package com.google.zxing.oned;
-import com.google.zxing.BlackPointEstimationMethod;
+import com.google.zxing.BinaryBitmap;
import com.google.zxing.DecodeHintType;
-import com.google.zxing.MonochromeBitmapSource;
import com.google.zxing.ReaderException;
import com.google.zxing.Result;
import com.google.zxing.ResultMetadataType;
+import com.google.zxing.ResultPoint;
import com.google.zxing.common.BitArray;
import java.util.Hashtable;
* of one-dimensional barcodes.</p>
*
* @author dswitkin@google.com (Daniel Switkin)
- * @author srowen@google.com (Sean Owen)
+ * @author Sean Owen
*/
public abstract class AbstractOneDReader implements OneDReader {
private static final int INTEGER_MATH_SHIFT = 8;
- public static final int PATTERN_MATCH_RESULT_SCALE_FACTOR = 1 << INTEGER_MATH_SHIFT;
+ static final int PATTERN_MATCH_RESULT_SCALE_FACTOR = 1 << INTEGER_MATH_SHIFT;
- public final Result decode(MonochromeBitmapSource image) throws ReaderException {
+ public final Result decode(BinaryBitmap image) throws ReaderException {
return decode(image, null);
}
- public final Result decode(MonochromeBitmapSource image, Hashtable hints) throws ReaderException {
+ // Note that we don't try rotation without the try harder flag, even if rotation was supported.
+ public final Result decode(BinaryBitmap image, Hashtable hints) throws ReaderException {
try {
return doDecode(image, hints);
} catch (ReaderException re) {
boolean tryHarder = hints != null && hints.containsKey(DecodeHintType.TRY_HARDER);
if (tryHarder && image.isRotateSupported()) {
- MonochromeBitmapSource rotatedImage = image.rotateCounterClockwise();
+ BinaryBitmap rotatedImage = image.rotateCounterClockwise();
Result result = doDecode(rotatedImage, hints);
// Record that we found it rotated 90 degrees CCW / 270 degrees CW
Hashtable metadata = result.getResultMetadata();
int orientation = 270;
if (metadata != null && metadata.containsKey(ResultMetadataType.ORIENTATION)) {
// But if we found it reversed in doDecode(), add in that result here:
- orientation = (orientation + ((Integer) metadata.get(ResultMetadataType.ORIENTATION)).intValue()) % 360;
+ orientation = (orientation +
+ ((Integer) metadata.get(ResultMetadataType.ORIENTATION)).intValue()) % 360;
}
result.putMetadata(ResultMetadataType.ORIENTATION, new Integer(orientation));
return result;
* @return The contents of the decoded barcode
* @throws ReaderException Any spontaneous errors which occur
*/
- private Result doDecode(MonochromeBitmapSource image, Hashtable hints) throws ReaderException {
+ private Result doDecode(BinaryBitmap image, Hashtable hints) throws ReaderException {
int width = image.getWidth();
int height = image.getHeight();
BitArray row = new BitArray(width);
// Estimate black point for this row and load it:
try {
- image.estimateBlackPoint(BlackPointEstimationMethod.ROW_SAMPLING, rowNumber);
+ row = image.getBlackRow(rowNumber, row);
} catch (ReaderException re) {
continue;
}
- image.getBlackRow(rowNumber, row, 0, width);
// While we have the image data in a BitArray, it's fairly cheap to reverse it in place to
// handle decoding upside down barcodes.
for (int attempt = 0; attempt < 2; attempt++) {
if (attempt == 1) { // trying again?
row.reverse(); // reverse the row and continue
+ // This means we will only ever draw result points *once* in the life of this method
+ // since we want to avoid drawing the wrong points after flipping the row, and,
+ // don't want to clutter with noise from every single row scan -- just the scans
+ // that start on the center line.
+ if (hints != null && hints.containsKey(DecodeHintType.NEED_RESULT_POINT_CALLBACK)) {
+ hints = (Hashtable) hints.clone();
+ hints.remove(DecodeHintType.NEED_RESULT_POINT_CALLBACK);
+ }
}
try {
// Look for a barcode
if (attempt == 1) {
// But it was upside down, so note that
result.putMetadata(ResultMetadataType.ORIENTATION, new Integer(180));
+ // And remember to flip the result points horizontally.
+ ResultPoint[] points = result.getResultPoints();
+ points[0] = new ResultPoint(width - points[0].getX() - 1, points[0].getY());
+ points[1] = new ResultPoint(width - points[1].getX() - 1, points[1].getY());
}
return result;
} catch (ReaderException re) {
}
}
- throw new ReaderException("No barcode found");
+ throw ReaderException.getInstance();
}
/**
* @param row row to count from
* @param start offset into row to start at
* @param counters array into which to record counts
- * @throws ReaderException if counters cannot be filled entirely from row before running out of pixels
+ * @throws ReaderException if counters cannot be filled entirely from row before running out
+ * of pixels
*/
static void recordPattern(BitArray row, int start, int[] counters) throws ReaderException {
int numCounters = counters.length;
}
int end = row.getSize();
if (start >= end) {
- throw new ReaderException("Couldn't fully read a pattern");
+ throw ReaderException.getInstance();
}
boolean isWhite = !row.get(start);
int counterPosition = 0;
int i = start;
while (i < end) {
boolean pixel = row.get(i);
- if ((!pixel && isWhite) || (pixel && !isWhite)) {
+ if (pixel ^ isWhite) { // that is, exactly one is true
counters[counterPosition]++;
} else {
counterPosition++;
// If we read fully the last section of pixels and filled up our counters -- or filled
// the last counter but ran off the side of the image, OK. Otherwise, a problem.
if (!(counterPosition == numCounters || (counterPosition == numCounters - 1 && i == end))) {
- throw new ReaderException("Couldn't fully read a pattern");
+ throw ReaderException.getInstance();
}
}
if (variance > maxIndividualVariance) {
return Integer.MAX_VALUE;
}
- totalVariance += variance;
+ totalVariance += variance;
}
return totalVariance / total;
}
// method of an interface it implements, but it is causing NoSuchMethodError
// issues on some Nokia JVMs. So we add this superfluous declaration:
- public abstract Result decodeRow(int rowNumber, BitArray row, Hashtable hints) throws ReaderException;
+ public abstract Result decodeRow(int rowNumber, BitArray row, Hashtable hints)
+ throws ReaderException;
}