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Fields.java
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Fields.java
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package org.genericsystem.cv.retriever;
import java.lang.invoke.MethodHandles;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.ThreadLocalRandom;
import java.util.stream.Collectors;
import java.util.stream.Stream;
import org.genericsystem.cv.Img;
import org.genericsystem.cv.utils.ParallelTasks;
import org.genericsystem.cv.utils.RectToolsMapper;
import org.genericsystem.reinforcer.tools.GSPoint;
import org.genericsystem.reinforcer.tools.GSRect;
import org.opencv.core.Core;
import org.opencv.core.Mat;
import org.opencv.core.Point;
import org.opencv.core.Scalar;
import org.opencv.core.Size;
import org.opencv.imgproc.Imgproc;
import org.opencv.utils.Converters;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
public class Fields extends AbstractFields<Field> {
private static final Logger logger = LoggerFactory.getLogger(MethodHandles.lookup().lookupClass());
private static final int MAX_DELETE_UNMERGED = 5;
private static final int OCR_TIMEOUT = 50;
public void reset() {
displayFieldsTree();
fields = new ArrayList<>();
}
@Override
public void drawOcrPerspectiveInverse(Img display, Mat homography, int thickness) {
stream().forEach(field -> field.drawWithHomography(display, homography, thickness));
}
public void drawFieldsOnStabilized(Img stabilized) {
stream().forEach(field -> field.draw(stabilized, 1));
}
public void drawFieldsOnStabilizedDebug(Img stabilized) {
for (GSRect rect : mergeRectsList(stabilized)) {
Point[] targets = RectToolsMapper.gsPointToPoint(Arrays.asList(rect.decomposeClockwise())).toArray(new Point[0]);
for (int i = 0; i < targets.length; ++i)
Imgproc.line(stabilized.getSrc(), targets[i], targets[(i + 1) % targets.length], new Scalar(255, 0, 0), 1);
}
}
public void displayFieldsTree() {
StringBuffer sb = new StringBuffer();
sb.append("\n").append("--- FIELDS ---").append("\n");
getRoots().forEach(field -> sb.append(field.recursiveToString()));
sb.append("\n").append("--- /FIELDS ---").append("\n");
System.out.println(sb.toString());
}
public List<Field> getRoots() {
return fields.stream().filter(field -> field.isOrphan()).collect(Collectors.toList());
}
public void consolidate(Img img) {
fields.forEach(Field::incrementDeadCounter);
mergeRects(img, 0.70);
removeDeadTrees();
}
public List<GSRect> mergeRectsList(Img img) {
RectDetector rd = new RectDetector(img);
List<GSRect> rects = rd.getRects(200, 11, 3, new Size(11, 3));
List<GSRect> children = rd.getRects(40, 17, 3, new Size(7, 3));
return cleanList(rects, children, 0.70);
}
public List<GSRect> cleanList(List<GSRect> bigRects, List<GSRect> smallRects, double overlapThreshold) {
smallRects.removeIf(smallRect -> bigRects.stream().anyMatch(bigRect -> smallRect.inclusiveArea(bigRect) > overlapThreshold));
return Stream.concat(smallRects.stream().filter(smallRect -> bigRects.stream().filter(rect -> rect.isOverlapping(smallRect)).noneMatch(rect -> rect.getInsider(smallRect) == null)), bigRects.stream()).collect(Collectors.toList());
}
private void mergeRects(Img img, double overlapThreshold) {
List<GSRect> rects = mergeRectsList(img);
Collections.reverse(rects);
for (GSRect rect : rects) {
Field match = findMatch(rect, overlapThreshold, img.width(), img.height());
if (match != null)
updateNode(rect, match, img.width(), img.height());
else
createNode(rect, findPotentialParent(rect), img.width(), img.height());
}
}
private Field findPotentialParent(GSRect rect) {
for (Field root : getRoots()) {
Field parent = root.findPotentialParent(rect);
if (parent != null)
return parent;
}
return null;
}
public void createNode(GSRect rect, Field parent, int width, int height) {
if (checkOverlapConstraint(rect) && !rect.isNearEdge(width, height, 10)) {
logger.info("Creating a new node for {}", rect);
Field f = new Field(rect);
if (parent != null)
f.setParent(parent);
fields.add(f);
} else
logger.error("Unable to create node: " + rect);
}
public void updateNode(GSRect rect, Field field, int width, int height) {
logger.info("Updating node {} with {}", field.getRect(), rect);
// field.updateRect(rect, width, height);
field.resetParentsDeadCounter();
field.resetChildrenDeadCounter();
}
private boolean checkOverlapConstraint(GSRect rect) {
for (Field field : fields)
if (rect.isOverlappingStrict(field.getRect()))
if (rect.getInsider(field.getRect()) == null)
return false;
return true;
}
public void removeNode(Field field) {
logger.info("Removing node: {}", field.getRect());
fields.remove(field);
}
private void removeDeadTrees() {
getRoots().stream().filter(field -> isDeadTree(field, MAX_DELETE_UNMERGED)).flatMap(field -> listTree(field).stream()).forEach(this::removeNode);
}
private boolean isDeadTree(Field root, int maxDeadCount) {
if (!root.hasChildren())
return root.isDead(maxDeadCount);
for (Field child : root.getChildren())
if (!isDeadTree(child, maxDeadCount))
return false;
return true;
}
private List<Field> listTree(Field root) {
List<Field> res = new ArrayList<>();
res.add(root);
for (Field child : root.getChildren())
res.addAll(listTree(child));
return res;
}
private Field findMatch(GSRect rect, double areaOverlap, int width, int height) {
GSRect frameRect = new GSRect(0, 0, width, height);
List<Field> matches = fields.stream().filter(f -> rect.inclusiveArea(f.getRect().getIntersection(frameRect)) > areaOverlap).collect(Collectors.toList());
if (matches.isEmpty())
return null;
if (matches.size() > 1)
logger.warn(matches.size() + "matches were detected.");
return matches.get(0);
}
public void restabilizeFields(Mat homography) {
fields.forEach(field -> field.updateRect(findNewRect(field.getRect(), homography)));
}
private GSRect findNewRect(GSRect rect, Mat homography) {
List<Point> originals = RectToolsMapper.gsPointToPoint(Arrays.asList(rect.tl(), rect.br()));
List<GSPoint> points = RectToolsMapper.pointToGSPoint(restabilize(originals, homography));
return new GSRect(points.get(0), points.get(1));
}
private List<Point> restabilize(List<Point> originals, Mat homography) {
Mat original = Converters.vector_Point2d_to_Mat(originals);
Mat results = new Mat();
Core.perspectiveTransform(original, results, homography);
List<Point> res = new ArrayList<>();
Converters.Mat_to_vector_Point2d(results, res);
return res;
}
@Override
public void performOcr(Img rootImg) {
if (size() <= 0)
return;
long TS = System.currentTimeMillis();
while (System.currentTimeMillis() - TS <= OCR_TIMEOUT) {
runParallelOcr(rootImg);
// runSequentialOcr(rootImg);
}
}
private void runSequentialOcr(Img rootImg) {
int idx = ThreadLocalRandom.current().nextInt(size());
Field f = fields.get(idx);
if (!f.isLocked())
f.ocr(rootImg);
}
private void runParallelOcr(Img rootImg) {
ParallelTasks tasks = new ParallelTasks();
int limit = tasks.getCounter() * 2;
for (Set<Integer> indexes = new HashSet<>(); indexes.size() < limit && indexes.size() < size();) {
int idx = ThreadLocalRandom.current().nextInt(size());
if (indexes.add(idx)) {
Field f = fields.get(idx);
if (f.needOcr())
tasks.add(() -> f.ocr(rootImg));
}
}
try {
tasks.run();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}