/* Copyright (c) 2016 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/fluid/framework/op_desc.h" #include #include "glog/logging.h" #include "paddle/fluid/framework/block_desc.h" #include "paddle/fluid/framework/op_call_stack.h" #include "paddle/fluid/framework/op_proto_maker.h" #include "paddle/fluid/framework/operator.h" #include "paddle/fluid/framework/shape_inference.h" #include "paddle/fluid/framework/var_type_inference.h" namespace paddle { namespace framework { class CompileTimeInferShapeContext : public InferShapeContext { public: CompileTimeInferShapeContext(const OpDesc &op, const BlockDesc &block); bool HasInput(const std::string &name) const override; bool HasOutput(const std::string &name) const override; bool HasAttr(const std::string &name) const override; bool HasInputs(const std::string &name) const override; bool HasOutputs(const std::string &name, bool allow_null = false) const override; AttrReader Attrs() const override; std::vector Inputs(const std::string &name) const override; std::vector Outputs(const std::string &name) const override; std::string GetInputNameByIdx(size_t idx) const override { auto &op_proto = paddle::framework::OpInfoMap::Instance().Get(op_.Type()).proto_; PADDLE_ENFORCE_LT(idx, op_proto->inputs().size(), platform::errors::OutOfRange( "The index should be less than the size of inputs of " "operator %s, but got index is %d and size is %d", op_.Type(), idx, op_proto->inputs().size())); return op_proto->inputs()[idx].name(); } std::string GetOutputNameByIdx(size_t idx) const override { auto &op_proto = paddle::framework::OpInfoMap::Instance().Get(op_.Type()).proto_; PADDLE_ENFORCE_LT( idx, op_proto->outputs().size(), platform::errors::OutOfRange( "The index should be less than the size of outputs of " "operator %s, but got index is %d and size is %d", op_.Type(), idx, op_proto->outputs().size())); return op_proto->outputs()[idx].name(); } void ShareDim(const std::string &in, const std::string &out, size_t i = 0, size_t j = 0) override { PADDLE_ENFORCE_LT(i, Inputs(in).size(), platform::errors::InvalidArgument( "The input variable index is out of range, expected " "index less than %d, but received index is %d.", Inputs(in).size(), i)); PADDLE_ENFORCE_LT(j, Outputs(out).size(), platform::errors::InvalidArgument( "The output variable index is out of range, expected " "index less than %d, but received index is %d.", Outputs(out).size(), j)); std::string input_n = Inputs(in)[i]; std::string output_n = Outputs(out)[j]; PADDLE_ENFORCE_NE(input_n, framework::kEmptyVarName, platform::errors::InvalidArgument( "The input variable %s[%d] is empty.", in, i)); PADDLE_ENFORCE_NE(output_n, framework::kEmptyVarName, platform::errors::InvalidArgument( "The output variable %s[%d] is empty.", out, j)); auto *in_var = block_.FindVarRecursive(input_n); auto *out_var = block_.FindVarRecursive(output_n); PADDLE_ENFORCE_EQ( in_var->GetType(), out_var->GetType(), platform::errors::InvalidArgument( "The type of input %s and output %s do not match. The input type " "is %s, output type is %s.", input_n, output_n, DataTypeToString(in_var->GetType()), DataTypeToString(out_var->GetType()))); SetDim(output_n, GetDim(input_n)); } void ShareAllLoD(const std::string &in, const std::string &out) const override { auto &in_var_names = op_.Input(in); auto &out_var_names = op_.Output(out); PADDLE_ENFORCE_EQ( in_var_names.size(), out_var_names.size(), platform::errors::PreconditionNotMet( "Op [%s]: Input var number should be equal with output var number", op_.Type())); for (size_t i = 0; i < in_var_names.size(); ++i) { if (out_var_names[i] == framework::kEmptyVarName) { continue; } auto *in_var = block_.FindVarRecursive(in_var_names[i]); auto *out_var = block_.FindVarRecursive(out_var_names[i]); if (in_var->GetType() != proto::VarType::LOD_TENSOR && in_var->GetType() != proto::VarType::LOD_TENSOR_ARRAY) { VLOG(3) << "input " << in << " is not LoDTensor or LoDTensorArray."; return; } out_var->SetLoDLevel(in_var->GetLoDLevel()); } } void ShareLoD(const std::string &in, const std::string &out, size_t i = 0, size_t j = 0) const override { PADDLE_ENFORCE_LT(i, Inputs(in).size(), platform::errors::InvalidArgument( "The input variable index is out of range, expected " "index less than %d, but received index is %d.", Inputs(in).size(), i)); PADDLE_ENFORCE_LT(j, Outputs(out).size(), platform::errors::InvalidArgument( "The output variable index is out of range, expected " "index less than %d, but received index is %d.", Outputs(out).size(), j)); PADDLE_ENFORCE_NE(Inputs(in)[i], framework::kEmptyVarName, platform::errors::InvalidArgument( "The input variable %s[%d] is empty.", in, i)); PADDLE_ENFORCE_NE(Outputs(out)[j], framework::kEmptyVarName, platform::errors::InvalidArgument( "The output variable %s[%d] is empty.", out, j)); auto *in_var = block_.FindVarRecursive(Inputs(in)[i]); auto *out_var = block_.FindVarRecursive(Outputs(out)[j]); if (in_var->GetType() != proto::VarType::LOD_TENSOR && in_var->GetType() != proto::VarType::LOD_TENSOR_ARRAY) { VLOG(3) << "input " << in << " is not LoDTensor or LoDTensorArray."; return; } out_var->SetLoDLevel(in_var->GetLoDLevel()); } int32_t GetLoDLevel(const std::string &in, size_t i = 0) const override { PADDLE_ENFORCE_LT(i, Inputs(in).size(), platform::errors::InvalidArgument( "The input variable index is out of range, input " "variable %s of operator %s only has %d elements.", in, op_.Type(), Inputs(in).size())); PADDLE_ENFORCE_NE(Inputs(in)[i], framework::kEmptyVarName, platform::errors::InvalidArgument( "The input variable %s[%d] of operator %s is empty.", in, i, op_.Type())); auto *in_var = block_.FindVarRecursive(Inputs(in)[i]); PADDLE_ENFORCE_NOT_NULL( in_var, platform::errors::NotFound( "The input variable %s[%d] of operator %s is not found.", in, i, op_.Type())); return in_var->GetLoDLevel(); } void SetLoDLevel(const std::string &out, int32_t lod_level, size_t j = 0) const override { PADDLE_ENFORCE_LT(j, Outputs(out).size(), platform::errors::InvalidArgument( "The output variable index is out of range, output " "variable %s of operator %s only has %d elements.", out, op_.Type(), Outputs(out).size())); PADDLE_ENFORCE_NE(Outputs(out)[j], framework::kEmptyVarName, platform::errors::InvalidArgument( "The output variable %s[%d] of operator %s is empty.", out, j, op_.Type())); auto *out_var = block_.FindVarRecursive(Outputs(out)[j]); PADDLE_ENFORCE_NOT_NULL( out_var, platform::errors::NotFound( "The output variable %s[%d] of operator %s is not found.", out, j, op_.Type())); if (lod_level >= 0) { out_var->SetLoDLevel(lod_level); } } paddle::SmallVector GetInputVarPtrs(const std::string &name) const override { const std::vector arg_names = Inputs(name); paddle::SmallVector res; res.reserve(arg_names.size()); std::transform(arg_names.begin(), arg_names.end(), std::back_inserter(res), [this](const std::string &name) { return block_.FindVarRecursive(name); }); return res; } paddle::SmallVector GetOutputVarPtrs(const std::string &name) const override { const std::vector arg_names = Outputs(name); paddle::SmallVector res; res.reserve(arg_names.size()); std::transform(arg_names.begin(), arg_names.end(), std::back_inserter(res), [this](const std::string &name) { return block_.FindVarRecursive(name); }); return res; } DDim GetInputDim(const std::string &name) const override { const std::vector &arg_names = Inputs(name); PADDLE_ENFORCE_EQ(arg_names.size(), 1UL, platform::errors::InvalidArgument( "The input(%s) should hold only one element, but now " "it holds %d elements.", name, arg_names.size())); return this->GetDim(arg_names[0]); } std::vector GetInputsDim(const std::string &name) const override { const std::vector &arg_names = Inputs(name); return GetDims(arg_names); } bool IsRuntime() const override; bool IsRunMKLDNNKernel() const override; proto::VarType::Type GetInputVarType(const std::string &name) const override { return GetVarType(Inputs(name).at(0)); } std::vector GetInputsVarType( const std::string &name) const override { return GetVarTypes(Inputs(name)); } std::vector GetOutputsVarType( const std::string &name) const override { return GetVarTypes(Outputs(name)); } void SetOutputDim(const std::string &name, const DDim &dim) override { auto arg_names = Outputs(name); PADDLE_ENFORCE_EQ(arg_names.size(), 1UL, platform::errors::InvalidArgument( "The iutput(%s) should hold only one element, but " "now it holds %d elements.", name, arg_names.size())); SetDim(arg_names[0], dim); } void SetOutputsDim(const std::string &name, const std::vector &dims) override { auto names = Outputs(name); SetDims(names, dims); } const phi::ArgumentMappingFn *GetPhiArgumentMappingFn() const override { return phi::OpUtilsMap::Instance().GetArgumentMappingFn(op_.Type()); } const phi::KernelSignature *GetPhiDefaultKernelSignature() const override { return &phi::DefaultKernelSignatureMap::Instance().Get(op_.Type()); } protected: std::vector GetVarTypes( const std::vector &names) const { std::vector retv; retv.resize(names.size()); std::transform( names.begin(), names.end(), retv.begin(), std::bind(std::mem_fn(&CompileTimeInferShapeContext::GetVarType), this, std::placeholders::_1)); return retv; } proto::VarType::Type GetVarType(const std::string &name) const; DDim GetDim(const std::string &name) const { auto var = block_.FindVarRecursive(name); PADDLE_ENFORCE_NOT_NULL( var, platform::errors::NotFound("Variable %s is not found.", name)); DDim res; try { auto shape = var->GetShape(); res = shape.empty() ? phi::make_ddim({0UL}) : phi::make_ddim(shape); } catch (...) { VLOG(5) << "GetDim of variable " << name << " error"; std::rethrow_exception(std::current_exception()); } return res; } std::vector GetDims(const std::vector &names) const { std::vector ret; ret.reserve(names.size()); std::transform( names.begin(), names.end(), std::back_inserter(ret), [this](const std::string &name) { return this->GetDim(name); }); return ret; } void SetDim(const std::string &name, const DDim &dim); void SetDims(const std::vector &names, const std::vector &dims) { size_t length = names.size(); PADDLE_ENFORCE_EQ(length, dims.size(), platform::errors::InvalidArgument( "The input variables number(%d) and input dimensions " "number(%d) do not match.", length, dims.size())); for (size_t i = 0; i < length; ++i) { if (names[i] == framework::kEmptyVarName) { continue; } SetDim(names[i], dims[i]); } } std::vector GetRepeatedDims(const std::string &name) const override; void SetRepeatedDims(const std::string &name, const std::vector &dims) override; const OpDesc &op_; const BlockDesc &block_; }; OpDesc::OpDesc(const std::string &type, const VariableNameMap &inputs, const VariableNameMap &outputs, const AttributeMap &attrs) { desc_.set_type(type); inputs_ = inputs; outputs_ = outputs; attrs_ = attrs; need_update_ = true; block_ = nullptr; } OpDesc::OpDesc(const OpDesc &other, BlockDesc *block) { CopyFrom(other); block_ = block; need_update_ = true; } void OpDesc::CopyFrom(const OpDesc &op_desc) { desc_.set_type(op_desc.Type()); inputs_ = op_desc.inputs_; outputs_ = op_desc.outputs_; attrs_ = op_desc.attrs_; // The record of original_id_ is only for auto parallel. original_id_ = op_desc.original_id_; need_update_ = true; } OpDesc::OpDesc(const proto::OpDesc &desc, BlockDesc *block) : desc_(desc), need_update_(false) { // restore inputs_ int input_size = desc_.inputs_size(); for (int i = 0; i < input_size; ++i) { const proto::OpDesc::Var &var = desc_.inputs(i); std::vector &args = inputs_[var.parameter()]; int argu_size = var.arguments_size(); args.reserve(argu_size); for (int j = 0; j < argu_size; ++j) { args.push_back(var.arguments(j)); } } // restore outputs_ int output_size = desc_.outputs_size(); for (int i = 0; i < output_size; ++i) { const proto::OpDesc::Var &var = desc_.outputs(i); std::vector &args = outputs_[var.parameter()]; int argu_size = var.arguments_size(); args.reserve(argu_size); for (int j = 0; j < argu_size; ++j) { args.push_back(var.arguments(j)); } } // restore attrs_ for (const proto::OpDesc::Attr &attr : desc_.attrs()) { std::string attr_name = attr.name(); // The sub_block referred to by the BLOCK attr hasn't been added // to ProgramDesc class yet, we skip setting BLOCK/BLOCKS attr here. if (attr.type() != proto::AttrType::BLOCK && attr.type() != proto::AttrType::BLOCKS) { attrs_[attr_name] = GetAttrValue(attr); } } this->block_ = block; } proto::OpDesc *OpDesc::Proto() { Flush(); return &desc_; } const std::vector &OpDesc::Input(const std::string &name) const { auto it = inputs_.find(name); PADDLE_ENFORCE_NE( it, inputs_.end(), platform::errors::NotFound("Input %s cannot be found in operator %s.", name, Type())); return it->second; } std::vector OpDesc::InputArgumentNames() const { std::vector retv; for (auto &ipt : this->inputs_) { retv.insert(retv.end(), ipt.second.begin(), ipt.second.end()); } return retv; } void OpDesc::SetInput(const std::string ¶m_name, const std::vector &args) { need_update_ = true; inputs_[param_name] = args; } const std::vector &OpDesc::Output(const std::string &name) const { auto it = outputs_.find(name); PADDLE_ENFORCE_NE( it, outputs_.end(), platform::errors::NotFound("Output %s cannot be found in operator %s.", name, Type())); return it->second; } bool OpDesc::HasOutput(const std::string &name) const { return outputs_.find(name) != outputs_.end(); } std::vector OpDesc::OutputArgumentNames() const { std::vector retv; for (auto &ipt : this->outputs_) { retv.insert(retv.end(), ipt.second.begin(), ipt.second.end()); } return retv; } void OpDesc::SetOutput(const std::string ¶m_name, const std::vector &args) { need_update_ = true; this->outputs_[param_name] = args; } void OpDesc::RemoveOutput(const std::string &name) { outputs_.erase(name); need_update_ = true; } void OpDesc::RemoveInput(const std::string &name) { inputs_.erase(name); need_update_ = true; } bool OpDesc::HasProtoAttr(const std::string &name) const { auto &op_info = OpInfoMap::Instance(); if (op_info.Has(desc_.type())) { auto op_info_ptr = op_info.Get(desc_.type()); if (op_info_ptr.HasOpProtoAndChecker()) { const proto::OpProto &proto = op_info_ptr.Proto(); for (int i = 0; i != proto.attrs_size(); ++i) { const proto::OpProto::Attr &attr = proto.attrs(i); if (attr.name() == name) { return true; } } } } return false; } proto::AttrType OpDesc::GetAttrType(const std::string &name) const { auto it = attrs_.find(name); PADDLE_ENFORCE_NE(it, attrs_.end(), platform::errors::NotFound( "Attribute %s is not found.", name)); return static_cast(it->second.which() - 1); } std::vector OpDesc::AttrNames() const { std::vector retv; retv.reserve(attrs_.size()); for (auto &attr : attrs_) { retv.push_back(attr.first); } return retv; } void OpDesc::RemoveAttr(const std::string &name) { attrs_.erase(name); need_update_ = true; } void OpDesc::SetAttr(const std::string &name, const Attribute &v) { // NOTICE(minqiyang): pybind11 will take the empty list in python as // the std::vector type in C++; so we have to change the attr's type // here if we meet this issue proto::AttrType attr_type = static_cast(v.which() - 1); if (attr_type == proto::AttrType::INTS && BOOST_GET_CONST(std::vector, v).size() == 0u) { // Find current attr via attr name and set the correct attribute value const proto::OpProto::Attr &attr = GetProtoAttr(name); switch (attr.type()) { case proto::AttrType::BOOLEANS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from INTS to BOOLEANS"; this->attrs_[name] = std::vector(); break; } case proto::AttrType::INTS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from INTS to INTS"; this->attrs_[name] = std::vector(); break; } case proto::AttrType::LONGS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from LONGS to LONGS"; this->attrs_[name] = std::vector(); break; } case proto::AttrType::FLOATS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from INTS to FLOATS"; this->attrs_[name] = std::vector(); break; } case proto::AttrType::STRINGS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from INTS to STRINGS"; this->attrs_[name] = std::vector(); break; } case proto::AttrType::BLOCKS: { VLOG(11) << "SetAttr: " << Type() << ", " << name << " from INTS to BLOCKS"; this->SetBlocksAttr(name, std::vector()); return; } default: PADDLE_THROW(platform::errors::Unimplemented( "Unsupported attribute type (code %d).", attr.type())); } need_update_ = true; return; } // In order to set bool attr properly if (attr_type == proto::AttrType::INT && HasProtoAttr(name) && GetProtoAttr(name).type() == proto::AttrType::BOOLEAN) { this->attrs_[name] = static_cast(BOOST_GET_CONST(int, v)); need_update_ = true; return; } this->attrs_[name] = v; need_update_ = true; } void OpDesc::SetBlockAttr(const std::string &name, BlockDesc *block) { this->attrs_[name] = block; need_update_ = true; } void OpDesc::SetBlocksAttr(const std::string &name, std::vector blocks) { this->attrs_[name] = blocks; need_update_ = true; } void OpDesc::SetAttrMap( const std::unordered_map &attr_map) { attrs_ = attr_map; need_update_ = true; } Attribute OpDesc::GetAttr(const std::string &name) const { auto it = attrs_.find(name); PADDLE_ENFORCE_NE(it, attrs_.end(), platform::errors::NotFound( "Attribute %s is not found.", name)); return it->second; } const proto::OpProto::Attr &OpDesc::GetProtoAttr( const std::string &name) const { const proto::OpProto &proto = OpInfoMap::Instance().Get(Type()).Proto(); for (int i = 0; i != proto.attrs_size(); ++i) { const proto::OpProto::Attr &attr = proto.attrs(i); if (attr.name() == name) { return attr; } } PADDLE_THROW(platform::errors::NotFound( "Attribute %s is not found in proto %s.", name, proto.type())); } Attribute OpDesc::GetNullableAttr(const std::string &name) const { auto it = attrs_.find(name); if (it != attrs_.end()) { return it->second; } else { return Attribute(); } } std::vector OpDesc::GetBlocksAttrIds(const std::string &name) const { auto it = attrs_.find(name); PADDLE_ENFORCE_NE( it, attrs_.end(), platform::errors::NotFound( "Attribute `%s` is not found in operator `%s`.", name, desc_.type())); auto blocks = BOOST_GET_CONST(std::vector, it->second); std::vector ids; for (auto n : blocks) { ids.push_back(n->ID()); } return ids; } int OpDesc::GetBlockAttrId(const std::string &name) const { auto it = attrs_.find(name); PADDLE_ENFORCE_NE( it, attrs_.end(), platform::errors::NotFound( "Attribute `%s` is not found in operator `%s`.", name, desc_.type())); return BOOST_GET_CONST(BlockDesc *, it->second)->ID(); } const std::unordered_map &OpDesc::GetAttrMap() const { return attrs_; } void OpDesc::Rename(const std::string &old_name, const std::string &new_name) { RenameInput(old_name, new_name); RenameOutput(old_name, new_name); need_update_ = true; } void OpDesc::RenameOutput(const std::string &old_name, const std::string &new_name) { for (auto &output : outputs_) { std::replace(output.second.begin(), output.second.end(), old_name, new_name); } auto it = attrs_.find(framework::OpProtoAndCheckerMaker::OpRoleVarAttrName()); if (it != attrs_.end()) { auto &op_vars = BOOST_GET(std::vector, it->second); std::replace(op_vars.begin(), op_vars.end(), old_name, new_name); } need_update_ = true; } void OpDesc::RenameInput(const std::string &old_name, const std::string &new_name) { for (auto &input : inputs_) { std::replace(input.second.begin(), input.second.end(), old_name, new_name); } auto it = attrs_.find(framework::OpProtoAndCheckerMaker::OpRoleVarAttrName()); if (it != attrs_.end()) { auto &op_vars = BOOST_GET(std::vector, it->second); std::replace(op_vars.begin(), op_vars.end(), old_name, new_name); } need_update_ = true; } struct SetAttrDescVisitor : public boost::static_visitor { explicit SetAttrDescVisitor(proto::OpDesc::Attr *attr) : attr_(attr) {} mutable proto::OpDesc::Attr *attr_; void operator()(int v) const { attr_->set_i(v); } void operator()(float v) const { attr_->set_f(v); } void operator()(const std::string &v) const { attr_->set_s(v); } // Please refer to https://github.com/PaddlePaddle/Paddle/issues/7162 template ::value>::type> void operator()(T b) const { attr_->set_b(b); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_ints()); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_floats()); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_strings()); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_bools()); } void operator()(const std::vector &v) const { std::vector blocks_idx; for (auto blk : v) { blocks_idx.push_back(blk->ID()); } VectorToRepeated(blocks_idx, attr_->mutable_blocks_idx()); } void operator()(BlockDesc *desc) const { attr_->set_block_idx(desc->ID()); } void operator()(int64_t v) const { attr_->set_l(v); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_longs()); } void operator()(const std::vector &v) const { VectorToRepeated(v, attr_->mutable_float64s()); } void operator()(boost::blank) const { PADDLE_THROW(platform::errors::Unavailable( "Unsupported calling method of SetAttrDescVisitor object for " "`boosst::blank` type.")); } }; void OpDesc::Flush() { if (need_update_) { this->desc_.mutable_inputs()->Clear(); for (auto &ipt : inputs_) { auto *input = desc_.add_inputs(); input->set_parameter(ipt.first); VectorToRepeated(ipt.second, input->mutable_arguments()); } this->desc_.mutable_outputs()->Clear(); for (auto &opt : outputs_) { auto *output = desc_.add_outputs(); output->set_parameter(opt.first); VectorToRepeated(opt.second, output->mutable_arguments()); } this->desc_.mutable_attrs()->Clear(); for (auto &attr : attrs_) { auto *attr_desc = desc_.add_attrs(); attr_desc->set_name(attr.first); attr_desc->set_type( static_cast(attr.second.which() - 1)); SetAttrDescVisitor visitor(attr_desc); boost::apply_visitor(visitor, attr.second); } need_update_ = false; } } void OpDesc::CheckAttrs() { PADDLE_ENFORCE_EQ(Type().empty(), false, platform::errors::PreconditionNotMet( "CheckAttrs() can not be called before type is set.")); auto *checker = OpInfoMap::Instance().Get(Type()).Checker(); if (checker == nullptr) { // checker is not configured. That operator could be generated by Paddle, // not by users. return; } VLOG(10) << "begin to check attribute of " << Type(); checker->Check(&attrs_); } void OpDesc::InferShape(const BlockDesc &block) { try { VLOG(3) << "CompileTime infer shape on " << Type(); auto &op_info = OpInfoMap::Instance().Get(this->Type()); auto *checker = op_info.Checker(); if (checker != nullptr) { // set dafault value here VLOG(10) << "begin to check attribute of " << Type(); checker->Check(&attrs_); } auto &infer_shape = op_info.infer_shape_; PADDLE_ENFORCE_EQ( static_cast(infer_shape), true, platform::errors::NotFound( "Operator %s's infer_shape is not registered.", this->Type())); CompileTimeInferShapeContext ctx(*this, block); if (VLOG_IS_ON(10)) { std::ostringstream sout; auto inames = this->InputArgumentNames(); sout << " From ["; std::copy(inames.begin(), inames.end(), std::ostream_iterator(sout, ", ")); sout << "] to ["; auto onames = this->OutputArgumentNames(); std::copy(onames.begin(), onames.end(), std::ostream_iterator(sout, ", ")); sout << "]"; VLOG(10) << sout.str(); } infer_shape(&ctx); } catch (platform::EnforceNotMet &exception) { framework::AppendErrorOpHint(Type(), &exception); throw std::move(exception); } catch (...) { std::rethrow_exception(std::current_exception()); } } void OpDesc::InferVarType(BlockDesc *block) const { // There are a few places that var type can be set. // When VarDesc is created, default set to LOD_TENSOR. // When output variable is created, default is default set to LOD_TENSOR. // We limit here to be the only place that operator defines its customized // var type inference. Hence, we don't do any "default" setting here. auto &info = OpInfoMap::Instance().Get(this->Type()); if (info.infer_var_type_) { InferVarTypeContext context(this, block); info.infer_var_type_(&context); } } CompileTimeInferShapeContext::CompileTimeInferShapeContext( const OpDesc &op, const BlockDesc &block) : op_(op), block_(block) {} bool CompileTimeInferShapeContext::HasInput(const std::string &name) const { if (op_.Inputs().find(name) == op_.Inputs().end()) { return false; } const std::vector &input_names = op_.Input(name); auto length = input_names.size(); if (length == 0) { return false; } PADDLE_ENFORCE_EQ(length, 1UL, platform::errors::InvalidArgument( "Input(%s) should have only one value, " "but it has %d values now.", name, length)); return block_.HasVarRecursive(input_names[0]); } bool CompileTimeInferShapeContext::HasOutput(const std::string &name) const { if (op_.Outputs().find(name) == op_.Outputs().end()) { return false; } const std::vector &output_names = op_.Output(name); auto length = output_names.size(); if (length == 0) { return false; } PADDLE_ENFORCE_EQ(length, 1UL, platform::errors::InvalidArgument( "Output(%s) should have only one value, " "but it has %d values now.", name, length)); return block_.HasVarRecursive(output_names[0]); } bool CompileTimeInferShapeContext::HasAttr(const std::string &name) const { return op_.HasAttr(name); } bool CompileTimeInferShapeContext::HasInputs(const std::string &name) const { if (op_.Inputs().find(name) == op_.Inputs().end()) { return false; } const std::vector &input_names = op_.Input(name); if (input_names.empty()) { return false; } for (auto &input : input_names) { if (!block_.HasVarRecursive(input)) return false; } return true; } bool CompileTimeInferShapeContext::HasOutputs(const std::string &name, bool allow_null) const { if (op_.Outputs().find(name) == op_.Outputs().end()) { return false; } const std::vector &output_names = op_.Output(name); if (output_names.empty()) { return false; } if (allow_null) { for (auto &output : output_names) { if (block_.HasVarRecursive(output)) return true; } return false; } else { for (auto &output : output_names) { if (!block_.HasVarRecursive(output)) return false; } return true; } } AttrReader CompileTimeInferShapeContext::Attrs() const { return AttrReader(op_.GetAttrMap()); } std::vector CompileTimeInferShapeContext::Inputs( const std::string &name) const { return op_.Input(name); } std::vector CompileTimeInferShapeContext::Outputs( const std::string &name) const { return op_.Output(name); } std::vector CompileTimeInferShapeContext::GetRepeatedDims( const std::string &name) const { auto var = block_.FindVarRecursive(name); PADDLE_ENFORCE_NOT_NULL( var, platform::errors::NotFound("Variable %s is not found.", name)); std::vector res; try { auto shapes = var->GetShapes(); for (const auto &s : shapes) { res.push_back(s.empty() ? phi::make_ddim({0UL}) : phi::make_ddim(s)); } } catch (...) { VLOG(5) << "GetRepeatedDim of variable " << name << " error."; std::rethrow_exception(std::current_exception()); } return res; } void CompileTimeInferShapeContext::SetDim(const std::string &name, const DDim &dim) { block_.FindVarRecursive(name)->SetShape(vectorize(dim)); } void CompileTimeInferShapeContext::SetRepeatedDims( const std::string &name, const std::vector &dims) { auto var = block_.FindVarRecursive(name); PADDLE_ENFORCE_NOT_NULL( var, platform::errors::NotFound("Variable %s is not found.", name)); std::vector> dim_vec(dims.size()); std::transform(dims.begin(), dims.end(), dim_vec.begin(), phi::vectorize<>); var->SetShapes(dim_vec); } bool CompileTimeInferShapeContext::IsRuntime() const { return false; } bool CompileTimeInferShapeContext::IsRunMKLDNNKernel() const { return false; } proto::VarType::Type CompileTimeInferShapeContext::GetVarType( const std::string &name) const { return block_.FindVarRecursive(name)->GetType(); } } // namespace framework } // namespace paddle