/* * Copyright (c) 2008, 2021, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package jit.graph; import jdk.test.lib.Utils; import nsk.share.TestFailure; import java.lang.reflect.InvocationTargetException; import java.util.Random; import java.util.Vector; class test5 { private final int[] MethodID = {Globals.MethodID_Array[7], Globals.MethodID_Array[8], Globals.MethodID_Array[9], Globals.MethodID_Array[10]}; private static Random loopNumGen = new Random(Utils.SEED); private final int maxLoops = 12; private long factorial(int n) { if (n > 1) { return (n * factorial(n - 1)); } else { return (1); } } private long fibonacci(long num1, long num2, int n) { if (n <= 0) { return (num2); } else { return (fibonacci(num2, num1 + num2, n - 1)); } } private long combination(int n, int r) { if ((r == 0) || (n == r)) { return 1; } else { return (combination(n - 1, r) + combination(n - 1, r - 1)); } } private int[] pascalsTriangle(int[] source, int n) { if (n > 0) { int sourceLength = source.length; int[] temp = new int[sourceLength + 1]; temp[0] = 1; temp[sourceLength] = 1; int j = 1; for (int i = 0; i < (sourceLength - 1); i++) { temp[j++] = source[i] + source[i + 1]; } return pascalsTriangle(temp, n - 1); } else { return source; } } private boolean verifyArray(int[] ArrayToBeVerified, int[] MasterArray) { if (ArrayToBeVerified.length != MasterArray.length) { return false; } for (int i = 0; i < MasterArray.length; i++) { if (MasterArray[i] != ArrayToBeVerified[i]) { return false; } } return true; } private int[] verifyPascal(int n) { int[] pascalOut = new int[n + 1]; int[][] dataArray = new int[n + 1][n + 1]; for (int i = 0; i <= n; i++) { for (int j = 0; j <= n; j++) { if (j == 0) { dataArray[i][0] = 1; } else if (j == i) { dataArray[i][i] = 1; } else if (j < i) { dataArray[i][j] = dataArray[i - 1][j - 1] + dataArray[i - 1][j]; } } } // could be a little more efficient, but not that important int j = n; for (int i = 0; i <= n; i++) { pascalOut[i] = dataArray[j][i]; } return pascalOut; } private long verifyFact(int n) { long answer = 1; for (int i = 2; i <= n; i++) { answer *= i; } return answer; } private long verifyFibo(int n) { long num1 = 1; long num2 = 1; for (int i = 0; i < n; i++) { long temp = num1 + num2; num1 = num2; num2 = temp; } return num2; } private long verifyComb(int n, int r) { return (verifyFact(n) / (verifyFact(n - r) * verifyFact(r))); } public void factTest(Vector summation, Vector ID, Long functionDepth, Integer staticFunctionDepth) throws InvocationTargetException { Globals.appendSumToSummationVector(MethodID[0], summation); if (CGT.shouldFinish()) { return; } if (Globals.VERBOSE) { System.out.println("test5.factTest"); } if ((functionDepth.longValue() <= 0) && (staticFunctionDepth.intValue() <= 0)) { return; } MethodData methodCallStr; Long numFcalls; Integer staticFcalls; if (staticFunctionDepth.intValue() > 0) { numFcalls = functionDepth; staticFcalls = Integer.valueOf(staticFunctionDepth.intValue() - 1); methodCallStr = Globals.returnNextStaticMethod(MethodID[0]); } else { numFcalls = Long.valueOf(functionDepth.longValue() - 1); staticFcalls = staticFunctionDepth; methodCallStr = Globals.nextRandomMethod(); } int localNumLoops = loopNumGen.nextInt(maxLoops); long facFunctionValue = factorial(localNumLoops); long facVerValue = verifyFact(localNumLoops); if (facFunctionValue != facVerValue) { System.out.println("Factorial Computed Incorrectly"); System.out.println("Specific Factorial Requested " + localNumLoops + "!"); throw new TestFailure("Expected: " + facVerValue + " Actual " + facFunctionValue); } Globals.addFunctionIDToVector(methodCallStr.id, ID); Globals.callMethod(methodCallStr, summation, ID, numFcalls, staticFcalls); } public void fiboTest(Vector summation, Vector ID, Long functionDepth, Integer staticFunctionDepth) throws InvocationTargetException { Globals.appendSumToSummationVector(MethodID[1], summation); if (CGT.shouldFinish()) { return; } if (Globals.VERBOSE) { System.out.println("test5.fiboTest"); } if ((functionDepth.longValue() <= 0) && (staticFunctionDepth.intValue() <= 0)) { return; } MethodData methodCallStr; Long numFcalls; Integer staticFcalls; if (staticFunctionDepth.intValue() > 0) { numFcalls = functionDepth; staticFcalls = Integer.valueOf(staticFunctionDepth.intValue() - 1); methodCallStr = Globals.returnNextStaticMethod(MethodID[1]); } else { numFcalls = Long.valueOf(functionDepth.longValue() - 1); staticFcalls = staticFunctionDepth; methodCallStr = Globals.nextRandomMethod(); } int localNumLoops = loopNumGen.nextInt(maxLoops * 3); long fiboFunctionValue = fibonacci(1, 1, localNumLoops); long fiboVerValue = verifyFibo(localNumLoops); if (fiboFunctionValue != fiboVerValue) { System.out.println("Fibonacci Series Computed Incorrectly"); System.out.println("Specific Digit Requested " + localNumLoops); throw new TestFailure("Expected: " + fiboVerValue + " Actual " + fiboFunctionValue); } Globals.addFunctionIDToVector(methodCallStr.id, ID); Globals.callMethod(methodCallStr, summation, ID, numFcalls, staticFcalls); } public void combTest(Vector summation, Vector ID, Long functionDepth, Integer staticFunctionDepth) throws InvocationTargetException { Globals.appendSumToSummationVector(MethodID[2], summation); if (CGT.shouldFinish()) { return; } if (Globals.VERBOSE) { System.out.println("test5.combTest"); } if ((functionDepth.longValue() <= 0) && (staticFunctionDepth.intValue() <= 0)) { return; } MethodData methodCallStr; Long numFcalls; Integer staticFcalls; if (staticFunctionDepth.intValue() > 0) { numFcalls = functionDepth; staticFcalls = Integer.valueOf(staticFunctionDepth.intValue() - 1); methodCallStr = Globals.returnNextStaticMethod(MethodID[2]); } else { numFcalls = Long.valueOf(functionDepth.longValue() - 1); staticFcalls = staticFunctionDepth; methodCallStr = Globals.nextRandomMethod(); } int n = loopNumGen.nextInt(maxLoops); int k = (n > 0) ? loopNumGen.nextInt(n) : 0; long combFunctionValue = combination(n, k); long combVerValue = verifyComb(n, k); if (combFunctionValue != combVerValue) { System.out.println("Combination Computed Incorrectly"); System.out.println("N = " + n + "K = " + k); throw new TestFailure("Expected: " + combVerValue + " Actual " + combFunctionValue); } Globals.addFunctionIDToVector(methodCallStr.id, ID); Globals.callMethod(methodCallStr, summation, ID, numFcalls, staticFcalls); } public void pascalTest(Vector summation, Vector ID, Long functionDepth, Integer staticFunctionDepth) throws InvocationTargetException { Globals.appendSumToSummationVector(MethodID[3], summation); if (CGT.shouldFinish()) { return; } if (Globals.VERBOSE) { System.out.println("test5.pascalTest"); } int[] x = new int[1 << 30]; x[1 << 24] = 1; if ((functionDepth.longValue() <= 0) && (staticFunctionDepth.intValue() <= 0)) { return; } MethodData methodCallStr; Long numFcalls; Integer staticFcalls; if (staticFunctionDepth.intValue() > 0) { numFcalls = functionDepth; staticFcalls = Integer.valueOf(staticFunctionDepth.intValue() - 1); methodCallStr = Globals.returnNextStaticMethod(MethodID[3]); } else { numFcalls = Long.valueOf(functionDepth.longValue() - 1); staticFcalls = staticFunctionDepth; methodCallStr = Globals.nextRandomMethod(); } int num = loopNumGen.nextInt(maxLoops); int[] pascalFunctionValue = pascalsTriangle(new int[]{1}, num); int[] pascalVerValue = verifyPascal(num); if (!verifyArray(pascalFunctionValue, pascalVerValue)) { StringBuilder temp = new StringBuilder("Expected: "); for (int aPascalVerValue : pascalVerValue) { temp.append(aPascalVerValue) .append(", "); } temp.append(" Actual "); for (int aPascalFunctionValue : pascalFunctionValue) { temp.append(aPascalFunctionValue) .append(", "); } System.out.println("Pascal Tringle Row Computed Incorrectly"); System.out.println("Row Number " + num); throw new TestFailure(temp.toString()); } Globals.addFunctionIDToVector(methodCallStr.id, ID); Globals.callMethod(methodCallStr, summation, ID, numFcalls, staticFcalls); } }