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skia / external / github.com / airbnb / lottie-android / 41e3b84d14bbbe2bb5fd89c37c99a988609922e9 / . / lottie / src / main / java / com / airbnb / lottie / model / content / ShapeData.java
blob: f09404b3b53a8aeb83a6f69f996b21a3f1aff46e [file] [log] [blame]
package com.airbnb.lottie.model.content;
import android.graphics.PointF;
import android.support.annotation.FloatRange;
import android.util.JsonReader;
import android.util.JsonToken;
import com.airbnb.lottie.model.CubicCurveData;
import com.airbnb.lottie.model.animatable.AnimatableValue;
import com.airbnb.lottie.utils.JsonUtils;
import com.airbnb.lottie.utils.MiscUtils;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
public class ShapeData {
private final List<CubicCurveData> curves = new ArrayList<>();
private PointF initialPoint;
private boolean closed;
private ShapeData(PointF initialPoint, boolean closed, List<CubicCurveData> curves) {
this.initialPoint = initialPoint;
this.closed = closed;
this.curves.addAll(curves);
}
public ShapeData() {
}
private void setInitialPoint(float x, float y) {
if (initialPoint == null) {
initialPoint = new PointF();
}
initialPoint.set(x, y);
}
public PointF getInitialPoint() {
return initialPoint;
}
public boolean isClosed() {
return closed;
}
public List<CubicCurveData> getCurves() {
return curves;
}
public void interpolateBetween(ShapeData shapeData1, ShapeData shapeData2,
@FloatRange(from = 0f, to = 1f) float percentage) {
if (initialPoint == null) {
initialPoint = new PointF();
}
closed = shapeData1.isClosed() || shapeData2.isClosed();
if (!curves.isEmpty() && curves.size() != shapeData1.getCurves().size()
&& curves.size() != shapeData2.getCurves().size()) {
throw new IllegalStateException("Curves must have the same number of control points. This: "
+ getCurves().size()
+ "\tShape 1: " + shapeData1.getCurves().size() + "\tShape 2: "
+ shapeData2.getCurves().size());
} else if (curves.isEmpty()) {
for (int i = shapeData1.getCurves().size() - 1; i >= 0; i--) {
curves.add(new CubicCurveData());
}
}
PointF initialPoint1 = shapeData1.getInitialPoint();
PointF initialPoint2 = shapeData2.getInitialPoint();
setInitialPoint(MiscUtils.lerp(initialPoint1.x, initialPoint2.x, percentage),
MiscUtils.lerp(initialPoint1.y, initialPoint2.y, percentage));
for (int i = curves.size() - 1; i >= 0; i--) {
CubicCurveData curve1 = shapeData1.getCurves().get(i);
CubicCurveData curve2 = shapeData2.getCurves().get(i);
PointF cp11 = curve1.getControlPoint1();
PointF cp21 = curve1.getControlPoint2();
PointF vertex1 = curve1.getVertex();
PointF cp12 = curve2.getControlPoint1();
PointF cp22 = curve2.getControlPoint2();
PointF vertex2 = curve2.getVertex();
curves.get(i).setControlPoint1(
MiscUtils.lerp(cp11.x, cp12.x, percentage), MiscUtils.lerp(cp11.y, cp12.y,
percentage));
curves.get(i).setControlPoint2(
MiscUtils.lerp(cp21.x, cp22.x, percentage), MiscUtils.lerp(cp21.y, cp22.y,
percentage));
curves.get(i).setVertex(
MiscUtils.lerp(vertex1.x, vertex2.x, percentage), MiscUtils.lerp(vertex1.y, vertex2.y,
percentage));
}
}
@Override public String toString() {
return "ShapeData{" + "numCurves=" + curves.size() +
"closed=" + closed +
'}';
}
public static class Factory implements AnimatableValue.Factory<ShapeData> {
public static final ShapeData.Factory INSTANCE = new Factory();
private Factory() {
}
@Override public ShapeData valueFromObject(JsonReader reader, float scale) throws IOException {
// Sometimes the points data is in a array of length 1. Sometimes the data is at the top
// level.
if (reader.peek() == JsonToken.BEGIN_ARRAY) {
reader.beginArray();
}
boolean closed = false;
List<PointF> pointsArray = null;
List<PointF> inTangents = null;
List<PointF> outTangents = null;
reader.beginObject();
while (reader.hasNext()) {
switch (reader.nextName()) {
case "c":
closed = reader.nextBoolean();
break;
case "v":
pointsArray = JsonUtils.jsonToPoints(reader, scale);
break;
case "i":
inTangents = JsonUtils.jsonToPoints(reader, scale);
break;
case "o":
outTangents = JsonUtils.jsonToPoints(reader, scale);
break;
}
}
reader.endObject();
if (reader.peek() == JsonToken.END_ARRAY) {
reader.endArray();
}
if (pointsArray == null || inTangents == null || outTangents == null) {
throw new IllegalArgumentException("Shape data was missing information.");
}
if (pointsArray.isEmpty()) {
return new ShapeData(new PointF(), false, Collections.<CubicCurveData>emptyList());
}
int length = pointsArray.size();
PointF vertex = pointsArray.get(0);
PointF initialPoint = vertex;
List<CubicCurveData> curves = new ArrayList<>(length);
for (int i = 1; i < length; i++) {
vertex = pointsArray.get(i);
PointF previousVertex = pointsArray.get(i - 1);
PointF cp1 = outTangents.get(i - 1);
PointF cp2 = inTangents.get(i);
PointF shapeCp1 = MiscUtils.addPoints(previousVertex, cp1);
PointF shapeCp2 = MiscUtils.addPoints(vertex, cp2);
curves.add(new CubicCurveData(shapeCp1, shapeCp2, vertex));
}
if (closed) {
vertex = pointsArray.get(0);
PointF previousVertex = pointsArray.get(length - 1);
PointF cp1 = outTangents.get(length - 1);
PointF cp2 = inTangents.get(0);
PointF shapeCp1 = MiscUtils.addPoints(previousVertex, cp1);
PointF shapeCp2 = MiscUtils.addPoints(vertex, cp2);
curves.add(new CubicCurveData(shapeCp1, shapeCp2, vertex));
}
return new ShapeData(initialPoint, closed, curves);
}
}
}