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/*
This file is part of Ext JS 4.2
Copyright (c) 2011-2013 Sencha Inc
Contact: http://www.sencha.com/contact
GNU General Public License Usage
This file may be used under the terms of the GNU General Public License version 3.0 as
published by the Free Software Foundation and appearing in the file LICENSE included in the
packaging of this file.
Please review the following information to ensure the GNU General Public License version 3.0
requirements will be met: http://www.gnu.org/copyleft/gpl.html.
If you are unsure which license is appropriate for your use, please contact the sales department
at http://www.sencha.com/contact.
Build date: 2013-05-16 14:36:50 (f9be68accb407158ba2b1be2c226a6ce1f649314)
*/
// @tag foundation,core
// @require String.js
// @define Ext.Number
/**
* @class Ext.Number
*
* A collection of useful static methods to deal with numbers
* @singleton
*/
Ext.Number = new function() {
var me = this,
isToFixedBroken = (0.9).toFixed() !== '1',
math = Math;
Ext.apply(this, {
/**
* Checks whether or not the passed number is within a desired range. If the number is already within the
* range it is returned, otherwise the min or max value is returned depending on which side of the range is
* exceeded. Note that this method returns the constrained value but does not change the current number.
* @param {Number} number The number to check
* @param {Number} min The minimum number in the range
* @param {Number} max The maximum number in the range
* @return {Number} The constrained value if outside the range, otherwise the current value
*/
constrain: function(number, min, max) {
var x = parseFloat(number);
// Watch out for NaN in Chrome 18
// V8bug: http://code.google.com/p/v8/issues/detail?id=2056
// Operators are faster than Math.min/max. See http://jsperf.com/number-constrain
// ... and (x < Nan) || (x < undefined) == false
// ... same for (x > NaN) || (x > undefined)
// so if min or max are undefined or NaN, we never return them... sadly, this
// is not true of null (but even Math.max(-1,null)==0 and isNaN(null)==false)
return (x < min) ? min : ((x > max) ? max : x);
},
/**
* Snaps the passed number between stopping points based upon a passed increment value.
*
* The difference between this and {@link #snapInRange} is that {@link #snapInRange} uses the minValue
* when calculating snap points:
*
* r = Ext.Number.snap(56, 2, 55, 65); // Returns 56 - snap points are zero based
*
* r = Ext.Number.snapInRange(56, 2, 55, 65); // Returns 57 - snap points are based from minValue
*
* @param {Number} value The unsnapped value.
* @param {Number} increment The increment by which the value must move.
* @param {Number} minValue The minimum value to which the returned value must be constrained. Overrides the increment.
* @param {Number} maxValue The maximum value to which the returned value must be constrained. Overrides the increment.
* @return {Number} The value of the nearest snap target.
*/
snap : function(value, increment, minValue, maxValue) {
var m;
// If no value passed, or minValue was passed and value is less than minValue (anything < undefined is false)
// Then use the minValue (or zero if the value was undefined)
if (value === undefined || value < minValue) {
return minValue || 0;
}
if (increment) {
m = value % increment;
if (m !== 0) {
value -= m;
if (m * 2 >= increment) {
value += increment;
} else if (m * 2 < -increment) {
value -= increment;
}
}
}
return me.constrain(value, minValue, maxValue);
},
/**
* Snaps the passed number between stopping points based upon a passed increment value.
*
* The difference between this and {@link #snap} is that {@link #snap} does not use the minValue
* when calculating snap points:
*
* r = Ext.Number.snap(56, 2, 55, 65); // Returns 56 - snap points are zero based
*
* r = Ext.Number.snapInRange(56, 2, 55, 65); // Returns 57 - snap points are based from minValue
*
* @param {Number} value The unsnapped value.
* @param {Number} increment The increment by which the value must move.
* @param {Number} [minValue=0] The minimum value to which the returned value must be constrained.
* @param {Number} [maxValue=Infinity] The maximum value to which the returned value must be constrained.
* @return {Number} The value of the nearest snap target.
*/
snapInRange : function(value, increment, minValue, maxValue) {
var tween;
// default minValue to zero
minValue = (minValue || 0);
// If value is undefined, or less than minValue, use minValue
if (value === undefined || value < minValue) {
return minValue;
}
// Calculate how many snap points from the minValue the passed value is.
if (increment && (tween = ((value - minValue) % increment))) {
value -= tween;
tween *= 2;
if (tween >= increment) {
value += increment;
}
}
// If constraining within a maximum, ensure the maximum is on a snap point
if (maxValue !== undefined) {
if (value > (maxValue = me.snapInRange(maxValue, increment, minValue))) {
value = maxValue;
}
}
return value;
},
/**
* Formats a number using fixed-point notation
* @param {Number} value The number to format
* @param {Number} precision The number of digits to show after the decimal point
*/
toFixed: isToFixedBroken ? function(value, precision) {
precision = precision || 0;
var pow = math.pow(10, precision);
return (math.round(value * pow) / pow).toFixed(precision);
} : function(value, precision) {
return value.toFixed(precision);
},
/**
* Validate that a value is numeric and convert it to a number if necessary. Returns the specified default value if
* it is not.
Ext.Number.from('1.23', 1); // returns 1.23
Ext.Number.from('abc', 1); // returns 1
* @param {Object} value
* @param {Number} defaultValue The value to return if the original value is non-numeric
* @return {Number} value, if numeric, defaultValue otherwise
*/
from: function(value, defaultValue) {
if (isFinite(value)) {
value = parseFloat(value);
}
return !isNaN(value) ? value : defaultValue;
},
/**
* Returns a random integer between the specified range (inclusive)
* @param {Number} from Lowest value to return.
* @param {Number} to Highst value to return.
* @return {Number} A random integer within the specified range.
*/
randomInt: function (from, to) {
return math.floor(math.random() * (to - from + 1) + from);
},
/**
* Corrects floating point numbers that overflow to a non-precise
* value because of their floating nature, for example `0.1 + 0.2`
* @param {Number} The number
* @return {Number} The correctly rounded number
*/
correctFloat: function(n) {
// This is to correct the type of errors where 2 floats end with
// a long string of decimals, eg 0.1 + 0.2. When they overflow in this
// manner, they usually go to 15-16 decimals, so we cut it off at 14.
return parseFloat(n.toPrecision(14));
}
});
/**
* @deprecated 4.0.0 Please use {@link Ext.Number#from} instead.
* @member Ext
* @method num
* @inheritdoc Ext.Number#from
*/
Ext.num = function() {
return me.from.apply(this, arguments);
};
};