package com.google.android.exoplayer2.ui; import android.content.Context; import android.content.res.TypedArray; import android.util.AttributeSet; import android.view.View; import android.widget.FrameLayout; import androidx.annotation.Nullable; /* loaded from: classes2.dex */ public final class AspectRatioFrameLayout extends FrameLayout { public final AspectRatioUpdateDispatcher aspectRatioUpdateDispatcher; public int resizeMode; public float videoAspectRatio; public interface AspectRatioListener { } public void setAspectRatioListener(@Nullable AspectRatioListener aspectRatioListener) { } public static /* synthetic */ AspectRatioListener access$100(AspectRatioFrameLayout aspectRatioFrameLayout) { aspectRatioFrameLayout.getClass(); return null; } public AspectRatioFrameLayout(Context context) { this(context, null); } public AspectRatioFrameLayout(Context context, @Nullable AttributeSet attributeSet) { super(context, attributeSet); this.resizeMode = 0; if (attributeSet != null) { TypedArray obtainStyledAttributes = context.getTheme().obtainStyledAttributes(attributeSet, R$styleable.AspectRatioFrameLayout, 0, 0); try { this.resizeMode = obtainStyledAttributes.getInt(R$styleable.AspectRatioFrameLayout_resize_mode, 0); } finally { obtainStyledAttributes.recycle(); } } this.aspectRatioUpdateDispatcher = new AspectRatioUpdateDispatcher(); } public void setAspectRatio(float f) { if (this.videoAspectRatio != f) { this.videoAspectRatio = f; requestLayout(); } } public void setResizeMode(int i) { if (this.resizeMode != i) { this.resizeMode = i; requestLayout(); } } @Override // android.widget.FrameLayout, android.view.View public void onMeasure(int i, int i2) { float f; float f2; super.onMeasure(i, i2); if (this.videoAspectRatio <= 0.0f) { return; } int measuredWidth = getMeasuredWidth(); int measuredHeight = getMeasuredHeight(); float f3 = measuredWidth; float f4 = measuredHeight; float f5 = f3 / f4; float f6 = (this.videoAspectRatio / f5) - 1.0f; if (Math.abs(f6) <= 0.01f) { this.aspectRatioUpdateDispatcher.scheduleUpdate(this.videoAspectRatio, f5, false); return; } int i3 = this.resizeMode; if (i3 != 0) { if (i3 != 1) { if (i3 == 2) { f = this.videoAspectRatio; } else if (i3 == 4) { if (f6 > 0.0f) { f = this.videoAspectRatio; } else { f2 = this.videoAspectRatio; } } measuredWidth = (int) (f4 * f); } else { f2 = this.videoAspectRatio; } measuredHeight = (int) (f3 / f2); } else if (f6 > 0.0f) { f2 = this.videoAspectRatio; measuredHeight = (int) (f3 / f2); } else { f = this.videoAspectRatio; measuredWidth = (int) (f4 * f); } this.aspectRatioUpdateDispatcher.scheduleUpdate(this.videoAspectRatio, f5, true); super.onMeasure(View.MeasureSpec.makeMeasureSpec(measuredWidth, 1073741824), View.MeasureSpec.makeMeasureSpec(measuredHeight, 1073741824)); } public final class AspectRatioUpdateDispatcher implements Runnable { public boolean aspectRatioMismatch; public boolean isScheduled; public float naturalAspectRatio; public float targetAspectRatio; public AspectRatioUpdateDispatcher() { } public void scheduleUpdate(float f, float f2, boolean z) { this.targetAspectRatio = f; this.naturalAspectRatio = f2; this.aspectRatioMismatch = z; if (this.isScheduled) { return; } this.isScheduled = true; AspectRatioFrameLayout.this.post(this); } @Override // java.lang.Runnable public void run() { this.isScheduled = false; AspectRatioFrameLayout.access$100(AspectRatioFrameLayout.this); } } }