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home/lakoyani/e-learn.mltcfiji.com/vendor/khanamiryan/qrcode-detector-decoder/lib/ResultPoint.php��0000777��00000010347�14711037113�0027252 0��ustar�00��<?php /* * Copyright 2007 ZXing authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. / namespace Zxing; use Zxing\Common\Detector\MathUtils; /* * <p>Encapsulates a point of interest in an image containing a barcode. Typically, this * would be the location of a finder pattern or the corner of the barcode, for example.</p> * * @author Sean Owen / class ResultPoint { private $x; private $y; public function __construct($x, $y) { $this->x = (float)($x); $this->y = (float)($y); } public final function getX() { return (float)($this->x); } public final function getY() { return (float)($this->y); } //@Override public final function equals($other) { if ($other instanceof ResultPoint) { $otherPoint = $other; return $this->x == $otherPoint->x && $this->y == $otherPoint->y; } return false; } //@Override public final function hashCode() { return 31 floatToIntBits($this->x) + floatToIntBits($this->y); } //@Override public final function toString() { $result = ''; $result.= ('('); $result.=($this->x); $result.=(','); $result.=($this->y); $result.=(')'); return $result; } /** * Orders an array of three ResultPoints in an order [A,B,C] such that AB is less than AC * and BC is less than AC, and the angle between BC and BA is less than 180 degrees. * * @param patterns array of three {@code ResultPoint} to order / public static function orderBestPatterns($patterns) { // Find distances between pattern centers $zeroOneDistance = self::distance($patterns[0], $patterns[1]); $oneTwoDistance = self::distance($patterns[1], $patterns[2]); $zeroTwoDistance = self::distance($patterns[0], $patterns[2]); $pointA=''; $pointB=''; $pointC=''; // Assume one closest to other two is B; A and C will just be guesses at first if ($oneTwoDistance >= $zeroOneDistance && $oneTwoDistance >= $zeroTwoDistance) { $pointB = $patterns[0]; $pointA = $patterns[1]; $pointC = $patterns[2]; } else if ($zeroTwoDistance >= $oneTwoDistance && $zeroTwoDistance >= $zeroOneDistance) { $pointB = $patterns[1]; $pointA = $patterns[0]; $pointC = $patterns[2]; } else { $pointB = $patterns[2]; $pointA = $patterns[0]; $pointC = $patterns[1]; } // Use cross product to figure out whether A and C are correct or flipped. // This asks whether BC x BA has a positive z component, which is the arrangement // we want for A, B, C. If it's negative, then we've got it flipped around and // should swap A and C. if (self::crossProductZ($pointA, $pointB, $pointC) < 0.0) { $temp = $pointA; $pointA = $pointC; $pointC = $temp; } $patterns[0] = $pointA; $patterns[1] = $pointB; $patterns[2] = $pointC; return $patterns; } /* * @param pattern1 first pattern * @param pattern2 second pattern * @return distance between two points / public static function distance($pattern1, $pattern2) { return MathUtils::distance($pattern1->x, $pattern1->y, $pattern2->x, $pattern2->y); } /* * Returns the z component of the cross product between vectors BC and BA. / private static function crossProductZ($pointA, $pointB, $pointC) { $bX = $pointB->x; $bY = $pointB->y; return (($pointC->x - $bX) ($pointA->y - $bY)) - (($pointC->y - $bY) * ($pointA->x - $bX)); } } ��

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