// Tags: JDK1.3 // Copyright (C) 2012 Pavel Tisnovsky // This file is part of Mauve. // Mauve is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2, or (at your option) // any later version. // Mauve 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 for more details. // You should have received a copy of the GNU General Public License // along with Mauve; see the file COPYING. If not, write to // the Free Software Foundation, 59 Temple Place - Suite 330, // Boston, MA 02111-1307, USA. package gnu.testlet.java.lang.Math.strictfp_modifier; import gnu.testlet.Testlet; import gnu.testlet.TestHarness; /** * Test for a static method Math.cos() * by using strictfp modifier. */ public strictfp class cos implements Testlet { /** * Function (=static method) checked by this test. */ private static double testedFunction(double input) { return Math.cos(input); } /** * These values are used as arguments to compute cos using Math. */ private static double[] inputValues = { Double.NaN, Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY, Double.MAX_VALUE, Double.MIN_VALUE, 0.0, Math.PI/4, Math.PI/2, Math.PI, 2*Math.PI, 4*Math.PI, 100*Math.PI, 1e10, 1e-10, -0.0, -Math.PI/4, -Math.PI/2, -Math.PI, -2*Math.PI, -4*Math.PI, -100*Math.PI, -1e10, -1e-10, }; /** * These values are the expected results, obtained from the RI. */ private static double[] outputValues = { // output value input value Double.NaN, // NaN Double.NaN, // Infinity Double.NaN, // -Infinity -0.9999876894265599, // Double.MAX_VALUE 1.0, // Double.MIN_VALUE 1.0, // 0.0 0.7071067811865476, // Math.PI/4 6.123233995736766E-17, // Math.PI/2 -1.0, // Math.PI 1.0, // 2*Math.PI 1.0, // 4*Math.PI 1.0, // 100*Math.PI 0.873119622676856, // 1.0E10 1.0, // 1.0E-10 1.0, // -0.0 0.7071067811865476, // -Math.PI/4 6.123233995736766E-17, // -Math.PI/2 -1.0, // -Math.PI 1.0, // -2*Math.PI 1.0, // -4*Math.PI 1.0, // -100*Math.PI 0.873119622676856, // -1.0E10 1.0, // -1.0E-10 }; /** * These values represent various NaN */ private static long[] NaNValues = { 0x7fff800000000000L, 0xffff800000000000L, 0x7fff812345abcdefL, 0xffff812345abcdefL, 0x7fff000000000001L, 0xffff000000000001L, 0x7fff7654321fedcbL, 0xffff7654321fedcbL }; /** * Test not NaN values. */ private void testInputValues(TestHarness harness) { double res; for (int i = 0; i < inputValues.length; ++i) { res = testedFunction(inputValues[i]); // exact equality harness.check(Double.doubleToLongBits(res), Double.doubleToLongBits(outputValues[i])); } } /** * Test if input NaN is returned unchanged. */ private void testNaN(TestHarness harness) { long bitsNaN; double valNaN; for (int i = 0; i < NaNValues.length; ++i) { bitsNaN = NaNValues[i]; valNaN = Double.longBitsToDouble(bitsNaN); // exact equality harness.check(Double.doubleToRawLongBits(testedFunction(valNaN)), bitsNaN); } } /** * Entry point to a test. */ public void test(TestHarness harness) { testInputValues(harness); testNaN(harness); } /** * Run this on the RI to obtain the expected output values. */ public static void main(String[] argv) { for (int i = 0; i < inputValues.length; ++i) { double input = inputValues[i]; double output = testedFunction(inputValues[i]); System.out.println(" " + Double.toString(output) + ", // " + input); } } }