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OptaPlanner solves planning problems. This lightweight, embeddable planning engine implements powerful and scalable algorithms to optimize business resource scheduling and planning. This module contains the examples which demonstrate how to use it in a normal Java application.

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package org.optaplanner.examples.travelingtournament.persistence;

import java.io.IOException;
import java.math.BigInteger;
import java.util.ArrayList;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.StringTokenizer;

import org.optaplanner.examples.common.persistence.AbstractTxtSolutionImporter;
import org.optaplanner.examples.common.persistence.SolutionConverter;
import org.optaplanner.examples.travelingtournament.app.TravelingTournamentApp;
import org.optaplanner.examples.travelingtournament.domain.Day;
import org.optaplanner.examples.travelingtournament.domain.Match;
import org.optaplanner.examples.travelingtournament.domain.Team;
import org.optaplanner.examples.travelingtournament.domain.TravelingTournament;

public class TravelingTournamentImporter extends AbstractTxtSolutionImporter {

    public static void main(String[] args) {
        SolutionConverter converter =
                SolutionConverter.createImportConverter(TravelingTournamentApp.DATA_DIR_NAME, new TravelingTournamentImporter(),
                        new TravelingTournamentSolutionFileIO());
        converter.convertAll();
    }

    @Override
    public TxtInputBuilder createTxtInputBuilder() {
        return new TravelingTournamentInputBuilder();
    }

    public static class TravelingTournamentInputBuilder extends TxtInputBuilder {

        @Override
        public TravelingTournament readSolution() throws IOException {
            TravelingTournament travelingTournament = new TravelingTournament(0L);
            int n = readN();
            readTeamList(travelingTournament, n);
            createDayList(travelingTournament, n);
            List> outerDistanceList = readOuterDistanceList(travelingTournament);
            // TODO setting the distances should be a separate method
            createMatchListAndSetDistancesInTeamList(travelingTournament, outerDistanceList);
            initializeMatchDays(travelingTournament);
            BigInteger a = factorial(2 * (n - 1));
            BigInteger possibleSolutionSize = (a == null) ? null : a.pow(n / 2);
            logger.info("TravelingTournament {} has {} days, {} teams and {} matches with a search space of {}.",
                    getInputId(),
                    travelingTournament.getDayList().size(),
                    travelingTournament.getTeamList().size(),
                    travelingTournament.getMatchList().size(),
                    getFlooredPossibleSolutionSize(possibleSolutionSize));
            return travelingTournament;
        }

        private int readN() throws IOException {
            return Integer.parseInt(bufferedReader.readLine());
        }

        private void readTeamList(TravelingTournament travelingTournament, int n) throws IOException {
            List teamList = new ArrayList<>();
            for (int i = 0; i < n; i++) {
                Team team = new Team(i, bufferedReader.readLine());
                team.setDistanceToTeamMap(new LinkedHashMap<>());
                teamList.add(team);
            }
            travelingTournament.setTeamList(teamList);
        }

        private List> readOuterDistanceList(TravelingTournament travelingTournament) throws IOException {
            List> outerDistanceList = new ArrayList<>();
            String line = bufferedReader.readLine();
            while (line != null && !line.replaceAll("\\s+", "").equals("")) {
                StringTokenizer tokenizer = new StringTokenizer(line.replaceAll("\\s+", " ").trim());
                List innerDistanceList = new ArrayList<>();
                while (tokenizer.hasMoreTokens()) {
                    int distance = Integer.parseInt(tokenizer.nextToken());
                    innerDistanceList.add(distance);
                }
                outerDistanceList.add(innerDistanceList);
                line = bufferedReader.readLine();
            }
            return outerDistanceList;
        }

        private void createDayList(TravelingTournament travelingTournament, int n) {
            List dayList = new ArrayList<>();
            int daySize = (n - 1) * 2; // Play vs each team (except itself) twice (home and away)
            Day previousDay = null;
            for (int i = 0; i < daySize; i++) {
                Day day = new Day(i);
                dayList.add(day);
                if (previousDay != null) {
                    previousDay.setNextDay(day);
                }
                previousDay = day;
            }
            travelingTournament.setDayList(dayList);
        }

        private void createMatchListAndSetDistancesInTeamList(TravelingTournament travelingTournament,
                List> outerDistanceList) {
            List teamList = travelingTournament.getTeamList();
            List matchList = new ArrayList<>();
            int i = 0;
            long matchId = 0;
            for (Team homeTeam : teamList) {
                int j = 0;
                for (Team awayTeam : teamList) {
                    int distance = outerDistanceList.get(i).get(j);
                    homeTeam.getDistanceToTeamMap().put(awayTeam, distance);
                    if (i != j) {
                        Match match = new Match(matchId, homeTeam, awayTeam);
                        matchId++;
                        matchList.add(match);
                    }
                    j++;
                }
                i++;
            }
            travelingTournament.setMatchList(matchList);
        }

        /**
         * Canonical pattern initialization (see papers).
         *
         * @param travelingTournament the traveling tournament
         */
        protected void initializeMatchDays(TravelingTournament travelingTournament) {
            int n = travelingTournament.getN();
            for (int i = 0; i < (n - 1); i++) {
                initializeMatchPairs(travelingTournament, (n - 1), i, i);
            }
            for (int startA = 1, startB = (n - 2); startA < (n - 1); startA += 2, startB -= 2) {
                for (int i = 0; i < (n - 1); i++) {
                    int a = (startA + i) % (n - 1);
                    int b = (startB + i) % (n - 1);
                    initializeMatchPairs(travelingTournament, a, b, i);
                }
            }
        }

        private void initializeMatchPairs(TravelingTournament travelingTournament, int a, int b, int i) {
            if ((i % 6) >= 3) { // Might not be a 100% the canonical pattern
                // Swap them
                int oldA = a;
                a = b;
                b = oldA;
            }
            Team aTeam = travelingTournament.getTeamList().get(a);
            Team bTeam = travelingTournament.getTeamList().get(b);
            Match m1 = findMatch(travelingTournament.getMatchList(), aTeam, bTeam);
            m1.setDay(travelingTournament.getDayList().get(i));
            Match m2 = findMatch(travelingTournament.getMatchList(), bTeam, aTeam);
            m2.setDay(travelingTournament.getDayList().get(i + travelingTournament.getN() - 1));
        }

        private Match findMatch(List matchList, Team homeTeam, Team awayTeam) {
            for (Match match : matchList) {
                if (match.getHomeTeam().equals(homeTeam) && match.getAwayTeam().equals(awayTeam)) {
                    return match;
                }
            }
            throw new IllegalStateException("Nothing found for: " + homeTeam + " and " + awayTeam);
        }

    }

}




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