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nest-open-source / nest-learning-thermostat / 5.0 / boost / 317601cb979f96545d0e892ce7cfdf59f676ee0a / . / boost_1_45_0 / libs / graph / test / test_graphs.cpp
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// (C) Copyright 2009-2010 Andrew Sutton
//
// Use, modification and distribution are subject to the
// Boost Software License, Version 1.0 (See accompanying file
// LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
#include <iostream>
#include "typestr.hpp"
#include <boost/graph/adjacency_list.hpp>
#include <boost/graph/adjacency_matrix.hpp>
#include <boost/graph/undirected_graph.hpp>
#include <boost/graph/directed_graph.hpp>
#include <boost/graph/compressed_sparse_row_graph.hpp>
#include <boost/graph/labeled_graph.hpp>
#include <boost/graph/subgraph.hpp>
#include "test_graph.hpp"
// This test module is a testing ground to determine if graphs and graph
// adaptors actually implement the graph concepts correctly.
using namespace boost;
int main()
{
// Bootstrap all of the tests by declaring a kind graph and asserting some
// basic properties about it.
{
typedef undirected_graph<VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_undirected_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_mutable_graph<Graph>);
BOOST_META_ASSERT(is_mutable_property_graph<Graph>);
Graph g;
test_graph(g);
}
{
typedef directed_graph<VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_directed_bidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_mutable_graph<Graph>);
BOOST_META_ASSERT(is_mutable_property_graph<Graph>);
Graph g;
test_graph(g);
}
{
typedef adjacency_list<vecS, vecS, undirectedS, VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_undirected_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_add_only_property_graph<Graph>);
Graph g;
test_graph(g);
}
{
typedef adjacency_list<vecS, vecS, directedS, VertexBundle, EdgeBundle, GraphBundle> Graph;
Graph g;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(!is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_directed_unidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_add_only_property_graph<Graph>);
test_graph(g);
}
{
// Common bidi adjlist
typedef adjacency_list<vecS, vecS, bidirectionalS, VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_directed_bidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_add_only_property_graph<Graph>);
Graph g;
test_graph(g);
}
{
// Same as above, but testing VL==listS
typedef adjacency_list<vecS, listS, bidirectionalS, VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_directed_bidirectional_graph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_mutable_property_graph<Graph>);
Graph g;
test_graph(g);
}
{
typedef adjacency_matrix<directedS, VertexBundle, EdgeBundle, GraphBundle> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(!is_multigraph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_mutable_edge_graph<Graph>);
BOOST_META_ASSERT(is_mutable_edge_property_graph<Graph>);
Graph g(N);
test_graph(g);
}
{
typedef adjacency_matrix<directedS, VertexBundle, EdgeBundle> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(!is_multigraph<Graph>);
BOOST_META_ASSERT(has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_mutable_edge_graph<Graph>);
BOOST_META_ASSERT(is_mutable_edge_property_graph<Graph>);
Graph g(N);
test_graph(g);
}
{
typedef labeled_graph<directed_graph<>, unsigned> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(is_incidence_graph<Graph>);
BOOST_META_ASSERT(is_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_directed_bidirectional_graph<Graph>);
BOOST_META_ASSERT(is_labeled_mutable_property_graph<Graph>);
BOOST_META_ASSERT(is_labeled_graph<Graph>);
BOOST_META_ASSERT(!has_vertex_property<Graph>);
BOOST_META_ASSERT(!has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(!has_edge_property<Graph>);
BOOST_META_ASSERT(!has_bundled_edge_property<Graph>);
BOOST_META_ASSERT(is_labeled_mutable_graph<Graph>);
Graph g;
test_graph(g);
}
// FIXME: CSR doesn't have mutability traits so we can't generalize the
// constructions of the required graph. Just assert the properties for now.
// NOTE: CSR graphs are also atypical in that they don't have "normal"
// vertex and edge properties. They're "abnormal" in the sense that they have
// a valid bundled type, but the property types are no_property.
{
typedef compressed_sparse_row_graph<
directedS, VertexBundle, EdgeBundle, GraphBundle
> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(has_graph_property<Graph>);
BOOST_META_ASSERT(has_bundled_graph_property<Graph>);
BOOST_META_ASSERT(!has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(!has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
}
{
typedef compressed_sparse_row_graph<
bidirectionalS, VertexBundle, EdgeBundle, GraphBundle
> Graph;
BOOST_META_ASSERT(is_directed_graph<Graph>);
BOOST_META_ASSERT(is_multigraph<Graph>);
BOOST_META_ASSERT(has_graph_property<Graph>);
BOOST_META_ASSERT(has_bundled_graph_property<Graph>);
BOOST_META_ASSERT(!has_vertex_property<Graph>);
BOOST_META_ASSERT(has_bundled_vertex_property<Graph>);
BOOST_META_ASSERT(!has_edge_property<Graph>);
BOOST_META_ASSERT(has_bundled_edge_property<Graph>);
}
// TODO: What other kinds of graphs do we have here...
}