getSize(); // Get mask pattern $formatCols = [0, 1, 2, 3, 4, 5, 7, 8, $size - 1, $size - 2, $size - 3, $size - 4, $size - 5, $size - 6, $size - 7]; $formatH = ''; foreach ($formatCols as $col) { $formatH .= $matrix->getModuleAt(8, $col)->isDark() ? '1' : '0'; } $xorMask = "101010000010010"; $unmasked = ''; for ($i = 0; $i < 15; $i++) { $unmasked .= (int)$formatH[$i] ^ (int)$xorMask[$i]; } $maskBits = substr($unmasked, 2, 3); $maskPattern = bindec($maskBits); use App\Framework\QrCode\Masking\MaskPattern as MaskPatternEnum; $mask = match($maskPattern) { 0 => MaskPatternEnum::PATTERN_0, 1 => MaskPatternEnum::PATTERN_1, 2 => MaskPatternEnum::PATTERN_2, 3 => MaskPatternEnum::PATTERN_3, 4 => MaskPatternEnum::PATTERN_4, 5 => MaskPatternEnum::PATTERN_5, 6 => MaskPatternEnum::PATTERN_6, 7 => MaskPatternEnum::PATTERN_7, }; // Read ALL codewords from matrix $dataBits = []; $bitCount = 0; for ($col = $size - 1; $col >= 1; $col -= 2) { if ($col === 6) { $col--; } $upward = ((int) (($size - 1 - $col) / 2) % 2) === 0; for ($i = 0; $i < $size; $i++) { $row = $upward ? ($size - 1 - $i) : $i; for ($c = 0; $c < 2; $c++) { $currentCol = $col - $c; // Skip function patterns if (($row <= 8 && $currentCol <= 8) || ($row <= 7 && $currentCol >= $size - 8) || ($row >= $size - 8 && $currentCol <= 7) || $row === 6 || $currentCol === 6 || ($row === 8 && (($currentCol >= 0 && $currentCol <= 5) || $currentCol === 7 || $currentCol === 8 || $currentCol >= $size - 8)) || ($currentCol === 8 && (($row >= 0 && $row <= 5) || $row === 7 || $row === 8 || $row >= $size - 7)) || ($row === 13 && $currentCol === 8)) { continue; } $maskedBit = $matrix->getModuleAt($row, $currentCol)->isDark() ? 1 : 0; $unmaskedBit = $mask->shouldInvert($row, $currentCol) ? (1 - $maskedBit) : $maskedBit; $dataBits[] = $unmaskedBit; $bitCount++; } } } // Convert to codewords $codewords = []; for ($i = 0; $i < count($dataBits); $i += 8) { if ($i + 8 <= count($dataBits)) { $byte = ''; for ($j = 0; $j < 8; $j++) { $byte .= (string)$dataBits[$i + $j]; } $codewords[] = bindec($byte); } } echo "Read " . count($codewords) . " codewords from matrix\n"; echo "Expected: 26 codewords (16 data + 10 EC)\n\n"; if (count($codewords) === 26) { echo "✅ Codeword count is correct\n\n"; // Separate data and EC codewords $dataCodewords = array_slice($codewords, 0, 16); $ecCodewords = array_slice($codewords, 16, 10); echo "Data codewords (16):\n"; echo implode(', ', $dataCodewords) . "\n\n"; echo "EC codewords (10):\n"; echo implode(', ', $ecCodewords) . "\n\n"; // Try to decode data $mode = $dataCodewords[0]; $count = $dataCodewords[1]; echo "Mode: {$mode} (expected: 4)\n"; echo "Count: {$count} (expected: " . strlen($testData) . ")\n\n"; if ($mode === 4 && $count === strlen($testData)) { $decoded = ''; for ($i = 2; $i < 2 + $count && $i < count($dataCodewords); $i++) { $decoded .= chr($dataCodewords[$i]); } echo "Decoded data: '{$decoded}'\n"; echo "Expected: '{$testData}'\n"; if ($decoded === $testData) { echo "✅ Data decodes correctly!\n"; echo "\nIf QR code still doesn't scan, the issue might be:\n"; echo "1. EC codewords are wrong (RS validation fails)\n"; echo "2. Some scanner-specific requirement\n"; echo "3. SVG rendering issue\n"; } else { echo "❌ Data doesn't decode correctly!\n"; } } } else { echo "❌ Wrong number of codewords!\n"; }