pkg/fixnum/test/int_64_vm_test.dart - sdk.git - Git at Google

 // Copyright (c) 2012, 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.

 // A test to compare the results of the fixnum library with the Dart VM

 library int64vmtest;

 import "package:expect/expect.dart";
 import 'dart:math' as math;

 part 'package:fixnum/src/int32.dart';
 part 'package:fixnum/src/int64.dart';
 part 'package:fixnum/src/intx.dart';

 final random = new math.Random();

 void main() {
   int64VMTest test = new int64VMTest();
   test.doTestBinary(new BinaryOp("&", (a, b) => a & b));
   test.doTestBinary(new BinaryOp("|", (a, b) => a | b));
   test.doTestBinary(new BinaryOp("^", (a, b) => a ^ b));
   test.doTestBinary(new BinaryOp("+", (a, b) => a + b));
   test.doTestBinary(new BinaryOp("-", (a, b) => a - b));
   test.doTestBinary(new BinaryOp("*", (a, b) => a * b));
   test.doTestUnary(new UnaryOp("-", (a) => -a));
   test.doTestUnary(new UnaryOp("~", (a) => ~a));
   test.doTestShift(new ShiftOp("<<", (a, n) => a << (n & 63)));
   test.doTestShift(new ShiftOp(">>", (a, n) => a >> (n & 63)));
   test.doTestBoolean(new BooleanOp("compareTo", (a, b) => a.compareTo(b)));
   test.doTestBoolean(new BooleanOp("==", (a, b) => a == b));
   test.doTestBoolean(new BooleanOp("!=", (a, b) => a != b));
   test.doTestBoolean(new BooleanOp("<", (a, b) => a < b));
   test.doTestBoolean(new BooleanOp("<=", (a, b) => a <= b));
   test.doTestBoolean(new BooleanOp(">", (a, b) => a > b));
   test.doTestBoolean(new BooleanOp(">=", (a, b) => a >= b));
   test.doTestBinary(new BinaryOp("%", (a, b) => a % b));
   test.doTestBinary(new BinaryOp("~/", (a, b) => a ~/ b));
   test.doTestBinary(new BinaryOp("remainder", (a, b) => a.remainder(b)));
 }

 const int DISCARD = 0;

 int64 _randomInt64() {
   int i = 0;
   for (int b = 0; b < 64; b++) {
       double rand = random.nextDouble();
       for (int j = 0; j < DISCARD; j++) {
         rand = random.nextDouble();
       }
       i = (i << 1) | ((rand > 0.5) ? 1 : 0);
   }
   return new int64.fromInt(i);
 }

 int _randomInt(int n) {
   double rand = random.nextDouble();
   for (int i = 0; i < DISCARD; i++) {
     rand = random.nextDouble();
   }
   return (rand * n).floor();
 }

 class Op {
   String name;
   Function op;

   Op(String this.name, Function this.op);

   // Truncate x to a value in the range [-2^63, 2^63 - 1]
   int trunc64(int x) {
     int trunc = x & 0xffffffffffffffff;
     if ((trunc & 0x8000000000000000) != 0) {
       trunc -= 18446744073709551616; // 2^64
     }
     return trunc;
   }
 }

 class UnaryOp extends Op {
   UnaryOp(String name, Function op) : super(name, op);
   int ref(int val) => trunc64(op(val));
   int64 test(int64 val) => op(val);
 }

 class BinaryOp extends Op {
   BinaryOp(String name, Function op) : super(name, op);
   int ref(int val0, int val1) => trunc64(op(val0, val1));
   int64 test(int64 val0, int64 val1) => op(val0, val1);
 }

 class BooleanOp extends Op {
   BooleanOp(String name, Function op) : super(name, op);
   bool ref(int val0, int val1) => op(val0, val1);
   bool test(int64 val0, int64 val1) => op(val0, val1);
 }

 class ShiftOp extends Op {
   ShiftOp(String name, Function op) : super(name, op);
   int ref(int val0, int shift) => trunc64(op(val0, shift));
   int64 test(int64 val0, int shift) => op(val0, shift);
 }

 class int64VMTest {
   static const int BASE_VALUES = 32;
   static const int RANDOM_TESTS = 32;
   List<int64> TEST_VALUES;

   int64VMTest() {
     Set<int64> testSet = new Set<int64>();
     for (int i = 0; i < BASE_VALUES; i++) {
       testSet.add(new int64.fromInt(i));
       testSet.add(new int64.fromInt(-i));

       testSet.add(int64.MIN_VALUE + i);
       testSet.add(int64.MAX_VALUE - i);

       testSet.add(new int64.fromInt(i << int64._BITS ~/ 2));
       testSet.add(new int64.fromInt(i << int64._BITS));
       testSet.add(new int64.fromInt(i << (3 * int64._BITS) ~/ 2));
       testSet.add(new int64.fromInt(i << 2 * int64._BITS));
       testSet.add(new int64.fromInt(i << (5 * int64._BITS) ~/ 2));
     }

     int64 one = new int64.fromInt(1);
     int64 three = new int64.fromInt(3);
     int64 ones = int64.parseHex("1111111111111111");
     int64 tens = int64.parseHex("1010101010101010");
     int64 oh_ones = int64.parseHex("0101010101010101");
     int64 digits = int64.parseHex("123456789ABCDEFF");
     for (int i = 0; i < 16; i++) {
       testSet.add(ones * i);
       testSet.add(~(ones * i));
       testSet.add(-(ones * i));
       testSet.add(tens * i);
       testSet.add(~(tens * i));
       testSet.add(-(tens * i));
       testSet.add(oh_ones * i);
       testSet.add(~(oh_ones * i));
       testSet.add(-(oh_ones * i));
       testSet.add(digits * i);
       testSet.add(~(digits * i));
       testSet.add(-(digits * i));
     }

     for (int i = 0; i < 64; i += 4) {
       testSet.add(one << i);
       testSet.add(~(one << i));
       testSet.add(digits >> i);
       testSet.add(-(digits >> i));

       // Powers of two and nearby numbers
       testSet.add(one << i);
       for (int j = 1; j <= 16; j++) {
         testSet.add((one << i) + j);
         testSet.add(-((one << i) + j));
         testSet.add(~((one << i) + j));
         testSet.add((one << i) - j);
         testSet.add(-((one << i) - j));
         testSet.add(~((one << i) - j));
         testSet.add((three << i) + j);
         testSet.add(-((three << i) + j));
         testSet.add(~((three << i) + j));
         testSet.add((three << i) - j);
         testSet.add(-((three << i) - j));
         testSet.add(~((three << i) - j));
       }
     }

     for (int a = 0; a < 19; a++) {
       // Math.pow(10, a)
       int pow = 1;
       for (int j = 0; j < a; j++) {
         pow *= 10;
       }
       testSet.add(new int64.fromInt(pow));
     }

     TEST_VALUES = new List<int64>(testSet.length);
     int index = 0;
     for (int64 val in testSet) {
       TEST_VALUES[index++] = val;
     }

     print("VALUES.length = $index");
   }

   void _doTestUnary(UnaryOp op, int64 val) {
     int ref = op.ref(val.toInt());
     int64 result64 = op.test(val);
     int result = result64.toInt();
     if (ref != result) {
       Expect.fail("${op.name}: val = $val");
     }
   }

   void doTestUnary(UnaryOp op) {
     print("Testing operator ${op.name}");
     for (int i = 0; i < TEST_VALUES.length; i++) {
       _doTestUnary(op, TEST_VALUES[i]);
     }
     for (int i = 0; i < RANDOM_TESTS; i++) {
       int64 randomLong = _randomInt64();
       _doTestUnary(op, randomLong);
     }
   }

   void _doTestBinary(BinaryOp op, int64 val0, int64 val1) {
     // print("Test val0 = $val0, val1 = $val1");
     var refException = null;
     int ref = -1;
     try {
       ref = op.ref(val0.toInt(), val1.toInt());
     } on Exception catch (e) {
       refException = e;
     }
     var testException = null;
     int result = -2;
     int64 result64;
     try {
       int64 val0_save = new int64._copy(val0);
       int64 val1_save = new int64._copy(val1);
       result64 = op.test(val0, val1);
       result = result64.toInt();
       if (val0 != val0_save) {
         print(
             "Test altered first argument val0 = $val0, val0_save = $val0_save");
       }
       if (val1 != val1_save) {
         print("Test altered second argument");
       }
     } on Exception catch (e) {
       testException = e;
     }
     if (testException is IntegerDivisionByZeroException &&
         refException is IntegerDivisionByZeroException) {
     } else if (testException != null || refException != null) {
       Expect.fail("${op.name}: val0 = $val0, val1 = $val1, "
           "testException = $testException, refException = $refException");
       return;
     } else if (ref != result) {
       if ("%" == op.name && ref < 0) {
         // print("Dart VM bug: ${op.name}: val0 = $val0, val1 = $val1, "
         //    "ref = $ref, result64 = $result64, result = $result");
       } else {
         Expect.fail("${op.name}: val0 = $val0, val1 = $val1, "
             "ref = $ref, result64 = $result64, result = $result");
       }
     }
   }

   void doTestBinary(BinaryOp op) {
     print("Testing operator ${op.name}");
     for (int i = 0; i < TEST_VALUES.length; i++) {
       int64 randomLong = _randomInt64();
       _doTestBinary(op, TEST_VALUES[i], randomLong);
       _doTestBinary(op, randomLong, TEST_VALUES[i]);
       for (int j = 0; j < TEST_VALUES.length; j++) {
         _doTestBinary(op, TEST_VALUES[i], TEST_VALUES[j]);
       }
     }
     for (int i = 0; i < RANDOM_TESTS; i++) {
       int64 longVal0 = _randomInt64();
       int64 longVal1 = _randomInt64();
       if (_randomInt(20) == 0) {
         if (_randomInt(2) == 0) {
           longVal1 = longVal0;
         } else {
           longVal1 = -longVal0;
         }
       }
       _doTestBinary(op, longVal0, longVal1);
     }
   }

   void _doTestBoolean(BooleanOp op, int64 val0, int64 val1) {
     bool ref = op.ref(val0.toInt(), val1.toInt());
     bool result = op.test(val0, val1);
     if (ref != result) {
       Expect.fail("${op.name}: val0 = $val0, val1 = $val1");
     }
   }

   void doTestBoolean(BooleanOp op) {
     print("Testing operator ${op.name}");
     for (int i = 0; i < TEST_VALUES.length; i++) {
       int64 randomLong = _randomInt64();
       _doTestBoolean(op, TEST_VALUES[i], randomLong);
       _doTestBoolean(op, randomLong, TEST_VALUES[i]);
       for (int j = 0; j < TEST_VALUES.length; j++) {
         _doTestBoolean(op, TEST_VALUES[i], TEST_VALUES[j]);
       }
     }
     for (int i = 0; i < RANDOM_TESTS; i++) {
       int64 longVal0 = _randomInt64();
       int64 longVal1 = _randomInt64();
       if (_randomInt(20) == 0) {
         if (_randomInt(2) == 0) {
           longVal1 = longVal0;
         } else {
           longVal1 = -longVal0;
         }
       }
       _doTestBoolean(op, longVal0, longVal1);
     }
   }

   void _doTestShift(ShiftOp op, int64 val, int shift) {
     int ref = op.ref(val.toInt(), shift);
     int64 result64 = op.test(val, shift);
     int result = result64.toInt();
     if (ref != result) {
       Expect.fail("${op.name}: val = $val, shift = $shift");
     }
   }

   void doTestShift(ShiftOp op) {
     print("Testing operator ${op.name}");
     for (int i = 0; i < TEST_VALUES.length; i++) {
       for (int shift = -64; shift <= 64; shift++) {
         _doTestShift(op, TEST_VALUES[i], shift);
       }
     }
     for (int i = 0; i < RANDOM_TESTS; i++) {
       int64 randomLong = _randomInt64();
       for (int shift = -64; shift <= 64; shift++) {
         _doTestShift(op, randomLong, shift);
       }
     }
   }
 }
	// Copyright (c) 2012, 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.

	// A test to compare the results of the fixnum library with the Dart VM

	library int64vmtest;

	import "package:expect/expect.dart";
	import 'dart:math' as math;

	part 'package:fixnum/src/int32.dart';
	part 'package:fixnum/src/int64.dart';
	part 'package:fixnum/src/intx.dart';

	final random = new math.Random();

	void main() {
	int64VMTest test = new int64VMTest();
	test.doTestBinary(new BinaryOp("&", (a, b) => a & b));
	test.doTestBinary(new BinaryOp("\|", (a, b) => a \| b));
	test.doTestBinary(new BinaryOp("^", (a, b) => a ^ b));
	test.doTestBinary(new BinaryOp("+", (a, b) => a + b));
	test.doTestBinary(new BinaryOp("-", (a, b) => a - b));
	test.doTestBinary(new BinaryOp("", (a, b) => a b));
	test.doTestUnary(new UnaryOp("-", (a) => -a));
	test.doTestUnary(new UnaryOp("~", (a) => ~a));
	test.doTestShift(new ShiftOp("<<", (a, n) => a << (n & 63)));
	test.doTestShift(new ShiftOp(">>", (a, n) => a >> (n & 63)));
	test.doTestBoolean(new BooleanOp("compareTo", (a, b) => a.compareTo(b)));
	test.doTestBoolean(new BooleanOp("==", (a, b) => a == b));
	test.doTestBoolean(new BooleanOp("!=", (a, b) => a != b));
	test.doTestBoolean(new BooleanOp("<", (a, b) => a < b));
	test.doTestBoolean(new BooleanOp("<=", (a, b) => a <= b));
	test.doTestBoolean(new BooleanOp(">", (a, b) => a > b));
	test.doTestBoolean(new BooleanOp(">=", (a, b) => a >= b));
	test.doTestBinary(new BinaryOp("%", (a, b) => a % b));
	test.doTestBinary(new BinaryOp("~/", (a, b) => a ~/ b));
	test.doTestBinary(new BinaryOp("remainder", (a, b) => a.remainder(b)));
	}

	const int DISCARD = 0;

	int64 _randomInt64() {
	int i = 0;
	for (int b = 0; b < 64; b++) {
	double rand = random.nextDouble();
	for (int j = 0; j < DISCARD; j++) {
	rand = random.nextDouble();
	}
	i = (i << 1) \| ((rand > 0.5) ? 1 : 0);
	}
	return new int64.fromInt(i);
	}

	int _randomInt(int n) {
	double rand = random.nextDouble();
	for (int i = 0; i < DISCARD; i++) {
	rand = random.nextDouble();
	}
	return (rand * n).floor();
	}

	class Op {
	String name;
	Function op;

	Op(String this.name, Function this.op);

	// Truncate x to a value in the range [-2^63, 2^63 - 1]
	int trunc64(int x) {
	int trunc = x & 0xffffffffffffffff;
	if ((trunc & 0x8000000000000000) != 0) {
	trunc -= 18446744073709551616; // 2^64
	}
	return trunc;
	}
	}

	class UnaryOp extends Op {
	UnaryOp(String name, Function op) : super(name, op);
	int ref(int val) => trunc64(op(val));
	int64 test(int64 val) => op(val);
	}

	class BinaryOp extends Op {
	BinaryOp(String name, Function op) : super(name, op);
	int ref(int val0, int val1) => trunc64(op(val0, val1));
	int64 test(int64 val0, int64 val1) => op(val0, val1);
	}

	class BooleanOp extends Op {
	BooleanOp(String name, Function op) : super(name, op);
	bool ref(int val0, int val1) => op(val0, val1);
	bool test(int64 val0, int64 val1) => op(val0, val1);
	}

	class ShiftOp extends Op {
	ShiftOp(String name, Function op) : super(name, op);
	int ref(int val0, int shift) => trunc64(op(val0, shift));
	int64 test(int64 val0, int shift) => op(val0, shift);
	}

	class int64VMTest {
	static const int BASE_VALUES = 32;
	static const int RANDOM_TESTS = 32;
	List<int64> TEST_VALUES;

	int64VMTest() {
	Set<int64> testSet = new Set<int64>();
	for (int i = 0; i < BASE_VALUES; i++) {
	testSet.add(new int64.fromInt(i));
	testSet.add(new int64.fromInt(-i));

	testSet.add(int64.MIN_VALUE + i);
	testSet.add(int64.MAX_VALUE - i);

	testSet.add(new int64.fromInt(i << int64._BITS ~/ 2));
	testSet.add(new int64.fromInt(i << int64._BITS));
	testSet.add(new int64.fromInt(i << (3 * int64._BITS) ~/ 2));
	testSet.add(new int64.fromInt(i << 2 * int64._BITS));
	testSet.add(new int64.fromInt(i << (5 * int64._BITS) ~/ 2));
	}

	int64 one = new int64.fromInt(1);
	int64 three = new int64.fromInt(3);
	int64 ones = int64.parseHex("1111111111111111");
	int64 tens = int64.parseHex("1010101010101010");
	int64 oh_ones = int64.parseHex("0101010101010101");
	int64 digits = int64.parseHex("123456789ABCDEFF");
	for (int i = 0; i < 16; i++) {
	testSet.add(ones * i);
	testSet.add(~(ones * i));
	testSet.add(-(ones * i));
	testSet.add(tens * i);
	testSet.add(~(tens * i));
	testSet.add(-(tens * i));
	testSet.add(oh_ones * i);
	testSet.add(~(oh_ones * i));
	testSet.add(-(oh_ones * i));
	testSet.add(digits * i);
	testSet.add(~(digits * i));
	testSet.add(-(digits * i));
	}

	for (int i = 0; i < 64; i += 4) {
	testSet.add(one << i);
	testSet.add(~(one << i));
	testSet.add(digits >> i);
	testSet.add(-(digits >> i));

	// Powers of two and nearby numbers
	testSet.add(one << i);
	for (int j = 1; j <= 16; j++) {
	testSet.add((one << i) + j);
	testSet.add(-((one << i) + j));
	testSet.add(~((one << i) + j));
	testSet.add((one << i) - j);
	testSet.add(-((one << i) - j));
	testSet.add(~((one << i) - j));
	testSet.add((three << i) + j);
	testSet.add(-((three << i) + j));
	testSet.add(~((three << i) + j));
	testSet.add((three << i) - j);
	testSet.add(-((three << i) - j));
	testSet.add(~((three << i) - j));
	}
	}

	for (int a = 0; a < 19; a++) {
	// Math.pow(10, a)
	int pow = 1;
	for (int j = 0; j < a; j++) {
	pow *= 10;
	}
	testSet.add(new int64.fromInt(pow));
	}

	TEST_VALUES = new List<int64>(testSet.length);
	int index = 0;
	for (int64 val in testSet) {
	TEST_VALUES[index++] = val;
	}

	print("VALUES.length = $index");
	}

	void _doTestUnary(UnaryOp op, int64 val) {
	int ref = op.ref(val.toInt());
	int64 result64 = op.test(val);
	int result = result64.toInt();
	if (ref != result) {
	Expect.fail("${op.name}: val = $val");
	}
	}

	void doTestUnary(UnaryOp op) {
	print("Testing operator ${op.name}");
	for (int i = 0; i < TEST_VALUES.length; i++) {
	_doTestUnary(op, TEST_VALUES[i]);
	}
	for (int i = 0; i < RANDOM_TESTS; i++) {
	int64 randomLong = _randomInt64();
	_doTestUnary(op, randomLong);
	}
	}

	void _doTestBinary(BinaryOp op, int64 val0, int64 val1) {
	// print("Test val0 = $val0, val1 = $val1");
	var refException = null;
	int ref = -1;
	try {
	ref = op.ref(val0.toInt(), val1.toInt());
	} on Exception catch (e) {
	refException = e;
	}
	var testException = null;
	int result = -2;
	int64 result64;
	try {
	int64 val0_save = new int64._copy(val0);
	int64 val1_save = new int64._copy(val1);
	result64 = op.test(val0, val1);
	result = result64.toInt();
	if (val0 != val0_save) {
	print(
	"Test altered first argument val0 = $val0, val0_save = $val0_save");
	}
	if (val1 != val1_save) {
	print("Test altered second argument");
	}
	} on Exception catch (e) {
	testException = e;
	}
	if (testException is IntegerDivisionByZeroException &&
	refException is IntegerDivisionByZeroException) {
	} else if (testException != null \|\| refException != null) {
	Expect.fail("${op.name}: val0 = $val0, val1 = $val1, "
	"testException = $testException, refException = $refException");
	return;
	} else if (ref != result) {
	if ("%" == op.name && ref < 0) {
	// print("Dart VM bug: ${op.name}: val0 = $val0, val1 = $val1, "
	// "ref = $ref, result64 = $result64, result = $result");
	} else {
	Expect.fail("${op.name}: val0 = $val0, val1 = $val1, "
	"ref = $ref, result64 = $result64, result = $result");
	}
	}
	}

	void doTestBinary(BinaryOp op) {
	print("Testing operator ${op.name}");
	for (int i = 0; i < TEST_VALUES.length; i++) {
	int64 randomLong = _randomInt64();
	_doTestBinary(op, TEST_VALUES[i], randomLong);
	_doTestBinary(op, randomLong, TEST_VALUES[i]);
	for (int j = 0; j < TEST_VALUES.length; j++) {
	_doTestBinary(op, TEST_VALUES[i], TEST_VALUES[j]);
	}
	}
	for (int i = 0; i < RANDOM_TESTS; i++) {
	int64 longVal0 = _randomInt64();
	int64 longVal1 = _randomInt64();
	if (_randomInt(20) == 0) {
	if (_randomInt(2) == 0) {
	longVal1 = longVal0;
	} else {
	longVal1 = -longVal0;
	}
	}
	_doTestBinary(op, longVal0, longVal1);
	}
	}

	void _doTestBoolean(BooleanOp op, int64 val0, int64 val1) {
	bool ref = op.ref(val0.toInt(), val1.toInt());
	bool result = op.test(val0, val1);
	if (ref != result) {
	Expect.fail("${op.name}: val0 = $val0, val1 = $val1");
	}
	}

	void doTestBoolean(BooleanOp op) {
	print("Testing operator ${op.name}");
	for (int i = 0; i < TEST_VALUES.length; i++) {
	int64 randomLong = _randomInt64();
	_doTestBoolean(op, TEST_VALUES[i], randomLong);
	_doTestBoolean(op, randomLong, TEST_VALUES[i]);
	for (int j = 0; j < TEST_VALUES.length; j++) {
	_doTestBoolean(op, TEST_VALUES[i], TEST_VALUES[j]);
	}
	}
	for (int i = 0; i < RANDOM_TESTS; i++) {
	int64 longVal0 = _randomInt64();
	int64 longVal1 = _randomInt64();
	if (_randomInt(20) == 0) {
	if (_randomInt(2) == 0) {
	longVal1 = longVal0;
	} else {
	longVal1 = -longVal0;
	}
	}
	_doTestBoolean(op, longVal0, longVal1);
	}
	}

	void _doTestShift(ShiftOp op, int64 val, int shift) {
	int ref = op.ref(val.toInt(), shift);
	int64 result64 = op.test(val, shift);
	int result = result64.toInt();
	if (ref != result) {
	Expect.fail("${op.name}: val = $val, shift = $shift");
	}
	}

	void doTestShift(ShiftOp op) {
	print("Testing operator ${op.name}");
	for (int i = 0; i < TEST_VALUES.length; i++) {
	for (int shift = -64; shift <= 64; shift++) {
	_doTestShift(op, TEST_VALUES[i], shift);
	}
	}
	for (int i = 0; i < RANDOM_TESTS; i++) {
	int64 randomLong = _randomInt64();
	for (int shift = -64; shift <= 64; shift++) {
	_doTestShift(op, randomLong, shift);
	}
	}
	}
	}