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/ *
* QR Code generator library ( JavaScript )
*
* Copyright ( c ) 2016 Project Nayuki
* https : //www.nayuki.io/page/qr-code-generator-library
*
* ( MIT License )
* Permission is hereby granted , free of charge , to any person obtaining a copy of
* this software and associated documentation files ( the "Software" ) , to deal in
* the Software without restriction , including without limitation the rights to
* use , copy , modify , merge , publish , distribute , sublicense , and / or sell copies of
* the Software , and to permit persons to whom the Software is furnished to do so ,
* subject to the following conditions :
* - The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software .
* - The Software is provided "as is" , without warranty of any kind , express or
* implied , including but not limited to the warranties of merchantability ,
* fitness for a particular purpose and noninfringement . In no event shall the
* authors or copyright holders be liable for any claim , damages or other
* liability , whether in an action of contract , tort or otherwise , arising from ,
* out of or in connection with the Software or the use or other dealings in the
* Software .
* /
"use strict" ;
/ *
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* Module "qrcodegen" , public members :
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* - Class QrCode :
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* - Function encodeText ( str text , QrCode . Ecc ecl ) - > QrCode
* - Function encodeBinary ( list < int > data , QrCode . Ecc ecl ) - > QrCode
* - Function encodeSegments ( list < QrSegment > segs , QrCode . Ecc ecl ,
* int minVersion = 1 , int maxVersion = 40 , mask = - 1 , boostEcl = true ) - > QrCode
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* - Constructor QrCode ( QrCode qr , int mask )
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* - Constructor QrCode ( list < int > datacodewords , int mask , int version , QrCode . Ecc ecl )
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* - Fields int version , size , mask
* - Field QrCode . Ecc errorCorrectionLevel
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* - Method getModule ( int x , int y ) - > int
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* - Method drawCanvas ( int scale , int border , HTMLCanvasElement canvas ) - > void
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* - Method toSvgString ( int border ) - > str
* - Enum Ecc :
* - Constants LOW , MEDIUM , QUARTILE , HIGH
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* - Field int ordinal
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* - Class QrSegment :
* - Function makeBytes ( list < int > data ) - > QrSegment
* - Function makeNumeric ( str data ) - > QrSegment
* - Function makeAlphanumeric ( str data ) - > QrSegment
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* - Function makeSegments ( str text ) - > list < QrSegment >
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* - Constructor QrSegment ( QrSegment . Mode mode , int numChars , list < int > bitData )
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* - Field QrSegment . Mode mode
* - Field int numChars
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* - Method getBits ( ) - > list < int >
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* - Constants RegExp NUMERIC _REGEX , ALPHANUMERIC _REGEX
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* - Enum Mode :
* - Constants NUMERIC , ALPHANUMERIC , BYTE , KANJI
* /
var qrcodegen = new function ( ) {
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/*---- QR Code symbol class ----*/
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/ *
* A class that represents an immutable square grid of black and white cells for a QR Code symbol ,
* with associated static functions to create a QR Code from user - supplied textual or binary data .
* This class covers the QR Code model 2 specification , supporting all versions ( sizes )
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* from 1 to 40 , all 4 error correction levels .
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*
* This constructor can be called in one of two ways :
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* - new QrCode ( datacodewords , mask , version , errCorLvl ) :
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* Creates a new QR Code symbol with the given version number , error correction level , binary data array ,
* and mask number . This cumbersome constructor can be invoked directly by the user , but is considered
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* to be even lower level than QrCode . encodeSegments ( ) .
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* - new QrCode ( qr , mask ) :
* Creates a new QR Code symbol based on the given existing object , but with a potentially different
* mask pattern . The version , error correction level , codewords , etc . of the newly created object are
* all identical to the argument object ; only the mask may differ .
* In both cases , mask = - 1 is for automatic choice or 0 to 7 for fixed choice .
* /
this . QrCode = function ( initData , mask , version , errCorLvl ) {
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/*---- Constructor ----*/
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// Check arguments and handle simple scalar fields
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if ( mask < - 1 || mask > 7 )
throw "Mask value out of range" ;
if ( initData instanceof Array ) {
if ( version < 1 || version > 40 )
throw "Version value out of range" ;
} else if ( initData instanceof qrcodegen . QrCode ) {
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if ( version != undefined || errCorLvl != undefined )
throw "Values must be undefined" ;
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version = initData . version ;
errCorLvl = initData . errorCorrectionLevel ;
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} else
throw "Invalid initial data" ;
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var size = version * 4 + 17 ;
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// Initialize both grids to be size*size arrays of Boolean false
var row = [ ] ;
for ( var i = 0 ; i < size ; i ++ )
row . push ( false ) ;
var modules = [ ] ;
var isFunction = [ ] ;
for ( var i = 0 ; i < size ; i ++ ) {
modules . push ( row . slice ( ) ) ;
isFunction . push ( row . slice ( ) ) ;
}
// Handle grid fields
if ( initData instanceof Array ) {
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// Draw function patterns, draw all codewords
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drawFunctionPatterns ( ) ;
var allCodewords = appendErrorCorrection ( initData ) ;
drawCodewords ( allCodewords ) ;
} else if ( initData instanceof qrcodegen . QrCode ) {
for ( var y = 0 ; y < size ; y ++ ) {
for ( var x = 0 ; x < size ; x ++ ) {
modules [ y ] [ x ] = initData . getModule ( x , y ) == 1 ;
isFunction [ y ] [ x ] = initData . isFunctionModule ( x , y ) ;
}
}
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applyMask ( initData . mask ) ; // Undo old mask
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} else
throw "Invalid initial data" ;
// Handle masking
if ( mask == - 1 ) { // Automatically choose best mask
var minPenalty = Infinity ;
for ( var i = 0 ; i < 8 ; i ++ ) {
drawFormatBits ( i ) ;
applyMask ( i ) ;
var penalty = getPenaltyScore ( ) ;
if ( penalty < minPenalty ) {
mask = i ;
minPenalty = penalty ;
}
applyMask ( i ) ; // Undoes the mask due to XOR
}
}
if ( mask < 0 || mask > 7 )
throw "Assertion error" ;
drawFormatBits ( mask ) ; // Overwrite old format bits
applyMask ( mask ) ; // Apply the final choice of mask
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/*---- Read-only instance properties ----*/
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// This QR Code symbol's version number, which is always between 1 and 40 (inclusive).
Object . defineProperty ( this , "version" , { value : version } ) ;
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// The width and height of this QR Code symbol, measured in modules.
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// Always equal to version * 4 + 17, in the range 21 to 177.
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Object . defineProperty ( this , "size" , { value : size } ) ;
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// The error correction level used in this QR Code symbol.
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Object . defineProperty ( this , "errorCorrectionLevel" , { value : errCorLvl } ) ;
// The mask pattern used in this QR Code symbol, in the range 0 to 7 (i.e. unsigned 3-bit integer).
// Note that even if the constructor was called with automatic masking requested
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// (mask = -1), the resulting object will still have a mask value between 0 and 7.
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Object . defineProperty ( this , "mask" , { value : mask } ) ;
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/*---- Accessor methods ----*/
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// (Public) Returns the color of the module (pixel) at the given coordinates, which is either 0 for white or 1 for black. The top
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// left corner has the coordinates (x=0, y=0). If the given coordinates are out of bounds, then 0 (white) is returned.
this . getModule = function ( x , y ) {
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if ( 0 <= x && x < size && 0 <= y && y < size )
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return modules [ y ] [ x ] ? 1 : 0 ;
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else
return 0 ; // Infinite white border
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} ;
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// (Package-private) Tests whether the module at the given coordinates is a function module (true) or not (false).
// The top left corner has the coordinates (x=0, y=0). If the given coordinates are out of bounds, then false is returned.
// The JavaScript version of this library has this method because it is impossible to access private variables of another object.
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this . isFunctionModule = function ( x , y ) {
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if ( 0 <= x && x < size && 0 <= y && y < size )
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return isFunction [ y ] [ x ] ;
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else
return false ; // Infinite border
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} ;
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/*---- Public instance methods ----*/
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// Draws this QR Code symbol with the given module scale and number of modules onto the given HTML canvas element.
// The canvas will be resized to a width and height of (this.size + border * 2) * scale. The painted image will be purely
// black and white with no transparent regions. The scale must be a positive integer, and the border must be a non-negative integer.
this . drawCanvas = function ( scale , border , canvas ) {
if ( scale <= 0 || border < 0 )
throw "Value out of range" ;
var width = ( size + border * 2 ) * scale ;
canvas . width = width ;
canvas . height = width ;
var ctx = canvas . getContext ( "2d" ) ;
for ( var y = - border ; y < size + border ; y ++ ) {
for ( var x = - border ; x < size + border ; x ++ ) {
ctx . fillStyle = this . getModule ( x , y ) == 1 ? "#000000" : "#FFFFFF" ;
ctx . fillRect ( ( x + border ) * scale , ( y + border ) * scale , scale , scale ) ;
}
}
} ;
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// Based on the given number of border modules to add as padding, this returns a
// string whose contents represents an SVG XML file that depicts this QR Code symbol.
this . toSvgString = function ( border ) {
if ( border < 0 )
throw "Border must be non-negative" ;
var result = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n" ;
result += "<!DOCTYPE svg PUBLIC \"-//W3C//DTD SVG 1.1//EN\" \"http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd\">\n" ;
result += "<svg xmlns=\"http://www.w3.org/2000/svg\" version=\"1.1\" viewBox=\"0 0 " + ( size + border * 2 ) + " " + ( size + border * 2 ) + "\">\n" ;
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result += "\t<rect width=\"100%\" height=\"100%\" fill=\"#FFFFFF\" stroke-width=\"0\"/>\n" ;
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result += "\t<path d=\"" ;
var head = true ;
for ( var y = - border ; y < size + border ; y ++ ) {
for ( var x = - border ; x < size + border ; x ++ ) {
if ( this . getModule ( x , y ) == 1 ) {
if ( head )
head = false ;
else
result += " " ;
result += "M" + ( x + border ) + "," + ( y + border ) + "h1v1h-1z" ;
}
}
}
result += "\" fill=\"#000000\" stroke-width=\"0\"/>\n" ;
result += "</svg>\n" ;
return result ;
} ;
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/*---- Private helper methods for constructor: Drawing function modules ----*/
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function drawFunctionPatterns ( ) {
// Draw the horizontal and vertical timing patterns
for ( var i = 0 ; i < size ; i ++ ) {
setFunctionModule ( 6 , i , i % 2 == 0 ) ;
setFunctionModule ( i , 6 , i % 2 == 0 ) ;
}
// Draw 3 finder patterns (all corners except bottom right; overwrites some timing modules)
drawFinderPattern ( 3 , 3 ) ;
drawFinderPattern ( size - 4 , 3 ) ;
drawFinderPattern ( 3 , size - 4 ) ;
// Draw the numerous alignment patterns
var alignPatPos = QrCode . getAlignmentPatternPositions ( version ) ;
var numAlign = alignPatPos . length ;
for ( var i = 0 ; i < numAlign ; i ++ ) {
for ( var j = 0 ; j < numAlign ; j ++ ) {
if ( i == 0 && j == 0 || i == 0 && j == numAlign - 1 || i == numAlign - 1 && j == 0 )
continue ; // Skip the three finder corners
else
drawAlignmentPattern ( alignPatPos [ i ] , alignPatPos [ j ] ) ;
}
}
// Draw configuration data
drawFormatBits ( 0 ) ; // Dummy mask value; overwritten later in the constructor
drawVersion ( ) ;
}
// Draws two copies of the format bits (with its own error correction code)
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// based on the given mask and this object's error correction level field.
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function drawFormatBits ( mask ) {
// Calculate error correction code and pack bits
var data = errCorLvl . formatBits << 3 | mask ; // errCorrLvl is uint2, mask is uint3
var rem = data ;
for ( var i = 0 ; i < 10 ; i ++ )
rem = ( rem << 1 ) ^ ( ( rem >>> 9 ) * 0x537 ) ;
data = data << 10 | rem ;
data ^= 0x5412 ; // uint15
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if ( data >>> 15 != 0 )
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throw "Assertion error" ;
// Draw first copy
for ( var i = 0 ; i <= 5 ; i ++ )
setFunctionModule ( 8 , i , ( ( data >>> i ) & 1 ) != 0 ) ;
setFunctionModule ( 8 , 7 , ( ( data >>> 6 ) & 1 ) != 0 ) ;
setFunctionModule ( 8 , 8 , ( ( data >>> 7 ) & 1 ) != 0 ) ;
setFunctionModule ( 7 , 8 , ( ( data >>> 8 ) & 1 ) != 0 ) ;
for ( var i = 9 ; i < 15 ; i ++ )
setFunctionModule ( 14 - i , 8 , ( ( data >>> i ) & 1 ) != 0 ) ;
// Draw second copy
for ( var i = 0 ; i <= 7 ; i ++ )
setFunctionModule ( size - 1 - i , 8 , ( ( data >>> i ) & 1 ) != 0 ) ;
for ( var i = 8 ; i < 15 ; i ++ )
setFunctionModule ( 8 , size - 15 + i , ( ( data >>> i ) & 1 ) != 0 ) ;
setFunctionModule ( 8 , size - 8 , true ) ;
}
// Draws two copies of the version bits (with its own error correction code),
// based on this object's version field (which only has an effect for 7 <= version <= 40).
function drawVersion ( ) {
if ( version < 7 )
return ;
// Calculate error correction code and pack bits
var rem = version ; // version is uint6, in the range [7, 40]
for ( var i = 0 ; i < 12 ; i ++ )
rem = ( rem << 1 ) ^ ( ( rem >>> 11 ) * 0x1F25 ) ;
var data = version << 12 | rem ; // uint18
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if ( data >>> 18 != 0 )
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throw "Assertion error" ;
// Draw two copies
for ( var i = 0 ; i < 18 ; i ++ ) {
var bit = ( ( data >>> i ) & 1 ) != 0 ;
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var a = size - 11 + i % 3 , b = Math . floor ( i / 3 ) ;
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setFunctionModule ( a , b , bit ) ;
setFunctionModule ( b , a , bit ) ;
}
}
// Draws a 9*9 finder pattern including the border separator, with the center module at (x, y).
function drawFinderPattern ( x , y ) {
for ( var i = - 4 ; i <= 4 ; i ++ ) {
for ( var j = - 4 ; j <= 4 ; j ++ ) {
var dist = Math . max ( Math . abs ( i ) , Math . abs ( j ) ) ; // Chebyshev/infinity norm
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var xx = x + j , yy = y + i ;
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if ( 0 <= xx && xx < size && 0 <= yy && yy < size )
setFunctionModule ( xx , yy , dist != 2 && dist != 4 ) ;
}
}
}
// Draws a 5*5 alignment pattern, with the center module at (x, y).
function drawAlignmentPattern ( x , y ) {
for ( var i = - 2 ; i <= 2 ; i ++ ) {
for ( var j = - 2 ; j <= 2 ; j ++ )
setFunctionModule ( x + j , y + i , Math . max ( Math . abs ( i ) , Math . abs ( j ) ) != 1 ) ;
}
}
// Sets the color of a module and marks it as a function module.
// Only used by the constructor. Coordinates must be in range.
function setFunctionModule ( x , y , isBlack ) {
modules [ y ] [ x ] = isBlack ;
isFunction [ y ] [ x ] = true ;
}
/*---- Private helper methods for constructor: Codewords and masking ----*/
// Returns a new byte string representing the given data with the appropriate error correction
// codewords appended to it, based on this object's version and error correction level.
function appendErrorCorrection ( data ) {
if ( data . length != QrCode . getNumDataCodewords ( version , errCorLvl ) )
throw "Invalid argument" ;
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// Calculate parameter numbers
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var numBlocks = QrCode . NUM _ERROR _CORRECTION _BLOCKS [ errCorLvl . ordinal ] [ version ] ;
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var totalEcc = QrCode . NUM _ERROR _CORRECTION _CODEWORDS [ errCorLvl . ordinal ] [ version ] ;
if ( totalEcc % numBlocks != 0 )
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throw "Assertion error" ;
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var blockEccLen = Math . floor ( totalEcc / numBlocks ) ;
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var numShortBlocks = numBlocks - Math . floor ( QrCode . getNumRawDataModules ( version ) / 8 ) % numBlocks ;
var shortBlockLen = Math . floor ( QrCode . getNumRawDataModules ( version ) / ( numBlocks * 8 ) ) ;
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// Split data into blocks and append ECC to each block
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var blocks = [ ] ;
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var rs = new ReedSolomonGenerator ( blockEccLen ) ;
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for ( var i = 0 , k = 0 ; i < numBlocks ; i ++ ) {
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var dat = data . slice ( k , k + shortBlockLen - blockEccLen + ( i < numShortBlocks ? 0 : 1 ) ) ;
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k += dat . length ;
var ecc = rs . getRemainder ( dat ) ;
if ( i < numShortBlocks )
dat . push ( 0 ) ;
ecc . forEach ( function ( b ) {
dat . push ( b ) ;
} ) ;
blocks . push ( dat ) ;
}
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// Interleave (not concatenate) the bytes from every block into a single sequence
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var result = [ ] ;
for ( var i = 0 ; i < blocks [ 0 ] . length ; i ++ ) {
for ( var j = 0 ; j < blocks . length ; j ++ ) {
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// Skip the padding byte in short blocks
if ( i != shortBlockLen - blockEccLen || j >= numShortBlocks )
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result . push ( blocks [ j ] [ i ] ) ;
}
}
if ( result . length != Math . floor ( QrCode . getNumRawDataModules ( version ) / 8 ) )
throw "Assertion error" ;
return result ;
}
// Draws the given sequence of 8-bit codewords (data and error correction) onto the entire
// data area of this QR Code symbol. Function modules need to be marked off before this is called.
function drawCodewords ( data ) {
if ( data . length != Math . floor ( QrCode . getNumRawDataModules ( version ) / 8 ) )
throw "Invalid argument" ;
var i = 0 ; // Bit index into the data
// Do the funny zigzag scan
for ( var right = size - 1 ; right >= 1 ; right -= 2 ) { // Index of right column in each column pair
if ( right == 6 )
right = 5 ;
for ( var vert = 0 ; vert < size ; vert ++ ) { // Vertical counter
for ( var j = 0 ; j < 2 ; j ++ ) {
var x = right - j ; // Actual x coordinate
var upwards = ( ( right & 2 ) == 0 ) ^ ( x < 6 ) ;
var y = upwards ? size - 1 - vert : vert ; // Actual y coordinate
if ( ! isFunction [ y ] [ x ] && i < data . length * 8 ) {
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modules [ y ] [ x ] = ( ( data [ i >>> 3 ] >>> ( 7 - ( i & 7 ) ) ) & 1 ) != 0 ;
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i ++ ;
}
}
}
}
if ( i != data . length * 8 )
throw "Assertion error" ;
}
// XORs the data modules in this QR Code with the given mask pattern. Due to XOR's mathematical
// properties, calling applyMask(m) twice with the same value is equivalent to no change at all.
// This means it is possible to apply a mask, undo it, and try another mask. Note that a final
// well-formed QR Code symbol needs exactly one mask applied (not zero, not two, etc.).
function applyMask ( mask ) {
if ( mask < 0 || mask > 7 )
throw "Mask value out of range" ;
for ( var y = 0 ; y < size ; y ++ ) {
for ( var x = 0 ; x < size ; x ++ ) {
var invert ;
switch ( mask ) {
case 0 : invert = ( x + y ) % 2 == 0 ; break ;
case 1 : invert = y % 2 == 0 ; break ;
case 2 : invert = x % 3 == 0 ; break ;
case 3 : invert = ( x + y ) % 3 == 0 ; break ;
case 4 : invert = ( Math . floor ( x / 3 ) + Math . floor ( y / 2 ) ) % 2 == 0 ; break ;
case 5 : invert = x * y % 2 + x * y % 3 == 0 ; break ;
case 6 : invert = ( x * y % 2 + x * y % 3 ) % 2 == 0 ; break ;
case 7 : invert = ( ( x + y ) % 2 + x * y % 3 ) % 2 == 0 ; break ;
default : throw "Assertion error" ;
}
modules [ y ] [ x ] ^= invert & ! isFunction [ y ] [ x ] ;
}
}
}
// Calculates and returns the penalty score based on state of this QR Code's current modules.
// This is used by the automatic mask choice algorithm to find the mask pattern that yields the lowest score.
function getPenaltyScore ( ) {
var result = 0 ;
// Adjacent modules in row having same color
for ( var y = 0 ; y < size ; y ++ ) {
var colorX = modules [ y ] [ 0 ] ;
for ( var x = 1 , runX = 1 ; x < size ; x ++ ) {
if ( modules [ y ] [ x ] != colorX ) {
colorX = modules [ y ] [ x ] ;
runX = 1 ;
} else {
runX ++ ;
if ( runX == 5 )
result += QrCode . PENALTY _N1 ;
else if ( runX > 5 )
result ++ ;
}
}
}
// Adjacent modules in column having same color
for ( var x = 0 ; x < size ; x ++ ) {
var colorY = modules [ 0 ] [ x ] ;
for ( var y = 1 , runY = 1 ; y < size ; y ++ ) {
if ( modules [ y ] [ x ] != colorY ) {
colorY = modules [ y ] [ x ] ;
runY = 1 ;
} else {
runY ++ ;
if ( runY == 5 )
result += QrCode . PENALTY _N1 ;
else if ( runY > 5 )
result ++ ;
}
}
}
// 2*2 blocks of modules having same color
for ( var y = 0 ; y < size - 1 ; y ++ ) {
for ( var x = 0 ; x < size - 1 ; x ++ ) {
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var color = modules [ y ] [ x ] ;
if ( color == modules [ y ] [ x + 1 ] &&
color == modules [ y + 1 ] [ x ] &&
color == modules [ y + 1 ] [ x + 1 ] )
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result += QrCode . PENALTY _N2 ;
}
}
// Finder-like pattern in rows
for ( var y = 0 ; y < size ; y ++ ) {
for ( var x = 0 , bits = 0 ; x < size ; x ++ ) {
bits = ( ( bits << 1 ) & 0x7FF ) | ( modules [ y ] [ x ] ? 1 : 0 ) ;
if ( x >= 10 && ( bits == 0x05D || bits == 0x5D0 ) ) // Needs 11 bits accumulated
result += QrCode . PENALTY _N3 ;
}
}
// Finder-like pattern in columns
for ( var x = 0 ; x < size ; x ++ ) {
for ( var y = 0 , bits = 0 ; y < size ; y ++ ) {
bits = ( ( bits << 1 ) & 0x7FF ) | ( modules [ y ] [ x ] ? 1 : 0 ) ;
if ( y >= 10 && ( bits == 0x05D || bits == 0x5D0 ) ) // Needs 11 bits accumulated
result += QrCode . PENALTY _N3 ;
}
}
// Balance of black and white modules
var black = 0 ;
modules . forEach ( function ( row ) {
row . forEach ( function ( color ) {
if ( color )
black ++ ;
} ) ;
} ) ;
var total = size * size ;
// Find smallest k such that (45-5k)% <= dark/total <= (55+5k)%
for ( var k = 0 ; black * 20 < ( 9 - k ) * total || black * 20 > ( 11 + k ) * total ; k ++ )
result += QrCode . PENALTY _N4 ;
return result ;
}
} ;
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/*---- Public static factory functions for QrCode ----*/
/ *
* Returns a QR Code symbol representing the given Unicode text string at the given error correction level .
* As a conservative upper bound , this function is guaranteed to succeed for strings that have 738 or fewer Unicode
* code points ( not UTF - 16 code units ) . The smallest possible QR Code version is automatically chosen for the output .
* /
this . QrCode . encodeText = function ( text , ecl ) {
var segs = qrcodegen . QrSegment . makeSegments ( text ) ;
return this . encodeSegments ( segs , ecl ) ;
} ;
/ *
* Returns a QR Code symbol representing the given binary data string at the given error correction level .
* This function always encodes using the binary segment mode , not any text mode . The maximum number of
* bytes allowed is 2953. The smallest possible QR Code version is automatically chosen for the output .
* /
this . QrCode . encodeBinary = function ( data , ecl ) {
var seg = qrcodegen . QrSegment . makeBytes ( data ) ;
return this . encodeSegments ( [ seg ] , ecl ) ;
} ;
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/ *
* Returns a QR Code symbol representing the specified data segments with the specified encoding parameters .
* The smallest possible QR Code version within the specified range is automatically chosen for the output .
* This function allows the user to create a custom sequence of segments that switches
* between modes ( such as alphanumeric and binary ) to encode text more efficiently .
* This function is considered to be lower level than simply encoding text or binary data .
* /
this . QrCode . encodeSegments = function ( segs , ecl , minVersion , maxVersion , mask , boostEcl ) {
if ( minVersion == undefined ) minVersion = 1 ;
if ( maxVersion == undefined ) maxVersion = 40 ;
if ( mask == undefined ) mask = - 1 ;
if ( boostEcl == undefined ) boostEcl = true ;
if ( ! ( 1 <= minVersion && minVersion <= maxVersion && maxVersion <= 40 ) || mask < - 1 || mask > 7 )
throw "Invalid value" ;
// Find the minimal version number to use
var version , dataUsedBits ;
for ( version = minVersion ; ; version ++ ) {
var dataCapacityBits = QrCode . getNumDataCodewords ( version , ecl ) * 8 ; // Number of data bits available
dataUsedBits = qrcodegen . QrSegment . getTotalBits ( segs , version ) ;
if ( dataUsedBits != null && dataUsedBits <= dataCapacityBits )
break ; // This version number is found to be suitable
if ( version >= maxVersion ) // All versions in the range could not fit the given data
throw "Data too long" ;
}
// Increase the error correction level while the data still fits in the current version number
[ this . Ecc . MEDIUM , this . Ecc . QUARTILE , this . Ecc . HIGH ] . forEach ( function ( newEcl ) {
if ( boostEcl && dataUsedBits <= QrCode . getNumDataCodewords ( version , newEcl ) * 8 )
ecl = newEcl ;
} ) ;
// Create the data bit string by concatenating all segments
var dataCapacityBits = QrCode . getNumDataCodewords ( version , ecl ) * 8 ;
var bb = new BitBuffer ( ) ;
segs . forEach ( function ( seg ) {
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bb . appendBits ( seg . mode . modeBits , 4 ) ;
bb . appendBits ( seg . numChars , seg . mode . numCharCountBits ( version ) ) ;
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bb . appendData ( seg ) ;
} ) ;
// Add terminator and pad up to a byte if applicable
bb . appendBits ( 0 , Math . min ( 4 , dataCapacityBits - bb . bitLength ( ) ) ) ;
bb . appendBits ( 0 , ( 8 - bb . bitLength ( ) % 8 ) % 8 ) ;
// Pad with alternate bytes until data capacity is reached
for ( var padByte = 0xEC ; bb . bitLength ( ) < dataCapacityBits ; padByte ^= 0xEC ^ 0x11 )
bb . appendBits ( padByte , 8 ) ;
if ( bb . bitLength ( ) % 8 != 0 )
throw "Assertion error" ;
// Create the QR Code symbol
return new this ( bb . getBytes ( ) , mask , version , ecl ) ;
} ;
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/*---- Private static helper functions QrCode ----*/
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var QrCode = { } ; // Private object to assign properties to. Not the same object as 'this.QrCode'.
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// Returns a sequence of positions of the alignment patterns in ascending order. These positions are
// used on both the x and y axes. Each value in the resulting sequence is in the range [0, 177).
// This stateless pure function could be implemented as table of 40 variable-length lists of integers.
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QrCode . getAlignmentPatternPositions = function ( ver ) {
if ( ver < 1 || ver > 40 )
throw "Version number out of range" ;
else if ( ver == 1 )
return [ ] ;
else {
var size = ver * 4 + 17 ;
var numAlign = Math . floor ( ver / 7 ) + 2 ;
var step ;
if ( ver != 32 )
step = Math . ceil ( ( size - 13 ) / ( 2 * numAlign - 2 ) ) * 2 ;
else // C-C-C-Combo breaker!
step = 26 ;
var result = [ ] ;
for ( var i = numAlign - 1 , pos = size - 7 ; i >= 1 ; i -- , pos -= step )
result . push ( pos ) ;
result . push ( 6 ) ;
result . reverse ( ) ;
return result ;
}
} ;
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// Returns the number of raw data modules (bits) available at the given version number.
// These data modules are used for both user data codewords and error correction codewords.
// This stateless pure function could be implemented as a 40-entry lookup table.
QrCode . getNumRawDataModules = function ( ver ) {
if ( ver < 1 || ver > 40 )
throw "Version number out of range" ;
var result = ( 16 * ver + 128 ) * ver + 64 ;
if ( ver >= 2 ) {
var numAlign = Math . floor ( ver / 7 ) + 2 ;
result -= ( 25 * numAlign - 10 ) * numAlign - 55 ;
if ( ver >= 7 )
result -= 18 * 2 ; // Subtract version information
}
return result ;
} ;
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// Returns the number of 8-bit data (i.e. not error correction) codewords contained in any
// QR Code of the given version number and error correction level, with remainder bits discarded.
// This stateless pure function could be implemented as a (40*4)-cell lookup table.
QrCode . getNumDataCodewords = function ( ver , ecl ) {
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if ( ver < 1 || ver > 40 )
throw "Version number out of range" ;
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return Math . floor ( QrCode . getNumRawDataModules ( ver ) / 8 ) - QrCode . NUM _ERROR _CORRECTION _CODEWORDS [ ecl . ordinal ] [ ver ] ;
} ;
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/*---- Private tables of constants for QrCode ----*/
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// For use in getPenaltyScore(), when evaluating which mask is best.
QrCode . PENALTY _N1 = 3 ;
QrCode . PENALTY _N2 = 3 ;
QrCode . PENALTY _N3 = 40 ;
QrCode . PENALTY _N4 = 10 ;
QrCode . NUM _ERROR _CORRECTION _CODEWORDS = [
// Version: (note that index 0 is for padding, and is set to an illegal value)
// 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40 Error correction level
[ null , 7 , 10 , 15 , 20 , 26 , 36 , 40 , 48 , 60 , 72 , 80 , 96 , 104 , 120 , 132 , 144 , 168 , 180 , 196 , 224 , 224 , 252 , 270 , 300 , 312 , 336 , 360 , 390 , 420 , 450 , 480 , 510 , 540 , 570 , 570 , 600 , 630 , 660 , 720 , 750 ] , // Low
[ null , 10 , 16 , 26 , 36 , 48 , 64 , 72 , 88 , 110 , 130 , 150 , 176 , 198 , 216 , 240 , 280 , 308 , 338 , 364 , 416 , 442 , 476 , 504 , 560 , 588 , 644 , 700 , 728 , 784 , 812 , 868 , 924 , 980 , 1036 , 1064 , 1120 , 1204 , 1260 , 1316 , 1372 ] , // Medium
[ null , 13 , 22 , 36 , 52 , 72 , 96 , 108 , 132 , 160 , 192 , 224 , 260 , 288 , 320 , 360 , 408 , 448 , 504 , 546 , 600 , 644 , 690 , 750 , 810 , 870 , 952 , 1020 , 1050 , 1140 , 1200 , 1290 , 1350 , 1440 , 1530 , 1590 , 1680 , 1770 , 1860 , 1950 , 2040 ] , // Quartile
[ null , 17 , 28 , 44 , 64 , 88 , 112 , 130 , 156 , 192 , 224 , 264 , 308 , 352 , 384 , 432 , 480 , 532 , 588 , 650 , 700 , 750 , 816 , 900 , 960 , 1050 , 1110 , 1200 , 1260 , 1350 , 1440 , 1530 , 1620 , 1710 , 1800 , 1890 , 1980 , 2100 , 2220 , 2310 , 2430 ] , // High
] ;
QrCode . NUM _ERROR _CORRECTION _BLOCKS = [
// Version: (note that index 0 is for padding, and is set to an illegal value)
// 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40 Error correction level
[ null , 1 , 1 , 1 , 1 , 1 , 2 , 2 , 2 , 2 , 4 , 4 , 4 , 4 , 4 , 6 , 6 , 6 , 6 , 7 , 8 , 8 , 9 , 9 , 10 , 12 , 12 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 19 , 20 , 21 , 22 , 24 , 25 ] , // Low
[ null , 1 , 1 , 1 , 2 , 2 , 4 , 4 , 4 , 5 , 5 , 5 , 8 , 9 , 9 , 10 , 10 , 11 , 13 , 14 , 16 , 17 , 17 , 18 , 20 , 21 , 23 , 25 , 26 , 28 , 29 , 31 , 33 , 35 , 37 , 38 , 40 , 43 , 45 , 47 , 49 ] , // Medium
[ null , 1 , 1 , 2 , 2 , 4 , 4 , 6 , 6 , 8 , 8 , 8 , 10 , 12 , 16 , 12 , 17 , 16 , 18 , 21 , 20 , 23 , 23 , 25 , 27 , 29 , 34 , 34 , 35 , 38 , 40 , 43 , 45 , 48 , 51 , 53 , 56 , 59 , 62 , 65 , 68 ] , // Quartile
[ null , 1 , 1 , 2 , 4 , 4 , 4 , 5 , 6 , 8 , 8 , 11 , 11 , 16 , 16 , 18 , 16 , 19 , 21 , 25 , 25 , 25 , 34 , 30 , 32 , 35 , 37 , 40 , 42 , 45 , 48 , 51 , 54 , 57 , 60 , 63 , 66 , 70 , 74 , 77 , 81 ] , // High
] ;
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/*---- Public helper enumeration ----*/
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/ *
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* Represents the error correction level used in a QR Code symbol .
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* /
this . QrCode . Ecc = {
// Constants declared in ascending order of error protection
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LOW : new Ecc ( 0 , 1 ) ,
MEDIUM : new Ecc ( 1 , 0 ) ,
QUARTILE : new Ecc ( 2 , 3 ) ,
HIGH : new Ecc ( 3 , 2 ) ,
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} ;
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// Private constructor.
function Ecc ( ord , fb ) {
// (Public) In the range 0 to 3 (unsigned 2-bit integer)
Object . defineProperty ( this , "ordinal" , { value : ord } ) ;
// (Package-private) In the range 0 to 3 (unsigned 2-bit integer)
Object . defineProperty ( this , "formatBits" , { value : fb } ) ;
}
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/*---- Data segment class ----*/
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/ *
* A public class that represents a character string to be encoded in a QR Code symbol .
* Each segment has a mode , and a sequence of characters that is already encoded as
* a sequence of bits . Instances of this class are immutable .
* This segment class imposes no length restrictions , but QR Codes have restrictions .
* Even in the most favorable conditions , a QR Code can only hold 7089 characters of data .
* Any segment longer than this is meaningless for the purpose of generating QR Codes .
* /
this . QrSegment = function ( mode , numChars , bitData ) {
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if ( numChars < 0 || ! ( mode instanceof Mode ) )
throw "Invalid argument" ;
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// The mode indicator for this segment.
Object . defineProperty ( this , "mode" , { value : mode } ) ;
// The length of this segment's unencoded data, measured in characters. Always zero or positive.
Object . defineProperty ( this , "numChars" , { value : numChars } ) ;
// Returns a copy of all bits, which is an array of 0s and 1s.
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this . getBits = function ( ) {
return bitData . slice ( ) ;
} ;
} ;
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/*---- Public static factory functions for QrSegment ----*/
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/ *
* Returns a segment representing the given binary data encoded in byte mode .
* /
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this . QrSegment . makeBytes = function ( data ) {
var bb = new BitBuffer ( ) ;
data . forEach ( function ( b ) {
bb . appendBits ( b , 8 ) ;
} ) ;
return new this ( this . Mode . BYTE , data . length , bb . getBits ( ) ) ;
} ;
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/ *
* Returns a segment representing the given string of decimal digits encoded in numeric mode .
* /
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this . QrSegment . makeNumeric = function ( digits ) {
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if ( ! this . NUMERIC _REGEX . test ( digits ) )
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throw "String contains non-numeric characters" ;
var bb = new BitBuffer ( ) ;
var i ;
for ( i = 0 ; i + 3 <= digits . length ; i += 3 ) // Process groups of 3
bb . appendBits ( parseInt ( digits . substr ( i , 3 ) , 10 ) , 10 ) ;
var rem = digits . length - i ;
if ( rem > 0 ) // 1 or 2 digits remaining
bb . appendBits ( parseInt ( digits . substring ( i ) , 10 ) , rem * 3 + 1 ) ;
return new this ( this . Mode . NUMERIC , digits . length , bb . getBits ( ) ) ;
} ;
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/ *
* Returns a segment representing the given text string encoded in alphanumeric mode . The characters allowed are :
* 0 to 9 , A to Z ( uppercase only ) , space , dollar , percent , asterisk , plus , hyphen , period , slash , colon .
* /
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this . QrSegment . makeAlphanumeric = function ( text ) {
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if ( ! this . ALPHANUMERIC _REGEX . test ( text ) )
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throw "String contains unencodable characters in alphanumeric mode" ;
var bb = new BitBuffer ( ) ;
var i ;
for ( i = 0 ; i + 2 <= text . length ; i += 2 ) { // Process groups of 2
var temp = QrSegment . ALPHANUMERIC _ENCODING _TABLE [ text . charCodeAt ( i ) - 32 ] * 45 ;
temp += QrSegment . ALPHANUMERIC _ENCODING _TABLE [ text . charCodeAt ( i + 1 ) - 32 ] ;
bb . appendBits ( temp , 11 ) ;
}
if ( i < text . length ) // 1 character remaining
bb . appendBits ( QrSegment . ALPHANUMERIC _ENCODING _TABLE [ text . charCodeAt ( i ) - 32 ] , 6 ) ;
return new this ( this . Mode . ALPHANUMERIC , text . length , bb . getBits ( ) ) ;
} ;
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/ *
* Returns a new mutable list of zero or more segments to represent the given Unicode text string .
* The result may use various segment modes and switch modes to optimize the length of the bit stream .
* /
this . QrSegment . makeSegments = function ( text ) {
// Select the most efficient segment encoding automatically
if ( text == "" )
return [ ] ;
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else if ( this . NUMERIC _REGEX . test ( text ) )
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return [ this . makeNumeric ( text ) ] ;
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else if ( this . ALPHANUMERIC _REGEX . test ( text ) )
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return [ this . makeAlphanumeric ( text ) ] ;
else
return [ this . makeBytes ( toUtf8ByteArray ( text ) ) ] ;
} ;
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// Package-private helper function.
this . QrSegment . getTotalBits = function ( segs , version ) {
if ( version < 1 || version > 40 )
throw "Version number out of range" ;
var result = 0 ;
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for ( var i = 0 ; i < segs . length ; i ++ ) {
var seg = segs [ i ] ;
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var ccbits = seg . mode . numCharCountBits ( version ) ;
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// Fail if segment length value doesn't fit in the length field's bit-width
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if ( seg . numChars >= ( 1 << ccbits ) )
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return null ;
result += 4 + ccbits + seg . getBits ( ) . length ;
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}
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return result ;
} ;
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/*---- Constants for QrSegment ----*/
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var QrSegment = { } ; // Private object to assign properties to. Not the same object as 'this.QrSegment'.
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// (Public) Can test whether a string is encodable in numeric mode (such as by using QrSegment.makeNumeric()).
this . QrSegment . NUMERIC _REGEX = /^[0-9]*$/ ;
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// (Public) Can test whether a string is encodable in alphanumeric mode (such as by using QrSegment.makeAlphanumeric()).
this . QrSegment . ALPHANUMERIC _REGEX = /^[A-Z0-9 $%*+.\/:-]*$/ ;
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// (Private) Maps shifted ASCII codes to alphanumeric mode character codes.
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QrSegment . ALPHANUMERIC _ENCODING _TABLE = [
// SP, !, ", #, $, %, &, ', (, ), *, +, ,, -, ., /, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, :, ;, <, =, >, ?, @, // ASCII codes 32 to 64
36 , - 1 , - 1 , - 1 , 37 , 38 , - 1 , - 1 , - 1 , - 1 , 39 , 40 , - 1 , 41 , 42 , 43 , 0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 44 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , // Array indices 0 to 32
10 , 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 , // Array indices 33 to 58
// A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, // ASCII codes 65 to 90
] ;
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/*---- Public helper enumeration ----*/
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/ *
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* Represents the mode field of a segment . Immutable .
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* /
this . QrSegment . Mode = { // Constants
NUMERIC : new Mode ( 0x1 , [ 10 , 12 , 14 ] ) ,
ALPHANUMERIC : new Mode ( 0x2 , [ 9 , 11 , 13 ] ) ,
BYTE : new Mode ( 0x4 , [ 8 , 16 , 16 ] ) ,
KANJI : new Mode ( 0x8 , [ 8 , 10 , 12 ] ) ,
} ;
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// Private constructor.
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function Mode ( mode , ccbits ) {
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// (Package-private) An unsigned 4-bit integer value (range 0 to 15) representing the mode indicator bits for this mode object.
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Object . defineProperty ( this , "modeBits" , { value : mode } ) ;
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// (Package-private) Returns the bit width of the segment character count field for this mode object at the given version number.
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this . numCharCountBits = function ( ver ) {
if ( 1 <= ver && ver <= 9 ) return ccbits [ 0 ] ;
else if ( 10 <= ver && ver <= 26 ) return ccbits [ 1 ] ;
else if ( 27 <= ver && ver <= 40 ) return ccbits [ 2 ] ;
else throw "Version number out of range" ;
} ;
}
/*---- Private helper functions and classes ----*/
// Returns a new array of bytes representing the given string encoded in UTF-8.
function toUtf8ByteArray ( str ) {
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str = encodeURI ( str ) ;
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var result = [ ] ;
for ( var i = 0 ; i < str . length ; i ++ ) {
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if ( str . charAt ( i ) != "%" )
result . push ( str . charCodeAt ( i ) ) ;
else {
result . push ( parseInt ( str . substr ( i + 1 , 2 ) , 16 ) ) ;
i += 2 ;
}
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}
return result ;
}
/ *
* A private helper class that computes the Reed - Solomon error correction codewords for a sequence of
* data codewords at a given degree . Objects are immutable , and the state only depends on the degree .
* This class exists because the divisor polynomial does not need to be recalculated for every input .
* This constructor creates a Reed - Solomon ECC generator for the given degree . This could be implemented
* as a lookup table over all possible parameter values , instead of as an algorithm .
* /
function ReedSolomonGenerator ( degree ) {
if ( degree < 1 || degree > 255 )
throw "Degree out of range" ;
// Coefficients of the divisor polynomial, stored from highest to lowest power, excluding the leading term which
// is always 1. For example the polynomial x^3 + 255x^2 + 8x + 93 is stored as the uint8 array {255, 8, 93}.
var coefficients = [ ] ;
// Start with the monomial x^0
for ( var i = 0 ; i < degree - 1 ; i ++ )
coefficients . push ( 0 ) ;
coefficients . push ( 1 ) ;
// Compute the product polynomial (x - r^0) * (x - r^1) * (x - r^2) * ... * (x - r^{degree-1}),
// drop the highest term, and store the rest of the coefficients in order of descending powers.
// Note that r = 0x02, which is a generator element of this field GF(2^8/0x11D).
var root = 1 ;
for ( var i = 0 ; i < degree ; i ++ ) {
// Multiply the current product by (x - r^i)
for ( var j = 0 ; j < coefficients . length ; j ++ ) {
coefficients [ j ] = ReedSolomonGenerator . multiply ( coefficients [ j ] , root ) ;
if ( j + 1 < coefficients . length )
coefficients [ j ] ^= coefficients [ j + 1 ] ;
}
root = ( root << 1 ) ^ ( ( root >>> 7 ) * 0x11D ) ; // Multiply by 0x02 mod GF(2^8/0x11D)
}
// Computes and returns the Reed-Solomon error correction codewords for the given sequence of data codewords.
// The returned object is always a new byte array. This method does not alter this object's state (because it is immutable).
this . getRemainder = function ( data ) {
// Compute the remainder by performing polynomial division
var result = coefficients . map ( function ( ) { return 0 ; } ) ;
data . forEach ( function ( b ) {
var factor = b ^ result [ 0 ] ;
result . shift ( ) ;
result . push ( 0 ) ;
for ( var j = 0 ; j < result . length ; j ++ )
result [ j ] ^= ReedSolomonGenerator . multiply ( coefficients [ j ] , factor ) ;
} ) ;
return result ;
} ;
}
// This static function returns the product of the two given field elements modulo GF(2^8/0x11D). The arguments and
// result are unsigned 8-bit integers. This could be implemented as a lookup table of 256*256 entries of uint8.
ReedSolomonGenerator . multiply = function ( x , y ) {
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if ( x >>> 8 != 0 || y >>> 8 != 0 )
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throw "Byte out of range" ;
// Russian peasant multiplication
var z = 0 ;
for ( var i = 7 ; i >= 0 ; i -- ) {
z = ( z << 1 ) ^ ( ( z >>> 7 ) * 0x11D ) ;
z ^= ( ( y >>> i ) & 1 ) * x ;
}
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if ( z >>> 8 != 0 )
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throw "Assertion error" ;
return z ;
} ;
/ *
* A private helper class that represents an appendable sequence of bits .
* This constructor creates an empty bit buffer ( length 0 ) .
* /
function BitBuffer ( ) {
// Array of bits; each item is the integer 0 or 1
var bitData = [ ] ;
// Returns the number of bits in the buffer, which is a non-negative value.
this . bitLength = function ( ) {
return bitData . length ;
} ;
// Returns a copy of all bits.
this . getBits = function ( ) {
return bitData . slice ( ) ;
} ;
// Returns a copy of all bytes, padding up to the nearest byte.
this . getBytes = function ( ) {
var result = [ ] ;
var numBytes = Math . ceil ( bitData . length / 8 ) ;
for ( var i = 0 ; i < numBytes ; i ++ )
result . push ( 0 ) ;
bitData . forEach ( function ( bit , i ) {
result [ i >>> 3 ] |= bit << ( 7 - ( i & 7 ) ) ;
} ) ;
return result ;
} ;
// Appends the given number of bits of the given value to this sequence.
// If 0 <= len <= 31, then this requires 0 <= val < 2^len.
this . appendBits = function ( val , len ) {
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if ( len < 0 || len > 32 || len < 32 && ( val >>> len ) != 0 )
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throw "Value out of range" ;
for ( var i = len - 1 ; i >= 0 ; i -- ) // Append bit by bit
bitData . push ( ( val >>> i ) & 1 ) ;
} ;
// Appends the bit data of the given segment to this bit buffer.
this . appendData = function ( seg ) {
seg . getBits ( ) . forEach ( function ( b ) { // Append bit by bit
bitData . push ( b ) ;
} ) ;
} ;
}
} ;