/*
 * Copyright (C) 2006 Baron Schwartz <baron at sequent dot org>
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published by the
 * Free Software Foundation, version 2.1.
 *
 * This program is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 * FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more
 * details.
 *
 * $Revision: 1.3 $
 */

// Abbreviations: LODP = Left Of Decimal Point, RODP = Right Of Decimal Point

Number.formatFunctions = {count:0};

// Constants useful for controlling the format of numbers in special cases.
Number.prototype.NaN         = 'NaN';
Number.prototype.posInfinity = 'Infinity';
Number.prototype.negInfinity = '-Infinity';

Number.prototype.numberFormat = function(format, context) {
    if (isNaN(this) ) {
        return Number.prototype.NaNstring;
    }
    else if (this == +Infinity ) {
        return Number.prototype.posInfinity;
    }
    else if ( this == -Infinity) {
        return Number.prototype.negInfinity;
    }
    else if (Number.formatFunctions[format] == null) {
        Number.createNewFormat(format);
    }
    return this[Number.formatFunctions[format]](context);
}

Number.createNewFormat = function(format) {
    var funcName = "format" + Number.formatFunctions.count++;
    Number.formatFunctions[format] = funcName;
    var code = "Number.prototype." + funcName + " = function(context){\n";

    // Decide whether the function is a terminal or a pos/neg/zero function
    var formats = format.split(";");
    switch (formats.length) {
        case 1:
            code += Number.createTerminalFormat(format);
            break;
        case 2:
            code += "return (this < 0) ? this.numberFormat(\""
                + String.escape(formats[1])
                + "\", 1) : this.numberFormat(\""
                + String.escape(formats[0])
                + "\", 2);";
            break;
        case 3:
            code += "return (this < 0) ? this.numberFormat(\""
                + String.escape(formats[1])
                + "\", 1) : ((this == 0) ? this.numberFormat(\""
                + String.escape(formats[2])
                + "\", 2) : this.numberFormat(\""
                + String.escape(formats[0])
                + "\", 3));";
            break;
        default:
            code += "throw 'Too many semicolons in format string';";
            break;
    }
    eval(code + "}");
}

Number.createTerminalFormat = function(format) {
    // If there is no work to do, just return the literal value
    if (format.length > 0 && format.search(/[0#?]/) == -1) {
        return "return '" + String.escape(format) + "';\n";
    }
    // Negative values are always displayed without a minus sign when section separators are used.
    var code = "var val = (context == null) ? new Number(this) : Math.abs(this);\n";
    var thousands = false;
    var lodp = format;
    var rodp = "";
    var ldigits = 0;
    var rdigits = 0;
    var scidigits = 0;
    var scishowsign = false;
    var sciletter = "";
    // Look for (and remove) scientific notation instructions, which can be anywhere
    m = format.match(/\..*(e)([+-]?)(0+)/i);
    if (m) {
        sciletter = m[1];
        scishowsign = (m[2] == "+");
        scidigits = m[3].length;
        format = format.replace(/(e)([+-]?)(0+)/i, "");
    }
    // Split around the decimal point
    var m = format.match(/^([^.]*)\.(.*)$/);
    if (m) {
        lodp = m[1].replace(/\./g, "");
        rodp = m[2].replace(/\./g, "");
    }
    // Look for %
    if (format.indexOf('%') >= 0) {
        code += "val *= 100;\n";
    }
    // Look for comma-scaling to the left of the decimal point
    m = lodp.match(/(,+)(?:$|[^0#?,])/);
    if (m) {
        code += "val /= " + Math.pow(1000, m[1].length) + "\n;";
    }
    // Look for comma-separators
    if (lodp.search(/[0#?],[0#?]/) >= 0) {
        thousands = true;
    }
    // Nuke any extraneous commas
    if ((m) || thousands) {
        lodp = lodp.replace(/,/g, "");
    }
    // Figure out how many digits to the l/r of the decimal place
    m = lodp.match(/0[0#?]*/);
    if (m) {
        ldigits = m[0].length;
    }
    m = rodp.match(/[0#?]*/);
    if (m) {
        rdigits = m[0].length;
    }
    // Scientific notation takes precedence over rounding etc
    if (scidigits > 0) {
        code += "var sci = Number.toScientific(val,"
            + ldigits + ", " + rdigits + ", " + scidigits + ", " + scishowsign + ");\n"
            + "var arr = [sci.l, sci.r];\n";
    }
    else {
        // If there is no decimal point, round to nearest integer, AWAY from zero
        if (format.indexOf('.') < 0) {
            code += "val = (val > 0) ? Math.ceil(val) : Math.floor(val);\n";
        }
        // Numbers are rounded to the correct number of digits to the right of the decimal
        code += "var arr = val.round(" + rdigits + ").toFixed(" + rdigits + ").split('.');\n";
        // There are at least "ldigits" digits to the left of the decimal, so add zeros if needed.
        code += "arr[0] = (val < 0 ? '-' : '') + String.leftPad((val < 0 ? arr[0].substring(1) : arr[0]), "
            + ldigits + ", '0');\n";
    }
    // Add thousands separators
    if (thousands) {
        code += "arr[0] = Number.addSeparators(arr[0]);\n";
    }
    // Insert the digits into the formatting string.  On the LHS, extra digits are copied
    // into the result.  On the RHS, rounding has chopped them off.
    code += "arr[0] = Number.injectIntoFormat(arr[0].reverse(), '"
        + String.escape(lodp.reverse()) + "', true).reverse();\n";
    if (rdigits > 0) {
        code += "arr[1] = Number.injectIntoFormat(arr[1], '" + String.escape(rodp) + "', false);\n";
    }
    if (scidigits > 0) {
        code += "arr[1] = arr[1].replace(/(\\d{" + rdigits + "})/, '$1" + sciletter + "' + sci.s);\n";
    }
    return code + "return arr.join('.');\n";
}

Number.toScientific = function(val, ldigits, rdigits, scidigits, showsign) {
    var result = {l:"", r:"", s:""};
    var ex = "";
    // Make ldigits + rdigits significant figures
    var before = Math.abs(val).toFixed(ldigits + rdigits + 1).trim('0');
    // Move the decimal point to the right of all digits we want to keep,
    // and round the resulting value off
    var after = Math.round(new Number(before.replace(".", "").replace(
        new RegExp("(\\d{" + (ldigits + rdigits) + "})(.*)"), "$1.$2"))).toFixed(0);
    // Place the decimal point in the new string
    if (after.length >= ldigits) {
        after = after.substring(0, ldigits) + "." + after.substring(ldigits);
    }
    else {
        after += '.';
    }
    // Find how much the decimal point moved.  This is #places to LODP in the original
    // number, minus the #places in the new number.  There are no left-padded zeroes in
    // the new number, so the calculation for it is simpler than for the old number.
    result.s = (before.indexOf(".") - before.search(/[1-9]/)) - after.indexOf(".");
    // The exponent is off by 1 when it gets moved to the left.
    if (result.s < 0) {
        result.s++;
    }
    // Split the value around the decimal point and pad the parts appropriately.
    result.l = (val < 0 ? '-' : '') + String.leftPad(after.substring(0, after.indexOf(".")), ldigits, "0");
    result.r = after.substring(after.indexOf(".") + 1);
    if (result.s < 0) {
        ex = "-";
    }
    else if (showsign) {
        ex = "+";
    }
    result.s = ex + String.leftPad(Math.abs(result.s).toFixed(0), scidigits, "0");
    return result;
}

Number.prototype.round = function(decimals) {
    if (decimals > 0) {
        var m = this.toFixed(decimals + 1).match(
            new RegExp("(-?\\d*)\.(\\d{" + decimals + "})(\\d)\\d*$"));
        if (m && m.length) {
            return new Number(m[1] + "." + String.leftPad(Math.round(m[2] + "." + m[3]), decimals, "0"));
        }
    }
    return this;
}

Number.injectIntoFormat = function(val, format, stuffExtras) {
    var i = 0;
    var j = 0;
    var result = "";
    var revneg = val.charAt(val.length - 1) == '-';
    if ( revneg ) {
       val = val.substring(0, val.length - 1);
    }
    while (i < format.length && j < val.length && format.substring(i).search(/[0#?]/) >= 0) {
        if (format.charAt(i).match(/[0#?]/)) {
            // It's a formatting character; copy the corresponding character
            // in the value to the result
            if (val.charAt(j) != '-') {
                result += val.charAt(j);
            }
            else {
                result += "0";
            }
            j++;
        }
        else {
            result += format.charAt(i);
        }
        ++i;
    }
    if ( revneg && j == val.length ) {
        result += '-';
    }
    if (j < val.length) {
        if (stuffExtras) {
            result += val.substring(j);
        }
        if ( revneg ) {
             result += '-';
        }
    }
    if (i < format.length) {
        result += format.substring(i);
    }
    return result.replace(/#/g, "").replace(/\?/g, " ");
}

Number.addSeparators = function(val) {
    return val.reverse().replace(/(\d{3})/g, "$1,").reverse().replace(/^(-)?,/, "$1");
}

String.prototype.reverse = function() {
    var res = "";
    for (var i = this.length; i > 0; --i) {
        res += this.charAt(i - 1);
    }
    return res;
}

String.prototype.trim = function(ch) {
    if (!ch) ch = ' ';
    return this.replace(new RegExp("^" + ch + "+|" + ch + "+$", "g"), "");
}

String.leftPad = function (val, size, ch) {
    var result = new String(val);
    if (ch == null) {
        ch = " ";
    }
    while (result.length < size) {
        result = ch + result;
    }
    return result;
}

String.escape = function(string) {
    return string.replace(/('|\\)/g, "\\$1");
}
//**************************************************************************************
var yekan  = new Array( "صفر", "یک", "دو", "سه", "چهار", "پنج", "شش", "هفت", "هشت", "نه" );
var dahgan = new Array( "", "", "بیست", "سی", "چهل", "پنجاه", "شصت", "هفتاد", "هشتاد", "نود" );
var dahyek = new Array( "ده", "یازده", "دوازده", "سیزده", "چهارده", "پانزده", "شانزده", "هفده", "هجده", "نوزده");
var sadgan = new Array( "", "یکصد", "دویست", "سیصد", "چهارصد", "پانصد", "ششصد", "هفتصد", "هشتصد", "نهصد" );
var basex  = new Array( "", "هزار", "میلیون", "میلیارد", "تریلیون");

function getnum3(num3)
{
    var s = "";
    var d3, d12;
    d12 = num3 % 100;
    d3 = parseInt(num3 / 100);
    if (d3 != 0)
        s = sadgan[d3] + " و ";
    if ((d12 >= 10) && (d12 <= 19))
    {
        s = s + dahyek[d12 - 10];
    }
    else
    {
        var d2 = parseInt(d12 / 10);
        if (d2 != 0)
            s = s + dahgan[d2] + " و ";
        var d1 = d12 % 10;
        if (d1 != 0)
            s = s + yekan[d1] + " و ";
        s = s.substring(0, s.length - 3);
    }
    return s;
}

function num2str(snum)
{
    //Text2.value = snum;
    var stotal = "";
    if (snum == "0")
    {
        return yekan[0];
    }
    else
    {
        for (var i = snum.length; i < (parseInt((snum.length - 1) / 3) + 1) * 3; i++)
            snum = "0" + snum;
        var L = parseInt(snum.length / 3) - 1;
        for (var i = 0; i <= L; i++)
        {
            var b = parseFloat(snum.substring(i * 3, (i + 1) * 3));
            if (b != 0)
                stotal = stotal + getnum3(b) + " " + basex[L - i] + " و ";
        }
        stotal = stotal.substring(0, stotal.length - 3);
    }
    return stotal;
}

function TwoDigitToText(Digits)
{
	var strDigit = Digits.toString();
	var output = "";
	switch (strDigit)
	{
		case "10":
			output = "ده";
			break;
		case "11":
			output = "یازده";
			break;
		case "12":
			output = "دوازده";
			break;
		case "13":
			output = "سیزده";
			break;
		case "14":
			output = "چهارده";
			break;
		case "15":
			output = "پانزده";
			break;
		case "16":
			output = "شانزده";
			break;
		case "17":
			output = "هفده";
			break;
		case "18":
			output = "هجده";
			break;
		case "19":
			output = "نوزده";
			break;
		default:
			output = "";
			break;
	}
	return output;
}

function DigitToText(Digit, Order)
{
	var output = "";
	var strDigit = Digit.toString();
	if (Order==0)
	{
		switch (strDigit)
		{
			case "0":
				output = "";
				break;
			case "1":
				output = "یک";
				break;
			case "2":
				output = "دو";
				break;
			case "3":
				output = "سه";
				break;
			case "4":
				output = "چهار";
				break;
			case "5":
				output = "پنج";
				break;
			case "6":
				output = "شش";
				break;
			case "7":
				output = "هفت";
				break;
			case "8":
				output = "هشت";
				break;
			case "9":
				output = "نه";
				break;
			default:
				output = "";
				break;
		}
	}

	if (Order==1)
	{
		switch (strDigit)
		{
			case "0":
				output = "";
				break;
			case "1":
				output = "";
				break;
			case "2":
				output = "بیست";
				break;
			case "3":
				output = "سی";
				break;
			case "4":
				output = "چهل";
				break;
			case "5":
				output = "پنجاه";
				break;
			case "6":
				output = "شصت";
				break;
			case "7":
				output = "هفتاد";
				break;
			case "8":
				output = "هشتاد";
				break;
			case "9":
				output = "نود";
				break;
			default:
				output = "";
				break;
		}
	}

	if (Order==2)
	{
		switch (strDigit)
		{
			case "0":
				output = "";
				break;
			case "1":
				output = "صد";
				break;
			case "2":
				output = "دویست";
				break;
			case "3":
				output = "سیصد";
				break;
			case "4":
				output = "چهارصد";
				break;
			case "5":
				output = "پانصد";
				break;
			case "6":
				output = "ششصد";
				break;
			case "7":
				output = "هفتصد";
				break;
			case "8":
				output = "هشتصد";
				break;
			case "9":
				output = "نهصد";
				break;
			default:
				output = "";
				break;
		}
	}
	return output;
}

function PartsName(part)
{
	var output = "";
	switch (part)
	{
		case 0:
			output = "";
			break;
		case 1:
			output = "هزار";
			break;
		case 2:
			output = "میلون";
			break;
		case 3:
			output = "میلیارد";
			break;
		default:
			break;
	}
	return output;
}
//string Input 
function NumberToText(Input)
{
	var output  = ""; //StringBuilder
	
	if (Input !="")
	{
		var temp    = "";//string
		var i        = Input.length-1; //int
		var j        = 0;//int
		var part    = 0;//int
		
		while (i>=0)
		{
			temp = Input.charAt(i);			
			
			if ( (i!=0) && (j==0) & (Input.charAt(i-1)=='1'))
			{
				temp    = Input.substring(i-1,2);
				temp    = TwoDigitToText(temp);
				//output.Insert(0,temp);
				output = output + temp;
				if ( (i!=0) & ((i-1)!=0) )
					//output.Insert(0," و ");
					output = output + " و ";
					
				i = i-2;
				j++;
			}
			else
			{
				temp = DigitToText(temp,j);
				if (temp!="")
				{
					//output.Insert(0,temp);
					output = output + temp;
					if (i!=0)
						//output.Insert(0," و ");
						output = output + " و ";
				}
				i--;
			}
			if (j==2)
			{
				part ++;
				if (i!=-1)
					//output.Insert(0," "+PartsName(part)+" ");
					output = output + " "+PartsName(part)+" ";
					
				j = 0;
			}
			else
				j++;
		}
	}
	return output;
}