tests/corelib/int_parse_radix_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.

 import "package:expect/expect.dart";
 import "dart:math" show pow;

 void main() {
   bool checkedMode = false;
   assert(checkedMode = true);
   const String oneByteWhiteSpace = "\x09\x0a\x0b\x0c\x0d\x20"
     "\x85"    /// 01: ok
     "\xa0";
   const String whiteSpace = "$oneByteWhiteSpace\u1680\u180e"
       "\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a"
       "\u2028\u2029\u202f\u205f\u3000\ufeff";

   var digits = "0123456789abcdefghijklmnopqrstuvwxyz";
   var zeros = "0" * 64;

   for (int i = 0; i < whiteSpace.length; i++) {
     var ws = whiteSpace[i];
     print(ws.codeUnitAt(0).toRadixString(16));
     Expect.equals(0, int.parse("${ws}0${ws}", radix: 2));
   }

   void testParse(int result, String radixString, int radix) {
     var m = "$radixString/$radix->$result";
     Expect.equals(result,
                   int.parse(radixString.toLowerCase(), radix: radix), m);
     Expect.equals(result,
                   int.parse(radixString.toUpperCase(), radix: radix), m);
     Expect.equals(result, int.parse(" $radixString", radix: radix), m);
     Expect.equals(result, int.parse("$radixString ", radix: radix), m);
     Expect.equals(result, int.parse(" $radixString ", radix: radix), m);
     Expect.equals(result, int.parse("+$radixString", radix: radix), m);
     Expect.equals(result, int.parse(" +$radixString", radix: radix), m);
     Expect.equals(result, int.parse("+$radixString ", radix: radix), m);
     Expect.equals(result, int.parse(" +$radixString ", radix: radix), m);
     Expect.equals(-result, int.parse("-$radixString", radix: radix), m);
     Expect.equals(-result, int.parse(" -$radixString", radix: radix), m);
     Expect.equals(-result, int.parse("-$radixString ", radix: radix), m);
     Expect.equals(-result, int.parse(" -$radixString ", radix: radix), m);
     Expect.equals(result, int.parse(
         "$oneByteWhiteSpace$radixString$oneByteWhiteSpace", radix: radix), m);
     Expect.equals(-result, int.parse(
         "$oneByteWhiteSpace-$radixString$oneByteWhiteSpace", radix: radix), m);
     Expect.equals(result, int.parse(
         "$whiteSpace$radixString$whiteSpace", radix: radix), m);
     Expect.equals(-result, int.parse(
         "$whiteSpace-$radixString$whiteSpace", radix: radix), m);

     Expect.equals(result, int.parse("$zeros$radixString", radix: radix), m);
     Expect.equals(result, int.parse("+$zeros$radixString", radix: radix), m);
     Expect.equals(-result, int.parse("-$zeros$radixString", radix: radix), m);
   }

   for (int i = 0; i <= 36 * 36; i++) {
     for (int r = 2; r <= 36; r++) {
       String radixString = i.toRadixString(r);
       testParse(i, radixString, r);
     }
   }

   for (int i = 2; i <= 36; i++) {              /// 02: ok
     // Test with bignums.                      /// 02: continued
     var digit = digits[i - 1];                 /// 02: continued
     testParse(pow(i, 64) - 1, digit * 64, i);  /// 02: continued
     testParse(0, zeros, i);                    /// 02: continued
   }                                            /// 02: continued

   // Allow both upper- and lower-case letters.
   Expect.equals(0xABCD, int.parse("ABCD", radix: 16));
   Expect.equals(0xABCD, int.parse("abcd", radix: 16));
   Expect.equals(15628859, int.parse("09azAZ", radix: 36));
   // Big number.
   Expect.equals(0x12345678123456781234567812345678,  /// 02: continued
                 int.parse("0x1234567812345678"       /// 02: continued
                           "1234567812345678"));      /// 02: continued
   // Allow whitespace before and after the number.
   Expect.equals(1, int.parse(" 1", radix: 2));
   Expect.equals(1, int.parse("1 ", radix: 2));
   Expect.equals(1, int.parse(" 1 ", radix: 2));
   Expect.equals(1, int.parse("\n1", radix: 2));
   Expect.equals(1, int.parse("1\n", radix: 2));
   Expect.equals(1, int.parse("\n1\n", radix: 2));
   Expect.equals(1, int.parse("+1", radix: 2));

   void testFails(String source, int radix) {
     Expect.throws(() { throw int.parse(source, radix: radix,
                                        onError: (s) { throw "FAIL"; }); },
                   (e) => e == "FAIL",
                   "$source/$radix");
     Expect.equals(-999, int.parse(source, radix: radix, onError: (s) => -999));
   }
   for (int i = 2; i < 36; i++) {
     testFails(i.toRadixString(36), i);
   }
   testFails("", 2);
   testFails("+ 1", 2);  // No space between sign and digits.
   testFails("- 1", 2);  // No space between sign and digits.
   testFails("0x", null);
   for (int i = 2; i <= 33; i++) {
     // No 0x specially allowed.
     // At radix 34 and above, "x" is a valid digit.
     testFails("0x10", i);
   }

   testBadTypes(var source, var radix) {
     if (!checkedMode) {
       // No promises on what error is thrown if the type doesn't match.
       // Likely either ArgumentError or NoSuchMethodError.
       Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0));
       return;
     }
     // In checked mode, it's always a TypeError.
     Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0),
                   (e) => e is TypeError);
   }

   testBadTypes(9, 10);
   testBadTypes(true, 10);
   testBadTypes("0", true);
   testBadTypes("0", "10");

   testBadArguments(String source, int radix) {
     // If the types match, it should be an ArgumentError of some sort.
     Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0),
                   (e) => e is ArgumentError);
   }

   testBadArguments("0", -1);
   testBadArguments("0", 0);
   testBadArguments("0", 1);
   testBadArguments("0", 37);

   // If handleError isn't an unary function, and it's called, it also throws
   // (either TypeError in checked mode, or some failure in unchecked mode).
   Expect.throws(() => int.parse("9", radix: 8, onError: "not a function"));
   Expect.throws(() => int.parse("9", radix: 8, onError: () => 42));
   Expect.throws(() => int.parse("9", radix: 8, onError: (v1, v2) => 42));
 }
	// 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.

	import "package:expect/expect.dart";
	import "dart:math" show pow;

	void main() {
	bool checkedMode = false;
	assert(checkedMode = true);
	const String oneByteWhiteSpace = "\x09\x0a\x0b\x0c\x0d\x20"
	"\x85" /// 01: ok
	"\xa0";
	const String whiteSpace = "$oneByteWhiteSpace\u1680\u180e"
	"\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a"
	"\u2028\u2029\u202f\u205f\u3000\ufeff";

	var digits = "0123456789abcdefghijklmnopqrstuvwxyz";
	var zeros = "0" * 64;

	for (int i = 0; i < whiteSpace.length; i++) {
	var ws = whiteSpace[i];
	print(ws.codeUnitAt(0).toRadixString(16));
	Expect.equals(0, int.parse("${ws}0${ws}", radix: 2));
	}

	void testParse(int result, String radixString, int radix) {
	var m = "$radixString/$radix->$result";
	Expect.equals(result,
	int.parse(radixString.toLowerCase(), radix: radix), m);
	Expect.equals(result,
	int.parse(radixString.toUpperCase(), radix: radix), m);
	Expect.equals(result, int.parse(" $radixString", radix: radix), m);
	Expect.equals(result, int.parse("$radixString ", radix: radix), m);
	Expect.equals(result, int.parse(" $radixString ", radix: radix), m);
	Expect.equals(result, int.parse("+$radixString", radix: radix), m);
	Expect.equals(result, int.parse(" +$radixString", radix: radix), m);
	Expect.equals(result, int.parse("+$radixString ", radix: radix), m);
	Expect.equals(result, int.parse(" +$radixString ", radix: radix), m);
	Expect.equals(-result, int.parse("-$radixString", radix: radix), m);
	Expect.equals(-result, int.parse(" -$radixString", radix: radix), m);
	Expect.equals(-result, int.parse("-$radixString ", radix: radix), m);
	Expect.equals(-result, int.parse(" -$radixString ", radix: radix), m);
	Expect.equals(result, int.parse(
	"$oneByteWhiteSpace$radixString$oneByteWhiteSpace", radix: radix), m);
	Expect.equals(-result, int.parse(
	"$oneByteWhiteSpace-$radixString$oneByteWhiteSpace", radix: radix), m);
	Expect.equals(result, int.parse(
	"$whiteSpace$radixString$whiteSpace", radix: radix), m);
	Expect.equals(-result, int.parse(
	"$whiteSpace-$radixString$whiteSpace", radix: radix), m);

	Expect.equals(result, int.parse("$zeros$radixString", radix: radix), m);
	Expect.equals(result, int.parse("+$zeros$radixString", radix: radix), m);
	Expect.equals(-result, int.parse("-$zeros$radixString", radix: radix), m);
	}

	for (int i = 0; i <= 36 * 36; i++) {
	for (int r = 2; r <= 36; r++) {
	String radixString = i.toRadixString(r);
	testParse(i, radixString, r);
	}
	}

	for (int i = 2; i <= 36; i++) { /// 02: ok
	// Test with bignums. /// 02: continued
	var digit = digits[i - 1]; /// 02: continued
	testParse(pow(i, 64) - 1, digit * 64, i); /// 02: continued
	testParse(0, zeros, i); /// 02: continued
	} /// 02: continued

	// Allow both upper- and lower-case letters.
	Expect.equals(0xABCD, int.parse("ABCD", radix: 16));
	Expect.equals(0xABCD, int.parse("abcd", radix: 16));
	Expect.equals(15628859, int.parse("09azAZ", radix: 36));
	// Big number.
	Expect.equals(0x12345678123456781234567812345678, /// 02: continued
	int.parse("0x1234567812345678" /// 02: continued
	"1234567812345678")); /// 02: continued
	// Allow whitespace before and after the number.
	Expect.equals(1, int.parse(" 1", radix: 2));
	Expect.equals(1, int.parse("1 ", radix: 2));
	Expect.equals(1, int.parse(" 1 ", radix: 2));
	Expect.equals(1, int.parse("\n1", radix: 2));
	Expect.equals(1, int.parse("1\n", radix: 2));
	Expect.equals(1, int.parse("\n1\n", radix: 2));
	Expect.equals(1, int.parse("+1", radix: 2));

	void testFails(String source, int radix) {
	Expect.throws(() { throw int.parse(source, radix: radix,
	onError: (s) { throw "FAIL"; }); },
	(e) => e == "FAIL",
	"$source/$radix");
	Expect.equals(-999, int.parse(source, radix: radix, onError: (s) => -999));
	}
	for (int i = 2; i < 36; i++) {
	testFails(i.toRadixString(36), i);
	}
	testFails("", 2);
	testFails("+ 1", 2); // No space between sign and digits.
	testFails("- 1", 2); // No space between sign and digits.
	testFails("0x", null);
	for (int i = 2; i <= 33; i++) {
	// No 0x specially allowed.
	// At radix 34 and above, "x" is a valid digit.
	testFails("0x10", i);
	}

	testBadTypes(var source, var radix) {
	if (!checkedMode) {
	// No promises on what error is thrown if the type doesn't match.
	// Likely either ArgumentError or NoSuchMethodError.
	Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0));
	return;
	}
	// In checked mode, it's always a TypeError.
	Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0),
	(e) => e is TypeError);
	}

	testBadTypes(9, 10);
	testBadTypes(true, 10);
	testBadTypes("0", true);
	testBadTypes("0", "10");

	testBadArguments(String source, int radix) {
	// If the types match, it should be an ArgumentError of some sort.
	Expect.throws(() => int.parse(source, radix: radix, onError: (s) => 0),
	(e) => e is ArgumentError);
	}

	testBadArguments("0", -1);
	testBadArguments("0", 0);
	testBadArguments("0", 1);
	testBadArguments("0", 37);

	// If handleError isn't an unary function, and it's called, it also throws
	// (either TypeError in checked mode, or some failure in unchecked mode).
	Expect.throws(() => int.parse("9", radix: 8, onError: "not a function"));
	Expect.throws(() => int.parse("9", radix: 8, onError: () => 42));
	Expect.throws(() => int.parse("9", radix: 8, onError: (v1, v2) => 42));
	}