package androidx.constraintlayout.motion.widget; import android.view.View; import androidx.constraintlayout.motion.utils.Easing; import androidx.constraintlayout.widget.ConstraintAttribute; import androidx.constraintlayout.widget.ConstraintSet; import io.sentry.protocol.ViewHierarchyNode; import java.util.Arrays; import java.util.LinkedHashMap; import tech.rabbit.r1launcher.BuildConfig; /* JADX INFO: Access modifiers changed from: package-private */ /* loaded from: classes.dex */ public class MotionPaths implements Comparable { static final int CARTESIAN = 2; public static final boolean DEBUG = false; static final int OFF_HEIGHT = 4; static final int OFF_PATH_ROTATE = 5; static final int OFF_POSITION = 0; static final int OFF_WIDTH = 3; static final int OFF_X = 1; static final int OFF_Y = 2; public static final boolean OLD_WAY = false; static final int PERPENDICULAR = 1; static final int SCREEN = 3; public static final String TAG = "MotionPaths"; static String[] names = {"position", ViewHierarchyNode.JsonKeys.X, ViewHierarchyNode.JsonKeys.Y, ViewHierarchyNode.JsonKeys.WIDTH, ViewHierarchyNode.JsonKeys.HEIGHT, "pathRotate"}; LinkedHashMap attributes; float height; int mDrawPath; Easing mKeyFrameEasing; int mMode; int mPathMotionArc; float mPathRotate; float mProgress; double[] mTempDelta; double[] mTempValue; float position; float time; float width; float x; float y; private static final float xRotate(float f, float f2, float f3, float f4, float f5, float f6) { return (((f5 - f3) * f2) - ((f6 - f4) * f)) + f3; } private static final float yRotate(float f, float f2, float f3, float f4, float f5, float f6) { return ((f5 - f3) * f) + ((f6 - f4) * f2) + f4; } /* JADX INFO: Access modifiers changed from: package-private */ public void setBounds(float f, float f2, float f3, float f4) { this.x = f; this.y = f2; this.width = f3; this.height = f4; } public MotionPaths() { this.mDrawPath = 0; this.mPathRotate = Float.NaN; this.mProgress = Float.NaN; this.mPathMotionArc = Key.UNSET; this.attributes = new LinkedHashMap<>(); this.mMode = 0; this.mTempValue = new double[18]; this.mTempDelta = new double[18]; } void initCartesian(KeyPosition keyPosition, MotionPaths motionPaths, MotionPaths motionPaths2) { float f = keyPosition.mFramePosition / 100.0f; this.time = f; this.mDrawPath = keyPosition.mDrawPath; float f2 = Float.isNaN(keyPosition.mPercentWidth) ? f : keyPosition.mPercentWidth; float f3 = Float.isNaN(keyPosition.mPercentHeight) ? f : keyPosition.mPercentHeight; float f4 = motionPaths2.width; float f5 = motionPaths.width; float f6 = motionPaths2.height; float f7 = motionPaths.height; this.position = this.time; float f8 = motionPaths.x; float f9 = motionPaths.y; float f10 = (motionPaths2.x + (f4 / 2.0f)) - ((f5 / 2.0f) + f8); float f11 = (motionPaths2.y + (f6 / 2.0f)) - (f9 + (f7 / 2.0f)); float f12 = ((f4 - f5) * f2) / 2.0f; this.x = (int) ((f8 + (f10 * f)) - f12); float f13 = ((f6 - f7) * f3) / 2.0f; this.y = (int) ((f9 + (f11 * f)) - f13); this.width = (int) (f5 + r9); this.height = (int) (f7 + r12); float f14 = Float.isNaN(keyPosition.mPercentX) ? f : keyPosition.mPercentX; float f15 = Float.isNaN(keyPosition.mAltPercentY) ? 0.0f : keyPosition.mAltPercentY; if (!Float.isNaN(keyPosition.mPercentY)) { f = keyPosition.mPercentY; } float f16 = Float.isNaN(keyPosition.mAltPercentX) ? 0.0f : keyPosition.mAltPercentX; this.mMode = 2; this.x = (int) (((motionPaths.x + (f14 * f10)) + (f16 * f11)) - f12); this.y = (int) (((motionPaths.y + (f10 * f15)) + (f11 * f)) - f13); this.mKeyFrameEasing = Easing.getInterpolator(keyPosition.mTransitionEasing); this.mPathMotionArc = keyPosition.mPathMotionArc; } public MotionPaths(int i, int i2, KeyPosition keyPosition, MotionPaths motionPaths, MotionPaths motionPaths2) { this.mDrawPath = 0; this.mPathRotate = Float.NaN; this.mProgress = Float.NaN; this.mPathMotionArc = Key.UNSET; this.attributes = new LinkedHashMap<>(); this.mMode = 0; this.mTempValue = new double[18]; this.mTempDelta = new double[18]; int i3 = keyPosition.mPositionType; if (i3 == 1) { initPath(keyPosition, motionPaths, motionPaths2); } else if (i3 == 2) { initScreen(i, i2, keyPosition, motionPaths, motionPaths2); } else { initCartesian(keyPosition, motionPaths, motionPaths2); } } void initScreen(int i, int i2, KeyPosition keyPosition, MotionPaths motionPaths, MotionPaths motionPaths2) { float f = keyPosition.mFramePosition / 100.0f; this.time = f; this.mDrawPath = keyPosition.mDrawPath; float f2 = Float.isNaN(keyPosition.mPercentWidth) ? f : keyPosition.mPercentWidth; float f3 = Float.isNaN(keyPosition.mPercentHeight) ? f : keyPosition.mPercentHeight; float f4 = motionPaths2.width; float f5 = motionPaths.width; float f6 = motionPaths2.height; float f7 = motionPaths.height; this.position = this.time; float f8 = motionPaths.x; float f9 = motionPaths.y; float f10 = motionPaths2.x + (f4 / 2.0f); float f11 = motionPaths2.y + (f6 / 2.0f); float f12 = (f4 - f5) * f2; this.x = (int) ((f8 + ((f10 - ((f5 / 2.0f) + f8)) * f)) - (f12 / 2.0f)); float f13 = (f6 - f7) * f3; this.y = (int) ((f9 + ((f11 - (f9 + (f7 / 2.0f))) * f)) - (f13 / 2.0f)); this.width = (int) (f5 + f12); this.height = (int) (f7 + f13); this.mMode = 3; if (!Float.isNaN(keyPosition.mPercentX)) { this.x = (int) (keyPosition.mPercentX * ((int) (i - this.width))); } if (!Float.isNaN(keyPosition.mPercentY)) { this.y = (int) (keyPosition.mPercentY * ((int) (i2 - this.height))); } this.mKeyFrameEasing = Easing.getInterpolator(keyPosition.mTransitionEasing); this.mPathMotionArc = keyPosition.mPathMotionArc; } void initPath(KeyPosition keyPosition, MotionPaths motionPaths, MotionPaths motionPaths2) { float f = keyPosition.mFramePosition / 100.0f; this.time = f; this.mDrawPath = keyPosition.mDrawPath; float f2 = Float.isNaN(keyPosition.mPercentWidth) ? f : keyPosition.mPercentWidth; float f3 = Float.isNaN(keyPosition.mPercentHeight) ? f : keyPosition.mPercentHeight; float f4 = motionPaths2.width - motionPaths.width; float f5 = motionPaths2.height - motionPaths.height; this.position = this.time; if (!Float.isNaN(keyPosition.mPercentX)) { f = keyPosition.mPercentX; } float f6 = motionPaths.x; float f7 = motionPaths.width; float f8 = motionPaths.y; float f9 = motionPaths.height; float f10 = (motionPaths2.x + (motionPaths2.width / 2.0f)) - ((f7 / 2.0f) + f6); float f11 = (motionPaths2.y + (motionPaths2.height / 2.0f)) - ((f9 / 2.0f) + f8); float f12 = f10 * f; float f13 = (f4 * f2) / 2.0f; this.x = (int) ((f6 + f12) - f13); float f14 = f * f11; float f15 = (f5 * f3) / 2.0f; this.y = (int) ((f8 + f14) - f15); this.width = (int) (f7 + r7); this.height = (int) (f9 + r8); float f16 = Float.isNaN(keyPosition.mPercentY) ? 0.0f : keyPosition.mPercentY; this.mMode = 1; float f17 = (int) ((motionPaths.x + f12) - f13); this.x = f17; float f18 = (int) ((motionPaths.y + f14) - f15); this.x = f17 + ((-f11) * f16); this.y = f18 + (f10 * f16); this.mKeyFrameEasing = Easing.getInterpolator(keyPosition.mTransitionEasing); this.mPathMotionArc = keyPosition.mPathMotionArc; } private boolean diff(float f, float f2) { return (Float.isNaN(f) || Float.isNaN(f2)) ? Float.isNaN(f) != Float.isNaN(f2) : Math.abs(f - f2) > 1.0E-6f; } /* JADX INFO: Access modifiers changed from: package-private */ public void different(MotionPaths motionPaths, boolean[] zArr, String[] strArr, boolean z) { zArr[0] = zArr[0] | diff(this.position, motionPaths.position); zArr[1] = zArr[1] | diff(this.x, motionPaths.x) | z; zArr[2] = z | diff(this.y, motionPaths.y) | zArr[2]; zArr[3] = zArr[3] | diff(this.width, motionPaths.width); zArr[4] = diff(this.height, motionPaths.height) | zArr[4]; } /* JADX INFO: Access modifiers changed from: package-private */ public void getCenter(int[] iArr, double[] dArr, float[] fArr, int i) { float f = this.x; float f2 = this.y; float f3 = this.width; float f4 = this.height; for (int i2 = 0; i2 < iArr.length; i2++) { float f5 = (float) dArr[i2]; int i3 = iArr[i2]; if (i3 == 1) { f = f5; } else if (i3 == 2) { f2 = f5; } else if (i3 == 3) { f3 = f5; } else if (i3 == 4) { f4 = f5; } } fArr[i] = f + (f3 / 2.0f) + 0.0f; fArr[i + 1] = f2 + (f4 / 2.0f) + 0.0f; } /* JADX INFO: Access modifiers changed from: package-private */ public void getBounds(int[] iArr, double[] dArr, float[] fArr, int i) { float f = this.width; float f2 = this.height; for (int i2 = 0; i2 < iArr.length; i2++) { float f3 = (float) dArr[i2]; int i3 = iArr[i2]; if (i3 == 3) { f = f3; } else if (i3 == 4) { f2 = f3; } } fArr[i] = f; fArr[i + 1] = f2; } /* JADX INFO: Access modifiers changed from: package-private */ public void setView(View view, int[] iArr, double[] dArr, double[] dArr2, double[] dArr3) { float f; float f2 = this.x; float f3 = this.y; float f4 = this.width; float f5 = this.height; if (iArr.length != 0 && this.mTempValue.length <= iArr[iArr.length - 1]) { int i = iArr[iArr.length - 1] + 1; this.mTempValue = new double[i]; this.mTempDelta = new double[i]; } Arrays.fill(this.mTempValue, Double.NaN); int i2 = 0; for (int i3 = 0; i3 < iArr.length; i3++) { double[] dArr4 = this.mTempValue; int i4 = iArr[i3]; dArr4[i4] = dArr[i3]; this.mTempDelta[i4] = dArr2[i3]; } float f6 = Float.NaN; float f7 = 0.0f; float f8 = 0.0f; float f9 = 0.0f; float f10 = 0.0f; while (true) { double[] dArr5 = this.mTempValue; if (i2 >= dArr5.length) { break; } boolean isNaN = Double.isNaN(dArr5[i2]); double d = BuildConfig.SENTRY_SAMPLE_RATE; if (isNaN && (dArr3 == null || dArr3[i2] == BuildConfig.SENTRY_SAMPLE_RATE)) { f = f6; } else { if (dArr3 != null) { d = dArr3[i2]; } if (!Double.isNaN(this.mTempValue[i2])) { d = this.mTempValue[i2] + d; } f = f6; float f11 = (float) d; float f12 = (float) this.mTempDelta[i2]; if (i2 == 1) { f6 = f; f2 = f11; f7 = f12; } else if (i2 == 2) { f6 = f; f3 = f11; f9 = f12; } else if (i2 == 3) { f6 = f; f4 = f11; f8 = f12; } else if (i2 == 4) { f6 = f; f5 = f11; f10 = f12; } else if (i2 == 5) { f6 = f11; } i2++; } f6 = f; i2++; } float f13 = f6; if (Float.isNaN(f13)) { if (!Float.isNaN(Float.NaN)) { view.setRotation(Float.NaN); } } else { view.setRotation((float) ((Float.isNaN(Float.NaN) ? 0.0f : Float.NaN) + f13 + Math.toDegrees(Math.atan2(f9 + (f10 / 2.0f), f7 + (f8 / 2.0f))))); } float f14 = f2 + 0.5f; int i5 = (int) f14; float f15 = f3 + 0.5f; int i6 = (int) f15; int i7 = (int) (f14 + f4); int i8 = (int) (f15 + f5); int i9 = i7 - i5; int i10 = i8 - i6; if (i9 != view.getMeasuredWidth() || i10 != view.getMeasuredHeight()) { view.measure(View.MeasureSpec.makeMeasureSpec(i9, 1073741824), View.MeasureSpec.makeMeasureSpec(i10, 1073741824)); } view.layout(i5, i6, i7, i8); } /* JADX INFO: Access modifiers changed from: package-private */ public void getRect(int[] iArr, double[] dArr, float[] fArr, int i) { float f = this.x; float f2 = this.y; float f3 = this.width; float f4 = this.height; for (int i2 = 0; i2 < iArr.length; i2++) { float f5 = (float) dArr[i2]; int i3 = iArr[i2]; if (i3 == 1) { f = f5; } else if (i3 == 2) { f2 = f5; } else if (i3 == 3) { f3 = f5; } else if (i3 == 4) { f4 = f5; } } float f6 = f3 + f; float f7 = f4 + f2; Float.isNaN(Float.NaN); Float.isNaN(Float.NaN); fArr[i] = f + 0.0f; fArr[i + 1] = f2 + 0.0f; fArr[i + 2] = f6 + 0.0f; fArr[i + 3] = f2 + 0.0f; fArr[i + 4] = f6 + 0.0f; int i4 = i + 6; fArr[i + 5] = f7 + 0.0f; fArr[i4] = f + 0.0f; fArr[i + 7] = f7 + 0.0f; } /* JADX INFO: Access modifiers changed from: package-private */ public void setDpDt(float f, float f2, float[] fArr, int[] iArr, double[] dArr, double[] dArr2) { float f3 = 0.0f; float f4 = 0.0f; float f5 = 0.0f; float f6 = 0.0f; for (int i = 0; i < iArr.length; i++) { float f7 = (float) dArr[i]; double d = dArr2[i]; int i2 = iArr[i]; if (i2 == 1) { f3 = f7; } else if (i2 == 2) { f5 = f7; } else if (i2 == 3) { f4 = f7; } else if (i2 == 4) { f6 = f7; } } float f8 = f3 - ((0.0f * f4) / 2.0f); float f9 = f5 - ((0.0f * f6) / 2.0f); fArr[0] = (f8 * (1.0f - f)) + (((f4 * 1.0f) + f8) * f) + 0.0f; fArr[1] = (f9 * (1.0f - f2)) + (((f6 * 1.0f) + f9) * f2) + 0.0f; } /* JADX INFO: Access modifiers changed from: package-private */ public void fillStandard(double[] dArr, int[] iArr) { float[] fArr = {this.position, this.x, this.y, this.width, this.height, this.mPathRotate}; int i = 0; for (int i2 : iArr) { if (i2 < 6) { dArr[i] = fArr[r2]; i++; } } } /* JADX INFO: Access modifiers changed from: package-private */ public boolean hasCustomData(String str) { return this.attributes.containsKey(str); } /* JADX INFO: Access modifiers changed from: package-private */ public int getCustomDataCount(String str) { return this.attributes.get(str).noOfInterpValues(); } /* JADX INFO: Access modifiers changed from: package-private */ public int getCustomData(String str, double[] dArr, int i) { ConstraintAttribute constraintAttribute = this.attributes.get(str); if (constraintAttribute.noOfInterpValues() == 1) { dArr[i] = constraintAttribute.getValueToInterpolate(); return 1; } int noOfInterpValues = constraintAttribute.noOfInterpValues(); constraintAttribute.getValuesToInterpolate(new float[noOfInterpValues]); int i2 = 0; while (i2 < noOfInterpValues) { dArr[i] = r0[i2]; i2++; i++; } return noOfInterpValues; } @Override // java.lang.Comparable public int compareTo(MotionPaths motionPaths) { return Float.compare(this.position, motionPaths.position); } public void applyParameters(ConstraintSet.Constraint constraint) { this.mKeyFrameEasing = Easing.getInterpolator(constraint.motion.mTransitionEasing); this.mPathMotionArc = constraint.motion.mPathMotionArc; this.mPathRotate = constraint.motion.mPathRotate; this.mDrawPath = constraint.motion.mDrawPath; this.mProgress = constraint.propertySet.mProgress; for (String str : constraint.mCustomConstraints.keySet()) { ConstraintAttribute constraintAttribute = constraint.mCustomConstraints.get(str); if (constraintAttribute.getType() != ConstraintAttribute.AttributeType.STRING_TYPE) { this.attributes.put(str, constraintAttribute); } } } }