/* * Copyright (c) 2018-2019 ARM Limited. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "arm_compute/graph/Graph.h" namespace arm_compute { namespace graph { Graph::Graph(GraphID id, std::string name) : _id(id), _name(std::move(name)), _nodes(), _edges(), _tensors(), _tagged_nodes(), _mtx() { } bool Graph::remove_node(NodeID nid) { if(nid >= _nodes.size()) { return false; } std::unique_ptr &node = _nodes[nid]; if(node) { // Remove input connections for(auto &input_eid : node->_input_edges) { remove_connection(input_eid); } // Remove output connections std::set output_edges_copy = node->output_edges(); for(auto &outpud_eid : output_edges_copy) { remove_connection(outpud_eid); } // Remove nid from tagged nodes std::vector &tnodes = _tagged_nodes.at(node->type()); tnodes.erase(std::remove(tnodes.begin(), tnodes.end(), nid), tnodes.end()); } node = nullptr; return true; } EdgeID Graph::add_connection(NodeID source, size_t source_idx, NodeID sink, size_t sink_idx) { std::lock_guard lock(_mtx); // Check if node index is valid, if node exists and finally if the connection index is valid ARM_COMPUTE_ERROR_ON((source >= _nodes.size()) || (_nodes[source] == nullptr) || (source_idx >= _nodes[source]->num_outputs())); ARM_COMPUTE_ERROR_ON((sink >= _nodes.size()) || (_nodes[sink] == nullptr) || (sink_idx >= _nodes[sink]->num_inputs())); // Get nodes std::unique_ptr &source_node = _nodes[source]; std::unique_ptr &sink_node = _nodes[sink]; // Check for duplicate connections (Check only sink node) Edge *sink_node_edge = sink_node->input_edge(sink_idx); if((sink_node_edge != nullptr) && (sink_node_edge->producer_id() == source) && (sink_node_edge->producer_idx() == source_idx) && (sink_node_edge->consumer_id() == sink) && (sink_node_edge->consumer_idx() == sink_idx)) { return sink_node_edge->id(); } // Check if there is already a tensor associated with output if not create one TensorID tid = source_node->output_id(source_idx); if(tid == NullTensorID) { tid = create_tensor(); } std::unique_ptr &tensor = _tensors[tid]; // Create connections EdgeID eid = _edges.size(); auto connection = arm_compute::support::cpp14::make_unique(eid, source_node.get(), source_idx, sink_node.get(), sink_idx, tensor.get()); _edges.push_back(std::move(connection)); // Add connections to source and sink nodes source_node->_output_edges.insert(eid); sink_node->_input_edges[sink_idx] = eid; // Set tensor output node source_node->_outputs[source_idx] = tid; // Bind tensor to the edge tensor->bind_edge(eid); // Try and propagate shapes in sink node sink_node->forward_descriptors(); return eid; } bool Graph::remove_connection(EdgeID eid) { if(eid >= _edges.size()) { return false; } std::unique_ptr &edge = _edges[eid]; // Remove node connections if(edge != nullptr) { // Get tensor bound to the edge if(edge->tensor() != nullptr) { edge->tensor()->unbind_edge(eid); } // Remove edges from source node if(edge->producer() != nullptr) { edge->producer()->_output_edges.erase(eid); } // Remove edges from sink node if((edge->consumer() != nullptr) && (edge->consumer_idx() < edge->consumer()->_input_edges.size())) { edge->consumer()->_input_edges[edge->consumer_idx()] = EmptyEdgeID; } } // Clear edge edge = nullptr; return true; } TensorID Graph::create_tensor(const TensorDescriptor &desc) { TensorID tid = _tensors.size(); auto tensor = support::cpp14::make_unique(tid, desc); _tensors.push_back(std::move(tensor)); return tid; } std::string Graph::name() const { return _name; } GraphID Graph::id() const { return _id; } const std::vector &Graph::nodes(NodeType type) { return _tagged_nodes[type]; } std::vector> &Graph::nodes() { return _nodes; } const std::vector> &Graph::nodes() const { return _nodes; } const std::vector> &Graph::edges() const { return _edges; } std::vector> &Graph::tensors() { return _tensors; } const std::vector> &Graph::tensors() const { return _tensors; } const INode *Graph::node(NodeID id) const { return (id >= _nodes.size()) ? nullptr : _nodes[id].get(); } INode *Graph::node(NodeID id) { return (id >= _nodes.size()) ? nullptr : _nodes[id].get(); } const Edge *Graph::edge(EdgeID id) const { return (id >= _edges.size()) ? nullptr : _edges[id].get(); } Edge *Graph::edge(EdgeID id) { return (id >= _edges.size()) ? nullptr : _edges[id].get(); } const Tensor *Graph::tensor(TensorID id) const { return (id >= _tensors.size()) ? nullptr : _tensors[id].get(); } Tensor *Graph::tensor(TensorID id) { return (id >= _tensors.size()) ? nullptr : _tensors[id].get(); } } // namespace graph } // namespace arm_compute