package o; import android.animation.TimeInterpolator; import com.google.android.gms.maps.model.BitmapDescriptorFactory; /* renamed from: o.aiS, reason: case insensitive filesystem */ /* loaded from: classes.dex */ public final class C2640aiS { public static final LWm a; public static final LWm c; public static final LWm e; /* renamed from: o.aiS$LWm */ /* loaded from: classes.dex */ public interface LWm extends TimeInterpolator { @Override // android.animation.TimeInterpolator float getInterpolation(float f); } static { new LWm() { // from class: o.aiS.5 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return f; } }; new LWm() { // from class: o.aiS.15 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return f * f; } }; new LWm() { // from class: o.aiS.24 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (-f) * (f - 2.0f); } }; c = new LWm() { // from class: o.aiS.25 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float f2 = f * 2.0f; if (f2 < 1.0f) { return 0.5f * f2 * f2; } float f3 = f2 - 1.0f; return ((f3 * (f3 - 2.0f)) - 1.0f) * (-0.5f); } }; new LWm() { // from class: o.aiS.23 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (float) Math.pow(f, 3.0d); } }; new LWm() { // from class: o.aiS.21 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return ((float) Math.pow(f - 1.0f, 3.0d)) + 1.0f; } }; new LWm() { // from class: o.aiS.28 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float pow; float f2 = f * 2.0f; if (f2 < 1.0f) { pow = (float) Math.pow(f2, 3.0d); } else { pow = ((float) Math.pow(f2 - 2.0f, 3.0d)) + 2.0f; } return pow * 0.5f; } }; new LWm() { // from class: o.aiS.27 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (float) Math.pow(f, 4.0d); } }; new LWm() { // from class: o.aiS.29 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return -(((float) Math.pow(f - 1.0f, 4.0d)) - 1.0f); } }; new LWm() { // from class: o.aiS.4 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float pow; float f2; float f3 = f * 2.0f; if (f3 < 1.0f) { pow = (float) Math.pow(f3, 4.0d); f2 = 0.5f; } else { pow = ((float) Math.pow(f3 - 2.0f, 4.0d)) - 2.0f; f2 = -0.5f; } return pow * f2; } }; new LWm() { // from class: o.aiS.3 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (-((float) Math.cos(f * 1.5707963267948966d))) + 1.0f; } }; new LWm() { // from class: o.aiS.1 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (float) Math.sin(f * 1.5707963267948966d); } }; new LWm() { // from class: o.aiS.2 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return (((float) Math.cos(f * 3.141592653589793d)) - 1.0f) * (-0.5f); } }; new LWm() { // from class: o.aiS.9 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return f == BitmapDescriptorFactory.HUE_RED ? BitmapDescriptorFactory.HUE_RED : (float) Math.pow(2.0d, (f - 1.0f) * 10.0f); } }; new LWm() { // from class: o.aiS.10 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f == 1.0f) { return 1.0f; } return -((float) Math.pow(2.0d, (f + 1.0f) * (-10.0f))); } }; new LWm() { // from class: o.aiS.6 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float f2; if (f == BitmapDescriptorFactory.HUE_RED) { return BitmapDescriptorFactory.HUE_RED; } if (f == 1.0f) { return 1.0f; } if (f * 2.0f < 1.0f) { f2 = (float) Math.pow(2.0d, (r8 - 1.0f) * 10.0f); } else { f2 = (-((float) Math.pow(2.0d, (r8 - 1.0f) * (-10.0f)))) + 2.0f; } return f2 * 0.5f; } }; new LWm() { // from class: o.aiS.7 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return -(((float) Math.sqrt(1.0f - (f * f))) - 1.0f); } }; new LWm() { // from class: o.aiS.8 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float f2 = f - 1.0f; return (float) Math.sqrt(1.0f - (f2 * f2)); } }; new LWm() { // from class: o.aiS.13 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float sqrt; float f2; float f3 = f * 2.0f; if (f3 < 1.0f) { sqrt = ((float) Math.sqrt(1.0f - (f3 * f3))) - 1.0f; f2 = -0.5f; } else { float f4 = f3 - 2.0f; sqrt = ((float) Math.sqrt(1.0f - (f4 * f4))) + 1.0f; f2 = 0.5f; } return sqrt * f2; } }; new LWm() { // from class: o.aiS.11 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f == BitmapDescriptorFactory.HUE_RED) { return BitmapDescriptorFactory.HUE_RED; } if (f == 1.0f) { return 1.0f; } float f2 = f - 1.0f; return -(((float) Math.pow(2.0d, 10.0f * f2)) * ((float) Math.sin(((f2 - (((float) Math.asin(1.0d)) * 0.047746483f)) * 6.2831855f) / 0.3f))); } }; new LWm() { // from class: o.aiS.14 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f == BitmapDescriptorFactory.HUE_RED) { return BitmapDescriptorFactory.HUE_RED; } if (f == 1.0f) { return 1.0f; } return (((float) Math.pow(2.0d, (-10.0f) * f)) * ((float) Math.sin(((f - (((float) Math.asin(1.0d)) * 0.047746483f)) * 6.2831855f) / 0.3f))) + 1.0f; } }; new LWm() { // from class: o.aiS.12 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f == BitmapDescriptorFactory.HUE_RED) { return BitmapDescriptorFactory.HUE_RED; } float f2 = f * 2.0f; if (f2 == 2.0f) { return 1.0f; } float asin = ((float) Math.asin(1.0d)) * 0.07161972f; if (f2 < 1.0f) { float f3 = f2 - 1.0f; return ((float) Math.pow(2.0d, 10.0f * f3)) * ((float) Math.sin((f3 - asin) * 6.2831855f * 2.2222223f)) * (-0.5f); } float f4 = f2 - 1.0f; return (((float) Math.pow(2.0d, (-10.0f) * f4)) * 0.5f * ((float) Math.sin((f4 - asin) * 6.2831855f * 2.2222223f))) + 1.0f; } }; new LWm() { // from class: o.aiS.18 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return f * f * ((f * 2.70158f) - 1.70158f); } }; new LWm() { // from class: o.aiS.16 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float f2 = f - 1.0f; return (f2 * f2 * ((f2 * 2.70158f) + 1.70158f)) + 1.0f; } }; new LWm() { // from class: o.aiS.19 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { float f2 = f * 2.0f; if (f2 < 1.0f) { return f2 * f2 * ((f2 * 3.5949094f) - 2.5949094f) * 0.5f; } float f3 = f2 - 2.0f; return ((f3 * f3 * ((f3 * 3.5949094f) + 2.5949094f)) + 2.0f) * 0.5f; } }; a = new LWm() { // from class: o.aiS.17 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { return 1.0f - C2640aiS.e.getInterpolation(1.0f - f); } }; e = new LWm() { // from class: o.aiS.20 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f < 0.36363637f) { return 7.5625f * f * f; } if (f < 0.72727275f) { float f2 = f - 0.54545456f; return (7.5625f * f2 * f2) + 0.75f; } if (f < 0.90909094f) { float f3 = f - 0.8181818f; return (7.5625f * f3 * f3) + 0.9375f; } float f4 = f - 0.95454544f; return (7.5625f * f4 * f4) + 0.984375f; } }; new LWm() { // from class: o.aiS.22 @Override // o.C2640aiS.LWm, android.animation.TimeInterpolator public final float getInterpolation(float f) { if (f < 0.5f) { return C2640aiS.a.getInterpolation(f * 2.0f) * 0.5f; } return (C2640aiS.e.getInterpolation((f * 2.0f) - 1.0f) * 0.5f) + 0.5f; } }; } }