| /* |
| * Copyright (C) 2016 The Android Open Source Project |
| * |
| * Licensed 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. |
| */ |
| |
| import java.lang.reflect.Method; |
| |
| public class Main { |
| |
| private static Class main2; |
| |
| /// CHECK-START: int Main.rotateLeftByte(byte, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:b\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftByte(byte, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:b\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftByte(byte, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateLeftByte(byte value, int distance) { |
| return Integer.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateLeftShort(short, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:s\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftShort(short, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:s\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftShort(short, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateLeftShort(short value, int distance) { |
| return Integer.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateLeftChar(char, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:c\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftChar(char, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:c\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftChar(char, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateLeftChar(char value, int distance) { |
| return Integer.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateLeftInt(int, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftInt(int, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftInt(int, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateLeftInt(int value, int distance) { |
| return Integer.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: long Main.rotateLeftLong(long, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:j\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:j\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:LongRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: long Main.rotateLeftLong(long, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:j\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:j\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: long Main.rotateLeftLong(long, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static long rotateLeftLong(long value, int distance) { |
| return Long.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateRightByte(byte, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:b\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightByte(byte, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:b\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightByte(byte, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateRightByte(byte value, int distance) { |
| return Integer.rotateRight(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateRightShort(short, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:s\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightShort(short, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:s\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightShort(short, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateRightShort(short value, int distance) { |
| return Integer.rotateRight(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateRightChar(char, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:c\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightChar(char, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:c\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightChar(char, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateRightChar(char value, int distance) { |
| return Integer.rotateRight(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateRightInt(int, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightInt(int, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightInt(int, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateRightInt(int value, int distance) { |
| return Integer.rotateRight(value, distance); |
| } |
| |
| /// CHECK-START: long Main.rotateRightLong(long, int) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:j\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:j\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:LongRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: long Main.rotateRightLong(long, int) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:j\d+>> ParameterValue |
| /// CHECK: <<ArgDist:i\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:j\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: long Main.rotateRightLong(long, int) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static long rotateRightLong(long value, int distance) { |
| return Long.rotateRight(value, distance); |
| } |
| |
| |
| /// CHECK-START: int Main.rotateLeftIntWithByteDistance(int, byte) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:b\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateLeft |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftIntWithByteDistance(int, byte) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:b\d+>> ParameterValue |
| /// CHECK-DAG: <<NegDist:i\d+>> Neg [<<ArgDist>>] |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<NegDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateLeftIntWithByteDistance(int, byte) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateLeftIntWithByteDistance(int value, byte distance) { |
| return Integer.rotateLeft(value, distance); |
| } |
| |
| /// CHECK-START: int Main.rotateRightIntWithByteDistance(int, byte) intrinsics_recognition (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:b\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> InvokeStaticOrDirect [<<ArgVal>>,<<ArgDist>>{{(,[ij]\d+)?}}] intrinsic:IntegerRotateRight |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightIntWithByteDistance(int, byte) instruction_simplifier (after) |
| /// CHECK: <<ArgVal:i\d+>> ParameterValue |
| /// CHECK: <<ArgDist:b\d+>> ParameterValue |
| /// CHECK-DAG: <<Result:i\d+>> Ror [<<ArgVal>>,<<ArgDist>>] |
| /// CHECK-DAG: Return [<<Result>>] |
| |
| /// CHECK-START: int Main.rotateRightIntWithByteDistance(int, byte) instruction_simplifier (after) |
| /// CHECK-NOT: InvokeStaticOrDirect |
| |
| private static int rotateRightIntWithByteDistance(int value, byte distance) { |
| return Integer.rotateRight(value, distance); |
| } |
| |
| |
| public static void testRotateLeftBoolean() throws Exception { |
| Method rotateLeftBoolean = main2.getMethod("rotateLeftBoolean", boolean.class, int.class); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0, (int)rotateLeftBoolean.invoke(null, false, i)); |
| expectEqualsInt(1 << i, (int)rotateLeftBoolean.invoke(null, true, i)); |
| } |
| } |
| |
| public static void testRotateLeftByte() { |
| expectEqualsInt(0x00000001, rotateLeftByte((byte)0x01, 0)); |
| expectEqualsInt(0x00000002, rotateLeftByte((byte)0x01, 1)); |
| expectEqualsInt(0x80000000, rotateLeftByte((byte)0x01, 31)); |
| expectEqualsInt(0x00000001, rotateLeftByte((byte)0x01, 32)); // overshoot |
| expectEqualsInt(0xFFFFFF03, rotateLeftByte((byte)0x81, 1)); |
| expectEqualsInt(0xFFFFFE07, rotateLeftByte((byte)0x81, 2)); |
| expectEqualsInt(0x00000120, rotateLeftByte((byte)0x12, 4)); |
| expectEqualsInt(0xFFFF9AFF, rotateLeftByte((byte)0x9A, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateLeftByte((byte)0x0000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateLeftByte((byte)0xFFFF, i)); |
| expectEqualsInt((1 << j), rotateLeftByte((byte)0x0001, i)); |
| expectEqualsInt((0x12 << j) | (0x12 >>> -j), rotateLeftByte((byte)0x12, i)); |
| } |
| } |
| |
| public static void testRotateLeftShort() { |
| expectEqualsInt(0x00000001, rotateLeftShort((short)0x0001, 0)); |
| expectEqualsInt(0x00000002, rotateLeftShort((short)0x0001, 1)); |
| expectEqualsInt(0x80000000, rotateLeftShort((short)0x0001, 31)); |
| expectEqualsInt(0x00000001, rotateLeftShort((short)0x0001, 32)); // overshoot |
| expectEqualsInt(0xFFFF0003, rotateLeftShort((short)0x8001, 1)); |
| expectEqualsInt(0xFFFE0007, rotateLeftShort((short)0x8001, 2)); |
| expectEqualsInt(0x00012340, rotateLeftShort((short)0x1234, 4)); |
| expectEqualsInt(0xFF9ABCFF, rotateLeftShort((short)0x9ABC, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateLeftShort((short)0x0000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateLeftShort((short)0xFFFF, i)); |
| expectEqualsInt((1 << j), rotateLeftShort((short)0x0001, i)); |
| expectEqualsInt((0x1234 << j) | (0x1234 >>> -j), rotateLeftShort((short)0x1234, i)); |
| } |
| } |
| |
| public static void testRotateLeftChar() { |
| expectEqualsInt(0x00000001, rotateLeftChar((char)0x0001, 0)); |
| expectEqualsInt(0x00000002, rotateLeftChar((char)0x0001, 1)); |
| expectEqualsInt(0x80000000, rotateLeftChar((char)0x0001, 31)); |
| expectEqualsInt(0x00000001, rotateLeftChar((char)0x0001, 32)); // overshoot |
| expectEqualsInt(0x00010002, rotateLeftChar((char)0x8001, 1)); |
| expectEqualsInt(0x00020004, rotateLeftChar((char)0x8001, 2)); |
| expectEqualsInt(0x00012340, rotateLeftChar((char)0x1234, 4)); |
| expectEqualsInt(0x009ABC00, rotateLeftChar((char)0x9ABC, 8)); |
| expectEqualsInt(0x00FF0000, rotateLeftChar((char)0xFF00, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateLeftChar((char)0x0000, i)); |
| expectEqualsInt((1 << j), rotateLeftChar((char)0x0001, i)); |
| expectEqualsInt((0x1234 << j) | (0x1234 >>> -j), rotateLeftChar((char)0x1234, i)); |
| } |
| } |
| |
| public static void testRotateLeftInt() { |
| expectEqualsInt(0x00000001, rotateLeftInt(0x00000001, 0)); |
| expectEqualsInt(0x00000002, rotateLeftInt(0x00000001, 1)); |
| expectEqualsInt(0x80000000, rotateLeftInt(0x00000001, 31)); |
| expectEqualsInt(0x00000001, rotateLeftInt(0x00000001, 32)); // overshoot |
| expectEqualsInt(0x00000003, rotateLeftInt(0x80000001, 1)); |
| expectEqualsInt(0x00000006, rotateLeftInt(0x80000001, 2)); |
| expectEqualsInt(0x23456781, rotateLeftInt(0x12345678, 4)); |
| expectEqualsInt(0xBCDEF09A, rotateLeftInt(0x9ABCDEF0, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateLeftInt(0x00000000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateLeftInt(0xFFFFFFFF, i)); |
| expectEqualsInt(1 << j, rotateLeftInt(0x00000001, i)); |
| expectEqualsInt((0x12345678 << j) | (0x12345678 >>> -j), rotateLeftInt(0x12345678, i)); |
| } |
| } |
| |
| public static void testRotateLeftLong() { |
| expectEqualsLong(0x0000000000000001L, rotateLeftLong(0x0000000000000001L, 0)); |
| expectEqualsLong(0x0000000000000002L, rotateLeftLong(0x0000000000000001L, 1)); |
| expectEqualsLong(0x8000000000000000L, rotateLeftLong(0x0000000000000001L, 63)); |
| expectEqualsLong(0x0000000000000001L, rotateLeftLong(0x0000000000000001L, 64)); // overshoot |
| expectEqualsLong(0x0000000000000003L, rotateLeftLong(0x8000000000000001L, 1)); |
| expectEqualsLong(0x0000000000000006L, rotateLeftLong(0x8000000000000001L, 2)); |
| expectEqualsLong(0x23456789ABCDEF01L, rotateLeftLong(0x123456789ABCDEF0L, 4)); |
| expectEqualsLong(0x3456789ABCDEF012L, rotateLeftLong(0x123456789ABCDEF0L, 8)); |
| for (int i = 0; i < 70; i++) { // overshoot a bit |
| int j = i & 63; |
| expectEqualsLong(0x0000000000000000L, rotateLeftLong(0x0000000000000000L, i)); |
| expectEqualsLong(0xFFFFFFFFFFFFFFFFL, rotateLeftLong(0xFFFFFFFFFFFFFFFFL, i)); |
| expectEqualsLong(1L << j, rotateLeftLong(0x0000000000000001, i)); |
| expectEqualsLong((0x123456789ABCDEF0L << j) | (0x123456789ABCDEF0L >>> -j), |
| rotateLeftLong(0x123456789ABCDEF0L, i)); |
| } |
| } |
| |
| public static void testRotateRightBoolean() throws Exception { |
| Method rotateRightBoolean = main2.getMethod("rotateRightBoolean", boolean.class, int.class); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0, (int)rotateRightBoolean.invoke(null, false, i)); |
| expectEqualsInt(1 << (32 - i), (int)rotateRightBoolean.invoke(null, true, i)); |
| } |
| } |
| |
| public static void testRotateRightByte() { |
| expectEqualsInt(0xFFFFFF80, rotateRightByte((byte)0x80, 0)); |
| expectEqualsInt(0x7FFFFFC0, rotateRightByte((byte)0x80, 1)); |
| expectEqualsInt(0xFFFFFF01, rotateRightByte((byte)0x80, 31)); |
| expectEqualsInt(0xFFFFFF80, rotateRightByte((byte)0x80, 32)); // overshoot |
| expectEqualsInt(0xFFFFFFC0, rotateRightByte((byte)0x81, 1)); |
| expectEqualsInt(0x7FFFFFE0, rotateRightByte((byte)0x81, 2)); |
| expectEqualsInt(0x20000001, rotateRightByte((byte)0x12, 4)); |
| expectEqualsInt(0x9AFFFFFF, rotateRightByte((byte)0x9A, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateRightByte((byte)0x00, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateRightByte((byte)0xFF, i)); |
| expectEqualsInt(1 << (32 - j), rotateRightByte((byte)0x01, i)); |
| expectEqualsInt((0x12 >>> j) | (0x12 << -j), rotateRightByte((byte)0x12, i)); |
| } |
| } |
| |
| public static void testRotateRightShort() { |
| expectEqualsInt(0xFFFF8000, rotateRightShort((short)0x8000, 0)); |
| expectEqualsInt(0x7FFFC000, rotateRightShort((short)0x8000, 1)); |
| expectEqualsInt(0xFFFF0001, rotateRightShort((short)0x8000, 31)); |
| expectEqualsInt(0xFFFF8000, rotateRightShort((short)0x8000, 32)); // overshoot |
| expectEqualsInt(0xFFFFC000, rotateRightShort((short)0x8001, 1)); |
| expectEqualsInt(0x7FFFE000, rotateRightShort((short)0x8001, 2)); |
| expectEqualsInt(0x40000123, rotateRightShort((short)0x1234, 4)); |
| expectEqualsInt(0xBCFFFF9A, rotateRightShort((short)0x9ABC, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateRightShort((short)0x0000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateRightShort((short)0xFFFF, i)); |
| expectEqualsInt(1 << (32 - j), rotateRightShort((short)0x0001, i)); |
| expectEqualsInt((0x1234 >>> j) | (0x1234 << -j), rotateRightShort((short)0x1234, i)); |
| } |
| } |
| |
| public static void testRotateRightChar() { |
| expectEqualsInt(0x00008000, rotateRightChar((char)0x8000, 0)); |
| expectEqualsInt(0x00004000, rotateRightChar((char)0x8000, 1)); |
| expectEqualsInt(0x00010000, rotateRightChar((char)0x8000, 31)); |
| expectEqualsInt(0x00008000, rotateRightChar((char)0x8000, 32)); // overshoot |
| expectEqualsInt(0x80004000, rotateRightChar((char)0x8001, 1)); |
| expectEqualsInt(0x40002000, rotateRightChar((char)0x8001, 2)); |
| expectEqualsInt(0x40000123, rotateRightChar((char)0x1234, 4)); |
| expectEqualsInt(0xBC00009A, rotateRightChar((char)0x9ABC, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateRightChar((char)0x0000, i)); |
| expectEqualsInt(1 << (32 - j), rotateRightChar((char)0x0001, i)); |
| expectEqualsInt((0x1234 >>> j) | (0x1234 << -j), rotateRightChar((char)0x1234, i)); |
| } |
| } |
| |
| public static void testRotateRightInt() { |
| expectEqualsInt(0x80000000, rotateRightInt(0x80000000, 0)); |
| expectEqualsInt(0x40000000, rotateRightInt(0x80000000, 1)); |
| expectEqualsInt(0x00000001, rotateRightInt(0x80000000, 31)); |
| expectEqualsInt(0x80000000, rotateRightInt(0x80000000, 32)); // overshoot |
| expectEqualsInt(0xC0000000, rotateRightInt(0x80000001, 1)); |
| expectEqualsInt(0x60000000, rotateRightInt(0x80000001, 2)); |
| expectEqualsInt(0x81234567, rotateRightInt(0x12345678, 4)); |
| expectEqualsInt(0xF09ABCDE, rotateRightInt(0x9ABCDEF0, 8)); |
| for (int i = 0; i < 40; i++) { // overshoot a bit |
| int j = i & 31; |
| expectEqualsInt(0x00000000, rotateRightInt(0x00000000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateRightInt(0xFFFFFFFF, i)); |
| expectEqualsInt(0x80000000 >>> j, rotateRightInt(0x80000000, i)); |
| expectEqualsInt((0x12345678 >>> j) | (0x12345678 << -j), rotateRightInt(0x12345678, i)); |
| } |
| } |
| |
| public static void testRotateRightLong() { |
| expectEqualsLong(0x8000000000000000L, rotateRightLong(0x8000000000000000L, 0)); |
| expectEqualsLong(0x4000000000000000L, rotateRightLong(0x8000000000000000L, 1)); |
| expectEqualsLong(0x0000000000000001L, rotateRightLong(0x8000000000000000L, 63)); |
| expectEqualsLong(0x8000000000000000L, rotateRightLong(0x8000000000000000L, 64)); // overshoot |
| expectEqualsLong(0xC000000000000000L, rotateRightLong(0x8000000000000001L, 1)); |
| expectEqualsLong(0x6000000000000000L, rotateRightLong(0x8000000000000001L, 2)); |
| expectEqualsLong(0x0123456789ABCDEFL, rotateRightLong(0x123456789ABCDEF0L, 4)); |
| expectEqualsLong(0xF0123456789ABCDEL, rotateRightLong(0x123456789ABCDEF0L, 8)); |
| for (int i = 0; i < 70; i++) { // overshoot a bit |
| int j = i & 63; |
| expectEqualsLong(0x0000000000000000L, rotateRightLong(0x0000000000000000L, i)); |
| expectEqualsLong(0xFFFFFFFFFFFFFFFFL, rotateRightLong(0xFFFFFFFFFFFFFFFFL, i)); |
| expectEqualsLong(0x8000000000000000L >>> j, rotateRightLong(0x8000000000000000L, i)); |
| expectEqualsLong((0x123456789ABCDEF0L >>> j) | (0x123456789ABCDEF0L << -j), |
| rotateRightLong(0x123456789ABCDEF0L, i)); |
| } |
| } |
| |
| |
| public static void testRotateLeftIntWithByteDistance() { |
| expectEqualsInt(0x00000001, rotateLeftIntWithByteDistance(0x00000001, (byte)0)); |
| expectEqualsInt(0x00000002, rotateLeftIntWithByteDistance(0x00000001, (byte)1)); |
| expectEqualsInt(0x80000000, rotateLeftIntWithByteDistance(0x00000001, (byte)31)); |
| expectEqualsInt(0x00000001, rotateLeftIntWithByteDistance(0x00000001, (byte)32)); // overshoot |
| expectEqualsInt(0x00000003, rotateLeftIntWithByteDistance(0x80000001, (byte)1)); |
| expectEqualsInt(0x00000006, rotateLeftIntWithByteDistance(0x80000001, (byte)2)); |
| expectEqualsInt(0x23456781, rotateLeftIntWithByteDistance(0x12345678, (byte)4)); |
| expectEqualsInt(0xBCDEF09A, rotateLeftIntWithByteDistance(0x9ABCDEF0, (byte)8)); |
| for (byte i = 0; i < 40; i++) { // overshoot a bit |
| byte j = (byte)(i & 31); |
| expectEqualsInt(0x00000000, rotateLeftIntWithByteDistance(0x00000000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateLeftIntWithByteDistance(0xFFFFFFFF, i)); |
| expectEqualsInt(1 << j, rotateLeftIntWithByteDistance(0x00000001, i)); |
| expectEqualsInt((0x12345678 << j) | (0x12345678 >>> -j), |
| rotateLeftIntWithByteDistance(0x12345678, i)); |
| } |
| } |
| |
| public static void testRotateRightIntWithByteDistance() { |
| expectEqualsInt(0x80000000, rotateRightIntWithByteDistance(0x80000000, (byte)0)); |
| expectEqualsInt(0x40000000, rotateRightIntWithByteDistance(0x80000000, (byte)1)); |
| expectEqualsInt(0x00000001, rotateRightIntWithByteDistance(0x80000000, (byte)31)); |
| expectEqualsInt(0x80000000, rotateRightIntWithByteDistance(0x80000000, (byte)32)); // overshoot |
| expectEqualsInt(0xC0000000, rotateRightIntWithByteDistance(0x80000001, (byte)1)); |
| expectEqualsInt(0x60000000, rotateRightIntWithByteDistance(0x80000001, (byte)2)); |
| expectEqualsInt(0x81234567, rotateRightIntWithByteDistance(0x12345678, (byte)4)); |
| expectEqualsInt(0xF09ABCDE, rotateRightIntWithByteDistance(0x9ABCDEF0, (byte)8)); |
| for (byte i = 0; i < 40; i++) { // overshoot a bit |
| byte j = (byte)(i & 31); |
| expectEqualsInt(0x00000000, rotateRightIntWithByteDistance(0x00000000, i)); |
| expectEqualsInt(0xFFFFFFFF, rotateRightIntWithByteDistance(0xFFFFFFFF, i)); |
| expectEqualsInt(0x80000000 >>> j, rotateRightIntWithByteDistance(0x80000000, i)); |
| expectEqualsInt((0x12345678 >>> j) | (0x12345678 << -j), |
| rotateRightIntWithByteDistance(0x12345678, i)); |
| } |
| } |
| |
| |
| public static void main(String args[]) throws Exception { |
| main2 = Class.forName("Main2"); |
| |
| testRotateLeftBoolean(); |
| testRotateLeftByte(); |
| testRotateLeftShort(); |
| testRotateLeftChar(); |
| testRotateLeftInt(); |
| testRotateLeftLong(); |
| |
| testRotateRightBoolean(); |
| testRotateRightByte(); |
| testRotateRightShort(); |
| testRotateRightChar(); |
| testRotateRightInt(); |
| testRotateRightLong(); |
| |
| // Also exercise distance values with types other than int. |
| testRotateLeftIntWithByteDistance(); |
| testRotateRightIntWithByteDistance(); |
| |
| System.out.println("passed"); |
| } |
| |
| |
| private static void expectEqualsInt(int expected, int result) { |
| if (expected != result) { |
| throw new Error("Expected: " + expected + ", found: " + result); |
| } |
| } |
| |
| private static void expectEqualsLong(long expected, long result) { |
| if (expected != result) { |
| throw new Error("Expected: " + expected + ", found: " + result); |
| } |
| } |
| } |