package c0; import com.google.firebase.remoteconfig.FirebaseRemoteConfig; /* renamed from: c0.f, reason: case insensitive filesystem */ /* loaded from: classes.dex */ public final class C0280f { /* renamed from: a, reason: collision with root package name */ public double f4220a; /* renamed from: b, reason: collision with root package name */ public double f4221b; /* renamed from: c, reason: collision with root package name */ public boolean f4222c; /* renamed from: d, reason: collision with root package name */ public double f4223d; /* renamed from: e, reason: collision with root package name */ public double f4224e; /* renamed from: f, reason: collision with root package name */ public double f4225f; /* renamed from: g, reason: collision with root package name */ public double f4226g; public double h; public double i; /* renamed from: j, reason: collision with root package name */ public final C0277c f4227j; /* JADX WARN: Type inference failed for: r0v5, types: [java.lang.Object, c0.c] */ public C0280f() { this.f4220a = Math.sqrt(1500.0d); this.f4221b = 0.5d; this.f4222c = false; this.i = Double.MAX_VALUE; this.f4227j = new Object(); } public final C0277c a(double d4, double d5, long j4) { double sin; double cos; if (!this.f4222c) { if (this.i == Double.MAX_VALUE) { throw new IllegalStateException("Error: Final position of the spring must be set before the animation starts"); } double d6 = this.f4221b; if (d6 > 1.0d) { double d7 = this.f4220a; this.f4225f = (Math.sqrt((d6 * d6) - 1.0d) * d7) + ((-d6) * d7); double d8 = this.f4221b; double d9 = this.f4220a; this.f4226g = ((-d8) * d9) - (Math.sqrt((d8 * d8) - 1.0d) * d9); } else if (d6 >= FirebaseRemoteConfig.DEFAULT_VALUE_FOR_DOUBLE && d6 < 1.0d) { this.h = Math.sqrt(1.0d - (d6 * d6)) * this.f4220a; } this.f4222c = true; } double d10 = j4 / 1000.0d; double d11 = d4 - this.i; double d12 = this.f4221b; if (d12 > 1.0d) { double d13 = this.f4226g; double d14 = ((d13 * d11) - d5) / (d13 - this.f4225f); double d15 = d11 - d14; sin = (Math.pow(2.718281828459045d, this.f4225f * d10) * d14) + (Math.pow(2.718281828459045d, d13 * d10) * d15); double d16 = this.f4226g; double pow = Math.pow(2.718281828459045d, d16 * d10) * d15 * d16; double d17 = this.f4225f; cos = (Math.pow(2.718281828459045d, d17 * d10) * d14 * d17) + pow; } else if (d12 == 1.0d) { double d18 = this.f4220a; double d19 = (d18 * d11) + d5; double d20 = (d19 * d10) + d11; double pow2 = Math.pow(2.718281828459045d, (-d18) * d10) * d20; double pow3 = Math.pow(2.718281828459045d, (-this.f4220a) * d10) * d20; double d21 = -this.f4220a; cos = (Math.pow(2.718281828459045d, d21 * d10) * d19) + (pow3 * d21); sin = pow2; } else { double d22 = 1.0d / this.h; double d23 = this.f4220a; double d24 = ((d12 * d23 * d11) + d5) * d22; sin = ((Math.sin(this.h * d10) * d24) + (Math.cos(this.h * d10) * d11)) * Math.pow(2.718281828459045d, (-d12) * d23 * d10); double d25 = this.f4220a; double d26 = this.f4221b; double d27 = (-d25) * sin * d26; double pow4 = Math.pow(2.718281828459045d, (-d26) * d25 * d10); double d28 = this.h; double sin2 = Math.sin(d28 * d10) * (-d28) * d11; double d29 = this.h; cos = (((Math.cos(d29 * d10) * d24 * d29) + sin2) * pow4) + d27; } float f2 = (float) (sin + this.i); C0277c c0277c = this.f4227j; c0277c.f4206a = f2; c0277c.f4207b = (float) cos; return c0277c; } /* JADX WARN: Type inference failed for: r0v4, types: [java.lang.Object, c0.c] */ public C0280f(float f2) { this.f4220a = Math.sqrt(1500.0d); this.f4221b = 0.5d; this.f4222c = false; this.f4227j = new Object(); this.i = f2; } }