| /* Licensed to the Apache Software Foundation (ASF) under one or more |
| * contributor license agreements. See the NOTICE file distributed with |
| * this work for additional information regarding copyright ownership. |
| * The ASF licenses this file to You under the Apache License, Version 2.0 |
| * (the "License"); you may not use this file except in compliance with |
| * the License. You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| |
| package org.apache.harmony.luni.tests.java.lang; |
| |
| import dalvik.annotation.TestTargets; |
| import dalvik.annotation.TestLevel; |
| import dalvik.annotation.TestTargetNew; |
| import dalvik.annotation.TestTargetClass; |
| |
| import junit.framework.TestCase; |
| |
| @TestTargetClass(Float.class) |
| public class FloatTest extends TestCase { |
| |
| private static final int rawBitsFor3_4eN38To38[] = { 0x1394470, 0x2e7958c, 0x490bd77, 0x634ecd5, |
| 0x7e2280b, 0x98d5907, 0xb30af48, 0xcdcdb1a, 0xe8a08f0, 0x102c8b2d, 0x11d7adf8, |
| 0x1386ccbb, 0x15287fe9, 0x16d29fe4, 0x1883a3ee, 0x1a248cea, 0x1bcdb025, 0x1d808e17, |
| 0x1f20b19d, 0x20c8de04, 0x227b1585, 0x241ced73, 0x25c428d0, 0x27753303, 0x29193fe2, |
| 0x2abf8fdb, 0x2c6f73d1, 0x2e15a863, 0x2fbb127c, 0x3169d71a, 0x33122671, 0x34b6b00d, |
| 0x36645c10, 0x380eb98a, 0x39b267ec, 0x3b5f01e8, 0x3d0b6131, 0x3eae397d, 0x4059c7dc, |
| 0x42081cea, 0x43aa2424, 0x4554ad2d, 0x4704ec3c, 0x48a6274b, 0x4a4fb11e, 0x4c01ceb3, |
| 0x4da2425f, 0x4f4ad2f7, 0x50fd87b5, 0x529e74d1, 0x54461205, 0x55f79687, 0x579abe14, |
| 0x59416d99, 0x5af1c900, 0x5c971da0, 0x5e3ce508, 0x5fec1e4a, 0x619392ee, 0x633877a9, |
| 0x64e69594, 0x66901d7c, 0x683424dc, 0x69e12e12, 0x6b8cbccb, 0x6d2febfe, 0x6edbe6fe, |
| 0x7089705f, 0x722bcc76, 0x73d6bf94, 0x758637bc, 0x7727c5ac, 0x78d1b717, 0x7a83126e, |
| 0x7c23d70a, 0x7dcccccc, 0x7f7fffff }; |
| |
| private static final String expectedStringFor3_4eN38To38[] = { "3.4028235E-38", "3.4028235E-37", |
| "3.4028233E-36", "3.4028234E-35", "3.4028236E-34", "3.4028236E-33", |
| "3.4028234E-32", "3.4028234E-31", "3.4028233E-30", "3.4028236E-29", |
| "3.4028235E-28", "3.4028235E-27", "3.4028233E-26", "3.4028235E-25", |
| "3.4028233E-24", "3.4028235E-23", "3.4028236E-22", "3.4028235E-21", |
| "3.4028236E-20", "3.4028236E-19", "3.4028236E-18", "3.4028235E-17", |
| "3.4028236E-16", "3.4028234E-15", "3.4028234E-14", "3.4028235E-13", |
| "3.4028234E-12", "3.4028235E-11", "3.4028236E-10", "3.4028234E-9", "3.4028236E-8", |
| "3.4028236E-7", "3.4028235E-6", "3.4028235E-5", "3.4028233E-4", "0.0034028236", |
| "0.034028236", "0.34028235", "3.4028234", "34.028236", "340.28235", "3402.8235", |
| "34028.234", "340282.34", "3402823.5", "3.4028236E7", "3.40282336E8", |
| "3.40282342E9", "3.40282348E10", "3.40282343E11", "3.40282337E12", "3.40282353E13", |
| "3.4028234E14", "3.4028234E15", "3.40282356E16", "3.40282356E17", "3.40282356E18", |
| "3.4028236E19", "3.4028235E20", "3.4028233E21", "3.4028235E22", "3.4028233E23", |
| "3.4028236E24", "3.4028234E25", "3.4028233E26", "3.4028234E27", "3.4028235E28", |
| "3.4028236E29", "3.4028233E30", "3.4028235E31", "3.4028233E32", "3.4028236E33", |
| "3.4028236E34", "3.4028234E35", "3.4028236E36", "3.4028235E37", "3.4028235E38" }; |
| |
| private static final int rawBitsFor1_17eN38To38[] = { 0x80800000, 0x82200000, 0x83c80000, |
| 0x857a0000, 0x871c4000, 0x88c35000, 0x8a742400, 0x8c189680, 0x8dbebc20, 0x8f6e6b28, |
| 0x911502f9, 0x92ba43b7, 0x9468d4a5, 0x961184e7, 0x97b5e621, 0x99635fa9, 0x9b0e1bca, |
| 0x9cb1a2bc, 0x9e5e0b6b, 0xa00ac723, 0xa1ad78ec, 0xa358d727, 0xa5078678, 0xa6a96816, |
| 0xa853c21c, 0xaa045951, 0xaba56fa6, 0xad4ecb8f, 0xaf013f39, 0xb0a18f08, 0xb249f2ca, |
| 0xb3fc6f7c, 0xb59dc5ae, 0xb7453719, 0xb8f684df, 0xba9a130c, 0xbc4097ce, 0xbdf0bdc2, |
| 0xbf967699, 0xc13c1440, 0xc2eb1950, 0xc492efd2, 0xc637abc6, 0xc7e596b8, 0xc98f7e33, |
| 0xcb335dc0, 0xcce0352f, 0xce8c213e, 0xd02f298d, 0xd1daf3f0, 0xd388d876, 0xd52b0e94, |
| 0xd6d5d239, 0xd885a363, 0xda270c3c, 0xdbd0cf4b, 0xdd82818f, 0xdf2321f3, 0xe0cbea70, |
| 0xe27ee50b, 0xe41f4f27, 0xe5c722f1, 0xe778ebad, 0xe91b934c, 0xeac2781f, 0xec731627, |
| 0xee17edd8, 0xefbde94f, 0xf16d63a2, 0xf3145e45, 0xf4b975d7, 0xf667d34c, 0xf810e410, |
| 0xf9b51d14, 0xfb626459, 0xfd0d7eb7, 0xfeb0de65 }; |
| |
| private static final String expectedStringFor1_17eN38To38[] = { "-1.17549435E-38", |
| "-1.1754944E-37", "-1.17549435E-36", "-1.17549435E-35", "-1.1754944E-34", |
| "-1.17549435E-33", "-1.17549435E-32", "-1.1754944E-31", "-1.17549435E-30", |
| "-1.17549435E-29", "-1.1754944E-28", "-1.1754943E-27", "-1.17549435E-26", |
| "-1.1754943E-25", "-1.1754944E-24", "-1.1754943E-23", "-1.1754944E-22", |
| "-1.1754943E-21", "-1.1754943E-20", "-1.1754943E-19", "-1.1754944E-18", |
| "-1.1754944E-17", "-1.1754943E-16", "-1.1754943E-15", "-1.1754944E-14", |
| "-1.1754943E-13", "-1.1754944E-12", "-1.1754943E-11", "-1.1754943E-10", |
| "-1.1754944E-9", "-1.1754944E-8", "-1.1754943E-7", "-1.1754944E-6", |
| "-1.1754943E-5", "-1.1754943E-4", "-0.0011754944", "-0.011754943", "-0.117549434", |
| "-1.1754943", "-11.754944", "-117.54944", "-1175.4944", "-11754.943", "-117549.44", |
| "-1175494.4", "-1.1754944E7", "-1.17549432E8", "-1.1754944E9", "-1.17549435E10", |
| "-1.17549433E11", "-1.17549433E12", "-1.17549438E13", "-1.17549438E14", |
| "-1.1754943E15", "-1.17549432E16", "-1.17549432E17", "-1.17549434E18", |
| "-1.1754944E19", "-1.1754944E20", "-1.1754943E21", "-1.1754943E22", |
| "-1.1754944E23", "-1.17549434E24", "-1.1754943E25", "-1.1754943E26", |
| "-1.17549434E27", "-1.1754943E28", "-1.1754944E29", "-1.1754943E30", |
| "-1.1754943E31", "-1.1754944E32", "-1.1754943E33", "-1.1754944E34", |
| "-1.1754944E35", "-1.1754944E36", "-1.1754943E37", "-1.1754943E38" }; |
| |
| private void doTestCompareRawBits(String originalFloatString, int expectedRawBits, |
| String expectedString) { |
| int rawBits; |
| float result = Float.parseFloat(originalFloatString); |
| rawBits = Float.floatToIntBits(result); |
| assertEquals("Original float(" + originalFloatString + ") Converted float(" + result |
| + ") Expecting:" + Integer.toHexString(expectedRawBits) + " Got: " |
| + Integer.toHexString(rawBits), expectedRawBits, rawBits); |
| } |
| |
| /** |
| * @tests java.lang.Float#Float(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "Float", |
| args = {float.class} |
| ) |
| public void test_ConstructorF() { |
| // Test for method java.lang.Float(float) |
| |
| Float f = new Float(900.89f); |
| assertTrue("Created incorrect float", f.floatValue() == 900.89f); |
| } |
| |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "Float", |
| args = {double.class} |
| ) |
| public void test_ConstructorD() { |
| |
| Float f = new Float(Double.MAX_VALUE); |
| assertTrue("Created incorrect float", f.floatValue() == Float.POSITIVE_INFINITY); |
| } |
| |
| /** |
| * @tests java.lang.Float#Float(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "Float", |
| args = {java.lang.String.class} |
| ) |
| public void test_ConstructorLjava_lang_String() { |
| // Test for method java.lang.Float(java.lang.String) |
| |
| Float f = new Float("900.89"); |
| assertTrue("Created incorrect Float", f.floatValue() == 900.89f); |
| try { |
| new Float("900.89ff"); |
| fail("NumberFormatException is not thrown."); |
| } catch(NumberFormatException nfe) { |
| //expected |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#byteValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "byteValue", |
| args = {} |
| ) |
| public void test_byteValue() { |
| // Test for method byte java.lang.Float.byteValue() |
| Float f = new Float(0.46874f); |
| Float f2 = new Float(90.8f); |
| assertTrue("Returned incorrect byte value", f.byteValue() == 0 && f2.byteValue() == 90); |
| } |
| |
| /** |
| * @tests java.lang.Float#compareTo(java.lang.Float) |
| * @tests java.lang.Float#compare(float, float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "compare", |
| args = {float.class, float.class} |
| ) |
| public void test_compare() { |
| float[] values = new float[] { Float.NEGATIVE_INFINITY, -Float.MAX_VALUE, -2f, |
| -Float.MIN_VALUE, -0f, 0f, Float.MIN_VALUE, 2f, Float.MAX_VALUE, |
| Float.POSITIVE_INFINITY, Float.NaN }; |
| for (int i = 0; i < values.length; i++) { |
| float f1 = values[i]; |
| assertTrue("compare() should be equal: " + f1, Float.compare(f1, f1) == 0); |
| Float F1 = new Float(f1); |
| assertTrue("compareTo() should be equal: " + f1, F1.compareTo(F1) == 0); |
| for (int j = i + 1; j < values.length; j++) { |
| float f2 = values[j]; |
| assertTrue("compare() " + f1 + " should be less " + f2, |
| Float.compare(f1, f2) == -1); |
| assertTrue("compare() " + f2 + " should be greater " + f1, Float |
| .compare(f2, f1) == 1); |
| Float F2 = new Float(f2); |
| assertTrue("compareTo() " + f1 + " should be less " + f2, |
| F1.compareTo(F2) == -1); |
| assertTrue("compareTo() " + f2 + " should be greater " + f1, |
| F2.compareTo(F1) == 1); |
| } |
| } |
| |
| try { |
| new Float(0.0F).compareTo(null); |
| fail("No NPE"); |
| } catch (NullPointerException e) { |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#doubleValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "doubleValue", |
| args = {} |
| ) |
| public void test_doubleValue() { |
| // Test for method double java.lang.Float.doubleValue() |
| assertTrue("Incorrect double value returned", Math.abs(new Float(999999.999f) |
| .doubleValue() - 999999.999d) < 1); |
| } |
| |
| /** |
| * @tests java.lang.Float#floatToIntBits(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "floatToIntBits", |
| args = {float.class} |
| ) |
| public void test_floatToIntBitsF() { |
| float f = 9876.2345f; |
| int bits = Float.floatToIntBits(f); |
| float r = Float.intBitsToFloat(bits); |
| assertTrue("Incorrect intBits returned", f == r); |
| |
| assertEquals(0x7f800000, Float.floatToIntBits(Float.POSITIVE_INFINITY)); |
| assertEquals(0xff800000, Float.floatToIntBits(Float.NEGATIVE_INFINITY)); |
| assertEquals(0x7fc00000, Float.floatToIntBits(Float.NaN)); |
| } |
| |
| /** |
| * @tests java.lang.Float#floatToRawIntBits(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "floatToRawIntBits", |
| args = {float.class} |
| ) |
| public void test_floatToRawIntBitsF() { |
| int i = 0x7fc004d2; |
| float f = Float.intBitsToFloat(i); |
| assertTrue("Wrong raw bits", Float.floatToRawIntBits(f) == i); |
| |
| assertEquals(0x7f800000, Float.floatToRawIntBits(Float.POSITIVE_INFINITY)); |
| assertEquals(0xff800000, Float.floatToRawIntBits(Float.NEGATIVE_INFINITY)); |
| assertEquals(0x7fc00000, Float.floatToRawIntBits(Float.NaN)); |
| } |
| |
| /** |
| * @tests java.lang.Float#floatValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "floatValue", |
| args = {} |
| ) |
| public void test_floatValue() { |
| // Test for method float java.lang.Float.floatValue() |
| Float f = new Float(87.657f); |
| Float f2 = new Float(-0.876f); |
| assertTrue("Returned incorrect floatValue", f.floatValue() == 87.657f |
| && (f2.floatValue() == -0.876f)); |
| |
| } |
| |
| /** |
| * @tests java.lang.Float#hashCode() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "hashCode", |
| args = {} |
| ) |
| public void test_hashCode() { |
| // Test for method int java.lang.Float.hashCode() |
| Float f = new Float(1908.8786f); |
| assertTrue("Returned invalid hash code for 1908.8786f", f.hashCode() == Float |
| .floatToIntBits(1908.8786f)); |
| |
| f = new Float(-1.112f); |
| assertTrue("Returned invalid hash code for -1.112", f.hashCode() == Float |
| .floatToIntBits(-1.112f)); |
| |
| f = new Float(0f); |
| assertTrue("Returned invalid hash code for 0", f.hashCode() == Float.floatToIntBits(0f)); |
| |
| assertTrue(new Float(Float.MAX_VALUE).hashCode() != new Float(Float.MIN_VALUE).hashCode()); |
| } |
| |
| /** |
| * @tests java.lang.Float#intBitsToFloat(int) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "intBitsToFloat", |
| args = {int.class} |
| ) |
| public void test_intBitsToFloatI() { |
| float f = 9876.2345f; |
| int bits = Float.floatToIntBits(f); |
| float r = Float.intBitsToFloat(bits); |
| assertEquals("Incorrect intBits returned", f, r, 0F); |
| |
| assertEquals(Float.POSITIVE_INFINITY, Float.intBitsToFloat(0x7f800000)); |
| assertEquals(Float.NEGATIVE_INFINITY, Float.intBitsToFloat(0xff800000)); |
| |
| assertEquals(Float.NaN, Float.intBitsToFloat(0x7f800001)); |
| assertEquals(Float.NaN, Float.intBitsToFloat(0x7fffffff)); |
| assertEquals(Float.NaN, Float.intBitsToFloat(0xff800001)); |
| assertEquals(Float.NaN, Float.intBitsToFloat(0xffffffff)); |
| } |
| |
| /** |
| * @tests java.lang.Float#intValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "intValue", |
| args = {} |
| ) |
| public void test_intValue() { |
| // Test for method int java.lang.Float.intValue() |
| Float f = new Float(0.46874f); |
| Float f2 = new Float(90.8f); |
| assertTrue("Returned incorrect int value", f.intValue() == 0 && f2.intValue() == 90); |
| assertEquals(Integer.MAX_VALUE, new Float(Float.MAX_VALUE).intValue()); |
| assertEquals(0, new Float(Float.MIN_VALUE).intValue()); |
| } |
| |
| /** |
| * @tests java.lang.Float#isInfinite() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "isInfinite", |
| args = {} |
| ) |
| public void test_isInfinite() { |
| // Test for method boolean java.lang.Float.isInfinite() |
| assertTrue("Infinity check failed", |
| (new Float(Float.POSITIVE_INFINITY).isInfinite() && new Float( |
| Float.NEGATIVE_INFINITY).isInfinite()) |
| && !(new Float(0.13131414f).isInfinite())); |
| } |
| |
| /** |
| * @tests java.lang.Float#isInfinite(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "isInfinite", |
| args = {float.class} |
| ) |
| public void test_isInfiniteF() { |
| // Test for method boolean java.lang.Float.isInfinite(float) |
| |
| assertTrue("Infinity check failed", Float.isInfinite(Float.POSITIVE_INFINITY) |
| && (Float.isInfinite(Float.NEGATIVE_INFINITY)) && !(Float.isInfinite(1.0f))); |
| } |
| |
| /** |
| * @tests java.lang.Float#isNaN() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "isNaN", |
| args = {} |
| ) |
| public void test_isNaN() { |
| // Test for method boolean java.lang.Float.isNaN() |
| assertTrue("NAN check failed", new Float(Float.NaN).isNaN() |
| && !(new Float(1.0f).isNaN())); |
| } |
| |
| /** |
| * @tests java.lang.Float#isNaN(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "isNaN", |
| args = {float.class} |
| ) |
| public void test_isNaNF() { |
| // Test for method boolean java.lang.Float.isNaN(float) |
| assertTrue("NaN check failed", Float.isNaN(Float.NaN) && !(Float.isNaN(12.09f)) |
| && !Float.isNaN(Float.MAX_VALUE) && !Float.isNaN(Float.MIN_VALUE)); |
| } |
| |
| /** |
| * @tests java.lang.Float#longValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "longValue", |
| args = {} |
| ) |
| public void test_longValue() { |
| // Test for method long java.lang.Float.longValue() |
| Float f = new Float(0.46874f); |
| Float f2 = new Float(90.8f); |
| assertTrue("Returned incorrect long value", f.longValue() == 0 && f2.longValue() == 90); |
| assertEquals(Long.MAX_VALUE, new Float(Float.MAX_VALUE).longValue()); |
| assertEquals(0, new Float(Float.MIN_VALUE).longValue()); |
| } |
| |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies NumberFormatException.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloatLExceptions() { |
| String [] incorrectStrings = {"", ";", "99999999EE999999", "99999l", |
| "0x1.f.ffffep127"}; |
| for(int i = 0; i < incorrectStrings.length; i++) { |
| try { |
| Float.parseFloat(incorrectStrings[i]); |
| fail("NumberFormatException is not thrown for string: " |
| + incorrectStrings[i]); |
| } catch(NumberFormatException nfe) { |
| //expected |
| } |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies boundary cases.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloatLjava_lang_String() { |
| assertEquals("Incorrect float returned, expected zero.", 0.0, Float |
| .parseFloat("7.0064923216240853546186479164495e-46"), 0.0); |
| assertEquals("Incorrect float returned, expected minimum float.", Float.MIN_VALUE, |
| Float.parseFloat("7.0064923216240853546186479164496e-46"), 0.0); |
| |
| doTestCompareRawBits( |
| "0.000000000000000000000000000000000000011754942807573642917278829910357665133228589927589904276829631184250030649651730385585324256680905818939208984375", |
| 0x800000, "1.17549435E-38"); |
| doTestCompareRawBits( |
| "0.00000000000000000000000000000000000001175494280757364291727882991035766513322858992758990427682963118425003064965173038558532425668090581893920898437499999f", |
| 0x7fffff, "1.1754942E-38"); |
| |
| /* Test a set of regular floats with exponents from -38 to +38 */ |
| for (int i = 38; i > 3; i--) { |
| String testString; |
| testString = "3.4028234663852886e-" + i; |
| doTestCompareRawBits(testString, rawBitsFor3_4eN38To38[38 - i], |
| expectedStringFor3_4eN38To38[38 - i]); |
| } |
| doTestCompareRawBits("3.4028234663852886e-3", rawBitsFor3_4eN38To38[38 - 3], |
| expectedStringFor3_4eN38To38[38 - 3]); |
| doTestCompareRawBits("3.4028234663852886e-2", rawBitsFor3_4eN38To38[38 - 2], |
| expectedStringFor3_4eN38To38[38 - 2]); |
| doTestCompareRawBits("3.4028234663852886e-1", rawBitsFor3_4eN38To38[38 - 1], |
| expectedStringFor3_4eN38To38[38 - 1]); |
| doTestCompareRawBits("3.4028234663852886e-0", rawBitsFor3_4eN38To38[38 - 0], |
| expectedStringFor3_4eN38To38[38 - 0]); |
| doTestCompareRawBits("3.4028234663852886e+1", rawBitsFor3_4eN38To38[38 + 1], |
| expectedStringFor3_4eN38To38[38 + 1]); |
| doTestCompareRawBits("3.4028234663852886e+2", rawBitsFor3_4eN38To38[38 + 2], |
| expectedStringFor3_4eN38To38[38 + 2]); |
| doTestCompareRawBits("3.4028234663852886e+3", rawBitsFor3_4eN38To38[38 + 3], |
| expectedStringFor3_4eN38To38[38 + 3]); |
| doTestCompareRawBits("3.4028234663852886e+4", rawBitsFor3_4eN38To38[38 + 4], |
| expectedStringFor3_4eN38To38[38 + 4]); |
| doTestCompareRawBits("3.4028234663852886e+5", rawBitsFor3_4eN38To38[38 + 5], |
| expectedStringFor3_4eN38To38[38 + 5]); |
| doTestCompareRawBits("3.4028234663852886e+6", rawBitsFor3_4eN38To38[38 + 6], |
| expectedStringFor3_4eN38To38[38 + 6]); |
| |
| for (int i = 7; i < 39; i++) { |
| String testString; |
| testString = "3.4028234663852886e+" + i; |
| doTestCompareRawBits(testString, rawBitsFor3_4eN38To38[38 + i], |
| expectedStringFor3_4eN38To38[38 + i]); |
| } |
| |
| /* Test another set of regular floats with exponents from -38 to +38 */ |
| for (int i = 38; i > 3; i--) { |
| String testString; |
| testString = "-1.1754943508222875e-" + i; |
| doTestCompareRawBits(testString, rawBitsFor1_17eN38To38[38 - i], |
| expectedStringFor1_17eN38To38[38 - i]); |
| } |
| doTestCompareRawBits("-1.1754943508222875e-3", rawBitsFor1_17eN38To38[38 - 3], |
| expectedStringFor1_17eN38To38[38 - 3]); |
| doTestCompareRawBits("-1.1754943508222875e-2", rawBitsFor1_17eN38To38[38 - 2], |
| expectedStringFor1_17eN38To38[38 - 2]); |
| doTestCompareRawBits("-1.1754943508222875e-1", rawBitsFor1_17eN38To38[38 - 1], |
| expectedStringFor1_17eN38To38[38 - 1]); |
| doTestCompareRawBits("-1.1754943508222875e-0", rawBitsFor1_17eN38To38[38 - 0], |
| expectedStringFor1_17eN38To38[38 - 0]); |
| doTestCompareRawBits("-1.1754943508222875e+1", rawBitsFor1_17eN38To38[38 + 1], |
| expectedStringFor1_17eN38To38[38 + 1]); |
| doTestCompareRawBits("-1.1754943508222875e+2", rawBitsFor1_17eN38To38[38 + 2], |
| expectedStringFor1_17eN38To38[38 + 2]); |
| doTestCompareRawBits("-1.1754943508222875e+3", rawBitsFor1_17eN38To38[38 + 3], |
| expectedStringFor1_17eN38To38[38 + 3]); |
| doTestCompareRawBits("-1.1754943508222875e+4", rawBitsFor1_17eN38To38[38 + 4], |
| expectedStringFor1_17eN38To38[38 + 4]); |
| doTestCompareRawBits("-1.1754943508222875e+5", rawBitsFor1_17eN38To38[38 + 5], |
| expectedStringFor1_17eN38To38[38 + 5]); |
| doTestCompareRawBits("-1.1754943508222875e+6", rawBitsFor1_17eN38To38[38 + 6], |
| expectedStringFor1_17eN38To38[38 + 6]); |
| |
| for (int i = 7; i < 39; i++) { |
| String testString; |
| testString = "-1.1754943508222875e+" + i; |
| doTestCompareRawBits(testString, rawBitsFor1_17eN38To38[38 + i], |
| expectedStringFor1_17eN38To38[38 + i]); |
| } |
| |
| /* Test denormalized floats (floats with exponents <= -38 */ |
| doTestCompareRawBits("1.1012984643248170E-45", 1, "1.4E-45"); |
| doTestCompareRawBits("-1.1012984643248170E-45", 0x80000001, "-1.4E-45"); |
| doTestCompareRawBits("1.0E-45", 1, "1.4E-45"); |
| doTestCompareRawBits("-1.0E-45", 0x80000001, "-1.4E-45"); |
| doTestCompareRawBits("0.9E-45", 1, "1.4E-45"); |
| doTestCompareRawBits("-0.9E-45", 0x80000001, "-1.4E-45"); |
| doTestCompareRawBits("4.203895392974451e-45", 3, "4.2E-45"); |
| doTestCompareRawBits("-4.203895392974451e-45", 0x80000003, "-4.2E-45"); |
| doTestCompareRawBits("0.004E-45", 0, "0.0"); |
| doTestCompareRawBits("-0.004E-45", 0x80000000, "-0.0"); |
| |
| /* |
| * Test for large floats close to and greater than 3.4028235E38 and |
| * -3.4028235E38 |
| */ |
| doTestCompareRawBits("1.2E+38", 0x7eb48e52, "1.2E38"); |
| doTestCompareRawBits("-1.2E+38", 0xfeb48e52, "-1.2E38"); |
| doTestCompareRawBits("3.2E+38", 0x7f70bdc2, "3.2E38"); |
| doTestCompareRawBits("-3.2E+38", 0xff70bdc2, "-3.2E38"); |
| doTestCompareRawBits("3.4E+38", 0x7f7fc99e, "3.4E38"); |
| doTestCompareRawBits("-3.4E+38", 0xff7fc99e, "-3.4E38"); |
| doTestCompareRawBits("3.4028234663852886E+38", 0x7f7fffff, "3.4028235E38"); |
| doTestCompareRawBits("-3.4028234663852886E+38", 0xff7fffff, "-3.4028235E38"); |
| doTestCompareRawBits("3.405E+38", 0x7f800000, "Infinity"); |
| doTestCompareRawBits("-3.405E+38", 0xff800000, "-Infinity"); |
| doTestCompareRawBits("3.41E+38", 0x7f800000, "Infinity"); |
| doTestCompareRawBits("-3.41E+38", 0xff800000, "-Infinity"); |
| doTestCompareRawBits("3.42E+38", 0x7f800000, "Infinity"); |
| doTestCompareRawBits("-3.42E+38", 0xff800000, "-Infinity"); |
| doTestCompareRawBits("1.0E+39", 0x7f800000, "Infinity"); |
| doTestCompareRawBits("-1.0E+39", 0xff800000, "-Infinity"); |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies boundary values.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_Unusual() { |
| float actual; |
| |
| actual = Float.parseFloat("0x00000000000000000000000000000000000000000.0000000000000000000000000000000000000p0000000000000000000000000000000000"); |
| assertEquals("Returned incorrect value", 0.0f, actual, 0.0F); |
| |
| actual = Float.parseFloat("+0Xfffff.fffffffffffffffffffffffffffffffp+99F"); |
| assertEquals("Returned incorrect value", 6.64614E35f, actual, 0.0F); |
| |
| actual = Float.parseFloat("-0X.123456789abcdefp+99f"); |
| assertEquals("Returned incorrect value", -4.5072022E28f, actual, 0.0F); |
| |
| actual = Float.parseFloat("-0X123456789abcdef.p+1f"); |
| assertEquals("Returned incorrect value", -1.63971062E17f, actual, 0.0F); |
| |
| actual = Float.parseFloat("-0X000000000000000000000000000001abcdef.0000000000000000000000000001abefp00000000000000000000000000000000000000000004f"); |
| assertEquals("Returned incorrect value", -4.48585472E8f, actual, 0.0F); |
| |
| actual = Float.parseFloat("0X0.00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001234p600f"); |
| assertEquals("Returned incorrect value", 5.907252E33f, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x1.p9223372036854775807"); |
| assertEquals("Returned incorrect value", Float.POSITIVE_INFINITY, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x1.p9223372036854775808"); |
| assertEquals("Returned incorrect value", Float.POSITIVE_INFINITY, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x10.p9223372036854775808"); |
| assertEquals("Returned incorrect value", Float.POSITIVE_INFINITY, actual, 0.0F); |
| |
| actual = Float.parseFloat("0xabcd.ffffffffp+2000"); |
| assertEquals("Returned incorrect value", Float.POSITIVE_INFINITY, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x1.p-9223372036854775808"); |
| assertEquals("Returned incorrect value", 0.0f, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x1.p-9223372036854775809"); |
| assertEquals("Returned incorrect value", 0.0f, actual, 0.0F); |
| |
| actual = Float.parseFloat("0x.1p-9223372036854775809"); |
| assertEquals("Returned incorrect value", 0.0f, actual, 0.0F); |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies positive exponent.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_NormalPositiveExponent() { |
| int[] expecteds = { |
| 0x3991a2b4, 0x43cc0247, 0x47909009, |
| 0x4ac0c009, 0x4e109005, 0x5140c005, |
| 0x5458d805, 0x57848402, 0x5a909002, |
| 0x5da8a802, 0x60c0c002, 0x63cccc02, |
| 0x66e4e402, 0x69f0f002, 0x6d048401, |
| 0x70109001, 0x73169601, 0x76810810, |
| 0x79840840, 0x7c8a08a0, 0x7f800000, |
| 0x7f800000, 0x7f800000, 0x7f800000, |
| 0x7f800000, |
| }; |
| |
| for (int i = 0; i < expecteds.length; i++) { |
| int part = i * 6; |
| String inputString = "0x" + part + "." + part + "0123456789abcdefp" + part; |
| |
| float actual = Float.parseFloat(inputString); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputString |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies negative exponent.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_NormalNegativeExponent() { |
| int[] expecteds = { |
| 0x3991a2b4, |
| 0x3d6e0247, |
| 0x3aa0a009, |
| 0x37848405, |
| 0x3420a005, |
| 0x30d4d405, |
| 0x2d848402, |
| 0x2a129202, |
| 0x26acac02, |
| 0x2346c602, |
| 0x1fe0e002, |
| 0x1c6eee02, |
| 0x19048401, |
| 0x15919101, |
| 0x12189801, |
| 0xf028828, |
| 0xb890890, |
| 0x80c88c8, |
| 0x4930930, |
| 0x1198998, |
| 0x28028, |
| 0x51c, |
| 0xb, |
| 0x0, |
| 0x0, |
| }; |
| |
| for (int i = 0; i < expecteds.length; i++) { |
| int part = i * 7; |
| String inputString = "0x" + part + "." + part + "0123456789abcdefp-" + part; |
| |
| float actual = Float.parseFloat(inputString); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputString |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies max boundary value. Doesn't verify NumberFormatException.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_MaxNormalBoundary() { |
| int[] expecteds ={ |
| 0x7f7fffff, |
| 0x7f7fffff, |
| 0x7f7fffff, |
| 0x7f800000, |
| 0x7f800000, |
| 0x7f800000, |
| |
| 0xff7fffff, |
| 0xff7fffff, |
| 0xff7fffff, |
| 0xff800000, |
| 0xff800000, |
| 0xff800000, |
| }; |
| |
| String[] inputs = { |
| "0x1.fffffep127", |
| "0x1.fffffe000000000000000000000000000000000000000000000001p127", |
| "0x1.fffffeffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp127", |
| "0x1.ffffffp127", |
| "0x1.ffffff000000000000000000000000000000000000000000000001p127", |
| "0x1.ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp127", |
| |
| "-0x1.fffffep127", |
| "-0x1.fffffe000000000000000000000000000000000000000000000001p127", |
| "-0x1.fffffeffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp127", |
| "-0x1.ffffffp127", |
| "-0x1.ffffff000000000000000000000000000000000000000000000001p127", |
| "-0x1.ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp127", |
| }; |
| |
| for (int i = 0; i < inputs.length; i++) { |
| float actual = Float.parseFloat(inputs[i]); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputs[i] |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies min boundary value.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_MinNormalBoundary() { |
| int expecteds[] = { |
| 0x800000, |
| 0x800000, |
| 0x800000, |
| 0x800000, |
| 0x800001, |
| 0x800001, |
| |
| 0x80800000, |
| 0x80800000, |
| 0x80800000, |
| 0x80800000, |
| 0x80800001, |
| 0x80800001, |
| }; |
| |
| String inputs[] = { |
| "0x1.0p-126", |
| "0x1.00000000000000000000000000000000000000000000001p-126", |
| "0x1.000000ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "0x1.000001p-126", |
| "0x1.000001000000000000000000000000000000000000000001p-126", |
| "0x1.000001fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| |
| "-0x1.0p-126", |
| "-0x1.00000000000000000000000000000000000000000000001p-126", |
| "-0x1.000000ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "-0x1.000001p-126", |
| "-0x1.000001000000000000000000000000000000000000000001p-126", |
| "-0x1.000001fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| }; |
| |
| for (int i = 0; i < inputs.length; i++) { |
| float actual = Float.parseFloat(inputs[i]); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputs[i] |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies max boundary value.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_MaxSubNormalBoundary() { |
| int expecteds[] = { |
| 0x7fffff, |
| 0x7fffff, |
| 0x7fffff, |
| 0x800000, |
| 0x800000, |
| 0x800000, |
| |
| 0x807fffff, |
| 0x807fffff, |
| 0x807fffff, |
| 0x80800000, |
| 0x80800000, |
| 0x80800000, |
| }; |
| |
| String inputs[] = { |
| "0x0.fffffep-126", |
| "0x0.fffffe000000000000000000000000000000000000000000000000000001p-126", |
| "0x0.fffffefffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "0x0.ffffffp-126", |
| "0x0.ffffff0000000000000000000000000000000000000000000000000000001p-126", |
| "0x0.ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| |
| "-0x0.fffffep-126", |
| "-0x0.fffffe000000000000000000000000000000000000000000000000000001p-126", |
| "-0x0.fffffefffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "-0x0.ffffffp-126", |
| "-0x0.ffffff0000000000000000000000000000000000000000000000000000001p-126", |
| "-0x0.ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| }; |
| |
| for (int i = 0; i < inputs.length; i++) { |
| float actual = Float.parseFloat(inputs[i]); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputs[i] |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies min boundary value.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_MinSubNormalBoundary() { |
| int expecteds[] = { |
| 0x1, |
| 0x1, |
| 0x1, |
| 0x2, |
| 0x2, |
| 0x2, |
| |
| 0x80000001, |
| 0x80000001, |
| 0x80000001, |
| 0x80000002, |
| 0x80000002, |
| 0x80000002, |
| }; |
| |
| String inputs[] = { |
| "0x0.000002p-126", |
| "0x0.00000200000000000000000000000000000000000001p-126", |
| "0x0.000002ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "0x0.000003p-126", |
| "0x0.000003000000000000000000000000000000000000001p-126", |
| "0x0.000003ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| |
| "-0x0.000002p-126", |
| "-0x0.00000200000000000000000000000000000000000001p-126", |
| "-0x0.000002ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "-0x0.000003p-126", |
| "-0x0.000003000000000000000000000000000000000000001p-126", |
| "-0x0.000003ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| }; |
| |
| for (int i = 0; i < inputs.length; i++) { |
| float actual = Float.parseFloat(inputs[i]); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputs[i] |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#parseFloat(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.PARTIAL_COMPLETE, |
| notes = "Verifies zero boundary value.", |
| method = "parseFloat", |
| args = {java.lang.String.class} |
| ) |
| public void test_parseFloat_LString_ZeroBoundary() { |
| int expecteds[] = { |
| 0x0, |
| 0x0, |
| 0x0, |
| 0x0, |
| 0x1, |
| 0x1, |
| |
| 0x80000000, |
| 0x80000000, |
| 0x80000000, |
| 0x80000000, |
| 0x80000001, |
| 0x80000001, |
| }; |
| |
| String inputs[] = { |
| "0x0.000000000000000p-126", |
| "0x0.000000000000000000000000000000000000000000000001p-126", |
| "0x0.000000fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "0x0.000001p-126", |
| "0x0.000001000000000000000000000000000000000000000001p-126", |
| "0x0.000001fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| |
| "-0x0.000000000000000p-126", |
| "-0x0.000000000000000000000000000000000000000000000001p-126", |
| "-0x0.000000fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| "-0x0.000001p-126", |
| "-0x0.000001000000000000000000000000000000000000000001p-126", |
| "-0x0.000001fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffp-126", |
| }; |
| |
| for (int i = 0; i < inputs.length; i++) { |
| float actual = Float.parseFloat(inputs[i]); |
| float expected = Float.intBitsToFloat(expecteds[i]); |
| |
| String expectedString = Integer.toHexString(Float.floatToIntBits(expected)); |
| String actualString = Integer.toHexString(Float.floatToIntBits(actual)); |
| String errorMsg = i + "th input string is:<" + inputs[i] |
| + ">.The expected result should be:<" + expectedString |
| + ">, but was: <" + actualString + ">. "; |
| |
| assertEquals(errorMsg, expected, actual, 0.0F); |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#shortValue() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "shortValue", |
| args = {} |
| ) |
| public void test_shortValue() { |
| // Test for method short java.lang.Float.shortValue() |
| Float f = new Float(0.46874f); |
| Float f2 = new Float(90.8f); |
| assertTrue("Returned incorrect short value", f.shortValue() == 0 |
| && f2.shortValue() == 90); |
| } |
| |
| /** |
| * @tests java.lang.Float#toString() |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "toString", |
| args = {} |
| ) |
| public void test_toString() { |
| // Test for method java.lang.String java.lang.Float.toString() |
| |
| test_toString(12.90898f, "12.90898"); |
| |
| test_toString(1.7014118346046924e+38F, "1.7014118E38"); |
| } |
| |
| /** |
| * @tests java.lang.Float#toString(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "toString", |
| args = {float.class} |
| ) |
| public void test_toStringF() { |
| // Test for method java.lang.String java.lang.Float.toString(float) |
| |
| float ff; |
| String answer; |
| |
| ff = 12.90898f; |
| answer = "12.90898"; |
| assertTrue("Incorrect String representation want " + answer + ", got " |
| + Float.toString(ff), Float.toString(ff).equals(answer)); |
| |
| ff = Float.MAX_VALUE; |
| answer = "3.4028235E38"; |
| assertTrue("Incorrect String representation want " + answer + ", got " |
| + Float.toString(ff), Float.toString(ff).equals(answer)); |
| } |
| |
| /** |
| * @tests java.lang.Float#valueOf(java.lang.String) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "valueOf", |
| args = {java.lang.String.class} |
| ) |
| public void test_valueOfLjava_lang_String() { |
| // Test for method java.lang.Float |
| // java.lang.Float.valueOf(java.lang.String) |
| |
| Float wanted = new Float(432.1235f); |
| Float got = Float.valueOf("432.1235"); |
| assertTrue("Incorrect float returned--wanted: " + wanted + " but got: " + got, got |
| .equals(wanted)); |
| |
| wanted = new Float(0f); |
| got = Float.valueOf("0"); |
| assertTrue("Incorrect float returned--wanted: " + wanted + " but got: " + got, got |
| .equals(wanted)); |
| |
| wanted = new Float(-1212.3232f); |
| got = Float.valueOf("-1212.3232"); |
| assertTrue("Incorrect float returned--wanted: " + wanted + " but got: " + got, got |
| .equals(wanted)); |
| |
| try { |
| Float.valueOf(null); |
| fail("Expected Float.valueOf(null) to throw NPE."); |
| } catch (NullPointerException ex) { |
| // expected |
| } |
| |
| try { |
| Float.valueOf(""); |
| fail("Expected Float.valueOf(\"\") to throw NFE"); |
| } catch (NumberFormatException e) { |
| // expected |
| } |
| |
| Float posZero = Float.valueOf("+0.0"); |
| Float negZero = Float.valueOf("-0.0"); |
| assertFalse("Floattest0", posZero.equals(negZero)); |
| assertTrue("Floattest1", 0.0f == -0.0f); |
| |
| // Tests for float values by name. |
| Float expectedNaN = new Float(Float.NaN); |
| |
| Float posNaN = Float.valueOf("NaN"); |
| assertTrue("Floattest2", posNaN.equals(expectedNaN)); |
| |
| Float posNaNSigned = Float.valueOf("+NaN"); |
| assertTrue("Floattest3", posNaNSigned.equals(expectedNaN)); |
| |
| Float negNaNSigned = Float.valueOf("-NaN"); |
| assertTrue("Floattest4", negNaNSigned.equals(expectedNaN)); |
| |
| Float posInfinite = Float.valueOf("Infinity"); |
| assertTrue("Floattest5", posInfinite.equals(new Float(Float.POSITIVE_INFINITY))); |
| |
| Float posInfiniteSigned = Float.valueOf("+Infinity"); |
| assertTrue("Floattest6", posInfiniteSigned.equals(new Float(Float.POSITIVE_INFINITY))); |
| |
| Float negInfiniteSigned = Float.valueOf("-Infinity"); |
| assertTrue("Floattest7", negInfiniteSigned.equals(new Float(Float.NEGATIVE_INFINITY))); |
| } |
| |
| private void test_toString(float ff, String answer) { |
| // Test for method java.lang.String java.lang.Double.toString(double) |
| assertTrue("Incorrect String representation want " + answer + ", got (" |
| + Float.toString(ff) + ")", Float.toString(ff).equals(answer)); |
| Float f = new Float(ff); |
| assertTrue("Incorrect String representation want " + answer + ", got (" |
| + Float.toString(f.floatValue()) + ")", Float.toString(f.floatValue()).equals( |
| answer)); |
| assertTrue("Incorrect String representation want " + answer + ", got (" + f.toString() |
| + ")", f.toString().equals(answer)); |
| } |
| |
| /** |
| * @tests java.lang.Float#compareTo(java.lang.Float) |
| * @tests java.lang.Float#compare(float, float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "compareTo", |
| args = {java.lang.Float.class} |
| ) |
| public void test_compareToLjava_lang_Float() { |
| // A selection of float values in ascending order. |
| float[] values = new float[] { Float.NEGATIVE_INFINITY, -Float.MAX_VALUE, -2f, |
| -Float.MIN_VALUE, -0f, 0f, Float.MIN_VALUE, 2f, Float.MAX_VALUE, |
| Float.POSITIVE_INFINITY, Float.NaN }; |
| |
| for (int i = 0; i < values.length; i++) { |
| float f1 = values[i]; |
| |
| // Test that each value compares equal to itself; and each object is |
| // equal to another object |
| // like itself |
| assertTrue("Assert 0: compare() should be equal: " + f1, Float.compare(f1, f1) == 0); |
| Float objFloat = new Float(f1); |
| assertTrue("Assert 1: compareTo() should be equal: " + objFloat, objFloat |
| .compareTo(objFloat) == 0); |
| |
| // Test that the Float-defined order is respected |
| for (int j = i + 1; j < values.length; j++) { |
| float f2 = values[j]; |
| assertTrue("Assert 2: compare() " + f1 + " should be less " + f2, Float |
| .compare(f1, f2) == -1); |
| assertTrue("Assert 3: compare() " + f2 + " should be greater " + f1, Float |
| .compare(f2, f1) == 1); |
| |
| Float F2 = new Float(f2); |
| assertTrue("Assert 4: compareTo() " + f1 + " should be less " + f2, objFloat |
| .compareTo(F2) == -1); |
| assertTrue("Assert 5: compareTo() " + f2 + " should be greater " + f1, F2 |
| .compareTo(objFloat) == 1); |
| } |
| } |
| } |
| |
| /** |
| * @tests java.lang.Float#equals(java.lang.Object) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "equals", |
| args = {java.lang.Object.class} |
| ) |
| public void test_equalsLjava_lang_Object() { |
| Float f1 = new Float(8765.4321f); |
| Float f2 = new Float(8765.4321f); |
| Float f3 = new Float(-1.0f); |
| assertTrue("Assert 0: Equality test failed", f1.equals(f2) && !(f1.equals(f3))); |
| |
| assertTrue("Assert 1: NaN should not be == Nan", Float.NaN != Float.NaN); |
| assertTrue("Assert 2: NaN should not be == Nan", new Float(Float.NaN).equals(new Float( |
| Float.NaN))); |
| assertTrue("Assert 3: -0f should be == 0f", 0f == -0f); |
| assertTrue("Assert 4: -0f should not be equals() 0f", !new Float(0f).equals(new Float( |
| -0f))); |
| |
| f1 = new Float(1098.576f); |
| f2 = new Float(1098.576f); |
| f3 = new Float(1.0f); |
| assertTrue("Equality test failed", f1.equals(f2) && !(f1.equals(f3))); |
| |
| assertTrue("NaN should not be == Nan", Float.NaN != Float.NaN); |
| assertTrue("NaN should not be == Nan", new Float(Float.NaN) |
| .equals(new Float(Float.NaN))); |
| assertTrue("-0f should be == 0f", 0f == -0f); |
| assertTrue("-0f should not be equals() 0f", !new Float(0f).equals(new Float(-0f))); |
| } |
| |
| /** |
| * @tests java.lang.Float#toHexString(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "toHexString", |
| args = {float.class} |
| ) |
| public void test_toHexStringF() { |
| // the follow values comes from the Float Javadoc/Spec |
| assertEquals("0x0.0p0", Float.toHexString(0.0F)); |
| assertEquals("-0x0.0p0", Float.toHexString(-0.0F)); |
| assertEquals("0x1.0p0", Float.toHexString(1.0F)); |
| assertEquals("-0x1.0p0", Float.toHexString(-1.0F)); |
| assertEquals("0x1.0p1", Float.toHexString(2.0F)); |
| assertEquals("0x1.8p1", Float.toHexString(3.0F)); |
| assertEquals("0x1.0p-1", Float.toHexString(0.5F)); |
| assertEquals("0x1.0p-2", Float.toHexString(0.25F)); |
| assertEquals("0x1.fffffep127", Float.toHexString(Float.MAX_VALUE)); |
| assertEquals("0x0.000002p-126", Float.toHexString(Float.MIN_VALUE)); |
| |
| // test edge cases |
| assertEquals("NaN", Float.toHexString(Float.NaN)); |
| assertEquals("-Infinity", Float.toHexString(Float.NEGATIVE_INFINITY)); |
| assertEquals("Infinity", Float.toHexString(Float.POSITIVE_INFINITY)); |
| |
| // test various numbers |
| assertEquals("-0x1.da8p6", Float.toHexString(-118.625F)); |
| assertEquals("0x1.295788p23", Float.toHexString(9743299.65F)); |
| assertEquals("0x1.295788p23", Float.toHexString(9743299.65000F)); |
| assertEquals("0x1.295788p23", Float.toHexString(9743299.650001234F)); |
| assertEquals("0x1.700d1p33", Float.toHexString(12349743299.65000F)); |
| |
| // test HARMONY-2132 |
| assertEquals("0x1.01p10", Float.toHexString(0x1.01p10f)); |
| } |
| |
| /** |
| * @tests java.lang.Float#valueOf(float) |
| */ |
| @TestTargetNew( |
| level = TestLevel.COMPLETE, |
| notes = "", |
| method = "valueOf", |
| args = {float.class} |
| ) |
| public void test_valueOfF() { |
| assertEquals(new Float(Float.MIN_VALUE), Float.valueOf(Float.MIN_VALUE)); |
| assertEquals(new Float(Float.MAX_VALUE), Float.valueOf(Float.MAX_VALUE)); |
| assertEquals(new Float(0), Float.valueOf(0)); |
| |
| int s = -128; |
| while (s < 128) { |
| assertEquals(new Float(s), Float.valueOf(s)); |
| assertEquals(new Float(s + 0.1F), Float.valueOf(s + 0.1F)); |
| assertEquals(Float.valueOf(s + 0.1F), Float.valueOf(s + 0.1F)); |
| s++; |
| } |
| } |
| } |