Exemplo n.º 1
0
        /**
         * Start all regression tests.
         *
         * @param threadsNumber  Threads number.
         * @return               Number of tests with error result.
         */
        public static int Start(int threadsNumber)
        {
            SudokuStore.consolePrintln("^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");
            SudokuStore.consolePrintln("All regression tests - starting.");
            SudokuStore.consolePrintln("  - RegTestsSolver.start()");
            SudokuStore.consolePrintln("  - RegTestsGenerator.start()");
            SudokuStore.consolePrintln("  - RegTestsStore.start()");
            SudokuStore.consolePrintln("  - RegTestsApi.start()");
            SudokuStore.consolePrintln("^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");
            long   startTime       = DateTimeX.currentTimeMillis();
            int    solverErrors    = RegTestsSolver.Start(threadsNumber);
            int    generatorErrors = RegTestsGenerator.Start(threadsNumber);
            int    storeErrors     = RegTestsStore.Start(threadsNumber);
            int    apiErrors       = RegTestsApi.Start(threadsNumber);
            long   endTime         = DateTimeX.currentTimeMillis();
            double computingTime   = (endTime - startTime) / 1000.0;
            int    totalErrors     = solverErrors + generatorErrors + storeErrors + apiErrors;

            SudokuStore.consolePrintln("^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");
            SudokuStore.consolePrintln("All regression tests - finished.");
            SudokuStore.consolePrintln("Errors: " + totalErrors);
            SudokuStore.consolePrintln("  - RegTestsSolver errors: " + solverErrors);
            SudokuStore.consolePrintln("  - RegTestsGenerator errors: " + generatorErrors);
            SudokuStore.consolePrintln("  - RegTestsStore errors: " + storeErrors);
            SudokuStore.consolePrintln("  - RegTestsApi errors: " + apiErrors);
            SudokuStore.consolePrintln("");
            SudokuStore.consolePrintln("Computing time: " + computingTime + " s.");
            SudokuStore.consolePrintln("^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^");
            return(totalErrors);
        }
Exemplo n.º 2
0
        /**
         * Runs SudokuSolver regression tests.
         * @param threadsNumber    Number of threads.
         * @return    Number of tests with errors.
         */
        public static int Start(int threadsNumber)
        {
            int         numberOfTests = SolverTests.NUMBER_OF_TESTS;
            int         resultsError  = 0;
            int         resultsOk     = 0;
            long        startTime     = DateTimeX.currentTimeMillis();
            SolverTests st            = new SolverTests(threadsNumber);

            st.start();
            bool[] testResults = st.testsResults;
            for (int t = 0; t < numberOfTests; t++)
            {
                if (testResults[t] == true)
                {
                    resultsOk++;
                }
                else
                {
                    resultsError++;
                }
            }
            long   endtTime      = DateTimeX.currentTimeMillis();
            double computingTime = (endtTime - startTime) / 1000.0;

            SudokuStore.consolePrintln("=============================================================");
            SudokuStore.consolePrintln("Number of SudokuSolver test: " + numberOfTests + ", OK: " + resultsOk + ", ERRORS: " + resultsError + ", computing time: " + computingTime);
            for (int t = 0; t < numberOfTests; t++)
            {
                if (testResults[t] == false)
                {
                    SudokuStore.consolePrintln("ERROR: " + t);
                }
            }
            SudokuStore.consolePrintln("=============================================================");
            return(resultsError);
        }
Exemplo n.º 3
0
        /**
         * Test scenario implementation.
         * @param testId        Test id.
         * @param threadId      Thread id.
         * @return              True is test successful, otherwise false.
         */
        static bool runTest(int testId, int threadId)
        {
            SudokuSolver s;
            int          sol;
            int          solNum;
            int          solUnq;
            int          solvingState;
            int          boardState;

            int[,] solution;
            int[,] puzzle;
            bool solCorr;
            bool testResult = true;

            switch (testId)
            {
            case 0:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    s      = new SudokuSolver(example);
                    solNum = s.findAllSolutions();
                    ErrorCodes.consolePrintlnIfError(solNum);
                    if (solNum != 1)
                    {
                        testResult = false;
                    }
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", findAllSolutions, example: " + example + ", solutions: " + solNum + ", time: " + s.getComputingTime() + " s.");
                }
                break;

            case 1:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    s      = new SudokuSolver(example);
                    solUnq = s.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    if (solUnq != SudokuSolver.SOLUTION_UNIQUE)
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: " + example + ", is solution unique: NO, time: " + s.getComputingTime() + " s.");
                    }
                    else
                    {
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: " + example + ", is solution unique: YES, time: " + s.getComputingTime() + " s.");
                    }
                }
                break;

            case 2:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    s   = new SudokuSolver(example);
                    sol = s.solve();
                    ErrorCodes.consolePrintlnIfError(sol);
                    solution = s.getSolvedBoard();
                    solCorr  = SudokuStore.checkSolvedBoard(solution);
                    if (solCorr != true)
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: " + example + ", is solution correct: NO, time: " + s.getComputingTime() + " s.");
                    }
                    else
                    {
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: " + example + ", is solution correct: YES, time: " + s.getComputingTime() + " s.");
                    }
                }
                break;

            case 3:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuStore.getPuzzleExample(example));
                    s      = new SudokuSolver(puzzle);
                    solNum = s.findAllSolutions();
                    ErrorCodes.consolePrintlnIfError(solNum);
                    if (solNum != 1)
                    {
                        testResult = false;
                    }
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + findAllSolutions, example: " + example + ", solutions: " + solNum + ", time: " + s.getComputingTime() + " s.");
                }
                break;

            case 4:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuStore.getPuzzleExample(example));
                    s      = new SudokuSolver(puzzle);
                    solUnq = s.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    if (solUnq != SudokuSolver.SOLUTION_UNIQUE)
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + checkIfUniqueSolution, example: " + example + ", is solution unique: NO, time: " + s.getComputingTime() + " s.");
                    }
                    else
                    {
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + checkIfUniqueSolution, example: " + example + ", is solution unique: YES, time: " + s.getComputingTime() + " s.");
                    }
                }
                break;

            case 5:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuStore.getPuzzleExample(example));
                    s      = new SudokuSolver(puzzle);
                    sol    = s.solve();
                    ErrorCodes.consolePrintlnIfError(sol);
                    solution = s.getSolvedBoard();
                    solCorr  = SudokuStore.checkSolvedBoard(solution);
                    if (solCorr != true)
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + solve, example: " + example + ", is solution correct: NO, time: " + s.getComputingTime() + " s.");
                    }
                    else
                    {
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + solve, example: " + example + ", is solution correct: YES, time: " + s.getComputingTime() + " s.");
                    }
                }
                break;

            case 6:
                s      = new SudokuSolver(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                solNum = s.findAllSolutions();
                ErrorCodes.consolePrintlnIfError(solNum);
                if (solNum <= 1)
                {
                    testResult = false;
                }
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", findAllSolutions, example: non unique, solutions: " + solNum + ", time: " + s.getComputingTime() + " s.");
                break;

            case 7:
                s      = new SudokuSolver(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                solUnq = s.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(solUnq);
                if (solUnq != SudokuSolver.SOLUTION_NON_UNIQUE)
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: non unique, is solution unique: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: non unique, is solution unique: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 8:
                s   = new SudokuSolver(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                sol = s.solve();
                ErrorCodes.consolePrintlnIfError(sol);
                solution = s.getSolvedBoard();
                solCorr  = SudokuStore.checkSolvedBoard(solution);
                if (solCorr != true)
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: non unique, is solution correct: NO, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: non unique, is solution correct: YES, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 9:
                puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                s      = new SudokuSolver(puzzle);
                solNum = s.findAllSolutions();
                ErrorCodes.consolePrintlnIfError(solNum);
                if (solNum <= 1)
                {
                    testResult = false;
                }
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + findAllSolutions, example: non unique, solutions: " + solNum + ", time: " + s.getComputingTime() + " s.");
                break;

            case 10:
                puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                s      = new SudokuSolver(puzzle);
                solUnq = s.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(solUnq);
                if (solUnq != SudokuSolver.SOLUTION_NON_UNIQUE)
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + checkIfUniqueSolution, example: non unique, is solution unique: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + checkIfUniqueSolution, example: non unique, is solution unique: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 11:
                puzzle = SudokuStore.seqOfRandomBoardTransf(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                s      = new SudokuSolver(puzzle);
                sol    = s.solve();
                ErrorCodes.consolePrintlnIfError(sol);
                solution = s.getSolvedBoard();
                solCorr  = SudokuStore.checkSolvedBoard(solution);
                if (solCorr != true)
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + solve, example: non unique, is solution correct: NO, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", seqOfRandomBoardTransf + solve, example: non unique, is solution correct: YES, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 12:
                s      = new SudokuSolver(SudokuPuzzles.PUZZLE_NO_SOLUTION);
                solNum = s.findAllSolutions();
                ErrorCodes.consolePrintlnIfError(solNum);
                if (solNum != 0)
                {
                    testResult = false;
                }
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", findAllSolutions, example: no solution, solutions: " + solNum + ", time: " + s.getComputingTime() + " s.");
                break;

            case 13:
                s      = new SudokuSolver(SudokuPuzzles.PUZZLE_NO_SOLUTION);
                solUnq = s.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(solUnq);
                if (solUnq == SudokuSolver.SOLUTION_NOT_EXISTS)
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: no solution, no solutions found: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", checkIfUniqueSolution, example: no solution, no solutions found: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 14:
                s        = new SudokuSolver(SudokuPuzzles.PUZZLE_NO_SOLUTION);
                sol      = s.solve();
                solution = s.getSolvedBoard();
                if (s.getSolvingState() == ErrorCodes.SUDOKUSOLVER_SOLVE_SOLVING_FAILED)
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: no solution, solving failed: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: no solution, solving failed: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 15:
                s            = new SudokuSolver(SudokuPuzzles.PUZZLE_ERROR);
                solvingState = s.solve();
                boardState   = s.getBoardState();
                if ((boardState == SudokuBoard.BOARD_STATE_ERROR) && (solvingState == ErrorCodes.SUDOKUSOLVER_SOLVE_SOLVING_NOT_STARTED))
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: board with error, board state error and solving not started: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: board with error, board state error and solving not started: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 16:
                s   = new SudokuSolver(SudokuPuzzles.PUZZLE_REGTESTS);
                sol = s.solve();
                ErrorCodes.consolePrintlnIfError(sol);
                if (SudokuStore.boardsAreEqual(s.getSolvedBoard(), SudokuPuzzles.PUZZLE_REGTESTS_SOLUTION))
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: with solution, solutions are equal: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: with solution, solutions are equal: NO, time: " + s.getComputingTime() + " s.");
                }
                break;

            case 17:
                s      = new SudokuSolver(SudokuPuzzles.PUZZLE_EMPTY);
                sol    = s.solve();
                solUnq = s.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(sol);
                ErrorCodes.consolePrintlnIfError(solUnq);
                if ((SudokuStore.checkSolvedBoard(s.getSolvedBoard()) == true) & (solUnq == SudokuSolver.SOLUTION_NON_UNIQUE))
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: empty puzzle, found solution and solution non unique: YES, time: " + s.getComputingTime() + " s.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", solve, example: empty puzzle, found solution and solution non unique: NO, time: " + s.getComputingTime() + " s.");
                }
                break;
            }
            if (testResult == true)
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " >>>>>>>>>>>>>>>>>>>>>> SudokuSolver, result: OK");
            }
            else
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " >>>>>>>>>>>>>>>>>>>>>> SudokuSolver, result: ERROR");
            }
            return(testResult);
        }
Exemplo n.º 4
0
        /**
         * Start the Janet-Sudoku Tutorial code.
         * @param args    No arguments are considered.
         */
        public static void Start()
        {
            String tmpDir = FileX.getTmpDir();
            {
                /*
                 * Simple sudoku generation.
                 */
                SudokuStore.consolePrintln("");
                SudokuStore.consolePrintln("Simple sudoku generation.");
                SudokuGenerator sg = new SudokuGenerator();
                int[,] puzzle = sg.generate();
                SudokuStore.consolePrintBoard(puzzle);
            }
            {
                /*
                 * Simple sudoku generation + parameters.
                 */
                SudokuStore.consolePrintln("");
                SudokuStore.consolePrintln("Simple sudoku generation + parameters.");
                SudokuGenerator sg = new SudokuGenerator(SudokuGenerator.PARAM_GEN_RND_BOARD);
                int[,] puzzle = sg.generate();
                SudokuStore.consolePrintBoard(puzzle);
            }
            {
                /*
                 * Simple sudoku generation + puzzle rating.
                 */
                SudokuStore.consolePrintln("");
                SudokuStore.consolePrintln("Simple sudoku generation + puzzle rating.");
                SudokuGenerator sg = new SudokuGenerator();
                int[,] puzzle = sg.generate();
                int rating = SudokuStore.calculatePuzzleRating(puzzle);
                SudokuStore.consolePrintBoard(puzzle);
                SudokuStore.consolePrintln("Puzzle rating: " + rating);
            }
            {
                /*
                 * Solving sudoku example.
                 */
                SudokuStore.consolePrintln("");
                SudokuStore.consolePrintln("Solving sudoku example.");
                SudokuSolver ss = new SudokuSolver(SudokuPuzzles.PUZZLE_EXAMPLE_001);
                SudokuStore.consolePrintBoard(ss.getBoard());
                ss.solve();
                SudokuStore.consolePrintBoard(ss.getSolvedBoard());
            }
            {
                /*
                 * Saving board examples
                 */
                SudokuStore.consolePrintln("");
                SudokuStore.consolePrintln("Saving board examples " + tmpDir);
                SudokuStore.saveBoard(SudokuPuzzles.PUZZLE_EXAMPLE_001, tmpDir + "sudoku-board-ex-1.txt");
                SudokuStore.saveBoard(SudokuPuzzles.PUZZLE_EXAMPLE_001, tmpDir + "sudoku-board-ex-2.txt", "This is a head comment");
                SudokuStore.saveBoard(SudokuPuzzles.PUZZLE_EXAMPLE_001, tmpDir + "sudoku-board-ex-3.txt", "This is a head comment", "And a tail comment");
                SudokuSolver ss = new SudokuSolver(1);
                ss.solve();
                ss.saveSolvedBoard(tmpDir + "sudoku-board-ex-sol.txt", "Solution for the PUZZLE_EXAMPLE_001");
            }

            /*
             * And many other staff provided by the library :-)
             */
        }
Exemplo n.º 5
0
        /**
         * Test scenario implementation.
         * @param testId        Test id.
         * @param threadId      Thread id.
         * @return              True is test successful, otherwise false.
         */
        static bool runTest(int testId, int threadId)
        {
            SudokuSolver    solverGen, solverInit;
            SudokuGenerator g;
            int             solUnq;

            int[,] genPuzzle;
            int[,] solvedGen, solvedInit, initBoard;
            bool testResult = true;

            switch (testId)
            {
            case 0:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    g         = new SudokuGenerator(example, SudokuGenerator.PARAM_DO_NOT_TRANSFORM);
                    genPuzzle = g.generate();
                    solverGen = new SudokuSolver(genPuzzle);
                    ErrorCodes.consolePrintlnIfError(solverGen.solve());
                    solverInit = new SudokuSolver(example);
                    ErrorCodes.consolePrintlnIfError(solverInit.solve());
                    solUnq = solverGen.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    solvedGen  = solverGen.getSolvedBoard();
                    solvedInit = solverInit.getSolvedBoard();
                    if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.boardsAreEqual(solvedGen, solvedInit) == true))
                    {
                        //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example number, example: " + example + ", solution unique and correct: YES, time (g, s1, s2): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., " + solverInit.getComputingTime() + " s.");
                    }
                    else
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example number, example: " + example + ", solution unique and correct: NO, time (g, s1, s2): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., " + solverInit.getComputingTime() + " s.");
                        Console.WriteLine("Initial board");
                        SudokuStore.consolePrintBoard(SudokuStore.getPuzzleExample(example));
                        Console.WriteLine("Generated puzzle");
                        SudokuStore.consolePrintBoard(genPuzzle);
                        Console.WriteLine("Solved initial board");
                        SudokuStore.consolePrintBoard(solvedInit);
                        Console.WriteLine("Solved generated puzzle");
                        SudokuStore.consolePrintBoard(solvedGen);
                    }
                }
                break;

            case 1:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    initBoard = SudokuStore.getPuzzleExample(example);
                    g         = new SudokuGenerator(initBoard, SudokuGenerator.PARAM_DO_NOT_TRANSFORM, SudokuGenerator.PARAM_DO_NOT_SOLVE);
                    genPuzzle = g.generate();
                    solverGen = new SudokuSolver(genPuzzle);
                    ErrorCodes.consolePrintlnIfError(solverGen.solve());
                    solverInit = new SudokuSolver(initBoard);
                    ErrorCodes.consolePrintlnIfError(solverInit.solve());
                    solUnq = solverGen.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    solvedGen  = solverGen.getSolvedBoard();
                    solvedInit = solverInit.getSolvedBoard();
                    if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.boardsAreEqual(solvedGen, solvedInit) == true))
                    {
                        //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example board, example: " + example + ", solution unique and correct: YES, time (g, s1, s2): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., " + solverInit.getComputingTime() + " s.");
                    }
                    else
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example board, example: " + example + ", solution unique and correct: NO, time (g, s1, s2): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., " + solverInit.getComputingTime() + " s.");
                        Console.WriteLine("Initial board");
                        SudokuStore.consolePrintBoard(initBoard);
                        Console.WriteLine("Generated puzzle");
                        SudokuStore.consolePrintBoard(genPuzzle);
                        Console.WriteLine("Solved initial board");
                        SudokuStore.consolePrintBoard(solvedInit);
                        Console.WriteLine("Solved generated puzzle");
                        SudokuStore.consolePrintBoard(solvedGen);
                    }
                }
                break;

            case 2:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    g         = new SudokuGenerator(example);
                    genPuzzle = g.generate();
                    solverGen = new SudokuSolver(genPuzzle);
                    ErrorCodes.consolePrintlnIfError(solverGen.solve());
                    solUnq = solverGen.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    solvedGen = solverGen.getSolvedBoard();
                    if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.checkPuzzle(genPuzzle) == true))
                    {
                        //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example number, example: " + example + ", solution unique and correct: YES, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                    }
                    else
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example number, example: " + example + ", solution unique and correct: NO, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                        Console.WriteLine("Generated puzzle");
                        SudokuStore.consolePrintBoard(genPuzzle);
                        Console.WriteLine("Solved generated puzzle");
                        SudokuStore.consolePrintBoard(solvedGen);
                    }
                }
                break;

            case 3:
                for (int example = 0; example < SudokuPuzzles.NUMBER_OF_PUZZLE_EXAMPLES; example++)
                {
                    initBoard = SudokuStore.getPuzzleExample(example);
                    g         = new SudokuGenerator(initBoard, SudokuGenerator.PARAM_DO_NOT_SOLVE);
                    genPuzzle = g.generate();
                    solverGen = new SudokuSolver(genPuzzle);
                    ErrorCodes.consolePrintlnIfError(solverGen.solve());
                    solUnq = solverGen.checkIfUniqueSolution();
                    ErrorCodes.consolePrintlnIfError(solUnq);
                    solvedGen = solverGen.getSolvedBoard();
                    if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.checkPuzzle(genPuzzle) == true))
                    {
                        //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example board, example: " + example + ", solution unique and correct: YES, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                    }
                    else
                    {
                        testResult = false;
                        SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by example board, example: " + example + ", solution unique and correct: NO, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                        Console.WriteLine("Generated puzzle");
                        SudokuStore.consolePrintBoard(genPuzzle);
                        Console.WriteLine("Solved initial board");
                        SudokuStore.consolePrintBoard(solvedGen);
                    }
                }
                break;

            case 5:
                initBoard = SudokuPuzzles.PUZZLE_EMPTY;
                g         = new SudokuGenerator(initBoard);
                genPuzzle = g.generate();
                solverGen = new SudokuSolver(genPuzzle);
                ErrorCodes.consolePrintlnIfError(solverGen.solve());
                solUnq = solverGen.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(solUnq);
                solvedGen = solverGen.getSolvedBoard();
                if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.checkPuzzle(genPuzzle) == true))
                {
                    //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: YES, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: NO, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                    Console.WriteLine("Generated puzzle");
                    SudokuStore.consolePrintBoard(genPuzzle);
                    Console.WriteLine("Solved initial board");
                    SudokuStore.consolePrintBoard(solvedGen);
                }
                break;

            case 6:
                initBoard = SudokuPuzzles.PUZZLE_EMPTY;
                g         = new SudokuGenerator(initBoard, SudokuGenerator.PARAM_DO_NOT_SOLVE);
                if (g.getGeneratorState() == SudokuGenerator.GENERATOR_INIT_FAILED)
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: YES, time (g, s): ");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: NO, time (g, s): ");
                    SudokuStore.consolePrintln("Generator state: " + g.getGeneratorState());
                    Console.WriteLine(g.getMessages());
                }
                break;

            case 7:
                initBoard = SudokuPuzzles.PUZZLE_ERROR;
                g         = new SudokuGenerator(initBoard, SudokuGenerator.PARAM_DO_NOT_SOLVE);
                if (g.getGeneratorState() == SudokuGenerator.GENERATOR_INIT_FAILED)
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by PUZZLE_ERROR + PARAM_DO_NOT_SOLVE, init failed: YES.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by PUZZLE_ERROR + PARAM_DO_NOT_SOLVE, init failed: NO.");
                    SudokuStore.consolePrintln("Generator state: " + g.getGeneratorState());
                    Console.WriteLine(g.getMessages());
                }
                break;

            case 8:
                initBoard = SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION;
                g         = new SudokuGenerator(initBoard);
                genPuzzle = g.generate();
                solverGen = new SudokuSolver(genPuzzle);
                ErrorCodes.consolePrintlnIfError(solverGen.solve());
                solUnq = solverGen.checkIfUniqueSolution();
                ErrorCodes.consolePrintlnIfError(solUnq);
                solvedGen = solverGen.getSolvedBoard();
                if ((solUnq == SudokuSolver.SOLUTION_UNIQUE) && (SudokuStore.checkPuzzle(genPuzzle) == true))
                {
                    //SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: YES, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by empty board, solution unique and correct: NO, time (g, s): " + g.getComputingTime() + " s., " + solverGen.getComputingTime() + " s., ");
                    Console.WriteLine("Generated puzzle");
                    SudokuStore.consolePrintBoard(genPuzzle);
                    Console.WriteLine("Solved initial board");
                    SudokuStore.consolePrintBoard(solvedGen);
                }
                break;

            case 9:
                initBoard = SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION;
                g         = new SudokuGenerator(initBoard, SudokuGenerator.PARAM_DO_NOT_SOLVE);
                if (g.getGeneratorState() == SudokuGenerator.GENERATOR_INIT_FAILED)
                {
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by PUZZLE_NON_UNIQUE_SOLUTION + PARAM_DO_NOT_SOLVE, init failed: YES.");
                }
                else
                {
                    testResult = false;
                    SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + ", generate by PUZZLE_NON_UNIQUE_SOLUTION + PARAM_DO_NOT_SOLVE, init failed: NO.");
                    SudokuStore.consolePrintln("Generator state: " + g.getGeneratorState());
                    Console.WriteLine(g.getMessages());
                }
                break;
            }
            if (testResult == true)
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " >>>>>>>>>>>>>>>>>>>>>> SudokuGenerator, result: OK");
            }
            else
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " >>>>>>>>>>>>>>>>>>>>>> SudokuGenerator, result: ERROR");
            }
            return(testResult);
        }
Exemplo n.º 6
0
        /**
         * Test scenario implementation.
         * @param testId        Test id.
         * @param threadId      Thread id.
         * @return              True is test successful, otherwise false.
         */
        static bool runTest(int testId, int threadId)
        {
            bool   testResult = true;
            String testDesc = "", resultDesc = "";

            int[,] a =
            {
                { 0, 0, 0, 8, 0, 0, 0, 0, 0 },
                { 4, 0, 0, 0, 1, 5, 0, 3, 0 },
                { 0, 2, 9, 0, 4, 0, 5, 1, 8 },
                { 0, 4, 0, 0, 0, 0, 1, 2, 0 },
                { 0, 0, 0, 6, 0, 2, 0, 0, 0 },
                { 0, 3, 2, 0, 0, 0, 0, 9, 0 },
                { 6, 9, 3, 0, 5, 0, 8, 7, 0 },
                { 0, 5, 0, 4, 8, 0, 0, 0, 1 },
                { 0, 0, 0, 0, 0, 3, 0, 0, 0 }
            };
            switch (testId)
            {
            case 0:
                testDesc = "SudokuSolver.setCell(int, int, int)";
                {
                    SudokuSolver s = new SudokuSolver();
                    s.setCell(0, 0, 0);
                    s.setCell(1, 0, 4);
                    s.setCell(2, 0, 0);
                    s.setCell(3, 0, 0);
                    s.setCell(4, 0, 0);
                    s.setCell(5, 0, 0);
                    s.setCell(6, 0, 6);
                    s.setCell(7, 0, 0);
                    s.setCell(8, 0, 0);
                    s.setCell(0, 1, 0);
                    s.setCell(1, 1, 0);
                    s.setCell(2, 1, 2);
                    s.setCell(3, 1, 4);
                    s.setCell(4, 1, 0);
                    s.setCell(5, 1, 3);
                    s.setCell(6, 1, 9);
                    s.setCell(7, 1, 5);
                    s.setCell(8, 1, 0);
                    s.setCell(0, 2, 0);
                    s.setCell(1, 2, 0);
                    s.setCell(2, 2, 9);
                    s.setCell(3, 2, 0);
                    s.setCell(4, 2, 0);
                    s.setCell(5, 2, 2);
                    s.setCell(6, 2, 3);
                    s.setCell(7, 2, 0);
                    s.setCell(8, 2, 0);
                    s.setCell(0, 3, 8);
                    s.setCell(1, 3, 0);
                    s.setCell(2, 3, 0);
                    s.setCell(3, 3, 0);
                    s.setCell(4, 3, 6);
                    s.setCell(5, 3, 0);
                    s.setCell(6, 3, 0);
                    s.setCell(7, 3, 4);
                    s.setCell(8, 3, 0);
                    s.setCell(0, 4, 0);
                    s.setCell(1, 4, 1);
                    s.setCell(2, 4, 4);
                    s.setCell(3, 4, 0);
                    s.setCell(4, 4, 0);
                    s.setCell(5, 4, 0);
                    s.setCell(6, 4, 5);
                    s.setCell(7, 4, 8);
                    s.setCell(8, 4, 0);
                    s.setCell(0, 5, 0);
                    s.setCell(1, 5, 5);
                    s.setCell(2, 5, 0);
                    s.setCell(3, 5, 0);
                    s.setCell(4, 5, 2);
                    s.setCell(5, 5, 0);
                    s.setCell(6, 5, 0);
                    s.setCell(7, 5, 0);
                    s.setCell(8, 5, 3);
                    s.setCell(0, 6, 0);
                    s.setCell(1, 6, 0);
                    s.setCell(2, 6, 5);
                    s.setCell(3, 6, 1);
                    s.setCell(4, 6, 0);
                    s.setCell(5, 6, 0);
                    s.setCell(6, 6, 8);
                    s.setCell(7, 6, 0);
                    s.setCell(8, 6, 0);
                    s.setCell(0, 7, 0);
                    s.setCell(1, 7, 3);
                    s.setCell(2, 7, 1);
                    s.setCell(3, 7, 2);
                    s.setCell(4, 7, 0);
                    s.setCell(5, 7, 9);
                    s.setCell(6, 7, 7);
                    s.setCell(7, 7, 0);
                    s.setCell(8, 7, 0);
                    s.setCell(0, 8, 0);
                    s.setCell(1, 8, 0);
                    s.setCell(2, 8, 8);
                    s.setCell(3, 8, 0);
                    s.setCell(4, 8, 0);
                    s.setCell(5, 8, 0);
                    s.setCell(6, 8, 0);
                    s.setCell(7, 8, 1);
                    s.setCell(8, 8, 0);
                    int[,] b = s.getBoard();

                    if ((SudokuStore.boardsAreEqual(a, b) == true))
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                        testResult = false;
                        SudokuStore.consolePrintln(s.getMessages());
                    }
                }
                break;

            case 1:
                testDesc = "SudokuSolver.getCellDigit(int, int)";
                {
                    SudokuSolver s1 = new SudokuSolver(a);
                    SudokuSolver s2 = new SudokuSolver();
                    for (int i = 0; i < SudokuBoard.BOARD_SIZE; i++)
                    {
                        for (int j = 0; j < SudokuBoard.BOARD_SIZE; j++)
                        {
                            int d = s1.getCellDigit(i, j);
                            s2.setCell(i, j, d);
                        }
                    }
                    int[,] b = s2.getBoard();
                    if ((SudokuStore.boardsAreEqual(a, b) == true))
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                        testResult = false;
                    }
                }
                break;

            case 2:
                testDesc = "SudokuSolver.getBoardCopy()";
                {
                    SudokuSolver s = new SudokuSolver(a);
                    int[,] b = s.getBoard();
                    int[,] c = s.getBoardCopy();
                    if ((SudokuStore.boardsAreEqual(b, c) == true))
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                        testResult = false;
                    }
                }
                break;

            case 3:
                testDesc = "SudokuSolver.getSolutionBoardCells()";
                {
                    SudokuSolver s = new SudokuSolver(a);
                    s.solve();
                    int[,] b = s.getSolvedBoard();
                    int[,] c = SudokuStore.boardCopy(a);
                    BoardCell[] sol = s.getSolutionBoardCells();
                    foreach (BoardCell bc in sol)
                    {
                        c[bc.rowIndex, bc.colIndex] = bc.digit;
                    }

                    if ((SudokuStore.boardsAreEqual(b, c) == true))
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                        testResult = false;
                    }
                }
                break;

            case 4:
                testDesc = "SudokuSolver.getAllBoardCells()";
                {
                    SudokuSolver s = new SudokuSolver(a);
                    int[,] b = s.getBoardCopy();
                    int[,] c = new int[SudokuBoard.BOARD_SIZE, SudokuBoard.BOARD_SIZE];
                    BoardCell[] bc = s.getAllBoardCells();
                    foreach (BoardCell cell in bc)
                    {
                        c[cell.rowIndex, cell.colIndex] = cell.digit;
                    }
                    if ((SudokuStore.boardsAreEqual(b, c) == true))
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                        testResult = false;
                    }
                }
                break;

            case 5:
                testDesc = "SudokuSolver.getAllSolutionsList()";
                {
                    SudokuSolver s = new SudokuSolver(SudokuPuzzles.PUZZLE_NON_UNIQUE_SOLUTION);
                    s.findAllSolutions();
                    List <SudokuBoard> solList;
                    solList = s.getAllSolutionsList();
                    foreach (SudokuBoard sb in solList)
                    {
                        if (SudokuStore.checkSolvedBoard(sb.board) == false)
                        {
                            testResult = false;
                            break;
                        }
                    }
                    if (testResult == true)
                    {
                        resultDesc = "Expecting each solution valid - each is valid.";
                    }
                    else
                    {
                        resultDesc = "Expecting each solution valid - found not valid.";
                    }
                }
                break;

            case 6:
                testDesc = "SudokuGenerator -> generate -> save -> load -> compare";
                {
                    String          filePath = FileX.getTmpDir() + FileX.genRndFileName(20, "txt");
                    SudokuGenerator g        = new SudokuGenerator(SudokuGenerator.PARAM_GEN_RND_BOARD);
                    int[,] generated = g.generate();
                    g.saveBoard(filePath, "generated", "saved");
                    int[,] loaded = SudokuStore.loadBoard(filePath);
                    FileX.removeFile(filePath);
                    if (SudokuStore.boardsAreEqual(generated, loaded) == false)
                    {
                        testResult = false;
                    }
                    if (testResult == true)
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                    }
                }
                break;

            case 7:
                testDesc = "SudokuSolver -> solve -> save -> load -> compare";
                {
                    String       filePath = FileX.getTmpDir() + FileX.genRndFileName(20, "txt");
                    SudokuSolver s        = new SudokuSolver(SudokuStore.getPuzzleExample());
                    s.solve();
                    int[,] solved = s.getSolvedBoard();
                    s.saveSolvedBoard(filePath, "solved", "saved");
                    int[,] loaded = SudokuStore.loadBoard(filePath);
                    FileX.removeFile(filePath);
                    if (SudokuStore.boardsAreEqual(solved, loaded) == false)
                    {
                        testResult = false;
                    }
                    if (testResult == true)
                    {
                        resultDesc = "Expecting equal - are equal.";
                    }
                    else
                    {
                        resultDesc = "Expecting equal - are not equal.";
                    }
                }
                break;
            }
            if (testResult == true)
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " " + testDesc + " " + resultDesc + " >>> ApiTests, result: OK");
            }
            else
            {
                SudokuStore.consolePrintln("(Thread: " + threadId + ") " + "Test: " + testId + " " + testDesc + " " + resultDesc + " >>> ApiTests, result: ERROR");
            }
            return(testResult);
        }