272 Zeilen
8.2 KiB
PHP
272 Zeilen
8.2 KiB
PHP
<?php
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declare(strict_types = 1);
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namespace BaconQrCode\Encoder;
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use BaconQrCode\Common\BitUtils;
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use BaconQrCode\Exception\InvalidArgumentException;
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/**
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* Mask utility.
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*/
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final class MaskUtil
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{
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/**#@+
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* Penalty weights from section 6.8.2.1
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*/
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const N1 = 3;
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const N2 = 3;
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const N3 = 40;
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const N4 = 10;
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/**#@-*/
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private function __construct()
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{
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}
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/**
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* Applies mask penalty rule 1 and returns the penalty.
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*
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* Finds repetitive cells with the same color and gives penalty to them.
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* Example: 00000 or 11111.
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*/
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public static function applyMaskPenaltyRule1(ByteMatrix $matrix) : int
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{
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return (
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self::applyMaskPenaltyRule1Internal($matrix, true)
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+ self::applyMaskPenaltyRule1Internal($matrix, false)
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);
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}
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/**
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* Applies mask penalty rule 2 and returns the penalty.
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*
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* Finds 2x2 blocks with the same color and gives penalty to them. This is
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* actually equivalent to the spec's rule, which is to find MxN blocks and
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* give a penalty proportional to (M-1)x(N-1), because this is the number of
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* 2x2 blocks inside such a block.
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*/
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public static function applyMaskPenaltyRule2(ByteMatrix $matrix) : int
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{
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$penalty = 0;
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$array = $matrix->getArray();
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$width = $matrix->getWidth();
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$height = $matrix->getHeight();
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for ($y = 0; $y < $height - 1; ++$y) {
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for ($x = 0; $x < $width - 1; ++$x) {
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$value = $array[$y][$x];
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if ($value === $array[$y][$x + 1]
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&& $value === $array[$y + 1][$x]
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&& $value === $array[$y + 1][$x + 1]
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) {
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++$penalty;
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}
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}
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}
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return self::N2 * $penalty;
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}
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/**
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* Applies mask penalty rule 3 and returns the penalty.
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*
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* Finds consecutive cells of 00001011101 or 10111010000, and gives penalty
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* to them. If we find patterns like 000010111010000, we give penalties
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* twice (i.e. 40 * 2).
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*/
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public static function applyMaskPenaltyRule3(ByteMatrix $matrix) : int
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{
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$penalty = 0;
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$array = $matrix->getArray();
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$width = $matrix->getWidth();
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$height = $matrix->getHeight();
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for ($y = 0; $y < $height; ++$y) {
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for ($x = 0; $x < $width; ++$x) {
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if ($x + 6 < $width
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&& 1 === $array[$y][$x]
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&& 0 === $array[$y][$x + 1]
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&& 1 === $array[$y][$x + 2]
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&& 1 === $array[$y][$x + 3]
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&& 1 === $array[$y][$x + 4]
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&& 0 === $array[$y][$x + 5]
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&& 1 === $array[$y][$x + 6]
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&& (
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(
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$x + 10 < $width
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&& 0 === $array[$y][$x + 7]
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&& 0 === $array[$y][$x + 8]
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&& 0 === $array[$y][$x + 9]
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&& 0 === $array[$y][$x + 10]
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)
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|| (
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$x - 4 >= 0
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&& 0 === $array[$y][$x - 1]
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&& 0 === $array[$y][$x - 2]
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&& 0 === $array[$y][$x - 3]
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&& 0 === $array[$y][$x - 4]
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)
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)
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) {
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$penalty += self::N3;
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}
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if ($y + 6 < $height
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&& 1 === $array[$y][$x]
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&& 0 === $array[$y + 1][$x]
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&& 1 === $array[$y + 2][$x]
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&& 1 === $array[$y + 3][$x]
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&& 1 === $array[$y + 4][$x]
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&& 0 === $array[$y + 5][$x]
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&& 1 === $array[$y + 6][$x]
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&& (
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(
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$y + 10 < $height
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&& 0 === $array[$y + 7][$x]
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&& 0 === $array[$y + 8][$x]
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&& 0 === $array[$y + 9][$x]
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&& 0 === $array[$y + 10][$x]
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)
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|| (
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$y - 4 >= 0
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&& 0 === $array[$y - 1][$x]
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&& 0 === $array[$y - 2][$x]
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&& 0 === $array[$y - 3][$x]
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&& 0 === $array[$y - 4][$x]
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)
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)
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) {
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$penalty += self::N3;
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}
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}
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}
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return $penalty;
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}
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/**
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* Applies mask penalty rule 4 and returns the penalty.
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*
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* Calculates the ratio of dark cells and gives penalty if the ratio is far
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* from 50%. It gives 10 penalty for 5% distance.
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*/
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public static function applyMaskPenaltyRule4(ByteMatrix $matrix) : int
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{
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$numDarkCells = 0;
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$array = $matrix->getArray();
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$width = $matrix->getWidth();
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$height = $matrix->getHeight();
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for ($y = 0; $y < $height; ++$y) {
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$arrayY = $array[$y];
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for ($x = 0; $x < $width; ++$x) {
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if (1 === $arrayY[$x]) {
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++$numDarkCells;
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}
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}
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}
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$numTotalCells = $height * $width;
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$darkRatio = $numDarkCells / $numTotalCells;
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$fixedPercentVariances = (int) (abs($darkRatio - 0.5) * 20);
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return $fixedPercentVariances * self::N4;
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}
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/**
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* Returns the mask bit for "getMaskPattern" at "x" and "y".
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*
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* See 8.8 of JISX0510:2004 for mask pattern conditions.
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*
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* @throws InvalidArgumentException if an invalid mask pattern was supplied
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*/
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public static function getDataMaskBit(int $maskPattern, int $x, int $y) : bool
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{
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switch ($maskPattern) {
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case 0:
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$intermediate = ($y + $x) & 0x1;
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break;
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case 1:
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$intermediate = $y & 0x1;
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break;
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case 2:
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$intermediate = $x % 3;
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break;
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case 3:
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$intermediate = ($y + $x) % 3;
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break;
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case 4:
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$intermediate = (BitUtils::unsignedRightShift($y, 1) + (int) ($x / 3)) & 0x1;
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break;
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case 5:
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$temp = $y * $x;
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$intermediate = ($temp & 0x1) + ($temp % 3);
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break;
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case 6:
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$temp = $y * $x;
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$intermediate = (($temp & 0x1) + ($temp % 3)) & 0x1;
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break;
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case 7:
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$temp = $y * $x;
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$intermediate = (($temp % 3) + (($y + $x) & 0x1)) & 0x1;
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break;
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default:
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throw new InvalidArgumentException('Invalid mask pattern: ' . $maskPattern);
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}
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return 0 == $intermediate;
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}
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/**
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* Helper function for applyMaskPenaltyRule1.
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*
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* We need this for doing this calculation in both vertical and horizontal
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* orders respectively.
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*/
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private static function applyMaskPenaltyRule1Internal(ByteMatrix $matrix, bool $isHorizontal) : int
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{
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$penalty = 0;
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$iLimit = $isHorizontal ? $matrix->getHeight() : $matrix->getWidth();
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$jLimit = $isHorizontal ? $matrix->getWidth() : $matrix->getHeight();
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$array = $matrix->getArray();
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for ($i = 0; $i < $iLimit; ++$i) {
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$numSameBitCells = 0;
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$prevBit = -1;
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for ($j = 0; $j < $jLimit; $j++) {
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$bit = $isHorizontal ? $array[$i][$j] : $array[$j][$i];
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if ($bit === $prevBit) {
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++$numSameBitCells;
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} else {
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if ($numSameBitCells >= 5) {
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$penalty += self::N1 + ($numSameBitCells - 5);
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}
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$numSameBitCells = 1;
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$prevBit = $bit;
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}
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}
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if ($numSameBitCells >= 5) {
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$penalty += self::N1 + ($numSameBitCells - 5);
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}
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}
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return $penalty;
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}
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}
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