_float_element", [](Tensor &self, size_t offset, float f) { // TODO(yuyang18): Only support GPU now. self.data()[offset] = f; }) .def("get_float_element", [](Tensor &self, size_t offset) -> float { // TODO(yuyang18): Only support GPU now. return self.data()[offset]; }); py::class_(m, "LoDTensor") .def_buffer( [](Tensor &self) -> py::buffer_info { return CastToPyBuffer(self); }) .def( "__init__", [](LoDTensor &instance, const std::vector> &lod) { #ifdef PADDLE_ONLY_CPU new (&instance) LoDTensor(lod); #else LoD new_lod; new_lod.reserve(lod.size()); std::copy(lod.begin(), lod.end(), std::back_inserter(new_lod)); new (&instance) LoDTensor(new_lod); #endif }) .def("set_lod", [](LoDTensor &self, const std::vector> &lod) { #ifdef PADDLE_ONLY_CPU self.set_lod(lod); #else LoD new_lod; new_lod.reserve(lod.size()); std::copy(lod.begin(), lod.end(), std::back_inserter(new_lod)); self.set_lod(new_lod); #endif }) .def("lod", [](LoDTensor &self) -> std::vector> { #ifdef PADDLE_ONLY_CPU return self.lod(); #else auto lod = self.lod(); std::vector> new_lod; new_lod.reserve(lod.size()); std::transform(lod.begin(), lod.end(), std::back_inserter(new_lod), [](Vector item) -> std::vector { std::vector v; v.reserve(item.size()); std::copy(item.begin(), item.end(), std::back_inserter(v)); return v; }); return new_lod; #endif }); py::class_(m, "Variable", R"DOC(Variable Class. All parameter, weight, gradient are variables in Paddle. )DOC") .def("is_int", [](const Variable &var) { return var.IsType(); }) .def("set_int", [](Variable &var, int val) -> void { *var.GetMutable() = val; }) .def("get_int", [](const Variable &var) -> int { return var.Get(); }) .def("get_tensor", [](Variable &self) -> LoDTensor * { return self.GetMutable(); }, py::return_value_policy::reference) .def("get_net", [](Variable &self) -> operators::NetOp * { return self.GetMutable(); }, py::return_value_policy::reference); py::class_(m, "Scope", "") .def("new_var", [](Scope &self, const std::string &name) -> Variable * { return self.NewVar(name); }, py::return_value_policy::reference) .def("find_var", &Scope::FindVar, py::return_value_policy::reference) .def(py::init<>()) .def("new_scope", [](Scope &self) -> Scope * { return &self.NewScope(); }, py::return_value_policy::reference) .def("drop_kids", &Scope::DropKids); //! @note: Be careful! PyBind will return std::string as an unicode, not //! Python str. If you want a str object, you should cast them in Python. m.def("get_all_op_protos", []() -> std::vector { std::vector ret_values; OpInfoMap::Instance().IterAllInfo([&ret_values](const std::string &type, const OpInfo &info) { if (!info.HasOpProtoAndChecker()) return; std::string str; PADDLE_ENFORCE(info.Proto().SerializeToString(&str), "Serialize OpProto Error. This could be a bug of Paddle."); ret_values.emplace_back(str); }); return ret_values; }); m.def_submodule( "var_names", "The module will return special predefined variable name in Paddle") .def("empty", []() { return kEmptyVarName; }) .def("temp", []() { return kTempVarName; }); // clang-format off py::class_(m, "DeviceContext") .def_static("create", [](paddle::platform::CPUPlace& place) -> paddle::platform::DeviceContext* { return new paddle::platform::CPUDeviceContext(); }) .def_static("create", [](paddle::platform::GPUPlace& place) -> paddle::platform::DeviceContext* { #ifdef PADDLE_ONLY_CPU PADDLE_THROW("GPUPlace is not supported in CPU device."); #else return new paddle::platform::CUDADeviceContext(place); #endif }); // clang-format on py::class_(m, "GPUPlace") .def(py::init()) .def("__str__", string::to_string); py::class_(m, "CPUPlace") .def(py::init<>()) .def("__str__", string::to_string); py::class_(m, "Operator") .def_static("create", [](py::bytes protobin) { OpDesc desc; PADDLE_ENFORCE(desc.ParsePartialFromString(protobin), "Cannot parse user input to OpDesc"); PADDLE_ENFORCE(desc.IsInitialized(), "User OpDesc is not initialized, reason %s", desc.InitializationErrorString()); return OpRegistry::CreateOp(desc); }) .def("backward", [](const OperatorBase &forwardOp, const std::unordered_set &no_grad_vars) { return Backward(forwardOp, no_grad_vars).release(); }) .def("infer_shape", &OperatorBase::InferShape) .def("run", [](OperatorBase &self, const Scope &scope, const platform::DeviceContext &dev_ctx) { self.Run(scope, dev_ctx); dev_ctx.Wait(); }) .def("type", [](const OperatorBase &op) -> std::string { return op.Type(); }) .def("outputs", [](const OperatorBase &op) -> std::map> { return op.Outputs(); }) .def("output_vars", [](const OperatorBase &op) { return op.OutputVars(true); }) .def("inputs", [](const OperatorBase &op) { return op.Inputs(); }) .def("input_vars", [](const OperatorBase &op) { return op.InputVars(); }) .def("__str__", &OperatorBase::DebugString) .def("no_intermediate_outputs", [](const OperatorBase &op) { return op.OutputVars(false); }) .def("support_gpu", &OperatorBase::SupportGPU); py::class_(m, "Net") .def_static("create", []() -> operators::NetOp * { auto *retv = new operators::NetOp; retv->SetType("plain_net"); return retv; }) .def("append_op", [](operators::NetOp &self, const OperatorBase &op) { self.AppendOp(op); }) .def("complete_add_op", &operators::NetOp::CompleteAddOp) .def("complete_add_op", [](std::shared_ptr &self) { self->CompleteAddOp(); }); // recurrent_op py::class_(m, "RecurrentOp") .def_static( "create", [](py::bytes protobin) -> operators::RecurrentOp * { OpDesc desc; PADDLE_ENFORCE(desc.ParsePartialFromString(protobin), "Cannot parse user input to OpDesc"); PADDLE_ENFORCE(desc.IsInitialized(), "User OpDesc is not initialized, reason %s", desc.InitializationErrorString()); auto rnn_op = OpRegistry::CreateOp(desc); return static_cast(rnn_op.release()); }) .def("set_stepnet", [](operators::RecurrentOp &self, const operators::NetOp &net) -> void { self.set_stepnet(net.Clone()); }); // cond_op py::class_(m, "CondOp") .def_static("create", [](py::bytes protobin) -> operators::CondOp * { OpDesc desc; PADDLE_ENFORCE(desc.ParsePartialFromString(protobin), "Cannot parse user input to OpDesc"); PADDLE_ENFORCE(desc.IsInitialized(), "User OpDesc is not initialized, reason %s", desc.InitializationErrorString()); auto cond_op = OpRegistry::CreateOp(desc); return static_cast(cond_op.release()); }) .def("set_truenet", [](operators::CondOp &self, const operators::NetOp &net) -> void { self.set_truenet(net.Clone()); }) .def("set_falsenet", [](operators::CondOp &self, const operators::NetOp &net) -> void { self.set_falsenet(net.Clone()); }); m.def("unique_integer", UniqueIntegerGenerator); m.def("is_compile_gpu", IsCompileGPU); return m.ptr(); } } // namespace pybind } // namespace paddle