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react-native-bluetooth-escp.../ios/ZXingObjC-3.2.2/ZXingObjC/datamatrix/decoder/ZXDataMatrixBitMatrixParser.m

ZXDataMatrixBitMatrixParser.m 14KB
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  1. /*

  2.  * Copyright 2012 ZXing authors

  3.  *

  4.  * Licensed under the Apache License, Version 2.0 (the "License");

  5.  * you may not use this file except in compliance with the License.

  6.  * You may obtain a copy of the License at

  7.  *

  8.  *      http://www.apache.org/licenses/LICENSE-2.0

  9.  *

  10.  * Unless required by applicable law or agreed to in writing, software

  11.  * distributed under the License is distributed on an "AS IS" BASIS,

  12.  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  13.  * See the License for the specific language governing permissions and

  14.  * limitations under the License.

  15.  */

  16. 

  17. #import "ZXBitMatrix.h"

  18. #import "ZXByteArray.h"

  19. #import "ZXDataMatrixBitMatrixParser.h"

  20. #import "ZXDataMatrixVersion.h"

  21. #import "ZXErrors.h"

  22. 

  23. @interface ZXDataMatrixBitMatrixParser ()

  24. 

  25. @property (nonatomic, strong, readonly) ZXBitMatrix *mappingBitMatrix;

  26. @property (nonatomic, strong, readonly) ZXBitMatrix *readMappingMatrix;

  27. 

  28. @end

  29. 

  30. @implementation ZXDataMatrixBitMatrixParser

  31. 

  32. - (id)initWithBitMatrix:(ZXBitMatrix *)bitMatrix error:(NSError **)error {

  33.   if (self = [super init]) {

  34.     int dimension = bitMatrix.height;

  35.     if (dimension < 8 || dimension > 144 || (dimension & 0x01) != 0) {

  36.       if (error) *error = ZXFormatErrorInstance();

  37.       return nil;

  38.     }

  39.     _version = [self readVersion:bitMatrix];

  40.     if (!_version) {

  41.       if (error) *error = ZXFormatErrorInstance();

  42.       return nil;

  43.     }

  44.     _mappingBitMatrix = [self extractDataRegion:bitMatrix];

  45.     _readMappingMatrix = [[ZXBitMatrix alloc] initWithWidth:_mappingBitMatrix.width

  46.                                                      height:_mappingBitMatrix.height];

  47.   }

  48. 

  49.   return self;

  50. }

  51. 

  52. /**

  53.  * Creates the version object based on the dimension of the original bit matrix from

  54.  * the datamatrix code.

  55.  *

  56.  * See ISO 16022:2006 Table 7 - ECC 200 symbol attributes<

  57.  *

  58.  * @param bitMatrix Original ZXBitMatrix including alignment patterns

  59.  * @return ZXDatamatrixVersion encapsulating the Data Matrix Code's "version"

  60.  *  or nil if the dimensions of the mapping matrix are not valid

  61.  *  Data Matrix dimensions.

  62.  */

  63. - (ZXDataMatrixVersion *)readVersion:(ZXBitMatrix *)bitMatrix {

  64.   int numRows = bitMatrix.height;

  65.   int numColumns = bitMatrix.width;

  66.   return [ZXDataMatrixVersion versionForDimensions:numRows numColumns:numColumns];

  67. }

  68. 

  69. - (ZXByteArray *)readCodewords {

  70.   ZXByteArray *result = [[ZXByteArray alloc] initWithLength:self.version.totalCodewords];

  71.   int resultOffset = 0;

  72. 

  73.   int row = 4;

  74.   int column = 0;

  75. 

  76.   int numRows = self.mappingBitMatrix.height;

  77.   int numColumns = self.mappingBitMatrix.width;

  78. 

  79.   BOOL corner1Read = NO;

  80.   BOOL corner2Read = NO;

  81.   BOOL corner3Read = NO;

  82.   BOOL corner4Read = NO;

  83. 

  84.   do {

  85.     if ((row == numRows) && (column == 0) && !corner1Read) {

  86.       result.array[resultOffset++] = (int8_t) [self readCorner1:numRows numColumns:numColumns];

  87.       row -= 2;

  88.       column += 2;

  89.       corner1Read = YES;

  90.     } else if ((row == numRows - 2) && (column == 0) && ((numColumns & 0x03) != 0) && !corner2Read) {

  91.       result.array[resultOffset++] = (int8_t) [self readCorner2:numRows numColumns:numColumns];

  92.       row -= 2;

  93.       column += 2;

  94.       corner2Read = YES;

  95.     } else if ((row == numRows + 4) && (column == 2) && ((numColumns & 0x07) == 0) && !corner3Read) {

  96.       result.array[resultOffset++] = (int8_t) [self readCorner3:numRows numColumns:numColumns];

  97.       row -= 2;

  98.       column += 2;

  99.       corner3Read = YES;

  100.     } else if ((row == numRows - 2) && (column == 0) && ((numColumns & 0x07) == 4) && !corner4Read) {

  101.       result.array[resultOffset++] = (int8_t) [self readCorner4:numRows numColumns:numColumns];

  102.       row -= 2;

  103.       column += 2;

  104.       corner4Read = YES;

  105.     } else {

  106.       do {

  107.         if ((row < numRows) && (column >= 0) && ![self.readMappingMatrix getX:column y:row]) {

  108.           result.array[resultOffset++] = (int8_t) [self readUtah:row column:column numRows:numRows numColumns:numColumns];

  109.         }

  110.         row -= 2;

  111.         column += 2;

  112.       } while ((row >= 0) && (column < numColumns));

  113.       row += 1;

  114.       column += 3;

  115. 

  116.       do {

  117.         if ((row >= 0) && (column < numColumns) && ![self.readMappingMatrix getX:column y:row]) {

  118.           result.array[resultOffset++] = (int8_t) [self readUtah:row column:column numRows:numRows numColumns:numColumns];

  119.         }

  120.         row += 2;

  121.         column -= 2;

  122.       } while ((row < numRows) && (column >= 0));

  123.       row += 3;

  124.       column += 1;

  125.     }

  126.   } while ((row < numRows) || (column < numColumns));

  127. 

  128.   if (resultOffset != self.version.totalCodewords) {

  129.     return nil;

  130.   }

  131.   return result;

  132. }

  133. 

  134. /**

  135.  * Reads a bit of the mapping matrix accounting for boundary wrapping.

  136.  *

  137.  * @param row Row to read in the mapping matrix

  138.  * @param column Column to read in the mapping matrix

  139.  * @param numRows Number of rows in the mapping matrix

  140.  * @param numColumns Number of columns in the mapping matrix

  141.  * @return value of the given bit in the mapping matrix

  142.  */

  143. - (BOOL)readModule:(int)row column:(int)column numRows:(int)numRows numColumns:(int)numColumns {

  144.   if (row < 0) {

  145.     row += numRows;

  146.     column += 4 - ((numRows + 4) & 0x07);

  147.   }

  148.   if (column < 0) {

  149.     column += numColumns;

  150.     row += 4 - ((numColumns + 4) & 0x07);

  151.   }

  152.   [self.readMappingMatrix setX:column y:row];

  153.   return [self.mappingBitMatrix getX:column y:row];

  154. }

  155. 

  156. /**

  157.  * Reads the 8 bits of the standard Utah-shaped pattern.

  158.  *

  159.  * See ISO 16022:2006, 5.8.1 Figure 6

  160.  *

  161.  * @param row Current row in the mapping matrix, anchored at the 8th bit (LSB) of the pattern

  162.  * @param column Current column in the mapping matrix, anchored at the 8th bit (LSB) of the pattern

  163.  * @param numRows Number of rows in the mapping matrix

  164.  * @param numColumns Number of columns in the mapping matrix

  165.  * @return byte from the utah shape

  166.  */

  167. - (int)readUtah:(int)row column:(int)column numRows:(int)numRows numColumns:(int)numColumns {

  168.   int currentByte = 0;

  169.   if ([self readModule:row - 2 column:column - 2 numRows:numRows numColumns:numColumns]) {

  170.     currentByte |= 1;

  171.   }

  172.   currentByte <<= 1;

  173.   if ([self readModule:row - 2 column:column - 1 numRows:numRows numColumns:numColumns]) {

  174.     currentByte |= 1;

  175.   }

  176.   currentByte <<= 1;

  177.   if ([self readModule:row - 1 column:column - 2 numRows:numRows numColumns:numColumns]) {

  178.     currentByte |= 1;

  179.   }

  180.   currentByte <<= 1;

  181.   if ([self readModule:row - 1 column:column - 1 numRows:numRows numColumns:numColumns]) {

  182.     currentByte |= 1;

  183.   }

  184.   currentByte <<= 1;

  185.   if ([self readModule:row - 1 column:column numRows:numRows numColumns:numColumns]) {

  186.     currentByte |= 1;

  187.   }

  188.   currentByte <<= 1;

  189.   if ([self readModule:row column:column - 2 numRows:numRows numColumns:numColumns]) {

  190.     currentByte |= 1;

  191.   }

  192.   currentByte <<= 1;

  193.   if ([self readModule:row column:column - 1 numRows:numRows numColumns:numColumns]) {

  194.     currentByte |= 1;

  195.   }

  196.   currentByte <<= 1;

  197.   if ([self readModule:row column:column numRows:numRows numColumns:numColumns]) {

  198.     currentByte |= 1;

  199.   }

  200.   return currentByte;

  201. }

  202. 

  203. /**

  204.  * Reads the 8 bits of the special corner condition 1.

  205.  *

  206.  * See ISO 16022:2006, Figure F.3

  207.  *

  208.  * @param numRows Number of rows in the mapping matrix

  209.  * @param numColumns Number of columns in the mapping matrix

  210.  * @return byte from the Corner condition 1

  211.  */

  212. - (int)readCorner1:(int)numRows numColumns:(int)numColumns {

  213.   int currentByte = 0;

  214.   if ([self readModule:numRows - 1 column:0 numRows:numRows numColumns:numColumns]) {

  215.     currentByte |= 1;

  216.   }

  217.   currentByte <<= 1;

  218.   if ([self readModule:numRows - 1 column:1 numRows:numRows numColumns:numColumns]) {

  219.     currentByte |= 1;

  220.   }

  221.   currentByte <<= 1;

  222.   if ([self readModule:numRows - 1 column:2 numRows:numRows numColumns:numColumns]) {

  223.     currentByte |= 1;

  224.   }

  225.   currentByte <<= 1;

  226.   if ([self readModule:0 column:numColumns - 2 numRows:numRows numColumns:numColumns]) {

  227.     currentByte |= 1;

  228.   }

  229.   currentByte <<= 1;

  230.   if ([self readModule:0 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  231.     currentByte |= 1;

  232.   }

  233.   currentByte <<= 1;

  234.   if ([self readModule:1 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  235.     currentByte |= 1;

  236.   }

  237.   currentByte <<= 1;

  238.   if ([self readModule:2 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  239.     currentByte |= 1;

  240.   }

  241.   currentByte <<= 1;

  242.   if ([self readModule:3 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  243.     currentByte |= 1;

  244.   }

  245.   return currentByte;

  246. }

  247. 

  248. /**

  249.  * Reads the 8 bits of the special corner condition 2.

  250.  *

  251.  * See ISO 16022:2006, Figure F.4

  252.  *

  253.  * @param numRows Number of rows in the mapping matrix

  254.  * @param numColumns Number of columns in the mapping matrix

  255.  * @return byte from the Corner condition 2

  256.  */

  257. - (int)readCorner2:(int)numRows numColumns:(int)numColumns {

  258.   int currentByte = 0;

  259.   if ([self readModule:numRows - 3 column:0 numRows:numRows numColumns:numColumns]) {

  260.     currentByte |= 1;

  261.   }

  262.   currentByte <<= 1;

  263.   if ([self readModule:numRows - 2 column:0 numRows:numRows numColumns:numColumns]) {

  264.     currentByte |= 1;

  265.   }

  266.   currentByte <<= 1;

  267.   if ([self readModule:numRows - 1 column:0 numRows:numRows numColumns:numColumns]) {

  268.     currentByte |= 1;

  269.   }

  270.   currentByte <<= 1;

  271.   if ([self readModule:0 column:numColumns - 4 numRows:numRows numColumns:numColumns]) {

  272.     currentByte |= 1;

  273.   }

  274.   currentByte <<= 1;

  275.   if ([self readModule:0 column:numColumns - 3 numRows:numRows numColumns:numColumns]) {

  276.     currentByte |= 1;

  277.   }

  278.   currentByte <<= 1;

  279.   if ([self readModule:0 column:numColumns - 2 numRows:numRows numColumns:numColumns]) {

  280.     currentByte |= 1;

  281.   }

  282.   currentByte <<= 1;

  283.   if ([self readModule:0 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  284.     currentByte |= 1;

  285.   }

  286.   currentByte <<= 1;

  287.   if ([self readModule:1 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  288.     currentByte |= 1;

  289.   }

  290.   return currentByte;

  291. }

  292. 

  293. /**

  294.  * Reads the 8 bits of the special corner condition 3.

  295.  *

  296.  * See ISO 16022:2006, Figure F.5

  297.  *

  298.  * @param numRows Number of rows in the mapping matrix

  299.  * @param numColumns Number of columns in the mapping matrix

  300.  * @return byte from the Corner condition 3

  301.  */

  302. - (int)readCorner3:(int)numRows numColumns:(int)numColumns {

  303.   int currentByte = 0;

  304.   if ([self readModule:numRows - 1 column:0 numRows:numRows numColumns:numColumns]) {

  305.     currentByte |= 1;

  306.   }

  307.   currentByte <<= 1;

  308.   if ([self readModule:numRows - 1 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  309.     currentByte |= 1;

  310.   }

  311.   currentByte <<= 1;

  312.   if ([self readModule:0 column:numColumns - 3 numRows:numRows numColumns:numColumns]) {

  313.     currentByte |= 1;

  314.   }

  315.   currentByte <<= 1;

  316.   if ([self readModule:0 column:numColumns - 2 numRows:numRows numColumns:numColumns]) {

  317.     currentByte |= 1;

  318.   }

  319.   currentByte <<= 1;

  320.   if ([self readModule:0 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  321.     currentByte |= 1;

  322.   }

  323.   currentByte <<= 1;

  324.   if ([self readModule:1 column:numColumns - 3 numRows:numRows numColumns:numColumns]) {

  325.     currentByte |= 1;

  326.   }

  327.   currentByte <<= 1;

  328.   if ([self readModule:1 column:numColumns - 2 numRows:numRows numColumns:numColumns]) {

  329.     currentByte |= 1;

  330.   }

  331.   currentByte <<= 1;

  332.   if ([self readModule:1 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  333.     currentByte |= 1;

  334.   }

  335.   return currentByte;

  336. }

  337. 

  338. /**

  339.  * Reads the 8 bits of the special corner condition 4.

  340.  *

  341.  * See ISO 16022:2006, Figure F.6

  342.  *

  343.  * @param numRows Number of rows in the mapping matrix

  344.  * @param numColumns Number of columns in the mapping matrix

  345.  * @return byte from the Corner condition 4

  346.  */

  347. - (int)readCorner4:(int)numRows numColumns:(int)numColumns {

  348.   int currentByte = 0;

  349.   if ([self readModule:numRows - 3 column:0 numRows:numRows numColumns:numColumns]) {

  350.     currentByte |= 1;

  351.   }

  352.   currentByte <<= 1;

  353.   if ([self readModule:numRows - 2 column:0 numRows:numRows numColumns:numColumns]) {

  354.     currentByte |= 1;

  355.   }

  356.   currentByte <<= 1;

  357.   if ([self readModule:numRows - 1 column:0 numRows:numRows numColumns:numColumns]) {

  358.     currentByte |= 1;

  359.   }

  360.   currentByte <<= 1;

  361.   if ([self readModule:0 column:numColumns - 2 numRows:numRows numColumns:numColumns]) {

  362.     currentByte |= 1;

  363.   }

  364.   currentByte <<= 1;

  365.   if ([self readModule:0 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  366.     currentByte |= 1;

  367.   }

  368.   currentByte <<= 1;

  369.   if ([self readModule:1 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  370.     currentByte |= 1;

  371.   }

  372.   currentByte <<= 1;

  373.   if ([self readModule:2 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  374.     currentByte |= 1;

  375.   }

  376.   currentByte <<= 1;

  377.   if ([self readModule:3 column:numColumns - 1 numRows:numRows numColumns:numColumns]) {

  378.     currentByte |= 1;

  379.   }

  380.   return currentByte;

  381. }

  382. 

  383. /**

  384.  * Extracts the data region from a ZXBitMatrix that contains

  385.  * alignment patterns.

  386.  *

  387.  * @param bitMatrix Original ZXBitMatrix with alignment patterns

  388.  * @return BitMatrix that has the alignment patterns removed

  389.  */

  390. - (ZXBitMatrix *)extractDataRegion:(ZXBitMatrix *)bitMatrix {

  391.   int symbolSizeRows = self.version.symbolSizeRows;

  392.   int symbolSizeColumns = self.version.symbolSizeColumns;

  393. 

  394.   if (bitMatrix.height != symbolSizeRows) {

  395.     [NSException raise:NSInvalidArgumentException format:@"Dimension of bitMatrix must match the version size"];

  396.   }

  397. 

  398.   int dataRegionSizeRows = self.version.dataRegionSizeRows;

  399.   int dataRegionSizeColumns = self.version.dataRegionSizeColumns;

  400. 

  401.   int numDataRegionsRow = symbolSizeRows / dataRegionSizeRows;

  402.   int numDataRegionsColumn = symbolSizeColumns / dataRegionSizeColumns;

  403. 

  404.   int sizeDataRegionRow = numDataRegionsRow * dataRegionSizeRows;

  405.   int sizeDataRegionColumn = numDataRegionsColumn * dataRegionSizeColumns;

  406. 

  407.   ZXBitMatrix *bitMatrixWithoutAlignment = [[ZXBitMatrix alloc] initWithWidth:sizeDataRegionColumn height:sizeDataRegionRow];

  408.   for (int dataRegionRow = 0; dataRegionRow < numDataRegionsRow; ++dataRegionRow) {

  409.     int dataRegionRowOffset = dataRegionRow * dataRegionSizeRows;

  410.     for (int dataRegionColumn = 0; dataRegionColumn < numDataRegionsColumn; ++dataRegionColumn) {

  411.       int dataRegionColumnOffset = dataRegionColumn * dataRegionSizeColumns;

  412.       for (int i = 0; i < dataRegionSizeRows; ++i) {

  413.         int readRowOffset = dataRegionRow * (dataRegionSizeRows + 2) + 1 + i;

  414.         int writeRowOffset = dataRegionRowOffset + i;

  415.         for (int j = 0; j < dataRegionSizeColumns; ++j) {

  416.           int readColumnOffset = dataRegionColumn * (dataRegionSizeColumns + 2) + 1 + j;

  417.           if ([bitMatrix getX:readColumnOffset y:readRowOffset]) {

  418.             int writeColumnOffset = dataRegionColumnOffset + j;

  419.             [bitMatrixWithoutAlignment setX:writeColumnOffset y:writeRowOffset];

  420.           }

  421.         }

  422.       }

  423.     }

  424.   }

  425. 

  426.   return bitMatrixWithoutAlignment;

  427. }

  428. 

  429. @end