Fix overlapping of border projection and minimize overlapping of gradient projection

2021-04-12 16:22:28 +05:00 · 2021-04-12 16:22:28 +05:00 · 5d8f6c81d1
commit 5d8f6c81d1
parent 430ff544b3
2 changed files with 90 additions and 58 deletions
--- a/OsmAnd-java/src/main/java/net/osmand/util/MapUtils.java
+++ b/OsmAnd-java/src/main/java/net/osmand/util/MapUtils.java
@ -747,7 +747,9 @@ public class MapUtils {
 		return Math.sqrt((endX - startX) * (endX - startX) + (endY - startY) * (endY - startY));
 	}

-
+	public static double getSqrtDistance(float startX, float startY, float endX, float endY) {
+		return Math.sqrt((endX - startX) * (endX - startX) + (endY - startY) * (endY - startY));
+	}
 }


--- a/OsmAnd/src/net/osmand/plus/views/Renderable.java
+++ b/OsmAnd/src/net/osmand/plus/views/Renderable.java
@ -14,6 +14,7 @@ import net.osmand.data.RotatedTileBox;
 import net.osmand.plus.track.GradientScaleType;
 import net.osmand.plus.views.layers.geometry.GpxGeometryWay;
 import net.osmand.util.Algorithms;
+import net.osmand.util.MapUtils;

 import java.util.ArrayList;
 import java.util.List;
@ -118,9 +119,10 @@ public class Renderable {
            updateLocalPaint(p);
            canvas.rotate(-tileBox.getRotate(), tileBox.getCenterPixelX(), tileBox.getCenterPixelY());
            if (scaleType != null) {
-                drawGradient(points, p, canvas, tileBox);
+                drawSolid(points, borderPaint, canvas, tileBox);
+                drawGradient(points, paint, canvas, tileBox);
            } else {
-                drawSolid(getPointsForDrawing(), p, canvas, tileBox);
+                drawSolid(getPointsForDrawing(), paint, canvas, tileBox);
            }
            canvas.rotate(tileBox.getRotate(), tileBox.getCenterPixelX(), tileBox.getCenterPixelY());
        }
@ -166,7 +168,7 @@ public class Renderable {
                        float lastX = tileBox.getPixXFromLatLon(lastPt.lat, lastPt.lon);
                        float lastY = tileBox.getPixYFromLatLon(lastPt.lat, lastPt.lon);
                        if (!path.isEmpty()) {
-                            canvas.drawPath(path, paint);
+                            canvas.drawPath(path, p);
                        }
                        path.reset();
                        path.moveTo(lastX, lastY);
@ -180,58 +182,99 @@ public class Renderable {
                lastPt = pt;
            }
            if (!path.isEmpty()) {
-                canvas.drawPath(path, paint);
+                canvas.drawPath(path, p);
            }
        }

        protected void drawGradient(List<WptPt> pts, Paint p, Canvas canvas, RotatedTileBox tileBox) {
            QuadRect tileBounds = tileBox.getLatLonBounds();
-            Path currentPath = new Path();
-            Path nextPath = new Path();
-            Paint paint = new Paint(this.paint);
+            Path path = new Path();
+            boolean recalculateLastXY = true;
+            WptPt lastPt = pts.get(0);

-            WptPt prevWpt = pts.get(0);
-            WptPt currWpt = pts.get(1);
-
-            PointF prevXY = new PointF();
-            PointF currXY = new PointF();
-            PointF nextXY = new PointF();
-
-            boolean currLineVisible = arePointsInsideTile(prevWpt, currWpt, tileBounds);
-            boolean nextLineVisible;
-
-            if (currLineVisible) {
-                pixXYFromWptPt(tileBox, prevXY, prevWpt);
-                pixXYFromWptPt(tileBox, currXY, currWpt);
-                canvas.drawPath(pathFromStartEnd(currentPath, prevXY, currXY), borderPaint);
-            }
+            List<PointF> gradientPoints = new ArrayList<>();
+            List<Integer> gradientColors = new ArrayList<>();
+            float gradientAngle = 0;

            for (int i = 1; i < pts.size(); i++) {
-                currWpt = pts.get(i);
-                WptPt nextWpt = i + 1 == pts.size() ? null : pts.get(i + 1);
+                WptPt pt = pts.get(i);
+                WptPt nextPt = i + 1 < pts.size() ? pts.get(i + 1) : null;
+                float nextX = nextPt == null ? 0 : tileBox.getPixXFromLatLon(nextPt.lat, nextPt.lon);
+                float nextY = nextPt == null ? 0 : tileBox.getPixYFromLatLon(nextPt.lat, nextPt.lon);
+                float lastX = 0;
+                float lastY = 0;
+                if (arePointsInsideTile(pt, lastPt, tileBounds)) {
+                    if (recalculateLastXY) {
+                        recalculateLastXY = false;
+                        lastX = tileBox.getPixXFromLatLon(lastPt.lat, lastPt.lon);
+                        lastY = tileBox.getPixYFromLatLon(lastPt.lat, lastPt.lon);
+                        if (!path.isEmpty()) {
+                            p.setShader(createGradient(gradientPoints, gradientColors));
+                            canvas.drawPath(path, p);
+                        }
+                        path.reset();
+                        path.moveTo(lastX, lastY);

-                nextLineVisible = arePointsInsideTile(currWpt, nextWpt, tileBounds);
-                if (nextWpt != null && nextLineVisible) {
-                    pixXYFromWptPt(tileBox, currXY, currWpt);
-                    pixXYFromWptPt(tileBox, nextXY, nextWpt);
-                    canvas.drawPath(pathFromStartEnd(nextPath, currXY, nextXY), borderPaint);
+                        gradientPoints.clear();
+                        gradientColors.clear();
+                        gradientPoints.add(new PointF(lastX, lastY));
+                        gradientColors.add(lastPt.getColor(scaleType.toColorizationType()));
+                    }
+                    float x = tileBox.getPixXFromLatLon(pt.lat, pt.lon);
+                    float y = tileBox.getPixYFromLatLon(pt.lat, pt.lon);
+                    path.lineTo(x, y);
+                    gradientPoints.add(new PointF(x, y));
+                    gradientColors.add(pt.getColor(scaleType.toColorizationType()));
+
+                    if (gradientColors.size() == 2) {
+                        gradientAngle = calculateAngle(lastX, lastY, x, y);
+                    }
+                    if (nextPt != null) {
+                        float nextAngle = calculateAngle(x, y, nextX, nextY);
+                        if (Math.abs(nextAngle - gradientAngle) > 20) {
+                            recalculateLastXY = true;
+                        }
+                    }
+                } else {
+                    recalculateLastXY = true;
+                }
+                lastPt = pt;
+            }
+            if (!path.isEmpty()) {
+                p.setShader(createGradient(gradientPoints, gradientColors));
+                canvas.drawPath(path, p);
+            }
        }

-                if (currLineVisible) {
-                    int prevColor = prevWpt.getColor(scaleType.toColorizationType());
-                    int currentColor = currWpt.getColor(scaleType.toColorizationType());
-                    LinearGradient gradient = new LinearGradient(prevXY.x, prevXY.y, currXY.x, currXY.y,
-                            prevColor, currentColor, Shader.TileMode.CLAMP);
-                    paint.setShader(gradient);
-                    canvas.drawPath(currentPath, paint);
+        private LinearGradient createGradient(List<PointF> gradientPoints, List<Integer> gradientColors) {
+            float gradientLength = 0;
+            List<Float> pointsLength = new ArrayList<>(gradientPoints.size() - 1);
+            for (int i = 1; i < gradientPoints.size(); i++) {
+                PointF start = gradientPoints.get(i - 1);
+                PointF end = gradientPoints.get(i);
+                pointsLength.add((float) MapUtils.getSqrtDistance(start.x, start.y, end.x, end.y));
+                gradientLength += pointsLength.get(i - 1);
            }

-                prevWpt = currWpt;
-                currentPath.set(nextPath);
-                prevXY.set(currXY);
-                currXY.set(nextXY);
-                currLineVisible = nextLineVisible;
+            float[] positions = new float[gradientPoints.size()];
+            positions[0] = 0;
+            for (int i = 1; i < gradientPoints.size(); i++) {
+                positions[i] = positions[i - 1] + pointsLength.get(i - 1) / gradientLength;
            }
+
+            int[] colors = new int[gradientColors.size()];
+            for (int i = 0; i < gradientColors.size(); i++) {
+                colors[i] = gradientColors.get(i);
+            }
+
+            PointF gradientStart = gradientPoints.get(0);
+            PointF gradientEnd = gradientPoints.get(gradientPoints.size() - 1);
+            return new LinearGradient(gradientStart.x, gradientStart.y, gradientEnd.x, gradientEnd.y,
+                    colors, positions, Shader.TileMode.CLAMP);
+        }
+
+        private float calculateAngle(float startX, float startY, float endX, float endY) {
+            return (float) Math.abs(Math.toDegrees(Math.atan2(endY - startY, endX - startX)));
        }

        protected boolean arePointsInsideTile(WptPt first, WptPt second, QuadRect tileBounds) {
@ -241,19 +284,6 @@ public class Renderable {
            return Math.min(first.lon, second.lon) < tileBounds.right && Math.max(first.lon, second.lon) > tileBounds.left
                    && Math.min(first.lat, second.lat) < tileBounds.top && Math.max(first.lat, second.lat) > tileBounds.bottom;
        }
-
-        protected PointF pixXYFromWptPt(RotatedTileBox tileBox, PointF pointF, WptPt wptPt) {
-            pointF.x = tileBox.getPixXFromLatLon(wptPt.lat, wptPt.lon);
-            pointF.y = tileBox.getPixYFromLatLon(wptPt.lat, wptPt.lon);
-            return pointF;
-        }
-
-        protected Path pathFromStartEnd(Path path, PointF start, PointF end) {
-            path.reset();
-            path.moveTo(start.x, start.y);
-            path.lineTo(end.x, end.y);
-            return path;
-        }
    }

    public static class StandardTrack extends RenderableSegment {