package I0;

import C0.C0104e;
import C0.InterfaceC0110k;
import G0.AbstractC0244a;
import G0.InterfaceC0247b0;
import G0.InterfaceC0279y;
import J2.C0427s;
import android.graphics.Canvas;
import android.graphics.Paint;
import android.os.Build;
import android.view.ViewParent;
import androidx.compose.runtime.collection.MutableVector;
import androidx.compose.runtime.snapshots.Snapshot;
import androidx.media3.exoplayer.source.ProgressiveMediaSource;
import i0.AbstractC2254r;
import java.lang.ref.Reference;
import java.lang.ref.ReferenceQueue;
import java.lang.ref.WeakReference;
import java.util.Map;
import n.C2568C;
import n.C2571F;
import o0.C2631b;
import o0.C2632c;
import o0.C2633d;
import p0.AbstractC2686D;
import p0.AbstractC2690H;
import p0.AbstractC2697c;
import p0.AbstractC2704j;
import p0.AbstractC2715v;
import p0.C2692J;
import p0.C2693K;
import p0.C2694L;
import p0.C2702h;
import p0.C2709o;
import p0.C2714u;
import p0.InterfaceC2684B;
import p0.InterfaceC2712s;
import q.AbstractC2761L;
import r0.C2862a;
import r0.C2863b;
import x4.AbstractC3252r;

/* JADX INFO: renamed from: I0.j0, reason: case insensitive filesystem */
/* JADX INFO: loaded from: classes.dex */
public abstract class AbstractC0300j0 extends P implements G0.Z, InterfaceC0279y, u0 {

    /* JADX INFO: renamed from: P, reason: collision with root package name */
    public static final p0.U f2401P = new p0.U();

    /* JADX INFO: renamed from: Q, reason: collision with root package name */
    public static final C0313w f2402Q = new C0313w();

    /* JADX INFO: renamed from: R, reason: collision with root package name */
    public static final float[] f2403R = C2692J.a();

    /* JADX INFO: renamed from: S, reason: collision with root package name */
    public static final C0292f0 f2404S = new C0292f0(0);

    /* JADX INFO: renamed from: T, reason: collision with root package name */
    public static final C0292f0 f2405T = new C0292f0(1);

    /* JADX INFO: renamed from: A, reason: collision with root package name */
    public InterfaceC0247b0 f2406A;

    /* JADX INFO: renamed from: B, reason: collision with root package name */
    public C2571F f2407B;

    /* JADX INFO: renamed from: D, reason: collision with root package name */
    public float f2409D;

    /* JADX INFO: renamed from: E, reason: collision with root package name */
    public C0427s f2410E;

    /* JADX INFO: renamed from: F, reason: collision with root package name */
    public C0313w f2411F;

    /* JADX INFO: renamed from: H, reason: collision with root package name */
    public boolean f2413H;

    /* JADX INFO: renamed from: I, reason: collision with root package name */
    public boolean f2414I;

    /* JADX INFO: renamed from: J, reason: collision with root package name */
    public s0.b f2415J;

    /* JADX INFO: renamed from: K, reason: collision with root package name */
    public InterfaceC2712s f2416K;

    /* JADX INFO: renamed from: L, reason: collision with root package name */
    public G0.V f2417L;

    /* JADX INFO: renamed from: N, reason: collision with root package name */
    public boolean f2419N;

    /* JADX INFO: renamed from: O, reason: collision with root package name */
    public r0 f2420O;

    /* JADX INFO: renamed from: r, reason: collision with root package name */
    public final H f2421r;

    /* JADX INFO: renamed from: s, reason: collision with root package name */
    public AbstractC0300j0 f2422s;

    /* JADX INFO: renamed from: t, reason: collision with root package name */
    public AbstractC0300j0 f2423t;

    /* JADX INFO: renamed from: u, reason: collision with root package name */
    public boolean f2424u;

    /* JADX INFO: renamed from: v, reason: collision with root package name */
    public boolean f2425v;

    /* JADX INFO: renamed from: w, reason: collision with root package name */
    public J4.c f2426w;

    /* JADX INFO: renamed from: x, reason: collision with root package name */
    public h1.c f2427x;

    /* JADX INFO: renamed from: y, reason: collision with root package name */
    public h1.m f2428y;

    /* JADX INFO: renamed from: z, reason: collision with root package name */
    public float f2429z = 0.8f;

    /* JADX INFO: renamed from: C, reason: collision with root package name */
    public long f2408C = 0;

    /* JADX INFO: renamed from: G, reason: collision with root package name */
    public p0.X f2412G = AbstractC2686D.f22844b;

    /* JADX INFO: renamed from: M, reason: collision with root package name */
    public final C0294g0 f2418M = new C0294g0(this, 1);

    public AbstractC0300j0(H h5) {
        this.f2421r = h5;
        this.f2427x = h5.f2155C;
        this.f2428y = h5.f2156D;
    }

    public static AbstractC0300j0 p1(InterfaceC0279y interfaceC0279y) {
        AbstractC0300j0 abstractC0300j0;
        G0.Y y6 = interfaceC0279y instanceof G0.Y ? (G0.Y) interfaceC0279y : null;
        if (y6 != null && (abstractC0300j0 = y6.f1953a.f2251r) != null) {
            return abstractC0300j0;
        }
        kotlin.jvm.internal.o.f(interfaceC0279y, "null cannot be cast to non-null type androidx.compose.ui.node.NodeCoordinator");
        return (AbstractC0300j0) interfaceC0279y;
    }

    @Override // I0.P
    public final boolean B0() {
        return this.f2406A != null;
    }

    @Override // I0.P
    public final H C0() {
        return this.f2421r;
    }

    @Override // I0.P
    public final InterfaceC0247b0 D0() {
        InterfaceC0247b0 interfaceC0247b0 = this.f2406A;
        if (interfaceC0247b0 != null) {
            return interfaceC0247b0;
        }
        throw new IllegalStateException("Asking for measurement result of unmeasured layout modifier");
    }

    @Override // I0.P
    public final P E0() {
        return this.f2423t;
    }

    @Override // G0.InterfaceC0279y
    public final long F() {
        return this.f2000c;
    }

    @Override // I0.P
    public final long F0() {
        return this.f2408C;
    }

    @Override // I0.P
    public final void J0() {
        s0(this.f2408C, this.f2409D, this.f2426w);
    }

    public final void K0(AbstractC0300j0 abstractC0300j0, C0427s c0427s, boolean z6) {
        if (abstractC0300j0 == this) {
            return;
        }
        AbstractC0300j0 abstractC0300j02 = this.f2423t;
        if (abstractC0300j02 != null) {
            abstractC0300j02.K0(abstractC0300j0, c0427s, z6);
        }
        long j4 = this.f2408C;
        float f6 = (int) (j4 >> 32);
        c0427s.f3444b -= f6;
        c0427s.f3446d -= f6;
        float f7 = (int) (j4 & 4294967295L);
        c0427s.f3445c -= f7;
        c0427s.f3447e -= f7;
        r0 r0Var = this.f2420O;
        if (r0Var != null) {
            J0.F0 f0 = (J0.F0) r0Var;
            float[] fArrA = f0.a();
            if (!f0.f2836v) {
                if (fArrA == null) {
                    c0427s.f3444b = 0.0f;
                    c0427s.f3445c = 0.0f;
                    c0427s.f3446d = 0.0f;
                    c0427s.f3447e = 0.0f;
                } else {
                    C2692J.c(fArrA, c0427s);
                }
            }
            if (this.f2425v && z6) {
                long j6 = this.f2000c;
                c0427s.a(0.0f, 0.0f, (int) (j6 >> 32), (int) (j6 & 4294967295L));
            }
        }
    }

    public final long L0(AbstractC0300j0 abstractC0300j0, long j4) {
        if (abstractC0300j0 == this) {
            return j4;
        }
        AbstractC0300j0 abstractC0300j02 = this.f2423t;
        return (abstractC0300j02 == null || kotlin.jvm.internal.o.c(abstractC0300j0, abstractC0300j02)) ? S0(j4) : S0(abstractC0300j02.L0(abstractC0300j0, j4));
    }

    @Override // G0.InterfaceC0279y
    public final long M(long j4) {
        if (!w()) {
            F0.a.b("LayoutCoordinate operations are only valid when isAttached is true");
        }
        return ((J0.A) K.a(this.f2421r)).s(e0(j4));
    }

    public final long M0(long j4) {
        float fIntBitsToFloat = Float.intBitsToFloat((int) (j4 >> 32)) - q0();
        float fIntBitsToFloat2 = Float.intBitsToFloat((int) (j4 & 4294967295L)) - n0();
        float fMax = Math.max(0.0f, fIntBitsToFloat / 2.0f);
        return (((long) Float.floatToRawIntBits(Math.max(0.0f, fIntBitsToFloat2 / 2.0f))) & 4294967295L) | (Float.floatToRawIntBits(fMax) << 32);
    }

    public final float N0(long j4, long j6) {
        if (q0() >= Float.intBitsToFloat((int) (j6 >> 32)) && n0() >= Float.intBitsToFloat((int) (j6 & 4294967295L))) {
            return Float.POSITIVE_INFINITY;
        }
        long jM0 = M0(j6);
        float fIntBitsToFloat = Float.intBitsToFloat((int) (jM0 >> 32));
        float fIntBitsToFloat2 = Float.intBitsToFloat((int) (jM0 & 4294967295L));
        float fIntBitsToFloat3 = Float.intBitsToFloat((int) (j4 >> 32));
        float fMax = Math.max(0.0f, fIntBitsToFloat3 < 0.0f ? -fIntBitsToFloat3 : fIntBitsToFloat3 - q0());
        float fIntBitsToFloat4 = Float.intBitsToFloat((int) (j4 & 4294967295L));
        long jFloatToRawIntBits = (((long) Float.floatToRawIntBits(Math.max(0.0f, fIntBitsToFloat4 < 0.0f ? -fIntBitsToFloat4 : fIntBitsToFloat4 - n0()))) & 4294967295L) | (((long) Float.floatToRawIntBits(fMax)) << 32);
        if (fIntBitsToFloat > 0.0f || fIntBitsToFloat2 > 0.0f) {
            int i6 = (int) (jFloatToRawIntBits >> 32);
            if (Float.intBitsToFloat(i6) <= fIntBitsToFloat) {
                int i7 = (int) (jFloatToRawIntBits & 4294967295L);
                if (Float.intBitsToFloat(i7) <= fIntBitsToFloat2) {
                    float fIntBitsToFloat5 = Float.intBitsToFloat(i6);
                    float fIntBitsToFloat6 = Float.intBitsToFloat(i7);
                    return (fIntBitsToFloat6 * fIntBitsToFloat6) + (fIntBitsToFloat5 * fIntBitsToFloat5);
                }
            }
        }
        return Float.POSITIVE_INFINITY;
    }

    /* JADX WARN: Type inference fix 'apply assigned field type' failed
    java.lang.UnsupportedOperationException: ArgType.getObject(), call class: class jadx.core.dex.instructions.args.ArgType$UnknownArg
    	at jadx.core.dex.instructions.args.ArgType.getObject(ArgType.java:593)
    	at jadx.core.dex.attributes.nodes.ClassTypeVarsAttr.getTypeVarsMapFor(ClassTypeVarsAttr.java:35)
    	at jadx.core.dex.nodes.utils.TypeUtils.replaceClassGenerics(TypeUtils.java:177)
    	at jadx.core.dex.visitors.typeinference.FixTypesVisitor.insertExplicitUseCast(FixTypesVisitor.java:397)
    	at jadx.core.dex.visitors.typeinference.FixTypesVisitor.tryFieldTypeWithNewCasts(FixTypesVisitor.java:359)
    	at jadx.core.dex.visitors.typeinference.FixTypesVisitor.applyFieldType(FixTypesVisitor.java:309)
    	at jadx.core.dex.visitors.typeinference.FixTypesVisitor.visit(FixTypesVisitor.java:94)
     */
    public final void O0(InterfaceC2712s interfaceC2712s, s0.b bVar) {
        boolean z6;
        Canvas canvas;
        boolean z7;
        boolean z8;
        float f6;
        r0 r0Var = this.f2420O;
        if (r0Var == null) {
            long j4 = this.f2408C;
            float f7 = (int) (j4 >> 32);
            float f8 = (int) (j4 & 4294967295L);
            interfaceC2712s.p(f7, f8);
            P0(interfaceC2712s, bVar);
            interfaceC2712s.p(-f7, -f8);
            return;
        }
        J0.F0 f0 = (J0.F0) r0Var;
        f0.f();
        f0.f2837w = f0.f2819a.f24021a.J() > 0.0f;
        C2863b c2863b = f0.f2830p;
        o4.f fVar = c2863b.f23803b;
        fVar.l(interfaceC2712s);
        fVar.f21849b = bVar;
        s0.b bVar2 = f0.f2819a;
        InterfaceC2712s interfaceC2712sC = c2863b.a0().c();
        s0.b bVar3 = (s0.b) c2863b.a0().f21849b;
        if (bVar2.f24038s) {
            return;
        }
        bVar2.a();
        s0.d dVar = bVar2.f24021a;
        if (!dVar.p()) {
            try {
                dVar.l(bVar2.f24022b, bVar2.f24023c, bVar2, bVar2.f24025e);
            } catch (Throwable unused) {
            }
        }
        boolean z9 = dVar.J() > 0.0f;
        if (z9) {
            interfaceC2712sC.t();
        }
        Canvas canvasA = AbstractC2697c.a(interfaceC2712sC);
        boolean zIsHardwareAccelerated = canvasA.isHardwareAccelerated();
        if (!zIsHardwareAccelerated) {
            long j6 = bVar2.f24039t;
            float f9 = (int) (j6 >> 32);
            float f10 = (int) (j6 & 4294967295L);
            long j7 = bVar2.f24040u;
            float f11 = ((int) (j7 >> 32)) + f9;
            float f12 = f10 + ((int) (j7 & 4294967295L));
            float alpha = dVar.getAlpha();
            AbstractC2715v colorFilter = dVar.getColorFilter();
            int iM = dVar.M();
            if (alpha < 1.0f || iM != 3 || colorFilter != null || dVar.k() == 1) {
                I2.O oI = bVar2.f24035p;
                if (oI == null) {
                    oI = AbstractC2686D.i();
                    bVar2.f24035p = oI;
                }
                oI.e(alpha);
                oI.f(iM);
                oI.h(colorFilter);
                f6 = f9;
                canvasA.saveLayer(f6, f10, f11, f12, (Paint) oI.f2524b);
            } else {
                canvasA.save();
                f6 = f9;
            }
            canvasA.translate(f6, f10);
            canvasA.concat(dVar.G());
        }
        boolean z10 = !zIsHardwareAccelerated && bVar2.f24042w;
        if (z10) {
            interfaceC2712sC.f();
            p0.N nD = bVar2.d();
            if (nD instanceof C2694L) {
                InterfaceC2712s.d(interfaceC2712sC, ((C2694L) nD).f22856a);
            } else if (nD instanceof p0.M) {
                C2702h c2702hA = bVar2.f24032m;
                if (c2702hA != null) {
                    c2702hA.f22920a.rewind();
                } else {
                    c2702hA = AbstractC2704j.a();
                    bVar2.f24032m = c2702hA;
                }
                p0.Q.b(c2702hA, ((p0.M) nD).f22857a);
                interfaceC2712sC.q(c2702hA, 1);
            } else {
                if (!(nD instanceof C2693K)) {
                    throw new E3.v();
                }
                interfaceC2712sC.q(((C2693K) nD).f22855a, 1);
            }
        }
        if (bVar3 != null) {
            C0.D d6 = bVar3.f24037r;
            if (!d6.f518a) {
                AbstractC2690H.a("Only add dependencies during a tracking");
            }
            n.O o6 = (n.O) d6.f521d;
            if (o6 != null) {
                o6.d(bVar2);
            } else if (((s0.b) d6.f519b) != null) {
                n.O o7 = n.a0.f21397a;
                n.O o8 = new n.O();
                s0.b bVar4 = (s0.b) d6.f519b;
                kotlin.jvm.internal.o.e(bVar4);
                o8.d(bVar4);
                o8.d(bVar2);
                d6.f521d = o8;
                d6.f519b = null;
            } else {
                d6.f519b = bVar2;
            }
            n.O o9 = (n.O) d6.f522e;
            if (o9 != null) {
                z8 = !o9.l(bVar2);
            } else if (((s0.b) d6.f520c) != bVar2) {
                z8 = true;
            } else {
                d6.f520c = null;
                z8 = false;
            }
            if (z8) {
                bVar2.f24036q++;
            }
        }
        if (AbstractC2697c.a(interfaceC2712sC).isHardwareAccelerated()) {
            z6 = z9;
            canvas = canvasA;
            z7 = z10;
            dVar.h(interfaceC2712sC);
        } else {
            C2863b c2863b2 = bVar2.f24034o;
            if (c2863b2 == null) {
                c2863b2 = new C2863b();
                bVar2.f24034o = c2863b2;
            }
            h1.c cVar = bVar2.f24022b;
            h1.m mVar = bVar2.f24023c;
            long jK = W0.e.K(bVar2.f24040u);
            o4.f fVar2 = c2863b2.f23803b;
            C2862a c2862a = ((C2863b) fVar2.f21851d).f23802a;
            h1.c cVar2 = c2862a.f23798a;
            h1.m mVar2 = c2862a.f23799b;
            InterfaceC2712s interfaceC2712sC2 = fVar2.c();
            canvas = canvasA;
            z7 = z10;
            long jF = fVar2.f();
            z6 = z9;
            s0.b bVar5 = (s0.b) fVar2.f21849b;
            fVar2.m(cVar);
            fVar2.n(mVar);
            fVar2.l(interfaceC2712sC);
            fVar2.o(jK);
            fVar2.f21849b = bVar2;
            interfaceC2712sC.f();
            try {
                bVar2.c(c2863b2);
            } finally {
                interfaceC2712sC.r();
                fVar2.m(cVar2);
                fVar2.n(mVar2);
                fVar2.l(interfaceC2712sC2);
                fVar2.o(jF);
                fVar2.f21849b = bVar5;
            }
        }
        if (z7) {
            interfaceC2712sC.r();
        }
        if (z6) {
            interfaceC2712sC.g();
        }
        if (zIsHardwareAccelerated) {
            return;
        }
        canvas.restore();
    }

    public final void P0(InterfaceC2712s interfaceC2712s, s0.b bVar) {
        InterfaceC2712s interfaceC2712s2;
        s0.b bVar2;
        AbstractC2254r abstractC2254rW0 = W0(4);
        if (abstractC2254rW0 == null) {
            k1(interfaceC2712s, bVar);
            return;
        }
        H h5 = this.f2421r;
        h5.getClass();
        J sharedDrawScope = ((J0.A) K.a(h5)).getSharedDrawScope();
        long jK = W0.e.K(this.f2000c);
        sharedDrawScope.getClass();
        MutableVector mutableVector = null;
        while (abstractC2254rW0 != null) {
            if (abstractC2254rW0 instanceof InterfaceC0305n) {
                interfaceC2712s2 = interfaceC2712s;
                bVar2 = bVar;
                sharedDrawScope.d(interfaceC2712s2, jK, this, (InterfaceC0305n) abstractC2254rW0, bVar2);
            } else {
                interfaceC2712s2 = interfaceC2712s;
                bVar2 = bVar;
                if ((abstractC2254rW0.getKindSet$ui() & 4) != 0 && (abstractC2254rW0 instanceof AbstractC0301k)) {
                    int i6 = 0;
                    for (AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rW0).f2431b; child$ui != null; child$ui = child$ui.getChild$ui()) {
                        if ((child$ui.getKindSet$ui() & 4) != 0) {
                            i6++;
                            if (i6 == 1) {
                                abstractC2254rW0 = child$ui;
                            } else {
                                if (mutableVector == null) {
                                    mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                }
                                if (abstractC2254rW0 != null) {
                                    mutableVector.add(abstractC2254rW0);
                                    abstractC2254rW0 = null;
                                }
                                mutableVector.add(child$ui);
                            }
                        }
                    }
                    if (i6 == 1) {
                    }
                }
                interfaceC2712s = interfaceC2712s2;
                bVar = bVar2;
            }
            abstractC2254rW0 = AbstractC0303l.e(mutableVector);
            interfaceC2712s = interfaceC2712s2;
            bVar = bVar2;
        }
    }

    public abstract void Q0();

    @Override // G0.InterfaceC0279y
    public final long R(long j4) {
        if (!w()) {
            F0.a.b("LayoutCoordinate operations are only valid when isAttached is true");
        }
        InterfaceC0279y interfaceC0279yI = G0.B.i(this);
        J0.A a6 = (J0.A) K.a(this.f2421r);
        a6.C();
        return k(interfaceC0279yI, C2631b.d(C2692J.b(j4, a6.f0), interfaceC0279yI.e0(0L)));
    }

    public final AbstractC0300j0 R0(AbstractC0300j0 abstractC0300j0) {
        H hT = abstractC0300j0.f2421r;
        H h5 = this.f2421r;
        if (hT == h5) {
            AbstractC2254r abstractC2254rV0 = abstractC0300j0.V0();
            AbstractC2254r abstractC2254rV02 = V0();
            if (!abstractC2254rV02.getNode().isAttached()) {
                F0.a.b("visitLocalAncestors called on an unattached node");
            }
            for (AbstractC2254r parent$ui = abstractC2254rV02.getNode().getParent$ui(); parent$ui != null; parent$ui = parent$ui.getParent$ui()) {
                if ((parent$ui.getKindSet$ui() & 2) != 0 && parent$ui == abstractC2254rV0) {
                    return abstractC0300j0;
                }
            }
            return this;
        }
        while (hT.f2189t > h5.f2189t) {
            hT = hT.t();
            kotlin.jvm.internal.o.e(hT);
        }
        H hT2 = h5;
        while (hT2.f2189t > hT.f2189t) {
            hT2 = hT2.t();
            kotlin.jvm.internal.o.e(hT2);
        }
        while (hT != hT2) {
            hT = hT.t();
            hT2 = hT2.t();
            if (hT == null || hT2 == null) {
                throw new IllegalArgumentException("layouts are not part of the same hierarchy");
            }
        }
        if (hT2 != h5) {
            if (hT != abstractC0300j0.f2421r) {
                return (C0310t) hT.f2162J.f2362d;
            }
            return abstractC0300j0;
        }
        return this;
    }

    /* JADX WARN: Multi-variable type inference failed */
    /* JADX WARN: Type inference failed for: r5v8 */
    @Override // G0.q0, G0.InterfaceC0273s
    public final Object S() {
        H h5 = this.f2421r;
        if (!h5.f2162J.f(64)) {
            return null;
        }
        V0();
        Object objE0 = null;
        for (AbstractC2254r parent$ui = (F0) h5.f2162J.f2364f; parent$ui != null; parent$ui = parent$ui.getParent$ui()) {
            if ((parent$ui.getKindSet$ui() & 64) != 0) {
                AbstractC2254r abstractC2254rE = parent$ui;
                MutableVector mutableVector = null;
                while (abstractC2254rE != 0) {
                    if (abstractC2254rE instanceof w0) {
                        objE0 = ((w0) abstractC2254rE).e0(h5.f2155C, objE0);
                    } else if ((abstractC2254rE.getKindSet$ui() & 64) != 0 && (abstractC2254rE instanceof AbstractC0301k)) {
                        AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rE).f2431b;
                        int i6 = 0;
                        abstractC2254rE = abstractC2254rE;
                        while (child$ui != null) {
                            if ((child$ui.getKindSet$ui() & 64) != 0) {
                                i6++;
                                if (i6 == 1) {
                                    abstractC2254rE = child$ui;
                                } else {
                                    if (mutableVector == null) {
                                        mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                    }
                                    if (abstractC2254rE != 0) {
                                        mutableVector.add(abstractC2254rE);
                                        abstractC2254rE = 0;
                                    }
                                    mutableVector.add(child$ui);
                                }
                            }
                            child$ui = child$ui.getChild$ui();
                            abstractC2254rE = abstractC2254rE;
                        }
                        if (i6 == 1) {
                        }
                    }
                    abstractC2254rE = AbstractC0303l.e(mutableVector);
                }
            }
        }
        return objE0;
    }

    public final long S0(long j4) {
        long j6 = this.f2408C;
        long jFloatToRawIntBits = (((long) Float.floatToRawIntBits(Float.intBitsToFloat((int) (j4 & 4294967295L)) - ((int) (j6 & 4294967295L)))) & 4294967295L) | (((long) Float.floatToRawIntBits(Float.intBitsToFloat((int) (j4 >> 32)) - ((int) (j6 >> 32)))) << 32);
        r0 r0Var = this.f2420O;
        return r0Var != null ? ((J0.F0) r0Var).c(jFloatToRawIntBits, true) : jFloatToRawIntBits;
    }

    @Override // h1.c
    public final float T() {
        return this.f2421r.f2155C.T();
    }

    public abstract Q T0();

    public final long U0() {
        return this.f2427x.k0(this.f2421r.f2157E.d());
    }

    @Override // G0.InterfaceC0279y
    public final InterfaceC0279y V() {
        boolean zW = w();
        H h5 = this.f2421r;
        if (!zW) {
            StringBuilder sb = new StringBuilder("LayoutCoordinate operations are only valid when isAttached is true");
            for (H hT = h5; hT != null; hT = hT.t()) {
                sb.append("\n|");
                sb.append(hT);
                sb.append(" isAttached=");
                sb.append(hT.F());
                sb.append(" modifier=");
                sb.append(hT.f2167O);
                sb.append(" tail=");
                sb.append(V0());
            }
            F0.a.b(sb.toString());
        }
        e1();
        return ((AbstractC0300j0) h5.f2162J.f2363e).f2423t;
    }

    public abstract AbstractC2254r V0();

    public final AbstractC2254r W0(int i6) {
        boolean zH = AbstractC0302k0.h(i6);
        AbstractC2254r abstractC2254rV0 = V0();
        if (!zH && (abstractC2254rV0 = abstractC2254rV0.getParent$ui()) == null) {
            return null;
        }
        for (AbstractC2254r abstractC2254rX0 = X0(zH); abstractC2254rX0 != null && (abstractC2254rX0.getAggregateChildKindSet$ui() & i6) != 0; abstractC2254rX0 = abstractC2254rX0.getChild$ui()) {
            if ((abstractC2254rX0.getKindSet$ui() & i6) != 0) {
                return abstractC2254rX0;
            }
            if (abstractC2254rX0 == abstractC2254rV0) {
                return null;
            }
        }
        return null;
    }

    public final AbstractC2254r X0(boolean z6) {
        AbstractC2254r abstractC2254rV0;
        C0290e0 c0290e0 = this.f2421r.f2162J;
        if (((AbstractC0300j0) c0290e0.f2363e) == this) {
            return (AbstractC2254r) c0290e0.f2365g;
        }
        if (!z6) {
            AbstractC0300j0 abstractC0300j0 = this.f2423t;
            if (abstractC0300j0 != null) {
                return abstractC0300j0.V0();
            }
            return null;
        }
        AbstractC0300j0 abstractC0300j02 = this.f2423t;
        if (abstractC0300j02 == null || (abstractC2254rV0 = abstractC0300j02.V0()) == null) {
            return null;
        }
        return abstractC2254rV0.getChild$ui();
    }

    public final void Y0(AbstractC2254r abstractC2254r, C0292f0 c0292f0, long j4, r rVar, int i6, boolean z6) {
        if (abstractC2254r == null) {
            b1(c0292f0, j4, rVar, i6, z6);
            return;
        }
        int i7 = rVar.f2457c;
        n.J j6 = rVar.f2455a;
        rVar.h(i7 + 1, j6.f21377b);
        rVar.f2457c++;
        j6.g(abstractC2254r);
        rVar.f2456b.a(AbstractC0303l.a(-1.0f, z6, false));
        Y0(AbstractC0303l.d(abstractC2254r, c0292f0.b()), c0292f0, j4, rVar, i6, z6);
        rVar.f2457c = i7;
    }

    public final void Z0(AbstractC2254r abstractC2254r, C0292f0 c0292f0, long j4, r rVar, int i6, boolean z6, float f6) {
        if (abstractC2254r == null) {
            b1(c0292f0, j4, rVar, i6, z6);
            return;
        }
        int i7 = rVar.f2457c;
        n.J j6 = rVar.f2455a;
        rVar.h(i7 + 1, j6.f21377b);
        rVar.f2457c++;
        j6.g(abstractC2254r);
        rVar.f2456b.a(AbstractC0303l.a(f6, z6, false));
        j1(AbstractC0303l.d(abstractC2254r, c0292f0.b()), c0292f0, j4, rVar, i6, z6, f6, true);
        rVar.f2457c = i7;
    }

    @Override // h1.c
    public final float a() {
        return this.f2421r.f2155C.a();
    }

    public final void a1(C0292f0 c0292f0, long j4, r rVar, int i6, boolean z6) {
        boolean z7;
        boolean z8;
        AbstractC2254r abstractC2254rW0 = W0(c0292f0.b());
        if (!v1(j4)) {
            if (i6 == 1) {
                float fN0 = N0(j4, U0());
                if ((Float.floatToRawIntBits(fN0) & Integer.MAX_VALUE) < 2139095040) {
                    if (rVar.f2457c != AbstractC3252r.A(rVar)) {
                        if (AbstractC0303l.g(rVar.g(), AbstractC0303l.a(fN0, false, false)) <= 0) {
                            return;
                        }
                    }
                    Z0(abstractC2254rW0, c0292f0, j4, rVar, i6, false, fN0);
                    return;
                }
                return;
            }
            return;
        }
        if (abstractC2254rW0 == null) {
            b1(c0292f0, j4, rVar, i6, z6);
            return;
        }
        float fIntBitsToFloat = Float.intBitsToFloat((int) (j4 >> 32));
        float fIntBitsToFloat2 = Float.intBitsToFloat((int) (j4 & 4294967295L));
        if (fIntBitsToFloat >= 0.0f && fIntBitsToFloat2 >= 0.0f && fIntBitsToFloat < q0() && fIntBitsToFloat2 < n0()) {
            Y0(abstractC2254rW0, c0292f0, j4, rVar, i6, z6);
            return;
        }
        float fN02 = i6 == 1 ? N0(j4, U0()) : Float.POSITIVE_INFINITY;
        if ((Float.floatToRawIntBits(fN02) & Integer.MAX_VALUE) < 2139095040) {
            if (rVar.f2457c != AbstractC3252r.A(rVar)) {
                z7 = z6;
                if (AbstractC0303l.g(rVar.g(), AbstractC0303l.a(fN02, z7, false)) > 0) {
                }
                j1(abstractC2254rW0, c0292f0, j4, rVar, i6, z7, fN02, z8);
            }
            z7 = z6;
            z8 = true;
            j1(abstractC2254rW0, c0292f0, j4, rVar, i6, z7, fN02, z8);
        }
        z7 = z6;
        z8 = false;
        j1(abstractC2254rW0, c0292f0, j4, rVar, i6, z7, fN02, z8);
    }

    public void b1(C0292f0 c0292f0, long j4, r rVar, int i6, boolean z6) {
        AbstractC0300j0 abstractC0300j0 = this.f2422s;
        if (abstractC0300j0 != null) {
            abstractC0300j0.a1(c0292f0, abstractC0300j0.S0(j4), rVar, i6, z6);
        }
    }

    @Override // G0.InterfaceC0279y
    public final long c0(long j4) {
        if (!w()) {
            F0.a.b("LayoutCoordinate operations are only valid when isAttached is true");
        }
        return k(G0.B.i(this), ((J0.A) K.a(this.f2421r)).G(j4));
    }

    public final void c1() {
        r0 r0Var = this.f2420O;
        if (r0Var != null) {
            r0Var.invalidate();
            return;
        }
        AbstractC0300j0 abstractC0300j0 = this.f2423t;
        if (abstractC0300j0 != null) {
            abstractC0300j0.c1();
        }
    }

    @Override // G0.InterfaceC0279y
    public final C2632c d0(InterfaceC0279y interfaceC0279y, boolean z6) {
        if (!w()) {
            F0.a.b("LayoutCoordinate operations are only valid when isAttached is true");
        }
        if (!interfaceC0279y.w()) {
            F0.a.b("LayoutCoordinates " + interfaceC0279y + " is not attached!");
        }
        AbstractC0300j0 abstractC0300j0P1 = p1(interfaceC0279y);
        abstractC0300j0P1.e1();
        AbstractC0300j0 abstractC0300j0R0 = R0(abstractC0300j0P1);
        C0427s c0427s = this.f2410E;
        if (c0427s == null) {
            c0427s = new C0427s();
            this.f2410E = c0427s;
        }
        c0427s.f3444b = 0.0f;
        c0427s.f3445c = 0.0f;
        c0427s.f3446d = (int) (interfaceC0279y.F() >> 32);
        c0427s.f3447e = (int) (interfaceC0279y.F() & 4294967295L);
        while (abstractC0300j0P1 != abstractC0300j0R0) {
            abstractC0300j0P1.m1(c0427s, z6, false);
            if (c0427s.b()) {
                return C2632c.f21786e;
            }
            abstractC0300j0P1 = abstractC0300j0P1.f2423t;
            kotlin.jvm.internal.o.e(abstractC0300j0P1);
        }
        K0(abstractC0300j0R0, c0427s, z6);
        return new C2632c(c0427s.f3444b, c0427s.f3445c, c0427s.f3446d, c0427s.f3447e);
    }

    public final boolean d1() {
        if (this.f2420O != null && this.f2429z <= 0.0f) {
            return true;
        }
        AbstractC0300j0 abstractC0300j0 = this.f2423t;
        if (abstractC0300j0 != null) {
            return abstractC0300j0.d1();
        }
        return false;
    }

    @Override // G0.InterfaceC0279y
    public final long e0(long j4) {
        if (!w()) {
            F0.a.b("LayoutCoordinate operations are only valid when isAttached is true");
        }
        e1();
        for (AbstractC0300j0 abstractC0300j0 = this; abstractC0300j0 != null; abstractC0300j0 = abstractC0300j0.f2423t) {
            H h5 = abstractC0300j0.f2421r;
            if (abstractC0300j0 == ((AbstractC0300j0) h5.f2162J.f2363e) && !h5.f2176c) {
                long jB = ((J0.A) K.a(h5)).getRectManager().b(h5);
                if (!h1.j.a(jB, 9223372034707292159L)) {
                    return W.c.O(j4, jB);
                }
            }
            r0 r0Var = abstractC0300j0.f2420O;
            if (r0Var != null) {
                j4 = ((J0.F0) r0Var).c(j4, false);
            }
            j4 = W.c.O(j4, abstractC0300j0.f2408C);
        }
        return j4;
    }

    public final void e1() {
        this.f2421r.f2163K.b();
    }

    @Override // G0.InterfaceC0279y
    public final long f0(InterfaceC0279y interfaceC0279y, long j4) {
        return k(interfaceC0279y, j4);
    }

    /* JADX WARN: Multi-variable type inference failed */
    /* JADX WARN: Type inference failed for: r8v10 */
    public final void f1() {
        AbstractC2254r parent$ui;
        AbstractC2254r abstractC2254rX0 = X0(AbstractC0302k0.h(128));
        if (abstractC2254rX0 == null || (abstractC2254rX0.getNode().getAggregateChildKindSet$ui() & 128) == 0) {
            return;
        }
        Snapshot.Companion companion = Snapshot.Companion;
        Snapshot currentThreadSnapshot = companion.getCurrentThreadSnapshot();
        J4.c readObserver = currentThreadSnapshot != null ? currentThreadSnapshot.getReadObserver() : null;
        Snapshot snapshotMakeCurrentNonObservable = companion.makeCurrentNonObservable(currentThreadSnapshot);
        try {
            boolean zH = AbstractC0302k0.h(128);
            if (!zH) {
                parent$ui = V0().getParent$ui();
                if (parent$ui == null) {
                }
            }
            parent$ui = V0();
            for (AbstractC2254r abstractC2254rX02 = X0(zH); abstractC2254rX02 != null; abstractC2254rX02 = abstractC2254rX02.getChild$ui()) {
                if ((abstractC2254rX02.getAggregateChildKindSet$ui() & 128) == 0) {
                    break;
                }
                if ((abstractC2254rX02.getKindSet$ui() & 128) != 0) {
                    MutableVector mutableVector = null;
                    AbstractC2254r abstractC2254rE = abstractC2254rX02;
                    while (abstractC2254rE != 0) {
                        if (abstractC2254rE instanceof InterfaceC0314x) {
                            ((InterfaceC0314x) abstractC2254rE).m(this.f2000c);
                        } else if ((abstractC2254rE.getKindSet$ui() & 128) != 0 && (abstractC2254rE instanceof AbstractC0301k)) {
                            AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rE).f2431b;
                            int i6 = 0;
                            abstractC2254rE = abstractC2254rE;
                            while (child$ui != null) {
                                if ((child$ui.getKindSet$ui() & 128) != 0) {
                                    i6++;
                                    if (i6 == 1) {
                                        abstractC2254rE = child$ui;
                                    } else {
                                        if (mutableVector == null) {
                                            mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                        }
                                        if (abstractC2254rE != 0) {
                                            mutableVector.add(abstractC2254rE);
                                            abstractC2254rE = 0;
                                        }
                                        mutableVector.add(child$ui);
                                    }
                                }
                                child$ui = child$ui.getChild$ui();
                                abstractC2254rE = abstractC2254rE;
                            }
                            if (i6 == 1) {
                            }
                        }
                        abstractC2254rE = AbstractC0303l.e(mutableVector);
                    }
                }
                if (abstractC2254rX02 == parent$ui) {
                    break;
                }
            }
        } finally {
            companion.restoreNonObservable(currentThreadSnapshot, snapshotMakeCurrentNonObservable, readObserver);
        }
    }

    /* JADX WARN: Multi-variable type inference failed */
    /* JADX WARN: Type inference failed for: r4v6 */
    public final void g1() {
        boolean zH = AbstractC0302k0.h(4194304);
        AbstractC2254r abstractC2254rV0 = V0();
        if (!zH && (abstractC2254rV0 = abstractC2254rV0.getParent$ui()) == null) {
            return;
        }
        for (AbstractC2254r abstractC2254rX0 = X0(zH); abstractC2254rX0 != null && (abstractC2254rX0.getAggregateChildKindSet$ui() & 4194304) != 0; abstractC2254rX0 = abstractC2254rX0.getChild$ui()) {
            if ((abstractC2254rX0.getKindSet$ui() & 4194304) != 0) {
                AbstractC2254r abstractC2254rE = abstractC2254rX0;
                MutableVector mutableVector = null;
                while (abstractC2254rE != 0) {
                    if (abstractC2254rE instanceof InterfaceC0314x) {
                        ((InterfaceC0314x) abstractC2254rE).h0(this);
                    } else if ((abstractC2254rE.getKindSet$ui() & 4194304) != 0 && (abstractC2254rE instanceof AbstractC0301k)) {
                        AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rE).f2431b;
                        int i6 = 0;
                        abstractC2254rE = abstractC2254rE;
                        while (child$ui != null) {
                            if ((child$ui.getKindSet$ui() & 4194304) != 0) {
                                i6++;
                                if (i6 == 1) {
                                    abstractC2254rE = child$ui;
                                } else {
                                    if (mutableVector == null) {
                                        mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                    }
                                    if (abstractC2254rE != 0) {
                                        mutableVector.add(abstractC2254rE);
                                        abstractC2254rE = 0;
                                    }
                                    mutableVector.add(child$ui);
                                }
                            }
                            child$ui = child$ui.getChild$ui();
                            abstractC2254rE = abstractC2254rE;
                        }
                        if (i6 == 1) {
                        }
                    }
                    abstractC2254rE = AbstractC0303l.e(mutableVector);
                }
            }
            if (abstractC2254rX0 == abstractC2254rV0) {
                return;
            }
        }
    }

    @Override // G0.InterfaceC0274t
    public final h1.m getLayoutDirection() {
        return this.f2421r.f2156D;
    }

    public final void h1() {
        this.f2424u = true;
        this.f2418M.invoke();
        n1();
        if (h1.j.a(this.f2408C, 0L)) {
            return;
        }
        this.f2421r.L();
    }

    @Override // G0.InterfaceC0279y
    public final long i(long j4) {
        long jE0 = e0(j4);
        J0.A a6 = (J0.A) K.a(this.f2421r);
        a6.C();
        return C2692J.b(jE0, a6.e0);
    }

    public final void i1() {
        AbstractC2254r abstractC2254rX0 = X0(AbstractC0302k0.h(ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES));
        if (abstractC2254rX0 == null || (abstractC2254rX0.getNode().getAggregateChildKindSet$ui() & ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES) == 0) {
            return;
        }
        boolean zH = AbstractC0302k0.h(ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES);
        AbstractC2254r abstractC2254rV0 = V0();
        if (!zH && (abstractC2254rV0 = abstractC2254rV0.getParent$ui()) == null) {
            return;
        }
        for (AbstractC2254r abstractC2254rX02 = X0(zH); abstractC2254rX02 != null && (abstractC2254rX02.getAggregateChildKindSet$ui() & ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES) != 0; abstractC2254rX02 = abstractC2254rX02.getChild$ui()) {
            if ((abstractC2254rX02.getKindSet$ui() & ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES) != 0) {
                AbstractC2254r abstractC2254rE = abstractC2254rX02;
                MutableVector mutableVector = null;
                while (abstractC2254rE != null) {
                    if ((abstractC2254rE.getKindSet$ui() & ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES) != 0 && (abstractC2254rE instanceof AbstractC0301k)) {
                        int i6 = 0;
                        for (AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rE).f2431b; child$ui != null; child$ui = child$ui.getChild$ui()) {
                            if ((child$ui.getKindSet$ui() & ProgressiveMediaSource.DEFAULT_LOADING_CHECK_INTERVAL_BYTES) != 0) {
                                i6++;
                                if (i6 == 1) {
                                    abstractC2254rE = child$ui;
                                } else {
                                    if (mutableVector == null) {
                                        mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                    }
                                    if (abstractC2254rE != null) {
                                        mutableVector.add(abstractC2254rE);
                                        abstractC2254rE = null;
                                    }
                                    mutableVector.add(child$ui);
                                }
                            }
                        }
                        if (i6 == 1) {
                        }
                    }
                    abstractC2254rE = AbstractC0303l.e(mutableVector);
                }
            }
            if (abstractC2254rX02 == abstractC2254rV0) {
                return;
            }
        }
    }

    /* JADX WARN: Multi-variable type inference failed */
    /* JADX WARN: Removed duplicated region for block: B:71:0x0194 A[PHI: r3
      0x0194: PHI (r3v4 androidx.compose.runtime.collection.MutableVector) = 
      (r3v1 androidx.compose.runtime.collection.MutableVector)
      (r3v1 androidx.compose.runtime.collection.MutableVector)
      (r3v6 androidx.compose.runtime.collection.MutableVector)
     binds: [B:53:0x015d, B:55:0x0161, B:69:0x018e] A[DONT_GENERATE, DONT_INLINE]] */
    /* JADX WARN: Type inference failed for: r0v18 */
    /* JADX WARN: Type inference failed for: r0v19, types: [i0.r] */
    /* JADX WARN: Type inference failed for: r0v21 */
    /* JADX WARN: Type inference failed for: r0v22, types: [i0.r] */
    /* JADX WARN: Type inference failed for: r0v23, types: [java.lang.Object] */
    /* JADX WARN: Type inference failed for: r0v24 */
    /* JADX WARN: Type inference failed for: r0v25 */
    /* JADX WARN: Type inference failed for: r0v26 */
    /* JADX WARN: Type inference failed for: r0v27 */
    /* JADX WARN: Type inference failed for: r0v28 */
    /* JADX WARN: Type inference failed for: r0v29 */
    /* JADX WARN: Type inference failed for: r10v7 */
    /* JADX WARN: Type inference failed for: r2v0 */
    /* JADX WARN: Type inference failed for: r2v1, types: [i0.r] */
    /* JADX WARN: Type inference failed for: r2v15, types: [i0.r] */
    /* JADX WARN: Type inference failed for: r2v16 */
    /* JADX WARN: Type inference failed for: r2v17, types: [java.lang.Object] */
    /* JADX WARN: Type inference failed for: r2v18 */
    /* JADX WARN: Type inference failed for: r2v19 */
    /* JADX WARN: Type inference failed for: r2v20 */
    /* JADX WARN: Type inference failed for: r2v21 */
    /* JADX WARN: Type inference failed for: r2v31 */
    /* JADX WARN: Type inference failed for: r2v32 */
    /* JADX WARN: Type inference failed for: r2v33 */
    /* JADX WARN: Type inference failed for: r3v15 */
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public final void j1(AbstractC2254r abstractC2254r, C0292f0 c0292f0, long j4, r rVar, int i6, boolean z6, float f6, boolean z7) {
        ?? E5;
        if (abstractC2254r == null) {
            b1(c0292f0, j4, rVar, i6, z6);
            return;
        }
        int i7 = i6;
        if (i7 == 3 || i7 == 4) {
            ?? r22 = abstractC2254r;
            MutableVector mutableVector = null;
            while (true) {
                if (r22 == 0) {
                    break;
                }
                if (r22 instanceof y0) {
                    long jL = ((y0) r22).l();
                    int i8 = (int) (j4 >> 32);
                    float fIntBitsToFloat = Float.intBitsToFloat(i8);
                    H h5 = this.f2421r;
                    h1.m mVar = h5.f2156D;
                    int i9 = G0.f2150b;
                    long j6 = Long.MIN_VALUE & jL;
                    if (fIntBitsToFloat >= (-((j6 == 0 || mVar == h1.m.f16628a) ? C0292f0.a(0, jL) : C0292f0.a(2, jL)))) {
                        if (Float.intBitsToFloat(i8) < q0() + ((j6 == 0 || h5.f2156D == h1.m.f16628a) ? C0292f0.a(2, jL) : C0292f0.a(0, jL))) {
                            int i10 = (int) (j4 & 4294967295L);
                            if (Float.intBitsToFloat(i10) >= (-C0292f0.a(1, jL))) {
                                if (Float.intBitsToFloat(i10) < C0292f0.a(3, jL) + n0()) {
                                    C0296h0 c0296h0 = new C0296h0(this, abstractC2254r, c0292f0, j4, rVar, i7, z6, f6, z7);
                                    int i11 = rVar.f2457c;
                                    int iA = AbstractC3252r.A(rVar);
                                    C2568C c2568c = rVar.f2456b;
                                    n.J j7 = rVar.f2455a;
                                    if (i11 == iA) {
                                        int i12 = rVar.f2457c;
                                        rVar.h(i12 + 1, j7.f21377b);
                                        rVar.f2457c++;
                                        j7.g(abstractC2254r);
                                        c2568c.a(AbstractC0303l.a(0.0f, z6, true));
                                        c0296h0.invoke();
                                        rVar.f2457c = i12;
                                        return;
                                    }
                                    long jG = rVar.g();
                                    int i13 = rVar.f2457c;
                                    if (!AbstractC0303l.l(jG)) {
                                        if (AbstractC0303l.j(jG) > 0.0f) {
                                            int i14 = rVar.f2457c;
                                            rVar.h(i14 + 1, j7.f21377b);
                                            rVar.f2457c++;
                                            j7.g(abstractC2254r);
                                            c2568c.a(AbstractC0303l.a(0.0f, z6, true));
                                            c0296h0.invoke();
                                            rVar.f2457c = i14;
                                            return;
                                        }
                                        return;
                                    }
                                    int iA2 = AbstractC3252r.A(rVar);
                                    rVar.f2457c = iA2;
                                    rVar.h(iA2 + 1, j7.f21377b);
                                    rVar.f2457c++;
                                    j7.g(abstractC2254r);
                                    c2568c.a(AbstractC0303l.a(0.0f, z6, true));
                                    c0296h0.invoke();
                                    rVar.f2457c = iA2;
                                    if (AbstractC0303l.j(rVar.g()) < 0.0f) {
                                        rVar.h(i13 + 1, rVar.f2457c + 1);
                                    }
                                    rVar.f2457c = i13;
                                    return;
                                }
                            }
                        }
                    }
                } else {
                    if ((r22.getKindSet$ui() & 16) == 0 || !(r22 instanceof AbstractC0301k)) {
                        E5 = AbstractC0303l.e(mutableVector);
                    } else {
                        AbstractC2254r child$ui = ((AbstractC0301k) r22).f2431b;
                        int i15 = 0;
                        E5 = r22;
                        while (child$ui != null) {
                            if ((child$ui.getKindSet$ui() & 16) != 0) {
                                i15++;
                                if (i15 == 1) {
                                    E5 = child$ui;
                                } else {
                                    if (mutableVector == null) {
                                        mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                    }
                                    if (E5 != 0) {
                                        mutableVector.add(E5);
                                        E5 = 0;
                                    }
                                    mutableVector.add(child$ui);
                                }
                            }
                            child$ui = child$ui.getChild$ui();
                            E5 = E5;
                        }
                        if (i15 == 1) {
                        }
                    }
                    i7 = i6;
                    r22 = E5;
                }
            }
        }
        if (z7) {
            Z0(abstractC2254r, c0292f0, j4, rVar, i6, z6, f6);
            return;
        }
        switch (c0292f0.f2373a) {
            case 0:
                ?? E6 = abstractC2254r;
                MutableVector mutableVector2 = null;
                while (E6 != 0) {
                    if (E6 instanceof y0) {
                        ((y0) E6).K();
                    } else if ((E6.getKindSet$ui() & 16) != 0 && (E6 instanceof AbstractC0301k)) {
                        AbstractC2254r child$ui2 = ((AbstractC0301k) E6).f2431b;
                        int i16 = 0;
                        E6 = E6;
                        while (child$ui2 != null) {
                            if ((child$ui2.getKindSet$ui() & 16) != 0) {
                                i16++;
                                if (i16 == 1) {
                                    E6 = child$ui2;
                                } else {
                                    if (mutableVector2 == null) {
                                        mutableVector2 = new MutableVector(new AbstractC2254r[16], 0);
                                    }
                                    if (E6 != 0) {
                                        mutableVector2.add(E6);
                                        E6 = 0;
                                    }
                                    mutableVector2.add(child$ui2);
                                }
                            }
                            child$ui2 = child$ui2.getChild$ui();
                            E6 = E6;
                        }
                        if (i16 == 1) {
                        }
                    }
                    E6 = AbstractC0303l.e(mutableVector2);
                }
                break;
        }
        j1(AbstractC0303l.d(abstractC2254r, c0292f0.b()), c0292f0, j4, rVar, i6, z6, f6, false);
    }

    @Override // G0.InterfaceC0279y
    public final long k(InterfaceC0279y interfaceC0279y, long j4) {
        if (interfaceC0279y instanceof G0.Y) {
            G0.Y y6 = (G0.Y) interfaceC0279y;
            y6.f1953a.f2251r.e1();
            return y6.k(this, j4 ^ (-9223372034707292160L)) ^ (-9223372034707292160L);
        }
        AbstractC0300j0 abstractC0300j0P1 = p1(interfaceC0279y);
        abstractC0300j0P1.e1();
        AbstractC0300j0 abstractC0300j0R0 = R0(abstractC0300j0P1);
        while (abstractC0300j0P1 != abstractC0300j0R0) {
            r0 r0Var = abstractC0300j0P1.f2420O;
            if (r0Var != null) {
                j4 = ((J0.F0) r0Var).c(j4, false);
            }
            j4 = W.c.O(j4, abstractC0300j0P1.f2408C);
            abstractC0300j0P1 = abstractC0300j0P1.f2423t;
            kotlin.jvm.internal.o.e(abstractC0300j0P1);
        }
        return L0(abstractC0300j0R0, j4);
    }

    public abstract void k1(InterfaceC2712s interfaceC2712s, s0.b bVar);

    public final void l1(long j4, float f6, J4.c cVar) throws Throwable {
        t1(false, cVar);
        boolean zA = h1.j.a(this.f2408C, j4);
        H h5 = this.f2421r;
        if (!zA) {
            ((J0.A) K.a(h5)).M(-4.0f);
            this.f2408C = j4;
            h5.f2163K.f2227p.y0();
            r0 r0Var = this.f2420O;
            if (r0Var != null) {
                ((J0.F0) r0Var).d(j4);
            } else {
                AbstractC0300j0 abstractC0300j0 = this.f2423t;
                if (abstractC0300j0 != null) {
                    abstractC0300j0.c1();
                }
            }
            h5.L();
            P.H0(this);
            J0.A a6 = h5.f2187r;
            if (a6 != null) {
                a6.y(h5);
            }
        }
        this.f2409D = f6;
        if (this == ((AbstractC0300j0) h5.f2162J.f2363e)) {
            ((J0.A) K.a(h5)).getRectManager().e(h5, false);
        }
        if (this.f2247n) {
            return;
        }
        y0(D0());
    }

    @Override // G0.InterfaceC0279y
    public final void m(InterfaceC0279y interfaceC0279y, float[] fArr) {
        AbstractC0300j0 abstractC0300j0P1 = p1(interfaceC0279y);
        abstractC0300j0P1.e1();
        AbstractC0300j0 abstractC0300j0R0 = R0(abstractC0300j0P1);
        C2692J.d(fArr);
        abstractC0300j0P1.s1(abstractC0300j0R0, fArr);
        r1(abstractC0300j0R0, fArr);
    }

    public final void m1(C0427s c0427s, boolean z6, boolean z7) {
        r0 r0Var = this.f2420O;
        if (r0Var != null) {
            if (this.f2425v) {
                if (z7) {
                    long jU0 = U0();
                    float fIntBitsToFloat = Float.intBitsToFloat((int) (jU0 >> 32)) / 2.0f;
                    float fIntBitsToFloat2 = Float.intBitsToFloat((int) (jU0 & 4294967295L)) / 2.0f;
                    long j4 = this.f2000c;
                    c0427s.a(-fIntBitsToFloat, -fIntBitsToFloat2, ((int) (j4 >> 32)) + fIntBitsToFloat, ((int) (j4 & 4294967295L)) + fIntBitsToFloat2);
                } else if (z6) {
                    long j6 = this.f2000c;
                    c0427s.a(0.0f, 0.0f, (int) (j6 >> 32), (int) (j6 & 4294967295L));
                }
                if (c0427s.b()) {
                    return;
                }
            }
            J0.F0 f0 = (J0.F0) r0Var;
            float[] fArrB = f0.b();
            if (!f0.f2836v) {
                if (fArrB == null) {
                    c0427s.f3444b = 0.0f;
                    c0427s.f3445c = 0.0f;
                    c0427s.f3446d = 0.0f;
                    c0427s.f3447e = 0.0f;
                } else {
                    C2692J.c(fArrB, c0427s);
                }
            }
        }
        long j7 = this.f2408C;
        float f6 = (int) (j7 >> 32);
        c0427s.f3444b += f6;
        c0427s.f3446d += f6;
        float f7 = (int) (j7 & 4294967295L);
        c0427s.f3445c += f7;
        c0427s.f3447e += f7;
    }

    public final void n1() {
        if (this.f2420O != null) {
            t1(false, null);
            this.f2421r.U(false);
        }
    }

    /* JADX WARN: Multi-variable type inference failed */
    /* JADX WARN: Type inference failed for: r9v6 */
    public final void o1(InterfaceC0247b0 interfaceC0247b0) throws Throwable {
        AbstractC0300j0 abstractC0300j0;
        boolean z6;
        boolean z7;
        boolean z8 = true;
        InterfaceC0247b0 interfaceC0247b02 = this.f2406A;
        if (interfaceC0247b0 != interfaceC0247b02) {
            this.f2406A = interfaceC0247b0;
            H h5 = this.f2421r;
            int i6 = 0;
            if (interfaceC0247b02 == null || interfaceC0247b0.getWidth() != interfaceC0247b02.getWidth() || interfaceC0247b0.getHeight() != interfaceC0247b02.getHeight()) {
                int width = interfaceC0247b0.getWidth();
                int height = interfaceC0247b0.getHeight();
                r0 r0Var = this.f2420O;
                if (r0Var != null) {
                    ((J0.F0) r0Var).e((((long) width) << 32) | (((long) height) & 4294967295L));
                } else if (h5.G() && (abstractC0300j0 = this.f2423t) != null) {
                    abstractC0300j0.c1();
                }
                t0((((long) height) & 4294967295L) | (((long) width) << 32));
                if (this.f2426w != null) {
                    u1(false);
                }
                boolean zH = AbstractC0302k0.h(4);
                AbstractC2254r abstractC2254rV0 = V0();
                if (zH || (abstractC2254rV0 = abstractC2254rV0.getParent$ui()) != null) {
                    for (AbstractC2254r abstractC2254rX0 = X0(zH); abstractC2254rX0 != null && (abstractC2254rX0.getAggregateChildKindSet$ui() & 4) != 0; abstractC2254rX0 = abstractC2254rX0.getChild$ui()) {
                        if ((abstractC2254rX0.getKindSet$ui() & 4) != 0) {
                            AbstractC2254r abstractC2254rE = abstractC2254rX0;
                            MutableVector mutableVector = null;
                            while (abstractC2254rE != 0) {
                                if (abstractC2254rE instanceof InterfaceC0305n) {
                                    ((InterfaceC0305n) abstractC2254rE).onMeasureResultChanged();
                                } else if ((abstractC2254rE.getKindSet$ui() & 4) != 0 && (abstractC2254rE instanceof AbstractC0301k)) {
                                    AbstractC2254r child$ui = ((AbstractC0301k) abstractC2254rE).f2431b;
                                    int i7 = 0;
                                    abstractC2254rE = abstractC2254rE;
                                    while (child$ui != null) {
                                        if ((child$ui.getKindSet$ui() & 4) != 0) {
                                            i7++;
                                            if (i7 == 1) {
                                                abstractC2254rE = child$ui;
                                            } else {
                                                if (mutableVector == null) {
                                                    mutableVector = new MutableVector(new AbstractC2254r[16], 0);
                                                }
                                                if (abstractC2254rE != 0) {
                                                    mutableVector.add(abstractC2254rE);
                                                    abstractC2254rE = 0;
                                                }
                                                mutableVector.add(child$ui);
                                            }
                                        }
                                        child$ui = child$ui.getChild$ui();
                                        abstractC2254rE = abstractC2254rE;
                                    }
                                    if (i7 == 1) {
                                    }
                                }
                                abstractC2254rE = AbstractC0303l.e(mutableVector);
                            }
                        }
                        if (abstractC2254rX0 == abstractC2254rV0) {
                            break;
                        }
                    }
                }
                J0.A a6 = h5.f2187r;
                if (a6 != null) {
                    a6.y(h5);
                }
            }
            C2571F c2571f = this.f2407B;
            if ((c2571f == null || c2571f.f21374e == 0) && interfaceC0247b0.b().isEmpty()) {
                return;
            }
            C2571F c2571f2 = this.f2407B;
            Map mapB = interfaceC0247b0.b();
            if (c2571f2 != null && c2571f2.f21374e == mapB.size()) {
                Object[] objArr = c2571f2.f21371b;
                int[] iArr = c2571f2.f21372c;
                long[] jArr = c2571f2.f21370a;
                int length = jArr.length - 2;
                if (length < 0) {
                    return;
                }
                int i8 = 0;
                loop0: while (true) {
                    long j4 = jArr[i8];
                    if ((((~j4) << 7) & j4 & (-9187201950435737472L)) != -9187201950435737472L) {
                        int i9 = 8 - ((~(i8 - length)) >>> 31);
                        int i10 = i6;
                        while (i10 < i9) {
                            if ((j4 & 255) < 128) {
                                int i11 = (i8 << 3) + i10;
                                Object obj = objArr[i11];
                                z7 = z8;
                                int i12 = iArr[i11];
                                Integer num = (Integer) mapB.get((AbstractC0244a) obj);
                                if (num == null || num.intValue() != i12) {
                                    break loop0;
                                }
                            } else {
                                z7 = z8;
                            }
                            j4 >>= 8;
                            i10++;
                            z8 = z7;
                        }
                        z6 = z8;
                        if (i9 != 8) {
                            return;
                        }
                    } else {
                        z6 = z8;
                    }
                    if (i8 == length) {
                        return;
                    }
                    i8++;
                    z8 = z6;
                    i6 = 0;
                }
            }
            h5.f2163K.f2227p.f2299A.f();
            C2571F c2571f3 = this.f2407B;
            if (c2571f3 == null) {
                C2571F c2571f4 = n.T.f21375a;
                c2571f3 = new C2571F();
                this.f2407B = c2571f3;
            }
            c2571f3.b();
            for (Map.Entry entry : interfaceC0247b0.b().entrySet()) {
                c2571f3.g(((Number) entry.getValue()).intValue(), entry.getKey());
            }
        }
    }

    public final C2632c q1() {
        boolean zW = w();
        C2632c c2632c = C2632c.f21786e;
        if (zW) {
            InterfaceC0279y interfaceC0279yI = G0.B.i(this);
            C0427s c0427s = this.f2410E;
            if (c0427s == null) {
                c0427s = new C0427s();
                this.f2410E = c0427s;
            }
            long jM0 = M0(U0());
            int i6 = (int) (jM0 >> 32);
            c0427s.f3444b = -Float.intBitsToFloat(i6);
            int i7 = (int) (jM0 & 4294967295L);
            c0427s.f3445c = -Float.intBitsToFloat(i7);
            c0427s.f3446d = Float.intBitsToFloat(i6) + q0();
            c0427s.f3447e = Float.intBitsToFloat(i7) + n0();
            AbstractC0300j0 abstractC0300j0 = this;
            while (abstractC0300j0 != interfaceC0279yI) {
                abstractC0300j0.m1(c0427s, false, true);
                if (!c0427s.b()) {
                    abstractC0300j0 = abstractC0300j0.f2423t;
                    kotlin.jvm.internal.o.e(abstractC0300j0);
                }
            }
            return new C2632c(c0427s.f3444b, c0427s.f3445c, c0427s.f3446d, c0427s.f3447e);
        }
        return c2632c;
    }

    @Override // I0.u0
    public final boolean r() {
        return (this.f2420O == null || this.f2424u || !this.f2421r.F()) ? false : true;
    }

    public final void r1(AbstractC0300j0 abstractC0300j0, float[] fArr) {
        float[] fArrA;
        if (kotlin.jvm.internal.o.c(abstractC0300j0, this)) {
            return;
        }
        AbstractC0300j0 abstractC0300j02 = this.f2423t;
        kotlin.jvm.internal.o.e(abstractC0300j02);
        abstractC0300j02.r1(abstractC0300j0, fArr);
        if (!h1.j.a(this.f2408C, 0L)) {
            float[] fArr2 = f2403R;
            C2692J.d(fArr2);
            long j4 = this.f2408C;
            C2692J.f(fArr2, -((int) (j4 >> 32)), -((int) (j4 & 4294967295L)));
            C2692J.e(fArr, fArr2);
        }
        r0 r0Var = this.f2420O;
        if (r0Var == null || (fArrA = ((J0.F0) r0Var).a()) == null) {
            return;
        }
        C2692J.e(fArr, fArrA);
    }

    public final void s1(AbstractC0300j0 abstractC0300j0, float[] fArr) {
        AbstractC0300j0 abstractC0300j02 = this;
        while (!abstractC0300j02.equals(abstractC0300j0)) {
            r0 r0Var = abstractC0300j02.f2420O;
            if (r0Var != null) {
                C2692J.e(fArr, ((J0.F0) r0Var).b());
            }
            if (!h1.j.a(abstractC0300j02.f2408C, 0L)) {
                float[] fArr2 = f2403R;
                C2692J.d(fArr2);
                C2692J.f(fArr2, (int) (r1 >> 32), (int) (r1 & 4294967295L));
                C2692J.e(fArr, fArr2);
            }
            abstractC0300j02 = abstractC0300j02.f2423t;
            kotlin.jvm.internal.o.e(abstractC0300j02);
        }
    }

    public final void t1(boolean z6, J4.c cVar) throws Throwable {
        J0.A a6;
        T.p pVar;
        Reference referencePoll;
        MutableVector mutableVector;
        G0.V v3;
        Reference referencePoll2;
        MutableVector mutableVector2;
        Object obj;
        H h5 = this.f2421r;
        boolean z7 = (!z6 && this.f2426w == cVar && kotlin.jvm.internal.o.c(this.f2427x, h5.f2155C) && this.f2428y == h5.f2156D) ? false : true;
        this.f2427x = h5.f2155C;
        this.f2428y = h5.f2156D;
        boolean zF = h5.F();
        C0294g0 c0294g0 = this.f2418M;
        if (!zF || cVar == null) {
            this.f2426w = null;
            r0 r0Var = this.f2420O;
            if (r0Var != null) {
                J0.F0 f0 = (J0.F0) r0Var;
                if (!AbstractC2686D.x(f0.b())) {
                    h5.L();
                }
                f0.f2822d = null;
                f0.f2823e = null;
                f0.f2825j = true;
                boolean z8 = f0.f2827m;
                J0.A a7 = f0.f2821c;
                if (z8) {
                    f0.f2827m = false;
                    a7.w(f0, false);
                }
                InterfaceC2684B interfaceC2684B = f0.f2820b;
                if (interfaceC2684B != null) {
                    interfaceC2684B.a(f0.f2819a);
                    do {
                        pVar = a7.f2777z0;
                        referencePoll = ((ReferenceQueue) pVar.f6346c).poll();
                        mutableVector = (MutableVector) pVar.f6345b;
                        if (referencePoll != null) {
                            mutableVector.remove(referencePoll);
                        }
                    } while (referencePoll != null);
                    mutableVector.add(new WeakReference(f0, (ReferenceQueue) pVar.f6346c));
                    a7.f2712G.k(f0);
                }
                h5.f2166N = true;
                c0294g0.invoke();
                if (w() && h5.G() && (a6 = h5.f2187r) != null) {
                    a6.y(h5);
                }
            }
            this.f2420O = null;
            this.f2419N = false;
            return;
        }
        this.f2426w = cVar;
        if (this.f2420O != null) {
            if (z7) {
                u1(true);
                return;
            }
            return;
        }
        t0 t0VarA = K.a(h5);
        G0.V v6 = this.f2417L;
        if (v6 == null) {
            G0.V v7 = new G0.V(1, this, new C0294g0(this, 0));
            this.f2417L = v7;
            v3 = v7;
        } else {
            v3 = v6;
        }
        J0.A a8 = (J0.A) t0VarA;
        do {
            T.p pVar2 = a8.f2777z0;
            referencePoll2 = ((ReferenceQueue) pVar2.f6346c).poll();
            mutableVector2 = (MutableVector) pVar2.f6345b;
            if (referencePoll2 != null) {
                mutableVector2.remove(referencePoll2);
            }
        } while (referencePoll2 != null);
        while (true) {
            if (mutableVector2.getSize() == 0) {
                obj = null;
                break;
            } else {
                obj = ((Reference) AbstractC2761L.e(1, mutableVector2)).get();
                if (obj != null) {
                    break;
                }
            }
        }
        r0 f02 = (r0) obj;
        if (f02 != null) {
            J0.F0 f03 = (J0.F0) f02;
            InterfaceC2684B interfaceC2684B2 = f03.f2820b;
            if (interfaceC2684B2 == null) {
                throw com.google.android.recaptcha.internal.a.g("currently reuse is only supported when we manage the layer lifecycle");
            }
            if (!f03.f2819a.f24038s) {
                F0.a.a("layer should have been released before reuse");
            }
            f03.f2819a = interfaceC2684B2.b();
            f03.f2825j = false;
            f03.f2822d = v3;
            f03.f2823e = c0294g0;
            f03.f2834t = false;
            f03.f2835u = false;
            f03.f2836v = true;
            C2692J.d(f03.f2826k);
            float[] fArr = f03.l;
            if (fArr != null) {
                C2692J.d(fArr);
            }
            f03.f2832r = p0.c0.f22905b;
            f03.f2837w = false;
            long j4 = Integer.MAX_VALUE;
            f03.f2824f = (j4 & 4294967295L) | (j4 << 32);
            f03.f2833s = null;
            f03.f2831q = 0;
        } else {
            f02 = new J0.F0(a8.getGraphicsContext().b(), a8.getGraphicsContext(), a8, v3, c0294g0);
        }
        J0.F0 f04 = (J0.F0) f02;
        f04.e(this.f2000c);
        f04.d(this.f2408C);
        this.f2420O = f02;
        u1(true);
        h5.f2166N = true;
        c0294g0.invoke();
    }

    public final void u1(boolean z6) throws Throwable {
        char c6;
        boolean z7;
        J0.A a6;
        C0294g0 c0294g0;
        C0294g0 c0294g02;
        r0 r0Var = this.f2420O;
        if (r0Var == null) {
            if (this.f2426w == null) {
                return;
            }
            F0.a.b("null layer with a non-null layerBlock");
            return;
        }
        J4.c cVar = this.f2426w;
        if (cVar == null) {
            throw com.google.android.recaptcha.internal.a.g("updateLayerParameters requires a non-null layerBlock");
        }
        p0.U u6 = f2401P;
        u6.b();
        H h5 = this.f2421r;
        u6.f22878u = h5.f2155C;
        u6.f22879v = h5.f2156D;
        u6.f22877t = W0.e.K(this.f2000c);
        ((J0.A) K.a(h5)).getSnapshotObserver().f2468a.observeReads(this, C0287d.f2344e, new C0104e(2, cVar, this));
        C0313w c0313w = this.f2411F;
        if (c0313w == null) {
            c0313w = new C0313w();
            this.f2411F = c0313w;
        }
        C0313w c0313w2 = f2402Q;
        c0313w2.getClass();
        c0313w2.f2476a = c0313w.f2476a;
        c0313w2.f2477b = c0313w.f2477b;
        c0313w2.f2478c = c0313w.f2478c;
        c0313w2.f2479d = c0313w.f2479d;
        c0313w2.f2480e = c0313w.f2480e;
        c0313w2.f2481f = c0313w.f2481f;
        c0313w2.f2482g = c0313w.f2482g;
        c0313w2.f2483h = c0313w.f2483h;
        c0313w2.f2484i = c0313w.f2484i;
        float f6 = u6.f22863b;
        c0313w.f2476a = f6;
        c0313w.f2477b = u6.f22864c;
        c0313w.f2478c = u6.f22866e;
        c0313w.f2479d = u6.f22867f;
        c0313w.f2480e = u6.f22870m;
        c0313w.f2481f = u6.f22871n;
        c0313w.f2482g = u6.f22872o;
        c0313w.f2483h = u6.f22873p;
        long j4 = u6.f22874q;
        c0313w.f2484i = j4;
        J0.F0 f0 = (J0.F0) r0Var;
        int i6 = u6.f22862a | f0.f2831q;
        f0.f2829o = u6.f22879v;
        f0.f2828n = u6.f22878u;
        int i7 = i6 & 4096;
        if (i7 != 0) {
            f0.f2832r = j4;
        }
        if ((i6 & 1) != 0) {
            s0.d dVar = f0.f2819a.f24021a;
            if (dVar.b() != f6) {
                dVar.y(f6);
            }
        }
        if ((i6 & 2) != 0) {
            s0.b bVar = f0.f2819a;
            float f7 = u6.f22864c;
            s0.d dVar2 = bVar.f24021a;
            if (dVar2.K() != f7) {
                dVar2.m(f7);
            }
        }
        if ((i6 & 4) != 0) {
            s0.b bVar2 = f0.f2819a;
            float f8 = u6.f22865d;
            s0.d dVar3 = bVar2.f24021a;
            if (dVar3.getAlpha() != f8) {
                dVar3.t(f8);
            }
        }
        if ((i6 & 8) != 0) {
            s0.b bVar3 = f0.f2819a;
            float f9 = u6.f22866e;
            s0.d dVar4 = bVar3.f24021a;
            if (dVar4.A() != f9) {
                dVar4.E(f9);
            }
        }
        if ((i6 & 16) != 0) {
            s0.b bVar4 = f0.f2819a;
            float f10 = u6.f22867f;
            s0.d dVar5 = bVar4.f24021a;
            if (dVar5.u() != f10) {
                dVar5.f(f10);
            }
        }
        if ((i6 & 32) != 0) {
            s0.b bVar5 = f0.f2819a;
            float f11 = u6.f22868j;
            s0.d dVar6 = bVar5.f24021a;
            if (dVar6.J() != f11) {
                dVar6.c(f11);
                bVar5.f24027g = true;
                bVar5.a();
            }
            if (u6.f22868j > 0.0f && !f0.f2837w && (c0294g02 = f0.f2823e) != null) {
                c0294g02.invoke();
            }
        }
        if ((i6 & 64) != 0) {
            s0.b bVar6 = f0.f2819a;
            long j6 = u6.f22869k;
            s0.d dVar7 = bVar6.f24021a;
            if (!C2714u.d(j6, dVar7.s())) {
                dVar7.w(j6);
            }
        }
        if ((i6 & 128) != 0) {
            s0.b bVar7 = f0.f2819a;
            long j7 = u6.l;
            s0.d dVar8 = bVar7.f24021a;
            if (!C2714u.d(j7, dVar8.v())) {
                dVar8.F(j7);
            }
        }
        if ((i6 & 1024) != 0) {
            s0.b bVar8 = f0.f2819a;
            float f12 = u6.f22872o;
            s0.d dVar9 = bVar8.f24021a;
            if (dVar9.q() != f12) {
                dVar9.e(f12);
            }
        }
        if ((i6 & 256) != 0) {
            s0.b bVar9 = f0.f2819a;
            float f13 = u6.f22870m;
            s0.d dVar10 = bVar9.f24021a;
            if (dVar10.C() != f13) {
                dVar10.L(f13);
            }
        }
        if ((i6 & 512) != 0) {
            s0.b bVar10 = f0.f2819a;
            float f14 = u6.f22871n;
            s0.d dVar11 = bVar10.f24021a;
            if (dVar11.o() != f14) {
                dVar11.a(f14);
            }
        }
        if ((i6 & 2048) != 0) {
            s0.b bVar11 = f0.f2819a;
            float f15 = u6.f22873p;
            s0.d dVar12 = bVar11.f24021a;
            if (dVar12.z() != f15) {
                dVar12.I(f15);
            }
        }
        if (i7 != 0) {
            c6 = ' ';
            if (p0.c0.a(f0.f2832r, p0.c0.f22905b)) {
                s0.b bVar12 = f0.f2819a;
                if (!C2631b.b(bVar12.f24041v, 9205357640488583168L)) {
                    bVar12.f24041v = 9205357640488583168L;
                    bVar12.f24021a.r(9205357640488583168L);
                }
            } else {
                s0.b bVar13 = f0.f2819a;
                long jFloatToRawIntBits = (((long) Float.floatToRawIntBits(p0.c0.b(f0.f2832r) * ((int) (f0.f2824f >> 32)))) << 32) | (((long) Float.floatToRawIntBits(p0.c0.c(f0.f2832r) * ((int) (f0.f2824f & 4294967295L)))) & 4294967295L);
                if (!C2631b.b(bVar13.f24041v, jFloatToRawIntBits)) {
                    bVar13.f24041v = jFloatToRawIntBits;
                    bVar13.f24021a.r(jFloatToRawIntBits);
                }
            }
        } else {
            c6 = ' ';
        }
        if ((i6 & 16384) != 0) {
            s0.b bVar14 = f0.f2819a;
            boolean z8 = u6.f22876s;
            if (bVar14.f24042w != z8) {
                bVar14.f24042w = z8;
                bVar14.f24027g = true;
                bVar14.a();
            }
        }
        if ((131072 & i6) != 0) {
            s0.b bVar15 = f0.f2819a;
            C2709o c2709o = u6.f22880w;
            s0.d dVar13 = bVar15.f24021a;
            if (!kotlin.jvm.internal.o.c(dVar13.d(), c2709o)) {
                dVar13.H(c2709o);
            }
        }
        if ((262144 & i6) != 0) {
            s0.d dVar14 = f0.f2819a.f24021a;
            if (!kotlin.jvm.internal.o.c(dVar14.getColorFilter(), null)) {
                dVar14.x();
            }
        }
        if ((524288 & i6) != 0) {
            s0.b bVar16 = f0.f2819a;
            int i8 = u6.f22881x;
            s0.d dVar15 = bVar16.f24021a;
            if (dVar15.M() != i8) {
                dVar15.i(i8);
            }
        }
        if ((32768 & i6) != 0) {
            s0.d dVar16 = f0.f2819a.f24021a;
            if (dVar16.k() != 0) {
                dVar16.D(0);
            }
        }
        if ((i6 & 7963) != 0) {
            f0.f2834t = true;
            f0.f2835u = true;
        }
        if (kotlin.jvm.internal.o.c(f0.f2833s, u6.f22882y)) {
            z7 = false;
        } else {
            p0.N n6 = u6.f22882y;
            f0.f2833s = n6;
            if (n6 != null) {
                s0.b bVar17 = f0.f2819a;
                if (n6 instanceof C2694L) {
                    C2632c c2632c = ((C2694L) n6).f22856a;
                    float f16 = c2632c.f21787a;
                    long jFloatToRawIntBits2 = Float.floatToRawIntBits(f16);
                    float f17 = c2632c.f21788b;
                    bVar17.f((((long) Float.floatToRawIntBits(f17)) & 4294967295L) | (jFloatToRawIntBits2 << c6), 0.0f, (((long) Float.floatToRawIntBits(c2632c.f21789c - f16)) << c6) | (((long) Float.floatToRawIntBits(c2632c.f21790d - f17)) & 4294967295L));
                } else if (n6 instanceof C2693K) {
                    bVar17.f24031k = null;
                    bVar17.f24029i = 9205357640488583168L;
                    bVar17.f24028h = 0L;
                    bVar17.f24030j = 0.0f;
                    bVar17.f24027g = true;
                    bVar17.f24033n = false;
                    bVar17.l = ((C2693K) n6).f22855a;
                    bVar17.a();
                } else {
                    if (!(n6 instanceof p0.M)) {
                        throw new E3.v();
                    }
                    p0.M m6 = (p0.M) n6;
                    C2702h c2702h = m6.f22858b;
                    if (c2702h != null) {
                        bVar17.f24031k = null;
                        bVar17.f24029i = 9205357640488583168L;
                        bVar17.f24028h = 0L;
                        bVar17.f24030j = 0.0f;
                        bVar17.f24027g = true;
                        bVar17.f24033n = false;
                        bVar17.l = c2702h;
                        bVar17.a();
                    } else {
                        C2633d c2633d = m6.f22857a;
                        bVar17.f((((long) Float.floatToRawIntBits(c2633d.f21791a)) << c6) | (((long) Float.floatToRawIntBits(c2633d.f21792b)) & 4294967295L), Float.intBitsToFloat((int) (c2633d.f21798h >> c6)), (((long) Float.floatToRawIntBits(c2633d.b())) << c6) | (((long) Float.floatToRawIntBits(c2633d.a())) & 4294967295L));
                    }
                }
                if ((n6 instanceof C2693K) && Build.VERSION.SDK_INT < 33 && (c0294g0 = f0.f2823e) != null) {
                    c0294g0.invoke();
                }
            }
            z7 = true;
        }
        f0.f2831q = u6.f22862a;
        if (i6 != 0 || z7) {
            int i9 = Build.VERSION.SDK_INT;
            J0.A a7 = f0.f2821c;
            if (i9 >= 26) {
                ViewParent parent = a7.getParent();
                if (parent != null) {
                    parent.onDescendantInvalidated(a7, a7);
                }
            } else {
                a7.invalidate();
            }
            if (a7.f2754o) {
                a7.M(0.0f);
            }
        }
        boolean z9 = this.f2425v;
        this.f2425v = u6.f22876s;
        this.f2429z = u6.f22865d;
        boolean z10 = c0313w2.f2476a == c0313w.f2476a && c0313w2.f2477b == c0313w.f2477b && c0313w2.f2478c == c0313w.f2478c && c0313w2.f2479d == c0313w.f2479d && c0313w2.f2480e == c0313w.f2480e && c0313w2.f2481f == c0313w.f2481f && c0313w2.f2482g == c0313w.f2482g && c0313w2.f2483h == c0313w.f2483h && p0.c0.a(c0313w2.f2484i, c0313w.f2484i);
        if (z6 && ((!z10 || z9 != this.f2425v) && (a6 = h5.f2187r) != null)) {
            a6.y(h5);
        }
        if (z10) {
            return;
        }
        L l = h5.f2163K;
        if (l.l > 0) {
            if (l.f2223k || l.f2222j) {
                h5.U(false);
            }
            l.f2227p.y0();
        }
        h5.L();
        J0.A a8 = (J0.A) K.a(h5);
        R0.b rectManager = a8.getRectManager();
        if (this == ((AbstractC0300j0) h5.f2162J.f2363e)) {
            rectManager.e(h5, false);
        } else {
            rectManager.getClass();
            if (h5.G()) {
                long jF = R0.b.f(h5);
                if (h1.j.a(jF, 9223372034707292159L)) {
                    rectManager.c(h5);
                } else {
                    h5.f2179f = jF;
                    h5.f2180j = false;
                    MutableVector mutableVectorX = h5.x();
                    Object[] objArr = mutableVectorX.content;
                    int size = mutableVectorX.getSize();
                    for (int i10 = 0; i10 < size; i10++) {
                        rectManager.e((H) objArr[i10], false);
                    }
                    rectManager.d(h5);
                }
            }
        }
        if (h5.f2172T > 0) {
            T.p pVar = a8.f2735a0.f2292e;
            pVar.getClass();
            if (h5.f2172T > 0) {
                ((MutableVector) pVar.f6345b).add(h5);
                h5.f2171S = true;
            }
            a8.F(null);
        }
    }

    /* JADX WARN: Code restructure failed: missing block: B:19:0x0063, code lost:
    
        if (r5 < r1.f21790d) goto L68;
     */
    /* JADX WARN: Removed duplicated region for block: B:61:0x017c  */
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public final boolean v1(long j4) {
        boolean z6;
        boolean z7;
        boolean zR;
        if ((((9187343241974906880L ^ (j4 & 9187343241974906880L)) - 4294967297L) & (-9223372034707292160L)) != 0) {
            return false;
        }
        r0 r0Var = this.f2420O;
        if (r0Var == null || !this.f2425v) {
            return true;
        }
        float fIntBitsToFloat = Float.intBitsToFloat((int) (j4 >> 32));
        float fIntBitsToFloat2 = Float.intBitsToFloat((int) (j4 & 4294967295L));
        s0.b bVar = ((J0.F0) r0Var).f2819a;
        if (bVar.f24042w) {
            p0.N nD = bVar.d();
            if (nD instanceof C2694L) {
                C2632c c2632c = ((C2694L) nD).f22856a;
                if (c2632c.f21787a <= fIntBitsToFloat) {
                    if (fIntBitsToFloat < c2632c.f21789c) {
                        if (c2632c.f21788b <= fIntBitsToFloat2) {
                        }
                    }
                }
            } else if (nD instanceof p0.M) {
                C2633d c2633d = ((p0.M) nD).f22857a;
                float f6 = c2633d.f21791a;
                if (fIntBitsToFloat >= f6) {
                    float f7 = c2633d.f21793c;
                    if (fIntBitsToFloat < f7) {
                        float f8 = c2633d.f21792b;
                        if (fIntBitsToFloat2 >= f8) {
                            float f9 = c2633d.f21794d;
                            if (fIntBitsToFloat2 < f9) {
                                long j6 = c2633d.f21795e;
                                z6 = false;
                                z7 = true;
                                int i6 = (int) (j6 >> 32);
                                float fIntBitsToFloat3 = Float.intBitsToFloat(i6);
                                long j7 = c2633d.f21796f;
                                int i7 = (int) (j7 >> 32);
                                if (Float.intBitsToFloat(i7) + fIntBitsToFloat3 <= c2633d.b()) {
                                    long j8 = c2633d.f21798h;
                                    int i8 = (int) (j8 >> 32);
                                    float fIntBitsToFloat4 = Float.intBitsToFloat(i8);
                                    long j9 = c2633d.f21797g;
                                    int i9 = (int) (j9 >> 32);
                                    if (Float.intBitsToFloat(i9) + fIntBitsToFloat4 <= c2633d.b()) {
                                        int i10 = (int) (j6 & 4294967295L);
                                        int i11 = (int) (j8 & 4294967295L);
                                        if (Float.intBitsToFloat(i11) + Float.intBitsToFloat(i10) <= c2633d.a()) {
                                            int i12 = (int) (j7 & 4294967295L);
                                            int i13 = (int) (j9 & 4294967295L);
                                            if (Float.intBitsToFloat(i13) + Float.intBitsToFloat(i12) <= c2633d.a()) {
                                                float fIntBitsToFloat5 = Float.intBitsToFloat(i6) + f6;
                                                float fIntBitsToFloat6 = Float.intBitsToFloat(i10) + f8;
                                                float fIntBitsToFloat7 = f7 - Float.intBitsToFloat(i7);
                                                float fIntBitsToFloat8 = Float.intBitsToFloat(i12) + f8;
                                                float fIntBitsToFloat9 = f7 - Float.intBitsToFloat(i9);
                                                float fIntBitsToFloat10 = f9 - Float.intBitsToFloat(i13);
                                                float fIntBitsToFloat11 = f9 - Float.intBitsToFloat(i11);
                                                float fIntBitsToFloat12 = Float.intBitsToFloat(i8) + f6;
                                                zR = (fIntBitsToFloat >= fIntBitsToFloat5 || fIntBitsToFloat2 >= fIntBitsToFloat6) ? (fIntBitsToFloat >= fIntBitsToFloat12 || fIntBitsToFloat2 <= fIntBitsToFloat11) ? (fIntBitsToFloat <= fIntBitsToFloat7 || fIntBitsToFloat2 >= fIntBitsToFloat8) ? (fIntBitsToFloat <= fIntBitsToFloat9 || fIntBitsToFloat2 <= fIntBitsToFloat10) ? z7 : J0.O.r(fIntBitsToFloat, fIntBitsToFloat2, fIntBitsToFloat9, fIntBitsToFloat10, c2633d.f21797g) : J0.O.r(fIntBitsToFloat, fIntBitsToFloat2, fIntBitsToFloat7, fIntBitsToFloat8, c2633d.f21796f) : J0.O.r(fIntBitsToFloat, fIntBitsToFloat2, fIntBitsToFloat12, fIntBitsToFloat11, c2633d.f21798h) : J0.O.r(fIntBitsToFloat, fIntBitsToFloat2, fIntBitsToFloat5, fIntBitsToFloat6, c2633d.f21795e);
                                            } else {
                                                C2702h c2702hA = AbstractC2704j.a();
                                                p0.Q.b(c2702hA, c2633d);
                                                zR = J0.O.q(c2702hA, fIntBitsToFloat, fIntBitsToFloat2);
                                            }
                                        }
                                    }
                                }
                            }
                        }
                    }
                }
            } else {
                z6 = false;
                z7 = true;
                if (!(nD instanceof C2693K)) {
                    throw new E3.v();
                }
                zR = J0.O.q(((C2693K) nD).f22855a, fIntBitsToFloat, fIntBitsToFloat2);
            }
            z6 = false;
            z7 = true;
            zR = false;
        } else {
            z6 = false;
            z7 = true;
        }
        return zR ? z7 : z6;
    }

    @Override // G0.InterfaceC0279y
    public final boolean w() {
        return V0().isAttached();
    }

    @Override // G0.InterfaceC0279y
    public final void z(float[] fArr) {
        t0 t0VarA = K.a(this.f2421r);
        s1(p1(G0.B.i(this)), fArr);
        ((J0.A) ((InterfaceC0110k) t0VarA)).r(fArr);
    }

    @Override // I0.P
    public final P z0() {
        return this.f2422s;
    }

    @Override // I0.P
    public final InterfaceC0279y A0() {
        return this;
    }
}
