// Any copyright is dedicated to the Public Domain. // http://creativecommons.org/licenses/publicdomain/ //----------------------------------------------------------------------------- var BUGNUMBER = 886949; var summary = "ES6 (draft May 2013) 15.7.3.9 Number.parseInt(string, radix)"; print(BUGNUMBER + ": " + summary); /************** * BEGIN TEST * **************/ var str, radix; var upvar; /* 1. Let inputString be ToString(string). */ assertEq(Number.parseInt({ toString: function() { return "17" } }, 10), 17); upvar = 0; str = { get toString() { upvar++; return function() { upvar++; return "12345"; } } }; assertEq(Number.parseInt(str, 10), 12345); assertEq(upvar, 2); /* * 2. Let S be a newly created substring of inputString consisting of the first * character that is not a StrWhiteSpaceChar and all characters following * that character. (In other words, remove leading white space.) */ var ws = ["\t", "\v", "\f", " ", "\xA0", "\uFEFF", "\u2004", "\u3000", // a few Unicode whitespaces "\r", "\n", "\u2028", "\u2029"]; str = "8675309"; for (var i = 0, sz = ws.length; i < sz; i++) { assertEq(Number.parseInt(ws[i] + str, 10), 8675309); for (var j = 0, sz = ws.length; j < sz; j++) { assertEq(Number.parseInt(ws[i] + ws[j] + str, 10), 8675309, ws[i].charCodeAt(0).toString(16) + ", " + ws[j].charCodeAt(0).toString(16)); } } /* * 3. Let sign be 1. * 4. If S is not empty and the first character of S is a minus sign -, let * sign be −1. */ str = "5552368"; assertEq(Number.parseInt("-" + str, 10), -Number.parseInt(str, 10)); assertEq(Number.parseInt(" -" + str, 10), -Number.parseInt(str, 10)); assertEq(Number.parseInt("-", 10), NaN); assertEq(Number.parseInt("", 10), NaN); assertEq(Number.parseInt("-0", 10), -0); /* * 5. If S is not empty and the first character of S is a plus sign + or a * minus sign -, then remove the first character from S. */ assertEq(Number.parseInt("+12345", 10), 12345); assertEq(Number.parseInt(" +12345", 10), 12345); assertEq(Number.parseInt("-12345", 10), -12345); assertEq(Number.parseInt(" -12345", 10), -12345); /* * 6. Let R = ToInt32(radix). */ upvar = ""; str = { toString: function() { if (!upvar) upvar = "string"; return "42"; } }; radix = { toString: function() { if (!upvar) upvar = "radix"; return "10"; } }; assertEq(Number.parseInt(str, radix), 42); assertEq(upvar, "string"); assertEq(Number.parseInt("123", null), 123); assertEq(Number.parseInt("123", undefined), 123); assertEq(Number.parseInt("123", NaN), 123); assertEq(Number.parseInt("123", -0), 123); assertEq(Number.parseInt("10", 72057594037927950), 16); assertEq(Number.parseInt("10", -4294967292), 4); assertEq(Number.parseInt("0x10", 1e308), 16); assertEq(Number.parseInt("10", 1e308), 10); assertEq(Number.parseInt("10", { valueOf: function() { return 16; } }), 16); /* * 7. Let stripPrefix be true. * 8. If R ≠ 0, then * a. If R < 2 or R > 36, then return NaN. * b. If R ≠ 16, let stripPrefix be false. * 9. Else, R = 0 * a. Let R = 10. * 10. If stripPrefix is true, then * a. If the length of S is at least 2 and the first two characters of S * are either “0x” or “0X”, then remove the first two characters from S and * let R = 16. */ var vs = ["1", "51", "917", "2343", "99963"]; for (var i = 0, sz = vs.length; i < sz; i++) assertEq(Number.parseInt(vs[i], 0), Number.parseInt(vs[i], 10), "bad " + vs[i]); assertEq(Number.parseInt("0x10"), 16); assertEq(Number.parseInt("0x10", 0), 16); assertEq(Number.parseInt("0x10", 16), 16); assertEq(Number.parseInt("0x10", 8), 0); assertEq(Number.parseInt("-0x10", 16), -16); assertEq(Number.parseInt("5", 1), NaN); assertEq(Number.parseInt("5", 37), NaN); assertEq(Number.parseInt("5", { valueOf: function() { return -1; } }), NaN); /* * 11. If S contains any character that is not a radix-R digit, then let Z be * the substring of S consisting of all characters before the first such * character; otherwise, let Z be S. * 12. If Z is empty, return NaN. */ assertEq(Number.parseInt(""), NaN); assertEq(Number.parseInt("ohai"), NaN); assertEq(Number.parseInt("0xohai"), NaN); assertEq(Number.parseInt("-ohai"), NaN); assertEq(Number.parseInt("+ohai"), NaN); assertEq(Number.parseInt(" ohai"), NaN); assertEq(Number.parseInt("0xaohai"), 10); assertEq(Number.parseInt("hohai", 18), 17); /* * 13. Let mathInt be the mathematical integer value that is represented by Z * in radix-R notation, using the letters A-Z and a-z for digits with * values 10 through 35. (However, if R is 10 and Z contains more than 20 * significant digits, every significant digit after the 20th may be * replaced by a 0 digit, at the option of the implementation; and if R is * not 2, 4, 8, 10, 16, or 32, then mathInt may be an implementation- * dependent approximation to the mathematical integer value that is * represented by Z in radix-R notation.) * 14. Let number be the Number value for mathInt. * 15. Return sign × number. */ assertEq(Number.parseInt("ohai", 36), 1142154); assertEq(Number.parseInt("0ohai", 36), 1142154); assertEq(Number.parseInt("00ohai", 36), 1142154); assertEq(Number.parseInt("A", 16), 10); assertEq(Number.parseInt("0A", 16), 10); assertEq(Number.parseInt("00A", 16), 10); assertEq(Number.parseInt("A", 17), 10); assertEq(Number.parseInt("0A", 17), 10); assertEq(Number.parseInt("00A", 17), 10); /* Number.parseInt should be the same function object as global parseInt. */ assertEq(Number.parseInt, parseInt); /******************************************************************************/ if (typeof reportCompare === "function") reportCompare(true, true); print("All tests passed!");