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graph/main.cpp

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#include <iostream>
#include <cassert>
#include "graph.h"
int main()
{
Graph<int> g;
assert(g.empty() == true);
assert(g.numberOfVertices() == 0);
assert(g.numberOfEdges() == 0);
int a = 2;
int b = 5;
assert(g.addEdge(a, b) == false);
assert(g.addVertex(a) == true);
assert(g.addVertex(a) == false);
assert(g.empty() == false);
assert(g.numberOfVertices() == 1);
{
const std::vector<int*> v = g.vertices();
assert(v.size() == 1);
assert(*(v[0]) == 2);
}
assert(g.addEdge(a, b) == false);
assert(g.addVertex(b) == true);
assert(g.numberOfVertices() == 2);
{
const std::vector<int*> v = g.vertices();
assert(v.size() == 2);
assert(*(v[0]) == 2);
assert(*(v[1]) == 5);
}
assert(g.numberOfEdges() == 0);
assert(g.addEdge(a, b) == true);
assert(g.numberOfEdges() == 1);
{
const std::vector<float> eb = g.edgesBetween(2, 5);
assert(eb.size() == 1);
assert(eb[0] == 0);
}
assert(g.edgesBetween(5, 2).size() == 0);
assert(g.neighboursOf(2).size() == 1);
{
const std::vector<int*> n = g.neighboursOf(2);
assert(n.size() == 1);
assert(*(n[0]) == 5);
}
int c = 13;
int d = 1;
assert(g.numberOfVertices() == 2);
g.addVertex(c);
g.addVertex(d);
assert(g.numberOfVertices() == 4);
int vertices_array[] = {2, 5, 13, 1};
std::vector<int> v(vertices_array, vertices_array + sizeof(vertices_array) / sizeof(int) );
Graph<int>::vertex_iterator g_it2;
std::vector<int>::iterator v_it = v.begin();
g_it2 = g.vertex_begin();
assert(g_it2 == g.vertex_begin());
for (Graph<int>::vertex_iterator g_it = g.vertex_begin();
g_it != g.vertex_end();
++g_it, ++v_it) {
std::cout << "victor: "
// << *g_it << " "
<< **g_it
<< std::endl;
assert(**g_it == *v_it);
}
assert(g.neighboursOf(5).size() == 0);
Graph<int> g2;
g2.addVertex(1);
g2.addVertex(2);
g2.addVertex(3);
g2.addVertex(4);
int vertices_array2[] = {1, 2, 3, 4};
std::vector<int> v2(vertices_array2, vertices_array2 + sizeof(vertices_array2) / sizeof(int) );
v_it = v2.begin();
for (Graph<int>::vertex_iterator g_it = g2.vertex_begin();
g_it != g2.vertex_end();
++g_it, ++v_it) {
std::cout << "vector: "
// << *g_it << " "
<< **g_it
<< std::endl;
assert(**g_it == *v_it);
}
assert(g2.addEdge(1, 2) == true);
assert(g2.addEdge(1, 3) == true);
assert(g2.addEdge(2, 4) == true);
std::vector<Graph<int>::Edge> e = g2.edges();
assert(e.size() == 3);
Graph<int>::edge_iterator edge_it;
Graph<int>::edge_iterator beee = g2.edge_begin();
edge_it = beee;
assert(edge_it == g2.edge_begin());
Graph<int>::pointer source = (*edge_it).getSource();
Graph<int>::pointer destination = (*edge_it).getDestination();
assert (*source == 1);
assert (*destination == 2);
++edge_it;
source = (*edge_it).getSource();
destination = (*edge_it).getDestination();
assert (*source == 1);
assert (*destination == 3);
++edge_it;
source = (*edge_it).getSource();
destination = (*edge_it).getDestination();
assert (*source == 2);
assert (*destination == 4);
int aasdads = 23;
// Graph<int>::edge_iterator edge_it;
for(/*Graph<int>::edge_iterator*/ edge_it = g2.edge_begin(); edge_it != g2.edge_end(); ++edge_it) {
Graph<int>::pointer source = (*edge_it).getSource();
Graph<int>::pointer destination = (*edge_it).getDestination();
std::cout << "edge: "
// << source << " "
<< *source << " "
// << destination << " "
<< *destination << " "
<< (*edge_it).getWeight() << std::endl;
}
Graph<int>::edge_iterator edge_it1 = g2.edge_begin();
edge_it1 += 10;
assert(edge_it1 == g2.edge_end());
Graph<int>::edge_iterator edge_it2 = g2.edge_begin();
edge_it2 += 2;
assert(*((*edge_it2).getSource()) == 2);
assert(*((*edge_it2).getDestination()) == 4);
assert((*edge_it2).getWeight() == 0);
std::cout << "frankon vege" << std::endl;
return 0;
}
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