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ca8bb8d053
- desync() is a new (and for now, the only one) intrinsic which splits the graph execution into asynchronous parts when running in Streaming mode; - desync() makes no effect when compiling in Traditional mode; - Added tests on desync() working in various scenarios; - Extended GStreamingExecutor to support desync(); also extended GStreamingCompiled() with a new version of pull() returning a vector of optional values; - Fixed various issues with storing the type information & proper construction callbacks for GArray<> and GOpaque; - Introduced a new infer(Roi,GMat) overload with a sample; - Introduced an internal API for Islands to control fusion procedure (to fuse or not to fuse); - Introduced handleStopStream() callback for island executables; - Added GCompileArgs to metadata of the graph (required for other features).
370 lines
9.9 KiB
C++
370 lines
9.9 KiB
C++
// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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//
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// Copyright (C) 2018 - 2020 Intel Corporation
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#include "../test_precomp.hpp"
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#include <ade/graph.hpp>
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#include <ade/typed_graph.hpp>
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#include "compiler/transactions.hpp"
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namespace opencv_test
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{
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namespace
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{
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bool contains(const ade::Graph& graph, const ade::NodeHandle& node)
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{
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auto nodes = graph.nodes();
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return nodes.end() != std::find(nodes.begin(), nodes.end(), node);
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}
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bool connected(const ade::NodeHandle& src_node, const ade::NodeHandle& dst_node)
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{
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auto nodes = src_node->outNodes();
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return nodes.end() != std::find(nodes.begin(), nodes.end(), dst_node);
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}
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struct SimpleGraph
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{
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// ehs[0] ehs[1] ehs[2] ehs[3]
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// nhs[0] -- > nhs[1] --> nhs[2] --> nhs[3] --> nhs[4]
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enum { node_nums = 5 };
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ade::Graph graph;
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ade::NodeHandle fused_nh; // For check that fusion node is connected to the
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// inputs of the prod and the outputs of the cons
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std::array<ade::NodeHandle, node_nums> nhs;
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std::array<ade::EdgeHandle, node_nums - 1> ehs;
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using Change = ChangeT<>;
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Change::List changes;
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SimpleGraph()
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{
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nhs[0] = graph.createNode();
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for (int i = 1; i < node_nums; ++i)
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{
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nhs[i ] = graph.createNode();
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ehs[i - 1] = graph.link(nhs[i - 1], nhs[i]);
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}
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}
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void fuse()
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{
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// nhs[0] --> fused_nh --> nhs[4]
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fused_nh = graph.createNode();
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changes.enqueue<Change::NodeCreated>(fused_nh);
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changes.enqueue<Change::NewLink> (graph, nhs[0], fused_nh);
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changes.enqueue<Change::DropLink>(graph, nhs[1], ehs[0]);
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changes.enqueue<Change::NewLink> (graph, fused_nh, nhs[4]);
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changes.enqueue<Change::DropLink>(graph, nhs[3], ehs[3]);
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changes.enqueue<Change::DropLink>(graph, nhs[1], ehs[1]);
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changes.enqueue<Change::DropLink>(graph, nhs[2], ehs[2]);
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changes.enqueue<Change::DropNode>(nhs[1]);
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changes.enqueue<Change::DropNode>(nhs[2]);
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changes.enqueue<Change::DropNode>(nhs[3]);
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}
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void commit() { changes.commit(graph); }
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void rollback() { changes.rollback(graph); }
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};
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struct Transactions: public ::testing::Test, public SimpleGraph {};
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} // anonymous namespace
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TEST_F(Transactions, NodeCreated_Create)
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{
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auto new_nh = graph.createNode();
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Change::NodeCreated node_created(new_nh);
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EXPECT_EQ(6u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_TRUE(contains(graph, new_nh));
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}
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TEST_F(Transactions, NodeCreated_RollBack)
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{
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auto new_nh = graph.createNode();
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Change::NodeCreated node_created(new_nh);
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node_created.rollback(graph);
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EXPECT_EQ(5u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_FALSE(contains(graph, new_nh));
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}
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TEST_F(Transactions, NodeCreated_Commit)
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{
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auto new_nh = graph.createNode();
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Change::NodeCreated node_created(new_nh);
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node_created.commit(graph);
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EXPECT_EQ(6u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_TRUE(contains(graph, new_nh));
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}
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TEST_F(Transactions, DropLink_Create)
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{
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Change::DropLink drop_link(graph, nhs[0], ehs[0]);
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EXPECT_FALSE(connected(nhs[0], nhs[1]));
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}
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TEST_F(Transactions, DropLink_RollBack)
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{
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Change::DropLink drop_link(graph, nhs[0], ehs[0]);
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drop_link.rollback(graph);
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EXPECT_TRUE(connected(nhs[0], nhs[1]));
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}
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TEST_F(Transactions, DropLink_Commit)
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{
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Change::DropLink drop_link(graph, nhs[0], ehs[0]);
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drop_link.commit(graph);
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EXPECT_FALSE(connected(nhs[0], nhs[1]));
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}
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TEST_F(Transactions, NewLink_Create)
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{
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auto new_nh = graph.createNode();
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Change::NewLink new_link(graph, new_nh, nhs[0]);
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EXPECT_TRUE(connected(new_nh, nhs[0]));
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}
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TEST_F(Transactions, NewLink_RollBack)
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{
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auto new_nh = graph.createNode();
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Change::NewLink new_link(graph, new_nh, nhs[0]);
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new_link.rollback(graph);
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EXPECT_FALSE(connected(new_nh, nhs[0]));
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}
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TEST_F(Transactions, NewLink_Commit)
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{
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auto new_nh = graph.createNode();
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Change::NewLink new_link(graph, new_nh, nhs[0]);
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new_link.commit(graph);
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EXPECT_TRUE(connected(new_nh, nhs[0]));
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}
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TEST_F(Transactions, DropNode_Create)
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{
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auto new_nh = graph.createNode();
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Change::DropNode drop_node(new_nh);
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EXPECT_EQ(6u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_TRUE(contains(graph, new_nh));
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}
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TEST_F(Transactions, DropNode_RollBack)
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{
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auto new_nh = graph.createNode();
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Change::DropNode drop_node(new_nh);
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drop_node.rollback(graph);
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EXPECT_EQ(6u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_TRUE(contains(graph, new_nh));
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}
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TEST_F(Transactions, DropNode_Commit)
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{
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auto new_nh = graph.createNode();
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Change::DropNode drop_node(new_nh);
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drop_node.commit(graph);
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EXPECT_EQ(5u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_FALSE(contains(graph, new_nh));
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}
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TEST_F(Transactions, Fusion_Commit)
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{
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fuse();
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commit();
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EXPECT_EQ(3u, static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_TRUE(connected(nhs[0] , fused_nh));
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EXPECT_TRUE(connected(fused_nh, nhs[4]));
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}
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TEST_F(Transactions, Fusion_RollBack)
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{
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fuse();
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rollback();
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EXPECT_EQ(static_cast<std::size_t>(node_nums),
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static_cast<std::size_t>(graph.nodes().size()));
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EXPECT_FALSE(contains(graph, fused_nh));
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for (int i = 0; i < static_cast<int>(node_nums) - 1; ++i)
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{
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EXPECT_TRUE(connected(nhs[i], nhs[i + 1]));
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}
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}
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namespace
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{
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struct MetaInt {
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static const char *name() { return "int_meta"; }
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int x;
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};
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struct MetaStr {
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static const char *name() { return "string_meta"; }
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std::string s;
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};
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}
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TEST(PreservedMeta, TestMetaCopy_Full)
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{
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ade::Graph g;
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ade::TypedGraph<MetaInt, MetaStr> tg(g);
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auto src_nh = tg.createNode();
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tg.metadata(src_nh).set(MetaInt{42});
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tg.metadata(src_nh).set(MetaStr{"hi"});
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auto dst_nh = tg.createNode();
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaInt>());
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaStr>());
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// Here we specify all the meta types we know about the src node
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// Assume Preserved copies its all for us
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Preserved<ade::NodeHandle, MetaInt, MetaStr>(g, src_nh).copyTo(g, dst_nh);
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ASSERT_TRUE(tg.metadata(dst_nh).contains<MetaInt>());
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ASSERT_TRUE(tg.metadata(dst_nh).contains<MetaStr>());
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EXPECT_EQ(42, tg.metadata(dst_nh).get<MetaInt>().x);
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EXPECT_EQ("hi", tg.metadata(dst_nh).get<MetaStr>().s);
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}
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TEST(PreservedMeta, TestMetaCopy_Partial_Dst)
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{
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ade::Graph g;
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ade::TypedGraph<MetaInt, MetaStr> tg(g);
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auto tmp_nh1 = tg.createNode();
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auto tmp_nh2 = tg.createNode();
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auto src_eh = tg.link(tmp_nh1, tmp_nh2);
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tg.metadata(src_eh).set(MetaInt{42});
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tg.metadata(src_eh).set(MetaStr{"hi"});
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auto tmp_nh3 = tg.createNode();
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auto tmp_nh4 = tg.createNode();
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auto dst_eh = tg.link(tmp_nh3, tmp_nh4);
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EXPECT_FALSE(tg.metadata(dst_eh).contains<MetaInt>());
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EXPECT_FALSE(tg.metadata(dst_eh).contains<MetaStr>());
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// Here we specify just a single meta type for the src node
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// Assume Preserved copies only this type and nothing else
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Preserved<ade::EdgeHandle, MetaStr>(g, src_eh).copyTo(g, dst_eh);
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ASSERT_FALSE(tg.metadata(dst_eh).contains<MetaInt>());
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ASSERT_TRUE (tg.metadata(dst_eh).contains<MetaStr>());
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EXPECT_EQ("hi", tg.metadata(dst_eh).get<MetaStr>().s);
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}
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TEST(PreservedMeta, TestMetaCopy_Partial_Src)
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{
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ade::Graph g;
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ade::TypedGraph<MetaInt, MetaStr> tg(g);
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auto src_nh = tg.createNode();
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tg.metadata(src_nh).set(MetaInt{42});
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auto dst_nh = tg.createNode();
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaInt>());
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaStr>());
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// Here we specify all the meta types we know about the src node
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// but the src node has just one of them.
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// A valid situation, only MetaInt to be copied.
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Preserved<ade::NodeHandle, MetaInt, MetaStr>(g, src_nh).copyTo(g, dst_nh);
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ASSERT_TRUE (tg.metadata(dst_nh).contains<MetaInt>());
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ASSERT_FALSE(tg.metadata(dst_nh).contains<MetaStr>());
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EXPECT_EQ(42, tg.metadata(dst_nh).get<MetaInt>().x);
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}
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TEST(PreservedMeta, TestMetaCopy_Nothing)
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{
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ade::Graph g;
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ade::TypedGraph<MetaInt, MetaStr> tg(g);
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auto src_nh = tg.createNode();
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auto dst_nh = tg.createNode();
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EXPECT_FALSE(tg.metadata(src_nh).contains<MetaInt>());
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EXPECT_FALSE(tg.metadata(src_nh).contains<MetaStr>());
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaInt>());
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EXPECT_FALSE(tg.metadata(dst_nh).contains<MetaStr>());
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// Here we specify all the meta types we know about the src node
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// but the src node has none of those. See how it works now
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Preserved<ade::NodeHandle, MetaInt, MetaStr>(g, src_nh).copyTo(g, dst_nh);
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ASSERT_FALSE(tg.metadata(dst_nh).contains<MetaInt>());
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ASSERT_FALSE(tg.metadata(dst_nh).contains<MetaStr>());
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}
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TEST(PreservedMeta, DropEdge)
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{
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ade::Graph g;
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ade::TypedGraph<MetaInt, MetaStr> tg(g);
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auto nh1 = tg.createNode();
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auto nh2 = tg.createNode();
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auto eh = tg.link(nh1, nh2);
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tg.metadata(eh).set(MetaInt{42});
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tg.metadata(eh).set(MetaStr{"hi"});
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// Drop an edge using the transaction API
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using Change = ChangeT<MetaInt, MetaStr>;
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Change::List changes;
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changes.enqueue<Change::DropLink>(g, nh1, eh);
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EXPECT_EQ(0u, nh1->outNodes().size());
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EXPECT_EQ(nullptr, eh);
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// Now restore the edge and check if it's meta was restored
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changes.rollback(g);
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ASSERT_EQ(1u, nh1->outNodes().size());
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eh = *nh1->outEdges().begin();
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ASSERT_TRUE(tg.metadata(eh).contains<MetaInt>());
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ASSERT_TRUE(tg.metadata(eh).contains<MetaStr>());
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EXPECT_EQ(42, tg.metadata(eh).get<MetaInt>().x);
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EXPECT_EQ("hi", tg.metadata(eh).get<MetaStr>().s);
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}
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} // opencv_test
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