tests/language_2/bit_operations_test.dart - sdk - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.
 // Dart test for testing bitwise operations.
 // VMOptions=--optimization-counter-threshold=10 --no-use-osr --no-background-compilation --enable-inlining-annotations

 import "package:expect/expect.dart";

 const neverInline = "NeverInline";

 void main() {
   for (int i = 0; i < 4; i++) {
     test();
   }
 }

 void test() {
   Expect.equals(3, (3 & 7));
   Expect.equals(7, (3 | 7));
   Expect.equals(4, (3 ^ 7));
   Expect.equals(25, (100 >> 2));
   Expect.equals(400, (100 << 2));
   Expect.equals(-25, (-100 >> 2));
   Expect.equals(-101, ~100);
   Expect.equals(0, 1 << 64);
   Expect.equals(0, -1 << 64);
   Expect.equals(0x40000000, 0x04000000 << 4);
   Expect.equals(0x4000000000000000, 0x0400000000000000 << 4);
   Expect.equals(0, ~ -1);
   Expect.equals(-1, ~0);

   Expect.equals(0, 1 >> 160);
   Expect.equals(-1, -1 >> 160);

   Expect.equals(0x1000000000000001, 0x1000000000000001 & 0x1000100F00000001);
   Expect.equals(0x1, 0x1 & 0x1000100F00000001);
   Expect.equals(0x1, 0x1000100F00000001 & 0x1);

   Expect.equals(0x1000100F00000001, 0x1000000000000001 | 0x1000100F00000001);
   Expect.equals(0x1000100F00000011, 0x11 | 0x1000100F00000001);
   Expect.equals(0x1000100F00000011, 0x1000100F00000001 | 0x11);

   Expect.equals(0x0F00000000000000, 0x0F00000000000001 ^ 0x0000000000000001);
   Expect.equals(0x31, 0x0F00000000000001 ^ 0x0F00000000000030);
   Expect.equals(0x0F00000000000031, 0x0F00000000000001 ^ 0x30);
   Expect.equals(0x0F00000000000031, 0x30 ^ 0x0F00000000000001);

   Expect.equals(0x000000000000000F, 0x000000000000000F7 >> 4);
   Expect.equals(15, 0xF00000000 >> 32);
   Expect.equals(1030792151040, 16492674416655 >> 4);

   Expect.equals(0x00000000000000F0, 0xF00000000000000F << 4);
   Expect.equals(0xF00000000, 15 << 32);

   testNegativeValueShifts();
   testPositiveValueShifts();
   testNoMaskingOfShiftCount();
   testNegativeCountShifts();
   for (int i = 0; i < 20; i++) {
     testCornerCasesRightShifts();
     testRightShift64Bit();
     testLeftShift64Bit();
     testLeftShift64BitWithOverflow1();
     testLeftShift64BitWithOverflow2();
     testLeftShift64BitWithOverflow3();
   }

   // Test precedence.
   testPrecedence(4, 5, 3, 1);
   testPrecedence(3, 4, 5, 9);
   testPrecedence(0x5c71, 0x6b92, 0x7654, 0x7d28);

   // Test more special cases.
   testRightShift65();
 }

 void testCornerCasesRightShifts() {
   var v32 = 0xFF000000;
   var v64 = 0xFF00000000000000;
   Expect.equals(0x3, v32 >> 0x1E);
   Expect.equals(0x1, v32 >> 0x1F);
   Expect.equals(0x0, v32 >> 0x20);
   Expect.equals(-1, v64 >> 0x3E);
   Expect.equals(-1, v64 >> 0x3F);
   Expect.equals(-1, v64 >> 0x40);
 }

 void testRightShift64Bit() {
   var t = 0x1ffffffff;
   Expect.equals(0xffffffff, t >> 1);
 }

 void testLeftShift64Bit() {
   var t = 0xffffffff;
   Expect.equals(0xffffffff, t << 0);
   Expect.equals(0x1fffffffe, t << 1);
   Expect.equals(0x7fffffff80000000, t << 31);
   Expect.equals(0x8000000000000000, (t + 1) << 31);
 }

 void testLeftShift64BitWithOverflow1() {
   var t = 0xffffffff;
   Expect.equals(0, 2 * (t + 1) << 31); //# 03: ok
 }

 void testLeftShift64BitWithOverflow2() {
   var t = 0xffffffff;
   Expect.equals(0, 4 * (t + 1) << 31); //# 04: ok
 }

 void testLeftShift64BitWithOverflow3() {
   var t = 0xffffffff;
   Expect.equals(0x8000000000000000, (t + 1) << 31);
 }

 void testNegativeCountShifts() {
   bool throwOnLeft(a, b) {
     try {
       var x = a << b;
       return false;
     } catch (e) {
       return true;
     }
   }

   bool throwOnRight(a, b) {
     try {
       var x = a >> b;
       return false;
     } catch (e) {
       return true;
     }
   }

   Expect.isTrue(throwOnLeft(12, -3));
   Expect.isTrue(throwOnRight(12, -3));
   for (int i = 0; i < 20; i++) {
     Expect.isFalse(throwOnLeft(12, 3));
     Expect.isFalse(throwOnRight(12, 3));
   }
 }

 void testNegativeValueShifts() {
   for (int value = 0; value > -100; value--) {
     for (int i = 0; i < 300; i++) {
       int b = (value << i) >> i;
       if (i < (64 - value.bitLength)) {
         // No bits lost.
         Expect.equals(value, b);
       } else if (i >= 64) {
         // All bits are shifted out.
         Expect.equals(0, b);
       } else {
         // Some bits are lost.
         int masked_value = value & ((1 << (64 - i)) - 1);
         int signbit = masked_value & (1 << (63 - i));
         int signmask = (signbit != 0) ? (-1 << (64 - i)) : 0;
         Expect.equals(signmask | masked_value, b);
       }
     }
   }
 }

 void testPositiveValueShifts() {
   for (int value = 0; value < 100; value++) {
     for (int i = 0; i < 300; i++) {
       int b = (value << i) >> i;
       if (i < (64 - value.bitLength)) {
         Expect.equals(value, b);
       } else if (i >= 64) {
         Expect.equals(0, b);
       } else {
         // Some bits are lost.
         int masked_value = value & ((1 << (64 - i)) - 1);
         int signbit = masked_value & (1 << (63 - i));
         int signmask = (signbit != 0) ? (-1 << (64 - i)) : 0;
         Expect.equals(signmask | masked_value, b);
       }
     }
   }
 }

 void testNoMaskingOfShiftCount() {
   // Shifts which would behave differently if shift count was masked into a
   // range.
   Expect.equals(0, 0 >> 256);
   Expect.equals(0, 1 >> 256);
   Expect.equals(0, 2 >> 256);
   Expect.equals(0, shiftRight(0, 256));
   Expect.equals(0, shiftRight(1, 256));
   Expect.equals(0, shiftRight(2, 256));

   for (int shift = 1; shift <= 256; shift++) {
     Expect.equals(0, shiftRight(1, shift));
     Expect.equals(-1, shiftRight(-1, shift));
     if (shift < 63) {
       Expect.equals(true, shiftLeft(1, shift) > shiftLeft(1, shift - 1));
     } else if (shift > 64) {
       Expect.equals(
           true, (shiftLeft(1, shift) == 0) && (shiftLeft(1, shift - 1) == 0));
     }
   }
 }

 int shiftLeft(int a, int b) {
   return a << b;
 }

 int shiftRight(int a, int b) {
   return a >> b;
 }

 void testPrecedence(int a, int b, int c, int d) {
   // & binds stronger than ^, which binds stronger than |.
   int result = a & b ^ c | d & b ^ c;
   Expect.equals(((a & b) ^ c) | ((d & b) ^ c), result); //     &^|
   Expect.notEquals((a & (b ^ c)) | (d & (b ^ c)), result); //  ^&|
   Expect.notEquals((a & b) ^ (c | (d & b)) ^ c, result); //    &|^
   Expect.notEquals((a & b) ^ ((c | d) & b) ^ c, result); //    |&^
   Expect.notEquals(a & (b ^ (c | d)) & (b ^ c), result); //    |^&
   Expect.notEquals(a & ((b ^ c) | d) & (b ^ c), result); //    ^|&
   // Binds stronger than relational operators.
   Expect.equals((a & b) < (c & d), a & b < c & d);
   // Binds weaker than shift operators.
   Expect.equals((a & (b << c)) ^ d, a & b << c ^ d);
   Expect.notEquals((a & b) << (c ^ d), a & b << c ^ d);
 }

 @neverInline
 rightShift65Noinline(a) => a >> 65;

 testRightShift65() {
   var a = 0x5f22334455667788;
   var b = -0x5f22334455667788;

   for (var i = 0; i < 20; ++i) {
     Expect.equals(0, rightShift65Noinline(a));
     Expect.equals(-1, rightShift65Noinline(b));
   }
 }
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.
	// Dart test for testing bitwise operations.
	// VMOptions=--optimization-counter-threshold=10 --no-use-osr --no-background-compilation --enable-inlining-annotations

	import "package:expect/expect.dart";

	const neverInline = "NeverInline";

	void main() {
	for (int i = 0; i < 4; i++) {
	test();
	}
	}

	void test() {
	Expect.equals(3, (3 & 7));
	Expect.equals(7, (3 \| 7));
	Expect.equals(4, (3 ^ 7));
	Expect.equals(25, (100 >> 2));
	Expect.equals(400, (100 << 2));
	Expect.equals(-25, (-100 >> 2));
	Expect.equals(-101, ~100);
	Expect.equals(0, 1 << 64);
	Expect.equals(0, -1 << 64);
	Expect.equals(0x40000000, 0x04000000 << 4);
	Expect.equals(0x4000000000000000, 0x0400000000000000 << 4);
	Expect.equals(0, ~ -1);
	Expect.equals(-1, ~0);

	Expect.equals(0, 1 >> 160);
	Expect.equals(-1, -1 >> 160);

	Expect.equals(0x1000000000000001, 0x1000000000000001 & 0x1000100F00000001);
	Expect.equals(0x1, 0x1 & 0x1000100F00000001);
	Expect.equals(0x1, 0x1000100F00000001 & 0x1);

	Expect.equals(0x1000100F00000001, 0x1000000000000001 \| 0x1000100F00000001);
	Expect.equals(0x1000100F00000011, 0x11 \| 0x1000100F00000001);
	Expect.equals(0x1000100F00000011, 0x1000100F00000001 \| 0x11);

	Expect.equals(0x0F00000000000000, 0x0F00000000000001 ^ 0x0000000000000001);
	Expect.equals(0x31, 0x0F00000000000001 ^ 0x0F00000000000030);
	Expect.equals(0x0F00000000000031, 0x0F00000000000001 ^ 0x30);
	Expect.equals(0x0F00000000000031, 0x30 ^ 0x0F00000000000001);

	Expect.equals(0x000000000000000F, 0x000000000000000F7 >> 4);
	Expect.equals(15, 0xF00000000 >> 32);
	Expect.equals(1030792151040, 16492674416655 >> 4);

	Expect.equals(0x00000000000000F0, 0xF00000000000000F << 4);
	Expect.equals(0xF00000000, 15 << 32);

	testNegativeValueShifts();
	testPositiveValueShifts();
	testNoMaskingOfShiftCount();
	testNegativeCountShifts();
	for (int i = 0; i < 20; i++) {
	testCornerCasesRightShifts();
	testRightShift64Bit();
	testLeftShift64Bit();
	testLeftShift64BitWithOverflow1();
	testLeftShift64BitWithOverflow2();
	testLeftShift64BitWithOverflow3();
	}

	// Test precedence.
	testPrecedence(4, 5, 3, 1);
	testPrecedence(3, 4, 5, 9);
	testPrecedence(0x5c71, 0x6b92, 0x7654, 0x7d28);

	// Test more special cases.
	testRightShift65();
	}

	void testCornerCasesRightShifts() {
	var v32 = 0xFF000000;
	var v64 = 0xFF00000000000000;
	Expect.equals(0x3, v32 >> 0x1E);
	Expect.equals(0x1, v32 >> 0x1F);
	Expect.equals(0x0, v32 >> 0x20);
	Expect.equals(-1, v64 >> 0x3E);
	Expect.equals(-1, v64 >> 0x3F);
	Expect.equals(-1, v64 >> 0x40);
	}

	void testRightShift64Bit() {
	var t = 0x1ffffffff;
	Expect.equals(0xffffffff, t >> 1);
	}

	void testLeftShift64Bit() {
	var t = 0xffffffff;
	Expect.equals(0xffffffff, t << 0);
	Expect.equals(0x1fffffffe, t << 1);
	Expect.equals(0x7fffffff80000000, t << 31);
	Expect.equals(0x8000000000000000, (t + 1) << 31);
	}

	void testLeftShift64BitWithOverflow1() {
	var t = 0xffffffff;
	Expect.equals(0, 2 * (t + 1) << 31); //# 03: ok
	}

	void testLeftShift64BitWithOverflow2() {
	var t = 0xffffffff;
	Expect.equals(0, 4 * (t + 1) << 31); //# 04: ok
	}

	void testLeftShift64BitWithOverflow3() {
	var t = 0xffffffff;
	Expect.equals(0x8000000000000000, (t + 1) << 31);
	}

	void testNegativeCountShifts() {
	bool throwOnLeft(a, b) {
	try {
	var x = a << b;
	return false;
	} catch (e) {
	return true;
	}
	}

	bool throwOnRight(a, b) {
	try {
	var x = a >> b;
	return false;
	} catch (e) {
	return true;
	}
	}

	Expect.isTrue(throwOnLeft(12, -3));
	Expect.isTrue(throwOnRight(12, -3));
	for (int i = 0; i < 20; i++) {
	Expect.isFalse(throwOnLeft(12, 3));
	Expect.isFalse(throwOnRight(12, 3));
	}
	}

	void testNegativeValueShifts() {
	for (int value = 0; value > -100; value--) {
	for (int i = 0; i < 300; i++) {
	int b = (value << i) >> i;
	if (i < (64 - value.bitLength)) {
	// No bits lost.
	Expect.equals(value, b);
	} else if (i >= 64) {
	// All bits are shifted out.
	Expect.equals(0, b);
	} else {
	// Some bits are lost.
	int masked_value = value & ((1 << (64 - i)) - 1);
	int signbit = masked_value & (1 << (63 - i));
	int signmask = (signbit != 0) ? (-1 << (64 - i)) : 0;
	Expect.equals(signmask \| masked_value, b);
	}
	}
	}
	}

	void testPositiveValueShifts() {
	for (int value = 0; value < 100; value++) {
	for (int i = 0; i < 300; i++) {
	int b = (value << i) >> i;
	if (i < (64 - value.bitLength)) {
	Expect.equals(value, b);
	} else if (i >= 64) {
	Expect.equals(0, b);
	} else {
	// Some bits are lost.
	int masked_value = value & ((1 << (64 - i)) - 1);
	int signbit = masked_value & (1 << (63 - i));
	int signmask = (signbit != 0) ? (-1 << (64 - i)) : 0;
	Expect.equals(signmask \| masked_value, b);
	}
	}
	}
	}

	void testNoMaskingOfShiftCount() {
	// Shifts which would behave differently if shift count was masked into a
	// range.
	Expect.equals(0, 0 >> 256);
	Expect.equals(0, 1 >> 256);
	Expect.equals(0, 2 >> 256);
	Expect.equals(0, shiftRight(0, 256));
	Expect.equals(0, shiftRight(1, 256));
	Expect.equals(0, shiftRight(2, 256));

	for (int shift = 1; shift <= 256; shift++) {
	Expect.equals(0, shiftRight(1, shift));
	Expect.equals(-1, shiftRight(-1, shift));
	if (shift < 63) {
	Expect.equals(true, shiftLeft(1, shift) > shiftLeft(1, shift - 1));
	} else if (shift > 64) {
	Expect.equals(
	true, (shiftLeft(1, shift) == 0) && (shiftLeft(1, shift - 1) == 0));
	}
	}
	}

	int shiftLeft(int a, int b) {
	return a << b;
	}

	int shiftRight(int a, int b) {
	return a >> b;
	}

	void testPrecedence(int a, int b, int c, int d) {
	// & binds stronger than ^, which binds stronger than \|.
	int result = a & b ^ c \| d & b ^ c;
	Expect.equals(((a & b) ^ c) \| ((d & b) ^ c), result); // &^\|
	Expect.notEquals((a & (b ^ c)) \| (d & (b ^ c)), result); // ^&\|
	Expect.notEquals((a & b) ^ (c \| (d & b)) ^ c, result); // &\|^
	Expect.notEquals((a & b) ^ ((c \| d) & b) ^ c, result); // \|&^
	Expect.notEquals(a & (b ^ (c \| d)) & (b ^ c), result); // \|^&
	Expect.notEquals(a & ((b ^ c) \| d) & (b ^ c), result); // ^\|&
	// Binds stronger than relational operators.
	Expect.equals((a & b) < (c & d), a & b < c & d);
	// Binds weaker than shift operators.
	Expect.equals((a & (b << c)) ^ d, a & b << c ^ d);
	Expect.notEquals((a & b) << (c ^ d), a & b << c ^ d);
	}

	@neverInline
	rightShift65Noinline(a) => a >> 65;

	testRightShift65() {
	var a = 0x5f22334455667788;
	var b = -0x5f22334455667788;

	for (var i = 0; i < 20; ++i) {
	Expect.equals(0, rightShift65Noinline(a));
	Expect.equals(-1, rightShift65Noinline(b));
	}
	}