[satune.git] / src / Tuner / multituner.cc

#include "multituner.h"
#include "csolver.h"
#include "searchtuner.h"
#include <math.h>
#include <stdlib.h>
#include <float.h>
#include <string.h>
#include <iostream>
#include <fstream>


#define UNSETVALUE -1
#define TIMEOUTSEC 5000

Problem::Problem(const char *_problem) : result(UNSETVALUE) {
        uint len = strlen(_problem);
        problem = (char *) ourmalloc(len + 1);
        memcpy(problem, _problem, len + 1);
}

Problem::~Problem() {
        ourfree(problem);
}

MultiTuner::MultiTuner(uint _budget, uint _timeout) :
        budget(_budget), timeout(_timeout), execnum(0) {
}

MultiTuner::~MultiTuner() {
        for (uint i = 0; i < problems.getSize(); i++)
                ourfree(problems.get(i));
}

void MultiTuner::addProblem(const char *filename) {
        problems.push(new Problem(filename));
}

void MultiTuner::addTuner(SearchTuner *tuner) {
        tuners.push(new TunerRecord(tuner));
}

long long MultiTuner::evaluate(Problem *problem, SearchTuner *tuner) {
        char buffer[512];
        //Write out the tuner
        snprintf(buffer, sizeof(buffer), "tuner%u", execnum);
        tuner->serialize(buffer);

        //Do run
        snprintf(buffer, sizeof(buffer), "deserializerun %s %u tuner%u result%s%u > log%u", problem->getProblem(), timeout, execnum, problem->getProblem(), execnum, execnum);
        int status = system(buffer);

        long long metric = -1;
        int sat = IS_INDETER;
        if (status == 0) {
                //Read data in from results file
                snprintf(buffer, sizeof(buffer), "result%s%u", problem->getProblem(), execnum);

                ifstream myfile;
                myfile.open (buffer, ios::in);


                if (myfile.is_open()) {
                        myfile >> metric;
                        myfile >> sat;
                        myfile.close();
                }
        }
        //Increment execution count
        execnum++;

        if (problem->result == UNSETVALUE && sat != IS_INDETER) {
                problem->result = sat;
        } else if (problem->result != sat && sat != IS_INDETER) {
                model_print("******** Result has changed ********\n");
        }
        return metric;
}

void MultiTuner::mapProblemsToTuners(Vector<TunerRecord *> *tunerV) {
        for (uint i = 0; i < problems.getSize(); i++) {
                Problem *problem = problems.get(i);
                TunerRecord *bestTuner = NULL;
                long long bestscore = 0;
                for (uint j = 0; j < tunerV->getSize(); j++) {
                        TunerRecord *tuner = tunerV->get(j);
                        long long metric = evaluate(problem, tuner->getTuner());
                        if ((bestTuner == NULL && metric != -1) ||
                                        (metric < bestscore && metric != -1)) {
                                bestTuner = tuner;
                                bestscore = metric;
                        }
                }
                if (bestTuner != NULL)
                        bestTuner->problems.push(problem);
        }
}


void MultiTuner::tuneK() {
        Vector<TunerRecord *> *tunerV = new Vector<TunerRecord *>(&tuners);


        delete tunerV;
}

double MultiTuner::evaluateAll(SearchTuner *tuner) {
        double product = 1;
        for (uint i = 0; i < problems.getSize(); i++) {
                Problem *problem = problems.get(i);
                double score = evaluate(problem, tuner);
                product *= score;
        }
        return pow(product, 1 / ((double)problems.getSize()));
}

SearchTuner *MultiTuner::mutateTuner(SearchTuner *oldTuner, uint k) {
        SearchTuner *newTuner = oldTuner->copyUsed();
        uint numSettings = oldTuner->getSize();
        uint settingsToMutate = (uint)(AUTOTUNERFACTOR * (((double)numSettings) * (budget - k)) / (budget));
        if (settingsToMutate < 1)
                settingsToMutate = 1;
        model_print("Mutating %u settings\n", settingsToMutate);
        while (settingsToMutate-- != 0) {
                newTuner->randomMutate();
        }
        return newTuner;
}

void MultiTuner::tune() {
        SearchTuner *bestTuner = NULL;
        double bestScore = DBL_MAX;

        SearchTuner *oldTuner = new SearchTuner();
        double base_temperature = evaluateAll(oldTuner);
        double oldScore = base_temperature;

        for (uint i = 0; i < budget; i++) {
                SearchTuner *newTuner = mutateTuner(oldTuner, i);
                double newScore = evaluateAll(newTuner);
                newTuner->printUsed();
                model_print("Received score %f\n", newScore);
                double scoreDiff = newScore - oldScore; //smaller is better
                if (newScore < bestScore) {
                        if (bestTuner != NULL)
                                delete bestTuner;
                        bestScore = newScore;
                        bestTuner = newTuner->copyUsed();
                }

                double acceptanceP;
                if (scoreDiff < 0) {
                        acceptanceP = 1;
                } else {
                        double currTemp = base_temperature * (((double)budget - i) / budget);
                        acceptanceP = exp(-scoreDiff / currTemp);
                }
                double ran = ((double)random()) / RAND_MAX;
                if (ran <= acceptanceP) {
                        delete oldTuner;
                        oldScore = newScore;
                        oldTuner = newTuner;
                } else {
                        delete newTuner;
                }
        }
        model_print("Best tuner:\n");
        bestTuner->print();
        model_print("Received score %f\n", bestScore);
        if (bestTuner != NULL)
                delete bestTuner;
        delete oldTuner;
}