From 05cc2023daa57bfdb813e478ddb61c1b2f3156c4 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Dominik=20Sch=C3=BCrmann?= <dominik@dominikschuermann.de>
Date: Sat, 5 Oct 2013 20:43:42 +0200
Subject: Add parts of zxing library to generate qr codes

---
 .../detector/MonochromeRectangleDetector.java      | 209 +++++++++++++++++++++
 1 file changed, 209 insertions(+)
 create mode 100644 OpenPGP-Keychain/src/com/google/zxing/common/detector/MonochromeRectangleDetector.java

(limited to 'OpenPGP-Keychain/src/com/google/zxing/common/detector/MonochromeRectangleDetector.java')

diff --git a/OpenPGP-Keychain/src/com/google/zxing/common/detector/MonochromeRectangleDetector.java b/OpenPGP-Keychain/src/com/google/zxing/common/detector/MonochromeRectangleDetector.java
new file mode 100644
index 000000000..950a22364
--- /dev/null
+++ b/OpenPGP-Keychain/src/com/google/zxing/common/detector/MonochromeRectangleDetector.java
@@ -0,0 +1,209 @@
+/*
+ * Copyright 2009 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.
+ */
+
+package com.google.zxing.common.detector;
+
+import com.google.zxing.NotFoundException;
+import com.google.zxing.ResultPoint;
+import com.google.zxing.common.BitMatrix;
+
+/**
+ * <p>A somewhat generic detector that looks for a barcode-like rectangular region within an image.
+ * It looks within a mostly white region of an image for a region of black and white, but mostly
+ * black. It returns the four corners of the region, as best it can determine.</p>
+ *
+ * @author Sean Owen
+ */
+public final class MonochromeRectangleDetector {
+
+  private static final int MAX_MODULES = 32;
+
+  private final BitMatrix image;
+
+  public MonochromeRectangleDetector(BitMatrix image) {
+    this.image = image;
+  }
+
+  /**
+   * <p>Detects a rectangular region of black and white -- mostly black -- with a region of mostly
+   * white, in an image.</p>
+   *
+   * @return {@link ResultPoint}[] describing the corners of the rectangular region. The first and
+   *  last points are opposed on the diagonal, as are the second and third. The first point will be
+   *  the topmost point and the last, the bottommost. The second point will be leftmost and the
+   *  third, the rightmost
+   * @throws NotFoundException if no Data Matrix Code can be found
+   */
+  public ResultPoint[] detect() throws NotFoundException {
+    int height = image.getHeight();
+    int width = image.getWidth();
+    int halfHeight = height >> 1;
+    int halfWidth = width >> 1;
+    int deltaY = Math.max(1, height / (MAX_MODULES << 3));
+    int deltaX = Math.max(1, width / (MAX_MODULES << 3));
+
+    int top = 0;
+    int bottom = height;
+    int left = 0;
+    int right = width;
+    ResultPoint pointA = findCornerFromCenter(halfWidth, 0, left, right,
+        halfHeight, -deltaY, top, bottom, halfWidth >> 1);
+    top = (int) pointA.getY() - 1;
+    ResultPoint pointB = findCornerFromCenter(halfWidth, -deltaX, left, right,
+        halfHeight, 0, top, bottom, halfHeight >> 1);
+    left = (int) pointB.getX() - 1;
+    ResultPoint pointC = findCornerFromCenter(halfWidth, deltaX, left, right,
+        halfHeight, 0, top, bottom, halfHeight >> 1);
+    right = (int) pointC.getX() + 1;
+    ResultPoint pointD = findCornerFromCenter(halfWidth, 0, left, right,
+        halfHeight, deltaY, top, bottom, halfWidth >> 1);
+    bottom = (int) pointD.getY() + 1;
+
+    // Go try to find point A again with better information -- might have been off at first.
+    pointA = findCornerFromCenter(halfWidth, 0, left, right,
+        halfHeight, -deltaY, top, bottom, halfWidth >> 2);
+
+    return new ResultPoint[] { pointA, pointB, pointC, pointD };
+  }
+
+  /**
+   * Attempts to locate a corner of the barcode by scanning up, down, left or right from a center
+   * point which should be within the barcode.
+   *
+   * @param centerX center's x component (horizontal)
+   * @param deltaX same as deltaY but change in x per step instead
+   * @param left minimum value of x
+   * @param right maximum value of x
+   * @param centerY center's y component (vertical)
+   * @param deltaY change in y per step. If scanning up this is negative; down, positive;
+   *  left or right, 0
+   * @param top minimum value of y to search through (meaningless when di == 0)
+   * @param bottom maximum value of y
+   * @param maxWhiteRun maximum run of white pixels that can still be considered to be within
+   *  the barcode
+   * @return a {@link com.google.zxing.ResultPoint} encapsulating the corner that was found
+   * @throws NotFoundException if such a point cannot be found
+   */
+  private ResultPoint findCornerFromCenter(int centerX, int deltaX, int left, int right,
+      int centerY, int deltaY, int top, int bottom, int maxWhiteRun) throws NotFoundException {
+    int[] lastRange = null;
+    for (int y = centerY, x = centerX;
+         y < bottom && y >= top && x < right && x >= left;
+         y += deltaY, x += deltaX) {
+      int[] range;
+      if (deltaX == 0) {
+        // horizontal slices, up and down
+        range = blackWhiteRange(y, maxWhiteRun, left, right, true);
+      } else {
+        // vertical slices, left and right
+        range = blackWhiteRange(x, maxWhiteRun, top, bottom, false);
+      }
+      if (range == null) {
+        if (lastRange == null) {
+          throw NotFoundException.getNotFoundInstance();
+        }
+        // lastRange was found
+        if (deltaX == 0) {
+          int lastY = y - deltaY;
+          if (lastRange[0] < centerX) {
+            if (lastRange[1] > centerX) {
+              // straddle, choose one or the other based on direction
+              return new ResultPoint(deltaY > 0 ? lastRange[0] : lastRange[1], lastY);
+            }
+            return new ResultPoint(lastRange[0], lastY);
+          } else {
+            return new ResultPoint(lastRange[1], lastY);
+          }
+        } else {
+          int lastX = x - deltaX;
+          if (lastRange[0] < centerY) {
+            if (lastRange[1] > centerY) {
+              return new ResultPoint(lastX, deltaX < 0 ? lastRange[0] : lastRange[1]);
+            }
+            return new ResultPoint(lastX, lastRange[0]);
+          } else {
+            return new ResultPoint(lastX, lastRange[1]);
+          }
+        }
+      }
+      lastRange = range;
+    }
+    throw NotFoundException.getNotFoundInstance();
+  }
+
+  /**
+   * Computes the start and end of a region of pixels, either horizontally or vertically, that could
+   * be part of a Data Matrix barcode.
+   *
+   * @param fixedDimension if scanning horizontally, this is the row (the fixed vertical location)
+   *  where we are scanning. If scanning vertically it's the column, the fixed horizontal location
+   * @param maxWhiteRun largest run of white pixels that can still be considered part of the
+   *  barcode region
+   * @param minDim minimum pixel location, horizontally or vertically, to consider
+   * @param maxDim maximum pixel location, horizontally or vertically, to consider
+   * @param horizontal if true, we're scanning left-right, instead of up-down
+   * @return int[] with start and end of found range, or null if no such range is found
+   *  (e.g. only white was found)
+   */
+  private int[] blackWhiteRange(int fixedDimension, int maxWhiteRun, int minDim, int maxDim,
+      boolean horizontal) {
+
+    int center = (minDim + maxDim) >> 1;
+
+    // Scan left/up first
+    int start = center;
+    while (start >= minDim) {
+      if (horizontal ? image.get(start, fixedDimension) : image.get(fixedDimension, start)) {
+        start--;
+      } else {
+        int whiteRunStart = start;
+        do {
+          start--;
+        } while (start >= minDim && !(horizontal ? image.get(start, fixedDimension) :
+            image.get(fixedDimension, start)));
+        int whiteRunSize = whiteRunStart - start;
+        if (start < minDim || whiteRunSize > maxWhiteRun) {
+          start = whiteRunStart;
+          break;
+        }
+      }
+    }
+    start++;
+
+    // Then try right/down
+    int end = center;
+    while (end < maxDim) {
+      if (horizontal ? image.get(end, fixedDimension) : image.get(fixedDimension, end)) {
+        end++;
+      } else {
+        int whiteRunStart = end;
+        do {
+          end++;
+        } while (end < maxDim && !(horizontal ? image.get(end, fixedDimension) :
+            image.get(fixedDimension, end)));
+        int whiteRunSize = end - whiteRunStart;
+        if (end >= maxDim || whiteRunSize > maxWhiteRun) {
+          end = whiteRunStart;
+          break;
+        }
+      }
+    }
+    end--;
+
+    return end > start ? new int[]{start, end} : null;
+  }
+
+}
\ No newline at end of file
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