package androidx.constraintlayout.motion.widget; import android.content.Context; import android.content.res.TypedArray; import android.util.AttributeSet; import android.util.Log; import android.util.SparseIntArray; import androidx.constraintlayout.widget.ConstraintAttribute; import androidx.constraintlayout.widget.R; import androidx.core.app.NotificationCompat; import io.sentry.protocol.ViewHierarchyNode; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; /* loaded from: classes.dex */ public class KeyCycle extends Key { public static final int KEY_TYPE = 4; static final String NAME = "KeyCycle"; private static final String TAG = "KeyCycle"; private String mTransitionEasing = null; private int mCurveFit = 0; private int mWaveShape = -1; private float mWavePeriod = Float.NaN; private float mWaveOffset = 0.0f; private float mProgress = Float.NaN; private int mWaveVariesBy = -1; private float mAlpha = Float.NaN; private float mElevation = Float.NaN; private float mRotation = Float.NaN; private float mTransitionPathRotate = Float.NaN; private float mRotationX = Float.NaN; private float mRotationY = Float.NaN; private float mScaleX = Float.NaN; private float mScaleY = Float.NaN; private float mTranslationX = Float.NaN; private float mTranslationY = Float.NaN; private float mTranslationZ = Float.NaN; public KeyCycle() { this.mType = 4; this.mCustomConstraints = new HashMap<>(); } @Override // androidx.constraintlayout.motion.widget.Key public void load(Context context, AttributeSet attributeSet) { Loader.read(this, context.obtainStyledAttributes(attributeSet, R.styleable.KeyCycle)); } @Override // androidx.constraintlayout.motion.widget.Key public void getAttributeNames(HashSet hashSet) { if (!Float.isNaN(this.mAlpha)) { hashSet.add(ViewHierarchyNode.JsonKeys.ALPHA); } if (!Float.isNaN(this.mElevation)) { hashSet.add("elevation"); } if (!Float.isNaN(this.mRotation)) { hashSet.add("rotation"); } if (!Float.isNaN(this.mRotationX)) { hashSet.add("rotationX"); } if (!Float.isNaN(this.mRotationY)) { hashSet.add("rotationY"); } if (!Float.isNaN(this.mScaleX)) { hashSet.add("scaleX"); } if (!Float.isNaN(this.mScaleY)) { hashSet.add("scaleY"); } if (!Float.isNaN(this.mTransitionPathRotate)) { hashSet.add("transitionPathRotate"); } if (!Float.isNaN(this.mTranslationX)) { hashSet.add("translationX"); } if (!Float.isNaN(this.mTranslationY)) { hashSet.add("translationY"); } if (!Float.isNaN(this.mTranslationZ)) { hashSet.add("translationZ"); } if (this.mCustomConstraints.size() > 0) { Iterator it = this.mCustomConstraints.keySet().iterator(); while (it.hasNext()) { hashSet.add("CUSTOM," + it.next()); } } } public void addCycleValues(HashMap hashMap) { for (String str : hashMap.keySet()) { if (str.startsWith("CUSTOM")) { ConstraintAttribute constraintAttribute = this.mCustomConstraints.get(str.substring(7)); if (constraintAttribute != null && constraintAttribute.getType() == ConstraintAttribute.AttributeType.FLOAT_TYPE) { hashMap.get(str).setPoint(this.mFramePosition, this.mWaveShape, this.mWaveVariesBy, this.mWavePeriod, this.mWaveOffset, constraintAttribute.getValueToInterpolate(), constraintAttribute); } } float value = getValue(str); if (!Float.isNaN(value)) { hashMap.get(str).setPoint(this.mFramePosition, this.mWaveShape, this.mWaveVariesBy, this.mWavePeriod, this.mWaveOffset, value); } } } public float getValue(String str) { str.hashCode(); char c = 65535; switch (str.hashCode()) { case -1249320806: if (str.equals("rotationX")) { c = 0; break; } break; case -1249320805: if (str.equals("rotationY")) { c = 1; break; } break; case -1225497657: if (str.equals("translationX")) { c = 2; break; } break; case -1225497656: if (str.equals("translationY")) { c = 3; break; } break; case -1225497655: if (str.equals("translationZ")) { c = 4; break; } break; case -1001078227: if (str.equals(NotificationCompat.CATEGORY_PROGRESS)) { c = 5; break; } break; case -908189618: if (str.equals("scaleX")) { c = 6; break; } break; case -908189617: if (str.equals("scaleY")) { c = 7; break; } break; case -40300674: if (str.equals("rotation")) { c = '\b'; break; } break; case -4379043: if (str.equals("elevation")) { c = '\t'; break; } break; case 37232917: if (str.equals("transitionPathRotate")) { c = '\n'; break; } break; case 92909918: if (str.equals(ViewHierarchyNode.JsonKeys.ALPHA)) { c = 11; break; } break; case 156108012: if (str.equals("waveOffset")) { c = '\f'; break; } break; } switch (c) { case 0: return this.mRotationX; case 1: return this.mRotationY; case 2: return this.mTranslationX; case 3: return this.mTranslationY; case 4: return this.mTranslationZ; case 5: return this.mProgress; case 6: return this.mScaleX; case 7: return this.mScaleY; case '\b': return this.mRotation; case '\t': return this.mElevation; case '\n': return this.mTransitionPathRotate; case 11: return this.mAlpha; case '\f': return this.mWaveOffset; default: Log.v("WARNING! KeyCycle", " UNKNOWN " + str); return Float.NaN; } } /* JADX WARN: Failed to find 'out' block for switch in B:5:0x0041. Please report as an issue. */ @Override // androidx.constraintlayout.motion.widget.Key public void addValues(HashMap hashMap) { Debug.logStack("KeyCycle", "add " + hashMap.size() + " values", 2); for (String str : hashMap.keySet()) { SplineSet splineSet = hashMap.get(str); str.hashCode(); char c = 65535; switch (str.hashCode()) { case -1249320806: if (str.equals("rotationX")) { c = 0; break; } break; case -1249320805: if (str.equals("rotationY")) { c = 1; break; } break; case -1225497657: if (str.equals("translationX")) { c = 2; break; } break; case -1225497656: if (str.equals("translationY")) { c = 3; break; } break; case -1225497655: if (str.equals("translationZ")) { c = 4; break; } break; case -1001078227: if (str.equals(NotificationCompat.CATEGORY_PROGRESS)) { c = 5; break; } break; case -908189618: if (str.equals("scaleX")) { c = 6; break; } break; case -908189617: if (str.equals("scaleY")) { c = 7; break; } break; case -40300674: if (str.equals("rotation")) { c = '\b'; break; } break; case -4379043: if (str.equals("elevation")) { c = '\t'; break; } break; case 37232917: if (str.equals("transitionPathRotate")) { c = '\n'; break; } break; case 92909918: if (str.equals(ViewHierarchyNode.JsonKeys.ALPHA)) { c = 11; break; } break; case 156108012: if (str.equals("waveOffset")) { c = '\f'; break; } break; } switch (c) { case 0: splineSet.setPoint(this.mFramePosition, this.mRotationX); break; case 1: splineSet.setPoint(this.mFramePosition, this.mRotationY); break; case 2: splineSet.setPoint(this.mFramePosition, this.mTranslationX); break; case 3: splineSet.setPoint(this.mFramePosition, this.mTranslationY); break; case 4: splineSet.setPoint(this.mFramePosition, this.mTranslationZ); break; case 5: splineSet.setPoint(this.mFramePosition, this.mProgress); break; case 6: splineSet.setPoint(this.mFramePosition, this.mScaleX); break; case 7: splineSet.setPoint(this.mFramePosition, this.mScaleY); break; case '\b': splineSet.setPoint(this.mFramePosition, this.mRotation); break; case '\t': splineSet.setPoint(this.mFramePosition, this.mElevation); break; case '\n': splineSet.setPoint(this.mFramePosition, this.mTransitionPathRotate); break; case 11: splineSet.setPoint(this.mFramePosition, this.mAlpha); break; case '\f': splineSet.setPoint(this.mFramePosition, this.mWaveOffset); break; default: Log.v("WARNING KeyCycle", " UNKNOWN " + str); break; } } } /* loaded from: classes.dex */ private static class Loader { private static final int ANDROID_ALPHA = 9; private static final int ANDROID_ELEVATION = 10; private static final int ANDROID_ROTATION = 11; private static final int ANDROID_ROTATION_X = 12; private static final int ANDROID_ROTATION_Y = 13; private static final int ANDROID_SCALE_X = 15; private static final int ANDROID_SCALE_Y = 16; private static final int ANDROID_TRANSLATION_X = 17; private static final int ANDROID_TRANSLATION_Y = 18; private static final int ANDROID_TRANSLATION_Z = 19; private static final int CURVE_FIT = 4; private static final int FRAME_POSITION = 2; private static final int PROGRESS = 20; private static final int TARGET_ID = 1; private static final int TRANSITION_EASING = 3; private static final int TRANSITION_PATH_ROTATE = 14; private static final int WAVE_OFFSET = 7; private static final int WAVE_PERIOD = 6; private static final int WAVE_SHAPE = 5; private static final int WAVE_VARIES_BY = 8; private static SparseIntArray mAttrMap; private Loader() { } static { SparseIntArray sparseIntArray = new SparseIntArray(); mAttrMap = sparseIntArray; sparseIntArray.append(R.styleable.KeyCycle_motionTarget, 1); mAttrMap.append(R.styleable.KeyCycle_framePosition, 2); mAttrMap.append(R.styleable.KeyCycle_transitionEasing, 3); mAttrMap.append(R.styleable.KeyCycle_curveFit, 4); mAttrMap.append(R.styleable.KeyCycle_waveShape, 5); mAttrMap.append(R.styleable.KeyCycle_wavePeriod, 6); mAttrMap.append(R.styleable.KeyCycle_waveOffset, 7); mAttrMap.append(R.styleable.KeyCycle_waveVariesBy, 8); mAttrMap.append(R.styleable.KeyCycle_android_alpha, 9); mAttrMap.append(R.styleable.KeyCycle_android_elevation, 10); mAttrMap.append(R.styleable.KeyCycle_android_rotation, 11); mAttrMap.append(R.styleable.KeyCycle_android_rotationX, 12); mAttrMap.append(R.styleable.KeyCycle_android_rotationY, 13); mAttrMap.append(R.styleable.KeyCycle_transitionPathRotate, 14); mAttrMap.append(R.styleable.KeyCycle_android_scaleX, 15); mAttrMap.append(R.styleable.KeyCycle_android_scaleY, 16); mAttrMap.append(R.styleable.KeyCycle_android_translationX, 17); mAttrMap.append(R.styleable.KeyCycle_android_translationY, 18); mAttrMap.append(R.styleable.KeyCycle_android_translationZ, 19); mAttrMap.append(R.styleable.KeyCycle_motionProgress, 20); } /* JADX INFO: Access modifiers changed from: private */ public static void read(KeyCycle keyCycle, TypedArray typedArray) { int indexCount = typedArray.getIndexCount(); for (int i = 0; i < indexCount; i++) { int index = typedArray.getIndex(i); switch (mAttrMap.get(index)) { case 1: if (MotionLayout.IS_IN_EDIT_MODE) { keyCycle.mTargetId = typedArray.getResourceId(index, keyCycle.mTargetId); if (keyCycle.mTargetId == -1) { keyCycle.mTargetString = typedArray.getString(index); break; } else { break; } } else if (typedArray.peekValue(index).type == 3) { keyCycle.mTargetString = typedArray.getString(index); break; } else { keyCycle.mTargetId = typedArray.getResourceId(index, keyCycle.mTargetId); break; } case 2: keyCycle.mFramePosition = typedArray.getInt(index, keyCycle.mFramePosition); break; case 3: keyCycle.mTransitionEasing = typedArray.getString(index); break; case 4: keyCycle.mCurveFit = typedArray.getInteger(index, keyCycle.mCurveFit); break; case 5: keyCycle.mWaveShape = typedArray.getInt(index, keyCycle.mWaveShape); break; case 6: keyCycle.mWavePeriod = typedArray.getFloat(index, keyCycle.mWavePeriod); break; case 7: if (typedArray.peekValue(index).type == 5) { keyCycle.mWaveOffset = typedArray.getDimension(index, keyCycle.mWaveOffset); break; } else { keyCycle.mWaveOffset = typedArray.getFloat(index, keyCycle.mWaveOffset); break; } case 8: keyCycle.mWaveVariesBy = typedArray.getInt(index, keyCycle.mWaveVariesBy); break; case 9: keyCycle.mAlpha = typedArray.getFloat(index, keyCycle.mAlpha); break; case 10: keyCycle.mElevation = typedArray.getDimension(index, keyCycle.mElevation); break; case 11: keyCycle.mRotation = typedArray.getFloat(index, keyCycle.mRotation); break; case 12: keyCycle.mRotationX = typedArray.getFloat(index, keyCycle.mRotationX); break; case 13: keyCycle.mRotationY = typedArray.getFloat(index, keyCycle.mRotationY); break; case 14: keyCycle.mTransitionPathRotate = typedArray.getFloat(index, keyCycle.mTransitionPathRotate); break; case 15: keyCycle.mScaleX = typedArray.getFloat(index, keyCycle.mScaleX); break; case 16: keyCycle.mScaleY = typedArray.getFloat(index, keyCycle.mScaleY); break; case 17: keyCycle.mTranslationX = typedArray.getDimension(index, keyCycle.mTranslationX); break; case 18: keyCycle.mTranslationY = typedArray.getDimension(index, keyCycle.mTranslationY); break; case 19: keyCycle.mTranslationZ = typedArray.getDimension(index, keyCycle.mTranslationZ); break; case 20: keyCycle.mProgress = typedArray.getFloat(index, keyCycle.mProgress); break; default: Log.e("KeyCycle", "unused attribute 0x" + Integer.toHexString(index) + " " + mAttrMap.get(index)); break; } } } } @Override // androidx.constraintlayout.motion.widget.Key public void setValue(String str, Object obj) { str.hashCode(); char c = 65535; switch (str.hashCode()) { case -1812823328: if (str.equals("transitionEasing")) { c = 0; break; } break; case -1249320806: if (str.equals("rotationX")) { c = 1; break; } break; case -1249320805: if (str.equals("rotationY")) { c = 2; break; } break; case -1225497657: if (str.equals("translationX")) { c = 3; break; } break; case -1225497656: if (str.equals("translationY")) { c = 4; break; } break; case -1001078227: if (str.equals(NotificationCompat.CATEGORY_PROGRESS)) { c = 5; break; } break; case -908189618: if (str.equals("scaleX")) { c = 6; break; } break; case -908189617: if (str.equals("scaleY")) { c = 7; break; } break; case -40300674: if (str.equals("rotation")) { c = '\b'; break; } break; case -4379043: if (str.equals("elevation")) { c = '\t'; break; } break; case 37232917: if (str.equals("transitionPathRotate")) { c = '\n'; break; } break; case 92909918: if (str.equals(ViewHierarchyNode.JsonKeys.ALPHA)) { c = 11; break; } break; case 156108012: if (str.equals("waveOffset")) { c = '\f'; break; } break; case 184161818: if (str.equals("wavePeriod")) { c = '\r'; break; } break; case 579057826: if (str.equals("curveFit")) { c = 14; break; } break; case 1317633238: if (str.equals("mTranslationZ")) { c = 15; break; } break; } switch (c) { case 0: this.mTransitionEasing = obj.toString(); return; case 1: this.mRotationX = toFloat(obj); return; case 2: this.mRotationY = toFloat(obj); return; case 3: this.mTranslationX = toFloat(obj); return; case 4: this.mTranslationY = toFloat(obj); return; case 5: this.mProgress = toFloat(obj); return; case 6: this.mScaleX = toFloat(obj); return; case 7: this.mScaleY = toFloat(obj); return; case '\b': this.mRotation = toFloat(obj); return; case '\t': this.mElevation = toFloat(obj); return; case '\n': this.mTransitionPathRotate = toFloat(obj); return; case 11: this.mAlpha = toFloat(obj); return; case '\f': this.mWaveOffset = toFloat(obj); return; case '\r': this.mWavePeriod = toFloat(obj); return; case 14: this.mCurveFit = toInt(obj); return; case 15: this.mTranslationZ = toFloat(obj); return; default: return; } } }