AENC/switchchain Files · cpp/switchchain_ccm_timeevol.cpp · Centrum Wiskunde & Informatica (CWI)

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Location: AENC/switchchain/cpp/switchchain_ccm_timeevol.cpp

08fe65e5454a 5.6 KiB text/x-c++src Show Annotation Show as Raw Download as Raw
Tom Bannink
Add (smooth)histogram of CCMdu construction rates
#include "exports.hpp"
#include "graph.hpp"
#include "graph_ccm.hpp"
#include "graph_powerlaw.hpp"
#include "switchchain.hpp"
#include <algorithm>
#include <fstream>
#include <iostream>
#include <numeric>
#include <random>
#include <vector>

int main(int argc, char* argv[]) {
    // Simulation parameters
    const int numVerticesMin = 1000;
    const int numVerticesMax = 1000;
    const int numVerticesStep = 1000;

    //float tauValues[] = {2.1f, 2.2f, 2.3f, 2.4f, 2.5f, 2.6f, 2.7f, 2.8f, 2.9f};
    float tauValues[] = {2.1f, 2.3f, 2.5f, 2.7f, 2.9f};

    //const int totalDegreeSamples = 10;
    const int totalDegreeSamples = 1;

    auto getMixingTime = [](int n, float tau) {
        return int(1.0f * (50.0f - 10.0f * (tau - 2.0f)) * n);
    };

    // Output file
    std::ofstream outfile;
    if (argc >= 2)
        outfile.open(argv[1]);
    else
        outfile.open("graphdata_ccm_timeevol.m");
    if (!outfile.is_open()) {
        std::cout << "ERROR: Could not open output file.\n";
        return 1;
    }

    // Output Mathematica-style comment to indicate file contents
    outfile << "(*\n";
    outfile << "n from " << numVerticesMin << " to " << numVerticesMax
            << " step " << numVerticesStep << std::endl;
    outfile << "tauValues: " << tauValues << std::endl;
    //outfile << "degreeSamples: " << totalDegreeSamples << std::endl;
    outfile << "canonical ds" << std::endl;
    outfile << "mixingTime: 0.5 * (50 - 10 (tau - 2)) n\n";
    outfile << "measurements: full time evol\n";
    outfile << "data:\n";
    outfile << "1: {n,tau}\n";
    outfile << "2: edges\n";
    outfile << "3: HH triangle seq\n";
    outfile << "4: {ccm1 failed attempts, triangle seq}\n";
    outfile << "5: {ccm2 failed attempts, triangle seq}\n";
    outfile << "*)" << std::endl;
 
    // Mathematica does not accept normal scientific notation
    outfile << std::fixed;
    outfile << '{' << '\n';
    bool outputComma = false;

    std::mt19937 rng(std::random_device{}());
    Graph g;
    for (int numVertices = numVerticesMin; numVertices <= numVerticesMax;
         numVertices += numVerticesStep) {
        for (float tau : tauValues) {
            int mixingTime = getMixingTime(numVertices, tau);

            // For a single n,tau take samples over several instances of
            // the degree distribution.
            for (int degreeSample = 0; degreeSample < totalDegreeSamples;
                 ++degreeSample) {
                DegreeSequence ds;
                //generatePowerlawGraph(numVertices, tau, g, ds, rng);
                generateCanonicalPowerlawGraph(numVertices, tau, g, ds);

                std::cout << "Running (n,tau) = (" << numVertices << ',' << tau
                          << "). " << std::flush;

                SwitchChain chain;
                if (!chain.initialize(g, true)) {
                    std::cerr << "Could not initialize Markov chain.\n";
                    return 1;
                }

                std::vector<int> triangleSeq(mixingTime);
                for (int i = 0; i < mixingTime; ++i) {
                    chain.doMove(true);
                    triangleSeq[i] = chain.g.getTrackedTriangles();
                }

                std::cout << " Finished HH time evol." << std::flush;


                if (outputComma)
                    outfile << ',' << '\n';
                outputComma = true;

                outfile << '{';
                outfile << '{' << numVertices << ',' << tau << '}';
                outfile << ',' << g.edgeCount();
                outfile << ',' << triangleSeq;

                for (int ccmType = 1; ccmType <= 2; ++ccmType) {
                    bool ccmMethod = (ccmType == 1 ? false : true);
#if 0
                    outfile << ',' << '{';
                    for (int i = 0; i < 10; ++i) {
                        if (i != 0)
                            outfile << ',';
                        Graph gtemp;
                        if (constrainedConfigurationModel(ds, gtemp, rng,
                                                          ccmMethod)) {
                            chain.initialize(gtemp, true);
                            for (int i = 0; i < mixingTime; ++i) {
                                chain.doMove(true);
                                triangleSeq[i] = chain.g.getTrackedTriangles();
                            }
                            outfile << triangleSeq;
                        } else {
                            outfile << '{' << '}';
                        }
                    }
                    outfile << '}';
#endif
                    bool failed = true;
                    for (int i = 0; i < 1000; ++i) {
                        Graph gtemp;
                        if (constrainedConfigurationModel(ds, gtemp, rng,
                                                          ccmMethod)) {
                            chain.initialize(gtemp, true);
                            for (int i = 0; i < mixingTime; ++i) {
                                chain.doMove(true);
                                triangleSeq[i] = chain.g.getTrackedTriangles();
                            }
                            outfile << ',' << '{' << i << ',' << triangleSeq << '}';
                            failed = false;
                            break;
                        }
                    }
                    if (failed)
                        outfile << ",{1000,{}}";
                }

                outfile << '}' << std::flush;

                std::cout << " Finished CCM time evols." << std::flush;

                std::cout << std::endl;
            }
        }
    }
    outfile << '\n' << '}';
    return 0;
}