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Location: AENC/switchchain/cpp/switchchain_exponent.cpp - annotation
9905828198ec
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Split cpp files and add more triangle exponent data
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#include "graph.hpp"
#include "powerlaw.hpp"
#include <algorithm>
#include <fstream>
#include <iostream>
#include <numeric>
#include <random>
#include <vector>
// Its assumed that u,v are distinct.
// Check if all four vertices are distinct
bool edgeConflicts(const Edge& e1, const Edge& e2) {
return (e1.u == e2.u || e1.u == e2.v || e1.v == e2.u || e1.v == e2.v);
}
class SwitchChain {
public:
SwitchChain()
: mt(std::random_device{}()), permutationDistribution(0.5)
// permutationDistribution(0, 2)
{
// random_device uses hardware entropy if available
// std::random_device rd;
// mt.seed(rd());
}
~SwitchChain() {}
bool initialize(const Graph& gstart) {
if (gstart.edgeCount() == 0)
return false;
g = gstart;
edgeDistribution.param(
std::uniform_int_distribution<>::param_type(0, g.edgeCount() - 1));
return true;
}
bool doMove() {
int e1index, e2index;
int timeout = 0;
// Keep regenerating while conflicting edges
do {
e1index = edgeDistribution(mt);
e2index = edgeDistribution(mt);
if (++timeout % 100 == 0) {
std::cerr << "Warning: sampled " << timeout
<< " random edges but they keep conflicting.\n";
}
} while (edgeConflicts(g.getEdge(e1index), g.getEdge(e2index)));
// Consider one of the three possible permutations
// 1) e1.u - e1.v and e2.u - e2.v (original)
// 2) e1.u - e2.u and e1.v - e2.v
// 3) e1.u - e2.v and e1.v - e2.u
bool switchType = permutationDistribution(mt);
return g.exchangeEdges(e1index, e2index, switchType);
}
Graph g;
std::mt19937 mt;
std::uniform_int_distribution<> edgeDistribution;
//std::uniform_int_distribution<> permutationDistribution;
std::bernoulli_distribution permutationDistribution;
};
int main() {
// Generate a random degree sequence
std::mt19937 rng(std::random_device{}());
// Goal:
// Degrees follow a power-law distribution with some parameter tau
// Expect: #tri = const * n^{ something }
// The goal is to find the 'something' by finding the number of triangles
// for different values of n and tau
float tauValues[] = {2.1f, 2.2f, 2.3f, 2.4f, 2.5f, 2.6f, 2.7f, 2.8f, 2.9f};
Graph g;
Graph g1;
Graph g2;
std::ofstream outfile("graphdata_exponent.m");
outfile << '{';
bool outputComma = false;
for (int numVertices = 200; numVertices <= 2000; numVertices += 200) {
for (float tau : tauValues) {
DegreeSequence ds(numVertices);
powerlaw_distribution degDist(tau, 1, numVertices);
//std::poisson_distribution<> degDist(12);
// For a single n,tau take samples over several instances of
// the degree distribution.
// 500 samples seems to give reasonable results
for (int degreeSample = 0; degreeSample < 1000; ++degreeSample) {
// Generate a graph
// might require multiple tries
for (int i = 1; ; ++i) {
std::generate(ds.begin(), ds.end(),
[°Dist, &rng] { return degDist(rng); });
// First make the sum even
unsigned int sum = std::accumulate(ds.begin(), ds.end(), 0);
if (sum % 2) {
continue;
// Can we do this: ??
ds.back()++;
}
if (g.createFromDegreeSequence(ds))
break;
// When 10 tries have not worked, output a warning
if (i % 10 == 0) {
std::cerr << "Warning: could not create graph from "
"degree sequence. Trying again...\n";
}
}
SwitchChain chain;
if (!chain.initialize(g)) {
std::cerr << "Could not initialize Markov chain.\n";
return 1;
}
std::cout << "Running n = " << numVertices << ", tau = " << tau
<< ". \t" << std::flush;
int mixingTime = 8*(32.0f - 26.0f*(tau - 2.0f)) * numVertices; //40000;
constexpr int measurements = 50;
constexpr int measureSkip =
200; // Take a sample every ... steps
int movesDone = 0;
long long trianglesTotal = 0;
for (int i = 0; i < mixingTime; ++i) {
if (chain.doMove())
++movesDone;
}
for (int i = 0; i < measurements; ++i) {
for (int j = 0; j < measureSkip; ++j)
if (chain.doMove())
++movesDone;
trianglesTotal += chain.g.countTriangles();
}
std::cout << movesDone << '/' << mixingTime + measurements * measureSkip
<< " moves succeeded ("
<< 100.0f * float(movesDone) /
float(mixingTime + measurements * measureSkip)
<< "%).";
//std::cout << std::endl;
if (outputComma)
outfile << ',' << '\n';
outputComma = true;
float avgTriangles =
float(trianglesTotal) / float(measurements);
outfile << '{' << '{' << numVertices << ',' << tau << '}';
outfile << ',' << avgTriangles << '}' << std::flush;
std::cout << std::endl;
}
}
}
outfile << '}';
return 0;
}
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