// Copyright (c) 2018 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. #pragma once #ifdef PADDLE_WITH_TESTING #include #endif #include #include "paddle/fluid/framework/ir/graph.h" #include "paddle/fluid/framework/ir/node.h" #include "paddle/fluid/inference/analysis/dot.h" namespace paddle { namespace framework { namespace ir { class PDPattern; // Some basic terminologies: // - PDPattern: a pattern defined as a data flow graph. // - PDNode: the node in the pattern, each PDNode represents an `ir::Node` // that meets some conditions defined in `PDNode.teller`. // - A pattern is defined with PDNodes with edges. // Pattern detector node. This node helps to build a pattern. struct PDNode { // tell whether an ir::Node* is a candidation for a PDNode. using teller_t = std::function; enum class Type { kOp, kVar }; enum class Role { kUnknown, // No role, kInput, // an input and will be retained, kOutput, // an output and will be retained, kIntermediate // will be removed after handler. }; // this link to others PDNode& LinksTo(const std::vector& others); PDNode& LinksFrom(const std::vector& others); bool Tell(Node* node) const { if (teller_) return teller_(node); for (auto& asrt : asserts_) { if (!asrt(node)) return false; } return true; } bool IsOp() const { return type_ == Type::kOp; } bool IsVar() const { return type_ == Type::kVar; } const std::string& name() const { return name_; } PDNode& operator=(const PDNode&) = delete; PDNode(const PDNode&) = delete; // Mark this node is an Input of a subgraph and will be retained. PDNode* AsInput() { role_ = Role::kInput; return this; } // Mark this node is an Output of a subgraph and will be retained. PDNode* AsOutput() { role_ = Role::kOutput; return this; } // Mark this node will be removed, so all the links should be inside a matched // sub-graph. PDNode* AsIntermediate() { role_ = Role::kIntermediate; return this; } bool IsIntermediate() const { return role_ == Role::kIntermediate; } bool IsInput() const { return role_ == Role::kInput; } bool IsOutput() const { return role_ == Role::kOutput; } // Assertions, helper functions to simplify the pattern definition. PDNode* assert_is_op(); PDNode* assert_is_op(const std::string& op_type); PDNode* assert_is_var(); PDNode* assert_var_not_persistable(); PDNode* assert_is_persistable_var(); PDNode* assert_is_op_output(const std::string& op_type); PDNode* assert_is_op_output(const std::string& op_type, const std::string& argument); PDNode* assert_is_op_input(const std::string& op_type); PDNode* assert_is_op_input(const std::string& op_type, const std::string& argument); PDNode* assert_is_op_nth_input(const std::string& op_type, const std::string& argument, int nth); PDNode* assert_is_op_nth_output(const std::string& op_type, const std::string& argument, int nth); PDNode* assert_is_only_input_of_op(const std::string& op_type); PDNode* assert_is_only_output_of_op(const std::string& op_type); PDNode* assert_op_has_n_inputs(const std::string& op_type, size_t n); PDNode* assert_op_has_n_outputs(const std::string& op_type, size_t n); PDNode* assert_more(teller_t&& teller); private: PDNode(PDPattern* pattern, const std::string& name = "", Type type = Type::kVar) : pattern_(pattern), name_(name), type_(type) {} PDNode(teller_t&& teller, PDPattern* pattern, const std::string& name = "", Type type = Type::kVar) : teller_(std::move(teller)), pattern_(pattern), name_(name), type_(type) { PADDLE_ENFORCE(teller_ != nullptr, "invalid teller functer is set."); } PDNode(PDNode&& other) = default; friend class PDPattern; // Will removed latter. teller_t teller_; std::vector asserts_; PDPattern* pattern_; std::string name_; Type type_; Role role_{Role::kUnknown}; }; /* * A pattern in a graph, which defined with PDNode and edges. Most graph * patterns can be divided into PDNodes and link relations between them. * * For example, the FC fusion need to filter the MUL and ELEMENTWISE_ADD * operators from the computation graph, the MUL's output should have only one * consumer which is the ELEMENTWISE_ADD. * This pattern can be defined as with the following pseudo codes * * // Create two operator PDNodes. * MUL = PDPattern.NewNode().assert_is_op("mul"); * ELE = PDPattern.NewNode().assert_is_op("elementwise_add"); * // Create the variable PDNodes. * MUL_out = PDPattern.NewNode().assert_is_op_output("mul") \ * .assert_is_op_input("elementwise_add") \ * .AsIntermediate(); * // Add relations. * MUL->LinksTo({MUL_out}); * MUL_out->LinksTo({ELE}); * * One can add more specific asserts for PDNodes or edges, both the Operator * and Variable Nodes can be ruled in PDNode.assert_more(...). * * PDPattern can record the general patterns, such as the pattern represents * - Op in CPU -> Op in GPU -> Op in CPU, to findout the IO abnormal place. * - Ops whose inputs and outputs share the same variables */ class PDPattern { public: using edge_t = std::pair; void AddEdge(PDNode* a, PDNode* b); PDNode* NewNode(PDNode::teller_t&& teller, const std::string& name = NewID()); PDNode* NewNode(const std::string& name = NewID()); PDNode* NewNode(const std::string& prefix, const std::string& name) { return NewNode(prefix + "/" + name); } PDNode* RetrieveNode(const std::string& id) const; const std::vector>& nodes() const { return nodes_; } const std::vector& edges() const { return edges_; } std::string DotString() const; private: #ifdef PADDLE_WITH_TESTING FRIEND_TEST(PDPattern, AddEdge); FRIEND_TEST(PDPattern, NewNode); #endif static std::string NewID() { return "pdnode-" + std::to_string(id_++); } std::vector> nodes_; std::vector edges_; std::unordered_map node_map_; static size_t id_; }; /* * GraphPatternDetector helps to detect the specific patterns in the graph. * Input a pattern, output a list of the matched subgraphs/nodes. * This helper can be used to support fuse(conv+batchnorm => batchnorm e.g.). * * The algorithm has three phases: * 1. Mark the nodes that match the defined PDNodes in a PDPattern, * 2. Extend a PDNode to subgraphs by deducing the connection relation defined * in PAPattern(the edges), * 3. Get the filtered subgraphs and treat them with a pre-defined handler. * * Usage: * // Create a detector * GraphPatternDetector detector; * // Define the detector's pattern, by adding PDNode and define the edges. * auto* node0 = detector.mutable_pattern().AddNode(...) * auto* node1 = detector.mutable_pattern().AddNode(...) * node0->teller = some lambda. * node1->teller = some lambda. * detector.mutable_pattern().AddEdge(node0, node1); * // Create an handler, to define the behavior of treating the filtered * // subgraphs that comply with the patterns. * GraphPatternDetector::handle_t handler = some labmda * // Execute the detector. * detector(&graph, handler); */ class GraphPatternDetector { public: using subgraph_t = std::unordered_map; // Operate on the detected pattern. using handle_t = std::function; void operator()(Graph* graph, handle_t handler); const PDPattern& pattern() const { return pattern_; } PDPattern* mutable_pattern() { return &pattern_; } private: // Mark the nodes that fits the pattern. bool MarkPDNodesInGraph(const ir::Graph& graph); // Detect all the pattern and output the hit records. std::vector DetectPatterns(); // Remove duplicate patterns. void UniquePatterns(std::vector* subgraphs); // Remove overlapped match subgraphs, when overlapped, keep the previous one. // The intermediate PDNodes will be removed, so can't shared by multiple // patterns. void RemoveOverlappedMatch(std::vector* subgraphs); // Validate whether the intermediate nodes are linked by external nodes. void ValidateByNodeRole(std::vector* subgraphs); #ifdef PADDLE_WITH_TESTING FRIEND_TEST(GraphPatternDetecter, MarkPDNodesInGraph); FRIEND_TEST(GraphPatternDetecter, DetectPatterns); #endif private: using hit_rcd_t = std::pair; PDPattern pattern_; std::unordered_map> pdnodes2nodes_; }; // some helper methods. // Tell if a var links to an Op bool VarLinksToOp(Node* node, const std::string& op_type); // Tell if an op links to a var bool VarLinksFromOp(Node* node, const std::string& op_type); // Check whether a var node is a op node's nth input. bool IsNthInput(Node* var, Node* op, const std::string& argument, size_t nth); // Tell whether a var node is a op node's nth output. bool IsNthOutput(Node* var, Node* op, const std::string& argument, size_t nth); // Graph safely remove some nodes, will automatically clean up the edges. void GraphSafeRemoveNodes(Graph* graph, const std::unordered_set& nodes); // Some pre-defined patterns those can be reused in multiple passes. namespace patterns { // FC with bias // op: mul + elementwise_add // named nodes: // mul, elementwise_add // w, mul_out, bias, fc_out PDNode* FC(PDPattern* pattern, const std::string& name_scope, PDNode* x, bool with_bias); PDNode* LSTM(PDPattern* pattern, const std::string& name_scope, PDNode* x); } // namespace patterns #define IR_NODE_LINK_TO(a, b) \ a->outputs.push_back(b); \ b->inputs.push_back(a); } // namespace ir } // namespace framework } // namespace paddle