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/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/**
File Name: 15.1.2.3-2.js
ECMA Section: 15.1.2.3 Function properties of the global object:
parseFloat( string )
Description: The parseFloat function produces a number value dictated
by the interpretation of the contents of the string
argument defined as a decimal literal.
When the parseFloat function is called, the following
steps are taken:
1. Call ToString( string ).
2. Remove leading whitespace Result(1).
3. If neither Result(2) nor any prefix of Result(2)
satisfies the syntax of a StrDecimalLiteral,
return NaN.
4. Compute the longest prefix of Result(2) which might
be Resusult(2) itself, that satisfies the syntax of
a StrDecimalLiteral
5. Return the number value for the MV of Result(4).
Note that parseFloate may interpret only a leading
portion of the string as a number value; it ignores any
characters that cannot be interpreted as part of the
notation of a decimal literal, and no indication is given
that such characters were ignored.
StrDecimalLiteral::
Infinity
DecimalDigits.DecimalDigits opt ExponentPart opt
.DecimalDigits ExponentPart opt
DecimalDigits ExponentPart opt
Author: christine@netscape.com
Date: 28 october 1997
*/
var SECTION = "15.1.2.3-2";
var VERSION = "ECMA_1";
startTest();
var BUGNUMBER="none";
new TestCase( SECTION, "parseFloat(true)", Number.NaN, parseFloat(true) );
new TestCase( SECTION, "parseFloat(false)", Number.NaN, parseFloat(false) );
new TestCase( SECTION, "parseFloat('string')", Number.NaN, parseFloat("string") );
new TestCase( SECTION, "parseFloat(' Infinity')", Number.POSITIVE_INFINITY, parseFloat("Infinity") );
// new TestCase( SECTION, "parseFloat(Infinity)", Number.POSITIVE_INFINITY, parseFloat(Infinity) );
new TestCase( SECTION, "parseFloat(' 0')", 0, parseFloat(" 0") );
new TestCase( SECTION, "parseFloat(' -0')", -0, parseFloat(" -0") );
new TestCase( SECTION, "parseFloat(' +0')", 0, parseFloat(" +0") );
new TestCase( SECTION, "parseFloat(' 1')", 1, parseFloat(" 1") );
new TestCase( SECTION, "parseFloat(' -1')", -1, parseFloat(" -1") );
new TestCase( SECTION, "parseFloat(' +1')", 1, parseFloat(" +1") );
new TestCase( SECTION, "parseFloat(' 2')", 2, parseFloat(" 2") );
new TestCase( SECTION, "parseFloat(' -2')", -2, parseFloat(" -2") );
new TestCase( SECTION, "parseFloat(' +2')", 2, parseFloat(" +2") );
new TestCase( SECTION, "parseFloat(' 3')", 3, parseFloat(" 3") );
new TestCase( SECTION, "parseFloat(' -3')", -3, parseFloat(" -3") );
new TestCase( SECTION, "parseFloat(' +3')", 3, parseFloat(" +3") );
new TestCase( SECTION, "parseFloat(' 4')", 4, parseFloat(" 4") );
new TestCase( SECTION, "parseFloat(' -4')", -4, parseFloat(" -4") );
new TestCase( SECTION, "parseFloat(' +4')", 4, parseFloat(" +4") );
new TestCase( SECTION, "parseFloat(' 5')", 5, parseFloat(" 5") );
new TestCase( SECTION, "parseFloat(' -5')", -5, parseFloat(" -5") );
new TestCase( SECTION, "parseFloat(' +5')", 5, parseFloat(" +5") );
new TestCase( SECTION, "parseFloat(' 6')", 6, parseFloat(" 6") );
new TestCase( SECTION, "parseFloat(' -6')", -6, parseFloat(" -6") );
new TestCase( SECTION, "parseFloat(' +6')", 6, parseFloat(" +6") );
new TestCase( SECTION, "parseFloat(' 7')", 7, parseFloat(" 7") );
new TestCase( SECTION, "parseFloat(' -7')", -7, parseFloat(" -7") );
new TestCase( SECTION, "parseFloat(' +7')", 7, parseFloat(" +7") );
new TestCase( SECTION, "parseFloat(' 8')", 8, parseFloat(" 8") );
new TestCase( SECTION, "parseFloat(' -8')", -8, parseFloat(" -8") );
new TestCase( SECTION, "parseFloat(' +8')", 8, parseFloat(" +8") );
new TestCase( SECTION, "parseFloat(' 9')", 9, parseFloat(" 9") );
new TestCase( SECTION, "parseFloat(' -9')", -9, parseFloat(" -9") );
new TestCase( SECTION, "parseFloat(' +9')", 9, parseFloat(" +9") );
new TestCase( SECTION, "parseFloat(' 3.14159')", 3.14159, parseFloat(" 3.14159") );
new TestCase( SECTION, "parseFloat(' -3.14159')", -3.14159, parseFloat(" -3.14159") );
new TestCase( SECTION, "parseFloat(' +3.14159')", 3.14159, parseFloat(" +3.14159") );
new TestCase( SECTION, "parseFloat(' 3.')", 3, parseFloat(" 3.") );
new TestCase( SECTION, "parseFloat(' -3.')", -3, parseFloat(" -3.") );
new TestCase( SECTION, "parseFloat(' +3.')", 3, parseFloat(" +3.") );
new TestCase( SECTION, "parseFloat(' 3.e1')", 30, parseFloat(" 3.e1") );
new TestCase( SECTION, "parseFloat(' -3.e1')", -30, parseFloat(" -3.e1") );
new TestCase( SECTION, "parseFloat(' +3.e1')", 30, parseFloat(" +3.e1") );
new TestCase( SECTION, "parseFloat(' 3.e+1')", 30, parseFloat(" 3.e+1") );
new TestCase( SECTION, "parseFloat(' -3.e+1')", -30, parseFloat(" -3.e+1") );
new TestCase( SECTION, "parseFloat(' +3.e+1')", 30, parseFloat(" +3.e+1") );
new TestCase( SECTION, "parseFloat(' 3.e-1')", .30, parseFloat(" 3.e-1") );
new TestCase( SECTION, "parseFloat(' -3.e-1')", -.30, parseFloat(" -3.e-1") );
new TestCase( SECTION, "parseFloat(' +3.e-1')", .30, parseFloat(" +3.e-1") );
// StrDecimalLiteral::: .DecimalDigits ExponentPart opt
new TestCase( SECTION, "parseFloat(' .00001')", 0.00001, parseFloat(" .00001") );
new TestCase( SECTION, "parseFloat(' +.00001')", 0.00001, parseFloat(" +.00001") );
new TestCase( SECTION, "parseFloat(' -0.0001')", -0.00001, parseFloat(" -.00001") );
new TestCase( SECTION, "parseFloat(' .01e2')", 1, parseFloat(" .01e2") );
new TestCase( SECTION, "parseFloat(' +.01e2')", 1, parseFloat(" +.01e2") );
new TestCase( SECTION, "parseFloat(' -.01e2')", -1, parseFloat(" -.01e2") );
new TestCase( SECTION, "parseFloat(' .01e+2')", 1, parseFloat(" .01e+2") );
new TestCase( SECTION, "parseFloat(' +.01e+2')", 1, parseFloat(" +.01e+2") );
new TestCase( SECTION, "parseFloat(' -.01e+2')", -1, parseFloat(" -.01e+2") );
new TestCase( SECTION, "parseFloat(' .01e-2')", 0.0001, parseFloat(" .01e-2") );
new TestCase( SECTION, "parseFloat(' +.01e-2')", 0.0001, parseFloat(" +.01e-2") );
new TestCase( SECTION, "parseFloat(' -.01e-2')", -0.0001, parseFloat(" -.01e-2") );
// StrDecimalLiteral::: DecimalDigits ExponentPart opt
new TestCase( SECTION, "parseFloat(' 1234e5')", 123400000, parseFloat(" 1234e5") );
new TestCase( SECTION, "parseFloat(' +1234e5')", 123400000, parseFloat(" +1234e5") );
new TestCase( SECTION, "parseFloat(' -1234e5')", -123400000, parseFloat(" -1234e5") );
new TestCase( SECTION, "parseFloat(' 1234e+5')", 123400000, parseFloat(" 1234e+5") );
new TestCase( SECTION, "parseFloat(' +1234e+5')", 123400000, parseFloat(" +1234e+5") );
new TestCase( SECTION, "parseFloat(' -1234e+5')", -123400000, parseFloat(" -1234e+5") );
new TestCase( SECTION, "parseFloat(' 1234e-5')", 0.01234, parseFloat(" 1234e-5") );
new TestCase( SECTION, "parseFloat(' +1234e-5')", 0.01234, parseFloat(" +1234e-5") );
new TestCase( SECTION, "parseFloat(' -1234e-5')", -0.01234, parseFloat(" -1234e-5") );
new TestCase( SECTION, "parseFloat(' .01E2')", 1, parseFloat(" .01E2") );
new TestCase( SECTION, "parseFloat(' +.01E2')", 1, parseFloat(" +.01E2") );
new TestCase( SECTION, "parseFloat(' -.01E2')", -1, parseFloat(" -.01E2") );
new TestCase( SECTION, "parseFloat(' .01E+2')", 1, parseFloat(" .01E+2") );
new TestCase( SECTION, "parseFloat(' +.01E+2')", 1, parseFloat(" +.01E+2") );
new TestCase( SECTION, "parseFloat(' -.01E+2')", -1, parseFloat(" -.01E+2") );
new TestCase( SECTION, "parseFloat(' .01E-2')", 0.0001, parseFloat(" .01E-2") );
new TestCase( SECTION, "parseFloat(' +.01E-2')", 0.0001, parseFloat(" +.01E-2") );
new TestCase( SECTION, "parseFloat(' -.01E-2')", -0.0001, parseFloat(" -.01E-2") );
// StrDecimalLiteral::: DecimalDigits ExponentPart opt
new TestCase( SECTION, "parseFloat(' 1234E5')", 123400000, parseFloat(" 1234E5") );
new TestCase( SECTION, "parseFloat(' +1234E5')", 123400000, parseFloat(" +1234E5") );
new TestCase( SECTION, "parseFloat(' -1234E5')", -123400000, parseFloat(" -1234E5") );
new TestCase( SECTION, "parseFloat(' 1234E+5')", 123400000, parseFloat(" 1234E+5") );
new TestCase( SECTION, "parseFloat(' +1234E+5')", 123400000, parseFloat(" +1234E+5") );
new TestCase( SECTION, "parseFloat(' -1234E+5')", -123400000, parseFloat(" -1234E+5") );
new TestCase( SECTION, "parseFloat(' 1234E-5')", 0.01234, parseFloat(" 1234E-5") );
new TestCase( SECTION, "parseFloat(' +1234E-5')", 0.01234, parseFloat(" +1234E-5") );
new TestCase( SECTION, "parseFloat(' -1234E-5')", -0.01234, parseFloat(" -1234E-5") );
// hex cases should all return NaN
new TestCase( SECTION, "parseFloat(' 0x0')", 0, parseFloat(" 0x0"));
new TestCase( SECTION, "parseFloat(' 0x1')", 0, parseFloat(" 0x1"));
new TestCase( SECTION, "parseFloat(' 0x2')", 0, parseFloat(" 0x2"));
new TestCase( SECTION, "parseFloat(' 0x3')", 0, parseFloat(" 0x3"));
new TestCase( SECTION, "parseFloat(' 0x4')", 0, parseFloat(" 0x4"));
new TestCase( SECTION, "parseFloat(' 0x5')", 0, parseFloat(" 0x5"));
new TestCase( SECTION, "parseFloat(' 0x6')", 0, parseFloat(" 0x6"));
new TestCase( SECTION, "parseFloat(' 0x7')", 0, parseFloat(" 0x7"));
new TestCase( SECTION, "parseFloat(' 0x8')", 0, parseFloat(" 0x8"));
new TestCase( SECTION, "parseFloat(' 0x9')", 0, parseFloat(" 0x9"));
new TestCase( SECTION, "parseFloat(' 0xa')", 0, parseFloat(" 0xa"));
new TestCase( SECTION, "parseFloat(' 0xb')", 0, parseFloat(" 0xb"));
new TestCase( SECTION, "parseFloat(' 0xc')", 0, parseFloat(" 0xc"));
new TestCase( SECTION, "parseFloat(' 0xd')", 0, parseFloat(" 0xd"));
new TestCase( SECTION, "parseFloat(' 0xe')", 0, parseFloat(" 0xe"));
new TestCase( SECTION, "parseFloat(' 0xf')", 0, parseFloat(" 0xf"));
new TestCase( SECTION, "parseFloat(' 0xA')", 0, parseFloat(" 0xA"));
new TestCase( SECTION, "parseFloat(' 0xB')", 0, parseFloat(" 0xB"));
new TestCase( SECTION, "parseFloat(' 0xC')", 0, parseFloat(" 0xC"));
new TestCase( SECTION, "parseFloat(' 0xD')", 0, parseFloat(" 0xD"));
new TestCase( SECTION, "parseFloat(' 0xE')", 0, parseFloat(" 0xE"));
new TestCase( SECTION, "parseFloat(' 0xF')", 0, parseFloat(" 0xF"));
new TestCase( SECTION, "parseFloat(' 0X0')", 0, parseFloat(" 0X0"));
new TestCase( SECTION, "parseFloat(' 0X1')", 0, parseFloat(" 0X1"));
new TestCase( SECTION, "parseFloat(' 0X2')", 0, parseFloat(" 0X2"));
new TestCase( SECTION, "parseFloat(' 0X3')", 0, parseFloat(" 0X3"));
new TestCase( SECTION, "parseFloat(' 0X4')", 0, parseFloat(" 0X4"));
new TestCase( SECTION, "parseFloat(' 0X5')", 0, parseFloat(" 0X5"));
new TestCase( SECTION, "parseFloat(' 0X6')", 0, parseFloat(" 0X6"));
new TestCase( SECTION, "parseFloat(' 0X7')", 0, parseFloat(" 0X7"));
new TestCase( SECTION, "parseFloat(' 0X8')", 0, parseFloat(" 0X8"));
new TestCase( SECTION, "parseFloat(' 0X9')", 0, parseFloat(" 0X9"));
new TestCase( SECTION, "parseFloat(' 0Xa')", 0, parseFloat(" 0Xa"));
new TestCase( SECTION, "parseFloat(' 0Xb')", 0, parseFloat(" 0Xb"));
new TestCase( SECTION, "parseFloat(' 0Xc')", 0, parseFloat(" 0Xc"));
new TestCase( SECTION, "parseFloat(' 0Xd')", 0, parseFloat(" 0Xd"));
new TestCase( SECTION, "parseFloat(' 0Xe')", 0, parseFloat(" 0Xe"));
new TestCase( SECTION, "parseFloat(' 0Xf')", 0, parseFloat(" 0Xf"));
new TestCase( SECTION, "parseFloat(' 0XA')", 0, parseFloat(" 0XA"));
new TestCase( SECTION, "parseFloat(' 0XB')", 0, parseFloat(" 0XB"));
new TestCase( SECTION, "parseFloat(' 0XC')", 0, parseFloat(" 0XC"));
new TestCase( SECTION, "parseFloat(' 0XD')", 0, parseFloat(" 0XD"));
new TestCase( SECTION, "parseFloat(' 0XE')", 0, parseFloat(" 0XE"));
new TestCase( SECTION, "parseFloat(' 0XF')", 0, parseFloat(" 0XF"));
// A StringNumericLiteral may not use octal notation
new TestCase( SECTION, "parseFloat(' 00')", 0, parseFloat(" 00"));
new TestCase( SECTION, "parseFloat(' 01')", 1, parseFloat(" 01"));
new TestCase( SECTION, "parseFloat(' 02')", 2, parseFloat(" 02"));
new TestCase( SECTION, "parseFloat(' 03')", 3, parseFloat(" 03"));
new TestCase( SECTION, "parseFloat(' 04')", 4, parseFloat(" 04"));
new TestCase( SECTION, "parseFloat(' 05')", 5, parseFloat(" 05"));
new TestCase( SECTION, "parseFloat(' 06')", 6, parseFloat(" 06"));
new TestCase( SECTION, "parseFloat(' 07')", 7, parseFloat(" 07"));
new TestCase( SECTION, "parseFloat(' 010')", 10, parseFloat(" 010"));
new TestCase( SECTION, "parseFloat(' 011')", 11, parseFloat(" 011"));
// A StringNumericLIteral may have any number of leading 0 digits
new TestCase( SECTION, "parseFloat(' 001')", 1, parseFloat(" 001"));
new TestCase( SECTION, "parseFloat(' 0001')", 1, parseFloat(" 0001"));
// A StringNumericLIteral may have any number of leading 0 digits
new TestCase( SECTION, "parseFloat(001)", 1, parseFloat(001));
new TestCase( SECTION, "parseFloat(0001)", 1, parseFloat(0001));
// make sure it' s reflexive
new TestCase( SECTION, "parseFloat( ' ' +Math.PI+' ')", Math.PI, parseFloat( ' ' +Math.PI+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.LN2+' ')", Math.LN2, parseFloat( ' ' +Math.LN2+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.LN10+' ')", Math.LN10, parseFloat( ' ' +Math.LN10+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.LOG2E+' ')", Math.LOG2E, parseFloat( ' ' +Math.LOG2E+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.LOG10E+' ')", Math.LOG10E, parseFloat( ' ' +Math.LOG10E+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.SQRT2+' ')", Math.SQRT2, parseFloat( ' ' +Math.SQRT2+' '));
new TestCase( SECTION, "parseFloat( ' ' +Math.SQRT1_2+' ')", Math.SQRT1_2, parseFloat( ' ' +Math.SQRT1_2+' '));
test();
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