// Copyright (c) 2021 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 #include #include #include #include #include #include "paddle/fluid/distributed/table/graph/graph_weighted_sampler.h" namespace paddle { namespace distributed { class Node { public: Node() {} Node(uint64_t id) : id(id) {} virtual ~Node() {} static int id_size, int_size, weight_size; uint64_t get_id() { return id; } void set_id(uint64_t id) { this->id = id; } virtual void build_edges(bool is_weighted) {} virtual void build_sampler(std::string sample_type) {} virtual void add_edge(uint64_t id, float weight) {} virtual std::vector sample_k( int k, const std::shared_ptr rng) { return std::vector(); } virtual uint64_t get_neighbor_id(int idx) { return 0; } virtual float get_neighbor_weight(int idx) { return 1.; } virtual int get_size(bool need_feature); virtual void to_buffer(char *buffer, bool need_feature); virtual void recover_from_buffer(char *buffer); virtual std::string get_feature(int idx) { return std::string(""); } virtual void set_feature(int idx, std::string str) {} virtual void set_feature_size(int size) {} virtual int get_feature_size() { return 0; } protected: uint64_t id; bool is_weighted; }; class GraphNode : public Node { public: GraphNode() : Node(), sampler(nullptr), edges(nullptr) {} GraphNode(uint64_t id) : Node(id), sampler(nullptr), edges(nullptr) {} virtual ~GraphNode(); virtual void build_edges(bool is_weighted); virtual void build_sampler(std::string sample_type); virtual void add_edge(uint64_t id, float weight) { edges->add_edge(id, weight); } virtual std::vector sample_k( int k, const std::shared_ptr rng) { return sampler->sample_k(k, rng); } virtual uint64_t get_neighbor_id(int idx) { return edges->get_id(idx); } virtual float get_neighbor_weight(int idx) { return edges->get_weight(idx); } protected: Sampler *sampler; GraphEdgeBlob *edges; }; class FeatureNode : public Node { public: FeatureNode() : Node() {} FeatureNode(uint64_t id) : Node(id) {} virtual ~FeatureNode() {} virtual int get_size(bool need_feature); virtual void to_buffer(char *buffer, bool need_feature); virtual void recover_from_buffer(char *buffer); virtual std::string get_feature(int idx) { if (idx < (int)this->feature.size()) { return this->feature[idx]; } else { return std::string(""); } } virtual void set_feature(int idx, std::string str) { if (idx >= (int)this->feature.size()) { this->feature.resize(idx + 1); } this->feature[idx] = str; } virtual void set_feature_size(int size) { this->feature.resize(size); } virtual int get_feature_size() { return this->feature.size(); } template static std::string parse_value_to_bytes(std::vector feat_str) { T v; size_t Tsize = sizeof(T) * feat_str.size(); char buffer[Tsize]; for (size_t i = 0; i < feat_str.size(); i++) { std::stringstream ss(feat_str[i]); ss >> v; std::memcpy(buffer + sizeof(T) * i, (char *)&v, sizeof(T)); } return std::string(buffer, Tsize); } template static std::vector parse_bytes_to_array(std::string feat_str) { T v; std::vector out; size_t start = 0; const char *buffer = feat_str.data(); while (start < feat_str.size()) { std::memcpy((char *)&v, buffer + start, sizeof(T)); start += sizeof(T); out.push_back(v); } return out; } protected: std::vector feature; }; } // namespace distributed } // namespace paddle