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在遇到一些内存分配问题之后。我正在尝试将每个方法都放在一个单独的文件中,这是原始程序:

#include <boost/graph/adjacency_list.hpp>
#include <boost/graph/vf2_sub_graph_iso.hpp>
#include <boost/algorithm/string/split.hpp>
#include <boost/algorithm/string/classification.hpp>
#include <fstream>
#include <iostream>
#include <string>
#include <vector>
#include <algorithm>
#include <ctime>
#include <queue> // std::queue
// for mmap:
#include <sys/mman.h>
#include <sys/stat.h>
#include <fcntl.h>
using namespace std;
using namespace boost;

//==========STRUCTURES==========
// vertex
struct VertexProperties {
    int id;
    int label;
    VertexProperties(unsigned i = 0, unsigned l = 0) : id(i), label(l) {}
};

// edge
struct EdgeProperties {
    unsigned id;
    unsigned label;
    EdgeProperties(unsigned i = 0, unsigned l = 0) : id(i), label(l) {}
};

// Graph
struct GraphProperties {
    unsigned id;
    unsigned label;
    GraphProperties(unsigned i = 0, unsigned l = 0) : id(i), label(l) {}
};

// adjency list
typedef boost::adjacency_list<boost::vecS, boost::vecS, boost::undirectedS, VertexProperties, EdgeProperties,
                              GraphProperties> Graph;

// descriptors

typedef boost::graph_traits<Graph>::vertex_descriptor vertex_t;
typedef std::pair<boost::graph_traits<Graph>::edge_descriptor, bool> edge_t;
// iterators
typedef graph_traits<Graph>::vertex_iterator vertex_iter;
typedef graph_traits<Graph>::edge_iterator edge_iter;
typedef std::pair<edge_iter, edge_iter> edge_pair;
//=================callback used fro subgraph_iso=================================================================
struct my_callback {
    template <typename CorrespondenceMap1To2, typename CorrespondenceMap2To1>
    bool operator()(CorrespondenceMap1To2 f, CorrespondenceMap2To1 g) const {
        return false;
    }
};

//==========handle_error==========
void handle_error(const char *msg) {
    perror(msg);
    exit(255);
}
//============READ ALL THE FILE AND RETURN A STRING===================
const char *readfromfile(const char *fname, size_t &length) {
    int fd = open(fname, O_RDONLY);
    if (fd == -1)
        handle_error("open");

    // obtain file size
    struct stat sb;
    if (fstat(fd, &sb) == -1)
        handle_error("fstat");

    length = sb.st_size;

    const char *addr = static_cast<const char *>(mmap(NULL, length, PROT_READ, MAP_PRIVATE, fd, 0u));
    if (addr == MAP_FAILED)
        handle_error("mmap");

    // TODO close fd at some point in time, call munmap(...)
    return addr;
}

//==========SPLIT THE STRING BY NEWLINE (\n) ==========
vector<string> splitstringtolines(string const& str) {
    vector<string> split_vector;
    split(split_vector, str, is_any_of("\n"));

    return split_vector;
}

//============Get a string starting from pos============
string getpos(int const& pos, string const& yy) {
    size_t i = pos;
    string str;
    for (; yy[i] != ' ' && i < yy.length(); i++)
        str += yy[i];
    return str;
}
//==================read string vector and return graphs vector===================
std::vector<Graph> creategraphs(std::vector<string> const& fichlines) {
    std::vector<Graph> dataG;
    int compide = 0; // compteur de id edge
    for (string yy : fichlines) {
        switch (yy[0]) {
        case 't': {
            string str2 = getpos(4, yy);
            unsigned gid = atoi(str2.c_str());
            dataG.emplace_back(GraphProperties(gid, gid));
            compide = 0;
        } break;
        case 'v': {
            assert(!dataG.empty()); // assert will terminate the program  if its argument turns out to be false
            // cout<<yy<<endl;
            int vId, vLabel;
            string vvv = getpos(2, yy);
            vId = atoi(vvv.c_str());
            string vvvv = getpos((int)vvv.length() + 3, yy);
            // cout<<vvvv<<endl;
            vLabel = atoi(vvvv.c_str());
            boost::add_vertex(VertexProperties(vId, vLabel), dataG.back());
        }

        break;

        case 'e': { // cout<<yy<<endl;
            assert(!dataG.empty()); // assert will terminate the program  if its argument turns out to be false

            int fromId, toId, eLabel;
            string eee = getpos(2, yy);
            // cout<<eee<<endl;
            fromId = atoi(eee.c_str());
            string eee2 = getpos((int)eee.length() + 3, yy);
            // cout<<eee2<<endl;
            toId = atoi(eee2.c_str());
            int c = (int)eee.length() + (int)eee2.length() + 4;
            //    cout<<c<<endl;
            string eee3 = getpos(c, yy);
            //  cout<<eee3<<endl;
            eLabel = atoi(eee3.c_str());
            boost::add_edge(fromId, toId, EdgeProperties(compide, eLabel), dataG.back());
            compide++;
        } break;
        }
    }

    return dataG;
}
//============test if the graph connectivity========================================================
bool graphconnexe(Graph const& g) { 
    return num_edges(g) >= num_vertices(g) - 1; 
}
//====================print the graph information========================================================
void printgraph(Graph const& gr) {
    typedef std::pair<edge_iter, edge_iter> edge_pair;

    std::cout << " contains " << num_vertices(gr) << " vertices, and " << num_edges(gr) << " edges " << std::endl;
    if (graphconnexe(gr)) {

        // Vertex list
        if (num_vertices(gr) != 0) {
            std::cout << "  Vertex list: " << std::endl;
            for (size_t i = 0; i < num_vertices(gr); ++i) // size_t vertice number in the graph
            {
                std::cout << "   v[" << i << "]   ID: " << gr[i].id << ", Label: " << gr[i].label << std::endl;
            }
        }
        // Edge list
        if (num_edges(gr) != 0) {
            std::cout << "  Edge list: " << std::endl;
            edge_pair ep;
            for (ep = edges(gr); ep.first != ep.second; ++ep.first) // ep edge number
            {
                vertex_t from = source(*ep.first, gr);
                vertex_t to = target(*ep.first, gr);
                edge_t edg = edge(from, to, gr);
                std::cout << "   e(" << gr[from].id << "," << gr[to].id << ")   ID: " << gr[edg.first].id
                          << " ,  Label: " << gr[edg.first].label << std::endl;
            }
        }
        std::cout << "\n\n" << std::endl;
    } else {
        cout << "Please check this graph connectivity." << endl;
    }
}

//=========================================================
/*bool gUe(Graph &g, edge_iter ep, Graph t) {

    vertex_t from = source(*ep, t);
    vertex_t to = target(*ep, t);

    Graph::edge_descriptor copied_edge = boost::add_edge(from, to, t[*ep], g).first;

    g[source(copied_edge, g)] = t[from];
    g[target(copied_edge, g)] = t[to];

    if (graphconnexe(g) && graphconnexe(t)) {
        return vf2_subgraph_iso(g, t, my_callback());
    } else {
        return false;
    }
}*/
//=================test if the given vertice exist in the graph=========================
bool verticeexist(Graph const& g, int const& vId, int const& vlabel) {
    int cpt = 0;
    if (num_edges(g) != 0) {
        for (size_t i = 0; i < num_vertices(g); ++i) // size_t vertice number in the graph
        {
            if ((g[i].id == vId) && (g[i].label == vlabel)) {
                cpt++;
            }
        }
    }
    return cpt != 0;
}
//=============test if the given edge exist in the graph===========================
bool edgeexist(Graph const& g, int const& fromid, int const& toid, unsigned const& elabel) {
    int bn = 0;
    if (graphconnexe(g)) {
        if (num_edges(g) != 0) {
            edge_pair ep;
            for (ep = edges(g); ep.first != ep.second; ++ep.first) // ep edge number
            {
                vertex_t from = source(*ep.first, g);
                vertex_t to = target(*ep.first, g);
                edge_t edg = edge(from, to, g);

                if ((g[from].id == fromid) && (g[to].id == toid) && (g[edg.first].label == elabel)) {
                    bn++;
                }
            }
        }
    }

    return (bn != 0);
}

// =============test if thoses vertices are neighbours============================
bool verticesareneighbours(Graph const& g, int const& a, int const& b) {
    int bn = 0;
    if (graphconnexe(g)) {

        if (num_edges(g) != 0) {
            edge_pair ep;
            for (ep = edges(g); ep.first != ep.second; ++ep.first) // ep edge number
            {
                vertex_t from = source(*ep.first, g);
                vertex_t to = target(*ep.first, g);

                if (((g[from].id == a) || (g[to].id == a)) && ((g[from].id == b) || (g[to].id == b))) {
                    bn++;
                }
            }
        }
    }

    return (bn != 0);
}
//=============test if those edges are neighbours=============================
    template <typename Graph, typename E = typename boost::graph_traits<Graph>::edge_descriptor>
    bool edgesareneighbours(Graph const& g, E e1, E e2) {

        std::set<vertex_t> vertex_set { 
            source(e1, g), target(e1, g),
            source(e2, g), target(e2, g),
        };

        return graphconnexe(g) && vertex_set.size() < 4;
    }
//===============if the graph is empty add the edge with vertices===========================
void emptygraphaddedge(Graph &g, int fromId, int toId, int eLabel) {
    if (num_edges(g) == 0) {
        boost::add_edge(fromId, toId, EdgeProperties(num_edges(g) + 1, eLabel), g);
    }
}

//==============================M A I N   P R O G R A M =======================================
int main() {
    clock_t start = std::clock();
    size_t length;    

    std::vector<Graph> dataG = creategraphs(splitstringtolines(readfromfile("testgUe.txt", length)));

    typedef std::pair<edge_iter, edge_iter> edge_pair;

      if (!dataG.empty()) {

        cout<<"graphconnexe?"<<graphconnexe(dataG[0])<<endl;
        cout<<"verticeexist?"<<verticeexist(dataG[0],1,4)<<endl;
        cout<<"verticeexist?"<<verticeexist(dataG[0],4,2)<<endl;
        cout<<"verticesareneighbours?"<<verticesareneighbours(dataG[0],1,4)<<endl;
        cout<<"verticesareneighbours?"<<verticesareneighbours(dataG[0],4,2)<<endl;
        cout<<"edgeexist?"<<edgeexist(dataG[0],1,4,16)<<endl;
        cout<<"edgeexist?"<<edgeexist(dataG[0],1,4,12)<<endl;

        edge_pair ep = edges(dataG[0]);

        if (size(ep) >= 2) {
             Graph::edge_descriptor e1 = *ep.first++;
             Graph::edge_descriptor e2 = *ep.first++;                                                    
             cout << "edgesareneighbours?" << edgesareneighbours(dataG[0], e1, e2) << endl;

        }
    }

    // end and time
    cout << "FILE Contains " << dataG.size() << " graphs.\nTIME: " << (std::clock() - start) / (double)CLOCKS_PER_SEC
         << "s" << endl; // fin du programme.
}

更新

这就是我所做的:完整程序更新 21.03.2015

但是当我尝试编译它时,我遇到了这些错误:https ://github.com/mohsenuss91/Academic/blob/master/NouvelleApprocheBOOST_MEMORY/errors.txt

4

1 回答 1

0

如果@matrixanomaly 的翻译正确,则编译器找不到 STRUCTS.h 文件。

您必须将文件移动到项目目录或在项目属性的其他包含目录中提供指向它的路径。

于 2015-03-19T21:10:57.870 回答