package K2;

import A1.C0005f;
import B6.u;
import B6.w;
import D0.x;
import Z6.AbstractC0385z;
import a5.C0405d;
import android.content.SharedPreferences;
import android.graphics.Bitmap;
import android.graphics.BitmapFactory;
import android.graphics.drawable.Drawable;
import android.text.SpannableStringBuilder;
import android.util.Base64;
import android.util.Pair;
import android.util.SparseIntArray;
import android.view.View;
import android.view.ViewGroup;
import android.widget.CompoundButton;
import androidx.lifecycle.W;
import androidx.lifecycle.Y;
import androidx.lifecycle.Z;
import c7.InterfaceC0591B;
import c7.K;
import com.google.android.gms.internal.measurement.C1;
import com.martsnew.data.model.response.LoginResponse;
import d4.n;
import d4.p;
import d4.q;
import d5.AbstractC0844a;
import e5.C0887g;
import g6.o;
import h0.C0997E;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeMap;
import java.util.TreeSet;
import k7.A;
import k7.C;
import k7.C1111c;
import k7.F;
import k7.InterfaceC1110b;
import k7.y;
import m2.C1161a;
import q1.InterfaceC1447d;
import r0.AbstractC1483b;
import w1.C1695a;
import w1.C1697c;
import w2.C1698a;
import w2.C1699b;
import w2.InterfaceC1701d;
import w2.InterfaceC1703f;
import x0.v;

/* JADX INFO: loaded from: classes.dex */
public final class e implements A6.e, d4.c, InterfaceC1110b, InterfaceC1447d {

    /* JADX INFO: renamed from: q, reason: collision with root package name */
    public Object f3552q;

    /* JADX INFO: renamed from: r, reason: collision with root package name */
    public Object f3553r;

    /* JADX INFO: renamed from: s, reason: collision with root package name */
    public Object f3554s;

    /* JADX INFO: renamed from: t, reason: collision with root package name */
    public Object f3555t;

    /* JADX INFO: renamed from: u, reason: collision with root package name */
    public Object f3556u;

    public e(Map map) {
        P6.g.e(map, "initialState");
        this.f3552q = w.q0(map);
        this.f3553r = new LinkedHashMap();
        this.f3554s = new LinkedHashMap();
        this.f3555t = new LinkedHashMap();
        this.f3556u = new C0997E(1, this);
    }

    public static int[] P(int i, ArrayList arrayList, SparseIntArray sparseIntArray) {
        Collections.sort(arrayList);
        sparseIntArray.clear();
        int[] iArr = new int[i];
        int size = arrayList.size();
        int i5 = 0;
        int i8 = 0;
        while (i8 < size) {
            Object obj = arrayList.get(i8);
            i8++;
            d dVar = (d) obj;
            int i9 = dVar.f3550q;
            iArr[i5] = i9;
            sparseIntArray.append(i9, dVar.f3551r);
            i5++;
        }
        return iArr;
    }

    public static final void l(e eVar, String str, String str2) {
        C0405d c0405d = (C0405d) eVar.f3552q;
        LoginResponse loginResponseW = C1.w(c0405d);
        if (loginResponseW != null) {
            loginResponseW.f10852b.f10967a.f10971a = str;
        }
        if (loginResponseW != null) {
            loginResponseW.f10852b.f10968b.f10971a = str2;
        }
        String strK = o.f12958a.K();
        SharedPreferences.Editor editorEdit = c0405d.f7619a.edit();
        editorEdit.putString(strK, c0405d.f7620b.a(LoginResponse.class).d(loginResponseW));
        editorEdit.apply();
    }

    public static ArrayList v(int i, int i5, List list) {
        int i8 = (i - i5) / 2;
        ArrayList arrayList = new ArrayList();
        c cVar = new c();
        cVar.f3539g = i8;
        int size = list.size();
        for (int i9 = 0; i9 < size; i9++) {
            if (i9 == 0) {
                arrayList.add(cVar);
            }
            arrayList.add((c) list.get(i9));
            if (i9 == list.size() - 1) {
                arrayList.add(cVar);
            }
        }
        return arrayList;
    }

    public void A(int i) {
        long[] jArr = (long[]) this.f3555t;
        if (jArr == null) {
            this.f3555t = new long[Math.max(i, 10)];
        } else if (jArr.length < i) {
            this.f3555t = Arrays.copyOf((long[]) this.f3555t, Math.max(jArr.length * 2, i));
        }
    }

    public void B(int i) {
        long[] jArr = (long[]) this.f3556u;
        if (jArr == null) {
            this.f3556u = new long[Math.max(i, 10)];
        } else if (jArr.length < i) {
            this.f3556u = Arrays.copyOf((long[]) this.f3556u, Math.max(jArr.length * 2, i));
        }
    }

    public void C(int i, int i5, c cVar, int i8, int i9, boolean z8) {
        int i10;
        float f3;
        float f7;
        int iMax;
        double d8;
        double d9;
        float f8 = cVar.f3541j;
        float f9 = 0.0f;
        if (f8 <= 0.0f || i8 < (i10 = cVar.f3537e)) {
            return;
        }
        float f10 = (i8 - i10) / f8;
        cVar.f3537e = i9 + cVar.f3538f;
        if (!z8) {
            cVar.f3539g = Integer.MIN_VALUE;
        }
        int i11 = 0;
        boolean z9 = false;
        int i12 = 0;
        float f11 = 0.0f;
        while (i11 < cVar.f3540h) {
            int i13 = cVar.f3546o + i11;
            a aVar = (a) this.f3552q;
            View viewG = aVar.g(i13);
            if (viewG == null || viewG.getVisibility() == 8) {
                f3 = f9;
                f7 = f10;
                z9 = z9;
            } else {
                b bVar = (b) viewG.getLayoutParams();
                int flexDirection = aVar.getFlexDirection();
                f3 = f9;
                if (flexDirection == 0 || flexDirection == 1) {
                    f7 = f10;
                    boolean z10 = z9;
                    int measuredWidth = viewG.getMeasuredWidth();
                    long[] jArr = (long[]) this.f3556u;
                    if (jArr != null) {
                        measuredWidth = (int) jArr[i13];
                    }
                    int measuredHeight = viewG.getMeasuredHeight();
                    long[] jArr2 = (long[]) this.f3556u;
                    if (jArr2 != null) {
                        measuredHeight = (int) (jArr2[i13] >> 32);
                    }
                    if (((boolean[]) this.f3553r)[i13] || bVar.i() <= f3) {
                        z9 = z10;
                    } else {
                        float fI = (bVar.i() * f7) + measuredWidth;
                        if (i11 == cVar.f3540h - 1) {
                            fI += f11;
                            f11 = f3;
                        }
                        int iRound = Math.round(fI);
                        if (iRound > bVar.v()) {
                            iRound = bVar.v();
                            ((boolean[]) this.f3553r)[i13] = true;
                            cVar.f3541j -= bVar.i();
                            z9 = true;
                        } else {
                            float f12 = (fI - iRound) + f11;
                            double d10 = f12;
                            if (d10 > 1.0d) {
                                iRound++;
                                d8 = d10 - 1.0d;
                            } else {
                                if (d10 < -1.0d) {
                                    iRound--;
                                    d8 = d10 + 1.0d;
                                }
                                f11 = f12;
                                z9 = z10;
                            }
                            f12 = (float) d8;
                            f11 = f12;
                            z9 = z10;
                        }
                        int iD = D(i5, bVar, cVar.f3544m);
                        int iMakeMeasureSpec = View.MeasureSpec.makeMeasureSpec(iRound, 1073741824);
                        viewG.measure(iMakeMeasureSpec, iD);
                        int measuredWidth2 = viewG.getMeasuredWidth();
                        int measuredHeight2 = viewG.getMeasuredHeight();
                        U(i13, iMakeMeasureSpec, iD, viewG);
                        aVar.h(viewG, i13);
                        measuredWidth = measuredWidth2;
                        measuredHeight = measuredHeight2;
                    }
                    int iMax2 = Math.max(i12, aVar.k(viewG) + bVar.o() + bVar.x() + measuredHeight);
                    cVar.f3537e = bVar.b() + bVar.s() + measuredWidth + cVar.f3537e;
                    iMax = iMax2;
                } else {
                    int measuredHeight3 = viewG.getMeasuredHeight();
                    long[] jArr3 = (long[]) this.f3556u;
                    if (jArr3 != null) {
                        measuredHeight3 = (int) (jArr3[i13] >> 32);
                    }
                    int measuredWidth3 = viewG.getMeasuredWidth();
                    long[] jArr4 = (long[]) this.f3556u;
                    f7 = f10;
                    boolean z11 = z9;
                    if (jArr4 != null) {
                        measuredWidth3 = (int) jArr4[i13];
                    }
                    if (((boolean[]) this.f3553r)[i13] || bVar.i() <= f3) {
                        z9 = z11;
                    } else {
                        float fI2 = (bVar.i() * f7) + measuredHeight3;
                        if (i11 == cVar.f3540h - 1) {
                            fI2 += f11;
                            f11 = f3;
                        }
                        int iRound2 = Math.round(fI2);
                        if (iRound2 > bVar.l()) {
                            iRound2 = bVar.l();
                            ((boolean[]) this.f3553r)[i13] = true;
                            cVar.f3541j -= bVar.i();
                            z9 = true;
                        } else {
                            float f13 = (fI2 - iRound2) + f11;
                            double d11 = f13;
                            if (d11 > 1.0d) {
                                iRound2++;
                                d9 = d11 - 1.0d;
                            } else {
                                if (d11 < -1.0d) {
                                    iRound2--;
                                    d9 = d11 + 1.0d;
                                }
                                f11 = f13;
                                z9 = z11;
                            }
                            f13 = (float) d9;
                            f11 = f13;
                            z9 = z11;
                        }
                        int iE = E(i, bVar, cVar.f3544m);
                        int iMakeMeasureSpec2 = View.MeasureSpec.makeMeasureSpec(iRound2, 1073741824);
                        viewG.measure(iE, iMakeMeasureSpec2);
                        measuredWidth3 = viewG.getMeasuredWidth();
                        int measuredHeight4 = viewG.getMeasuredHeight();
                        U(i13, iE, iMakeMeasureSpec2, viewG);
                        aVar.h(viewG, i13);
                        measuredHeight3 = measuredHeight4;
                    }
                    iMax = Math.max(i12, aVar.k(viewG) + bVar.b() + bVar.s() + measuredWidth3);
                    cVar.f3537e = bVar.o() + bVar.x() + measuredHeight3 + cVar.f3537e;
                }
                cVar.f3539g = Math.max(cVar.f3539g, iMax);
                i12 = iMax;
            }
            i11++;
            f9 = f3;
            f10 = f7;
        }
        if (!z9 || i10 == cVar.f3537e) {
            return;
        }
        C(i, i5, cVar, i8, i9, true);
    }

    public int D(int i, b bVar, int i5) {
        a aVar = (a) this.f3552q;
        int iD = aVar.d(i, bVar.o() + bVar.x() + aVar.getPaddingBottom() + aVar.getPaddingTop() + i5, bVar.k());
        int size = View.MeasureSpec.getSize(iD);
        return size > bVar.l() ? View.MeasureSpec.makeMeasureSpec(bVar.l(), View.MeasureSpec.getMode(iD)) : size < bVar.c() ? View.MeasureSpec.makeMeasureSpec(bVar.c(), View.MeasureSpec.getMode(iD)) : iD;
    }

    public int E(int i, b bVar, int i5) {
        a aVar = (a) this.f3552q;
        int i8 = aVar.i(i, bVar.b() + bVar.s() + aVar.getPaddingRight() + aVar.getPaddingLeft() + i5, bVar.j());
        int size = View.MeasureSpec.getSize(i8);
        return size > bVar.v() ? View.MeasureSpec.makeMeasureSpec(bVar.v(), View.MeasureSpec.getMode(i8)) : size < bVar.f() ? View.MeasureSpec.makeMeasureSpec(bVar.f(), View.MeasureSpec.getMode(i8)) : i8;
    }

    public n F(Class cls) {
        return g(p.a(cls));
    }

    public void G(String str, String str2) {
        P6.g.e(str2, "value");
        N0.c cVar = (N0.c) this.f3554s;
        cVar.getClass();
        W3.b.f(str);
        W3.b.g(str2, str);
        cVar.k(str);
        cVar.g(str, str2);
    }

    public void H(View view, c cVar, int i, int i5, int i8, int i9) {
        b bVar = (b) view.getLayoutParams();
        a aVar = (a) this.f3552q;
        int alignItems = aVar.getAlignItems();
        if (bVar.t() != -1) {
            alignItems = bVar.t();
        }
        int i10 = cVar.f3539g;
        if (alignItems != 0) {
            if (alignItems == 1) {
                if (aVar.getFlexWrap() != 2) {
                    int i11 = i5 + i10;
                    view.layout(i, (i11 - view.getMeasuredHeight()) - bVar.o(), i8, i11 - bVar.o());
                    return;
                }
                view.layout(i, bVar.x() + view.getMeasuredHeight() + (i5 - i10), i8, bVar.x() + view.getMeasuredHeight() + (i9 - i10));
                return;
            }
            if (alignItems == 2) {
                int iX = ((bVar.x() + (i10 - view.getMeasuredHeight())) - bVar.o()) / 2;
                if (aVar.getFlexWrap() != 2) {
                    int i12 = i5 + iX;
                    view.layout(i, i12, i8, view.getMeasuredHeight() + i12);
                    return;
                } else {
                    int i13 = i5 - iX;
                    view.layout(i, i13, i8, view.getMeasuredHeight() + i13);
                    return;
                }
            }
            if (alignItems == 3) {
                if (aVar.getFlexWrap() != 2) {
                    int iMax = Math.max(cVar.f3543l - view.getBaseline(), bVar.x());
                    view.layout(i, i5 + iMax, i8, i9 + iMax);
                    return;
                } else {
                    int iMax2 = Math.max(view.getBaseline() + (cVar.f3543l - view.getMeasuredHeight()), bVar.o());
                    view.layout(i, i5 - iMax2, i8, i9 - iMax2);
                    return;
                }
            }
            if (alignItems != 4) {
                return;
            }
        }
        if (aVar.getFlexWrap() != 2) {
            view.layout(i, bVar.x() + i5, i8, bVar.x() + i9);
        } else {
            view.layout(i, i5 - bVar.o(), i8, i9 - bVar.o());
        }
    }

    public void I(View view, c cVar, boolean z8, int i, int i5, int i8, int i9) {
        b bVar = (b) view.getLayoutParams();
        int alignItems = ((a) this.f3552q).getAlignItems();
        if (bVar.t() != -1) {
            alignItems = bVar.t();
        }
        int i10 = cVar.f3539g;
        if (alignItems != 0) {
            if (alignItems == 1) {
                if (!z8) {
                    view.layout(((i + i10) - view.getMeasuredWidth()) - bVar.b(), i5, ((i8 + i10) - view.getMeasuredWidth()) - bVar.b(), i9);
                    return;
                }
                view.layout(bVar.s() + view.getMeasuredWidth() + (i - i10), i5, bVar.s() + view.getMeasuredWidth() + (i8 - i10), i9);
                return;
            }
            if (alignItems == 2) {
                ViewGroup.MarginLayoutParams marginLayoutParams = (ViewGroup.MarginLayoutParams) view.getLayoutParams();
                int marginStart = ((marginLayoutParams.getMarginStart() + (i10 - view.getMeasuredWidth())) - marginLayoutParams.getMarginEnd()) / 2;
                if (z8) {
                    view.layout(i - marginStart, i5, i8 - marginStart, i9);
                    return;
                } else {
                    view.layout(i + marginStart, i5, i8 + marginStart, i9);
                    return;
                }
            }
            if (alignItems != 3 && alignItems != 4) {
                return;
            }
        }
        if (z8) {
            view.layout(i - bVar.b(), i5, i8 - bVar.b(), i9);
        } else {
            view.layout(bVar.s() + i, i5, bVar.s() + i8, i9);
        }
    }

    public void J(String str, A a3) {
        P6.g.e(str, "method");
        if (str.length() <= 0) {
            throw new IllegalArgumentException("method.isEmpty() == true");
        }
        if (a3 == null) {
            if (str.equals("POST") || str.equals("PUT") || str.equals("PATCH") || str.equals("PROPPATCH") || str.equals("REPORT")) {
                throw new IllegalArgumentException(I1.a.p("method ", str, " must have a request body.").toString());
            }
        } else if (!W3.b.r(str)) {
            throw new IllegalArgumentException(I1.a.p("method ", str, " must not have a request body.").toString());
        }
        this.f3553r = str;
        this.f3555t = a3;
    }

    public void K(String str) {
        P6.g.e(str, "name");
        ((N0.c) this.f3554s).k(str);
    }

    public void L(C1698a c1698a, InterfaceC1703f interfaceC1703f) {
        z2.i iVar = (z2.i) this.f3552q;
        String str = (String) this.f3553r;
        InterfaceC1701d interfaceC1701d = (InterfaceC1701d) this.f3555t;
        if (interfaceC1701d == null) {
            throw new NullPointerException("Null transformer");
        }
        C1699b c1699b = (C1699b) this.f3554s;
        z2.o oVar = (z2.o) this.f3556u;
        z2.i iVarB = iVar.b(c1698a.f18294b);
        h6.c cVar = new h6.c();
        cVar.f13437f = new HashMap();
        cVar.f13435d = Long.valueOf(oVar.f19277a.d());
        cVar.f13436e = Long.valueOf(oVar.f19278b.d());
        cVar.f13432a = str;
        cVar.f13434c = new z2.k(c1699b, (byte[]) interfaceC1701d.apply(c1698a.f18293a));
        cVar.f13433b = null;
        z2.h hVarB = cVar.b();
        E2.b bVar = (E2.b) oVar.f19279c;
        bVar.getClass();
        bVar.f2163b.execute(new x(bVar, iVarB, interfaceC1703f, hVarB, 1));
    }

    public void M(Object obj, String str) {
        P6.g.e(str, "key");
        ((LinkedHashMap) this.f3552q).put(str, obj);
        InterfaceC0591B interfaceC0591B = (InterfaceC0591B) ((LinkedHashMap) this.f3554s).get(str);
        if (interfaceC0591B != null) {
            ((K) interfaceC0591B).f(obj);
        }
        InterfaceC0591B interfaceC0591B2 = (InterfaceC0591B) ((LinkedHashMap) this.f3555t).get(str);
        if (interfaceC0591B2 != null) {
            ((K) interfaceC0591B2).f(obj);
        }
    }

    public Set N(Class cls) {
        return e(p.a(cls));
    }

    public void O(int i, int i5, c cVar, int i8, int i9, boolean z8) {
        float f3;
        int iMax;
        int i10 = cVar.f3537e;
        float f7 = cVar.f3542k;
        float f8 = 0.0f;
        if (f7 <= 0.0f || i8 > i10) {
            return;
        }
        float f9 = (i10 - i8) / f7;
        cVar.f3537e = i9 + cVar.f3538f;
        if (!z8) {
            cVar.f3539g = Integer.MIN_VALUE;
        }
        int i11 = 0;
        boolean z9 = false;
        int i12 = 0;
        float f10 = 0.0f;
        while (i11 < cVar.f3540h) {
            int i13 = cVar.f3546o + i11;
            a aVar = (a) this.f3552q;
            View viewG = aVar.g(i13);
            if (viewG == null || viewG.getVisibility() == 8) {
                f3 = f8;
            } else {
                b bVar = (b) viewG.getLayoutParams();
                int flexDirection = aVar.getFlexDirection();
                f3 = f8;
                if (flexDirection == 0 || flexDirection == 1) {
                    int measuredWidth = viewG.getMeasuredWidth();
                    long[] jArr = (long[]) this.f3556u;
                    if (jArr != null) {
                        measuredWidth = (int) jArr[i13];
                    }
                    int measuredHeight = viewG.getMeasuredHeight();
                    long[] jArr2 = (long[]) this.f3556u;
                    if (jArr2 != null) {
                        measuredHeight = (int) (jArr2[i13] >> 32);
                    }
                    if (!((boolean[]) this.f3553r)[i13] && bVar.u() > f3) {
                        float fU = measuredWidth - (bVar.u() * f9);
                        if (i11 == cVar.f3540h - 1) {
                            fU += f10;
                            f10 = f3;
                        }
                        int iRound = Math.round(fU);
                        if (iRound < bVar.f()) {
                            iRound = bVar.f();
                            ((boolean[]) this.f3553r)[i13] = true;
                            cVar.f3542k -= bVar.u();
                            z9 = true;
                        } else {
                            float f11 = (fU - iRound) + f10;
                            double d8 = f11;
                            if (d8 > 1.0d) {
                                iRound++;
                                f11 -= 1.0f;
                            } else if (d8 < -1.0d) {
                                iRound--;
                                f11 += 1.0f;
                            }
                            f10 = f11;
                        }
                        int iD = D(i5, bVar, cVar.f3544m);
                        int iMakeMeasureSpec = View.MeasureSpec.makeMeasureSpec(iRound, 1073741824);
                        viewG.measure(iMakeMeasureSpec, iD);
                        int measuredWidth2 = viewG.getMeasuredWidth();
                        int measuredHeight2 = viewG.getMeasuredHeight();
                        U(i13, iMakeMeasureSpec, iD, viewG);
                        aVar.h(viewG, i13);
                        measuredWidth = measuredWidth2;
                        measuredHeight = measuredHeight2;
                    }
                    int iMax2 = Math.max(i12, aVar.k(viewG) + bVar.o() + bVar.x() + measuredHeight);
                    cVar.f3537e = bVar.b() + bVar.s() + measuredWidth + cVar.f3537e;
                    iMax = iMax2;
                } else {
                    int measuredHeight3 = viewG.getMeasuredHeight();
                    long[] jArr3 = (long[]) this.f3556u;
                    if (jArr3 != null) {
                        measuredHeight3 = (int) (jArr3[i13] >> 32);
                    }
                    int measuredWidth3 = viewG.getMeasuredWidth();
                    long[] jArr4 = (long[]) this.f3556u;
                    if (jArr4 != null) {
                        measuredWidth3 = (int) jArr4[i13];
                    }
                    if (!((boolean[]) this.f3553r)[i13] && bVar.u() > f3) {
                        float fU2 = measuredHeight3 - (bVar.u() * f9);
                        if (i11 == cVar.f3540h - 1) {
                            fU2 += f10;
                            f10 = f3;
                        }
                        int iRound2 = Math.round(fU2);
                        if (iRound2 < bVar.c()) {
                            iRound2 = bVar.c();
                            ((boolean[]) this.f3553r)[i13] = true;
                            cVar.f3542k -= bVar.u();
                            z9 = true;
                        } else {
                            float f12 = (fU2 - iRound2) + f10;
                            double d9 = f12;
                            if (d9 > 1.0d) {
                                iRound2++;
                                f12 -= 1.0f;
                            } else if (d9 < -1.0d) {
                                iRound2--;
                                f12 += 1.0f;
                            }
                            f10 = f12;
                        }
                        int iE = E(i, bVar, cVar.f3544m);
                        int iMakeMeasureSpec2 = View.MeasureSpec.makeMeasureSpec(iRound2, 1073741824);
                        viewG.measure(iE, iMakeMeasureSpec2);
                        measuredWidth3 = viewG.getMeasuredWidth();
                        int measuredHeight4 = viewG.getMeasuredHeight();
                        U(i13, iE, iMakeMeasureSpec2, viewG);
                        aVar.h(viewG, i13);
                        measuredHeight3 = measuredHeight4;
                    }
                    iMax = Math.max(i12, aVar.k(viewG) + bVar.b() + bVar.s() + measuredWidth3);
                    cVar.f3537e = bVar.o() + bVar.x() + measuredHeight3 + cVar.f3537e;
                }
                cVar.f3539g = Math.max(cVar.f3539g, iMax);
                i12 = iMax;
            }
            i11++;
            f8 = f3;
        }
        if (!z9 || i10 == cVar.f3537e) {
            return;
        }
        O(i, i5, cVar, i8, i9, true);
    }

    public void Q(View view, int i, int i5) {
        b bVar = (b) view.getLayoutParams();
        int iS = (i - bVar.s()) - bVar.b();
        a aVar = (a) this.f3552q;
        int iMin = Math.min(Math.max(iS - aVar.k(view), bVar.f()), bVar.v());
        long[] jArr = (long[]) this.f3556u;
        int iMakeMeasureSpec = View.MeasureSpec.makeMeasureSpec(jArr != null ? (int) (jArr[i5] >> 32) : view.getMeasuredHeight(), 1073741824);
        int iMakeMeasureSpec2 = View.MeasureSpec.makeMeasureSpec(iMin, 1073741824);
        view.measure(iMakeMeasureSpec2, iMakeMeasureSpec);
        U(i5, iMakeMeasureSpec2, iMakeMeasureSpec, view);
        aVar.h(view, i5);
    }

    public void R(View view, int i, int i5) {
        b bVar = (b) view.getLayoutParams();
        int iX = (i - bVar.x()) - bVar.o();
        a aVar = (a) this.f3552q;
        int iMin = Math.min(Math.max(iX - aVar.k(view), bVar.c()), bVar.l());
        long[] jArr = (long[]) this.f3556u;
        int iMakeMeasureSpec = View.MeasureSpec.makeMeasureSpec(jArr != null ? (int) jArr[i5] : view.getMeasuredWidth(), 1073741824);
        int iMakeMeasureSpec2 = View.MeasureSpec.makeMeasureSpec(iMin, 1073741824);
        view.measure(iMakeMeasureSpec, iMakeMeasureSpec2);
        U(i5, iMakeMeasureSpec, iMakeMeasureSpec2, view);
        aVar.h(view, i5);
    }

    public void S(int i) {
        View viewG;
        a aVar = (a) this.f3552q;
        if (i >= aVar.getFlexItemCount()) {
            return;
        }
        int flexDirection = aVar.getFlexDirection();
        if (aVar.getAlignItems() != 4) {
            for (c cVar : aVar.getFlexLinesInternal()) {
                ArrayList arrayList = cVar.f3545n;
                int size = arrayList.size();
                int i5 = 0;
                while (i5 < size) {
                    Object obj = arrayList.get(i5);
                    i5++;
                    Integer num = (Integer) obj;
                    View viewG2 = aVar.g(num.intValue());
                    if (flexDirection == 0 || flexDirection == 1) {
                        R(viewG2, cVar.f3539g, num.intValue());
                    } else {
                        if (flexDirection != 2 && flexDirection != 3) {
                            throw new IllegalArgumentException(AbstractC0844a.j("Invalid flex direction: ", flexDirection));
                        }
                        Q(viewG2, cVar.f3539g, num.intValue());
                    }
                }
            }
            return;
        }
        int[] iArr = (int[]) this.f3554s;
        List flexLinesInternal = aVar.getFlexLinesInternal();
        int size2 = flexLinesInternal.size();
        for (int i8 = iArr != null ? iArr[i] : 0; i8 < size2; i8++) {
            c cVar2 = (c) flexLinesInternal.get(i8);
            int i9 = cVar2.f3540h;
            for (int i10 = 0; i10 < i9; i10++) {
                int i11 = cVar2.f3546o + i10;
                if (i10 < aVar.getFlexItemCount() && (viewG = aVar.g(i11)) != null && viewG.getVisibility() != 8) {
                    b bVar = (b) viewG.getLayoutParams();
                    if (bVar.t() == -1 || bVar.t() == 4) {
                        if (flexDirection == 0 || flexDirection == 1) {
                            R(viewG, cVar2.f3539g, i11);
                        } else {
                            if (flexDirection != 2 && flexDirection != 3) {
                                throw new IllegalArgumentException(AbstractC0844a.j("Invalid flex direction: ", flexDirection));
                            }
                            Q(viewG, cVar2.f3539g, i11);
                        }
                    }
                }
            }
        }
    }

    public void T(Class cls, Object obj) {
        P6.g.e(cls, "type");
        if (obj == null) {
            ((LinkedHashMap) this.f3556u).remove(cls);
            return;
        }
        if (((LinkedHashMap) this.f3556u).isEmpty()) {
            this.f3556u = new LinkedHashMap();
        }
        LinkedHashMap linkedHashMap = (LinkedHashMap) this.f3556u;
        Object objCast = cls.cast(obj);
        P6.g.b(objCast);
        linkedHashMap.put(cls, objCast);
    }

    public void U(int i, int i5, int i8, View view) {
        long[] jArr = (long[]) this.f3555t;
        if (jArr != null) {
            jArr[i] = (((long) i5) & 4294967295L) | (((long) i8) << 32);
        }
        long[] jArr2 = (long[]) this.f3556u;
        if (jArr2 != null) {
            jArr2[i] = (((long) view.getMeasuredWidth()) & 4294967295L) | (((long) view.getMeasuredHeight()) << 32);
        }
    }

    @Override // d4.c
    public Object a(Class cls) {
        if (!((Set) this.f3552q).contains(p.a(cls))) {
            throw new A6.b("Attempting to request an undeclared dependency " + cls + ".");
        }
        Object objA = ((d4.c) this.f3556u).a(cls);
        if (!cls.equals(B4.a.class)) {
            return objA;
        }
        return new q();
    }

    @Override // q1.InterfaceC1447d
    public int b(long j8) {
        long[] jArr = (long[]) this.f3555t;
        int iA = v.a(jArr, j8, false);
        if (iA < jArr.length) {
            return iA;
        }
        return -1;
    }

    @Override // d4.c
    public D4.b c(p pVar) {
        if (((Set) this.f3553r).contains(pVar)) {
            return ((d4.c) this.f3556u).c(pVar);
        }
        throw new A6.b("Attempting to request an undeclared dependency Provider<" + pVar + ">.");
    }

    @Override // d4.c
    public D4.b d(Class cls) {
        return c(p.a(cls));
    }

    @Override // d4.c
    public Set e(p pVar) {
        if (((Set) this.f3555t).contains(pVar)) {
            return ((d4.c) this.f3556u).e(pVar);
        }
        throw new A6.b("Attempting to request an undeclared dependency Set<" + pVar + ">.");
    }

    @Override // q1.InterfaceC1447d
    public List f(long j8) {
        C1697c c1697c = (C1697c) this.f3552q;
        ArrayList arrayList = new ArrayList();
        c1697c.g(j8, c1697c.f18247h, arrayList);
        TreeMap treeMap = new TreeMap();
        c1697c.i(j8, false, c1697c.f18247h, treeMap);
        HashMap map = (HashMap) this.f3554s;
        c1697c.h(j8, (Map) this.f3553r, map, c1697c.f18247h, treeMap);
        ArrayList arrayList2 = new ArrayList();
        int size = arrayList.size();
        int i = 0;
        while (i < size) {
            Object obj = arrayList.get(i);
            i++;
            Pair pair = (Pair) obj;
            String str = (String) ((HashMap) this.f3556u).get(pair.second);
            if (str != null) {
                byte[] bArrDecode = Base64.decode(str, 0);
                Bitmap bitmapDecodeByteArray = BitmapFactory.decodeByteArray(bArrDecode, 0, bArrDecode.length);
                w1.f fVar = (w1.f) map.get(pair.first);
                fVar.getClass();
                arrayList2.add(new w0.b(null, null, null, bitmapDecodeByteArray, fVar.f18266c, 0, fVar.f18268e, fVar.f18265b, 0, Integer.MIN_VALUE, -3.4028235E38f, fVar.f18269f, fVar.f18270g, false, -16777216, fVar.f18272j, 0.0f));
            }
        }
        for (Map.Entry entry : treeMap.entrySet()) {
            w1.f fVar2 = (w1.f) map.get(entry.getKey());
            fVar2.getClass();
            w0.a aVar = (w0.a) entry.getValue();
            CharSequence charSequence = aVar.f18164a;
            charSequence.getClass();
            SpannableStringBuilder spannableStringBuilder = (SpannableStringBuilder) charSequence;
            for (C1695a c1695a : (C1695a[]) spannableStringBuilder.getSpans(0, spannableStringBuilder.length(), C1695a.class)) {
                spannableStringBuilder.replace(spannableStringBuilder.getSpanStart(c1695a), spannableStringBuilder.getSpanEnd(c1695a), (CharSequence) "");
            }
            for (int i5 = 0; i5 < spannableStringBuilder.length(); i5++) {
                if (spannableStringBuilder.charAt(i5) == ' ') {
                    int i8 = i5 + 1;
                    int i9 = i8;
                    while (i9 < spannableStringBuilder.length() && spannableStringBuilder.charAt(i9) == ' ') {
                        i9++;
                    }
                    int i10 = i9 - i8;
                    if (i10 > 0) {
                        spannableStringBuilder.delete(i5, i10 + i5);
                    }
                }
            }
            if (spannableStringBuilder.length() > 0 && spannableStringBuilder.charAt(0) == ' ') {
                spannableStringBuilder.delete(0, 1);
            }
            for (int i11 = 0; i11 < spannableStringBuilder.length() - 1; i11++) {
                if (spannableStringBuilder.charAt(i11) == '\n') {
                    int i12 = i11 + 1;
                    if (spannableStringBuilder.charAt(i12) == ' ') {
                        spannableStringBuilder.delete(i12, i11 + 2);
                    }
                }
            }
            if (spannableStringBuilder.length() > 0 && spannableStringBuilder.charAt(spannableStringBuilder.length() - 1) == ' ') {
                spannableStringBuilder.delete(spannableStringBuilder.length() - 1, spannableStringBuilder.length());
            }
            for (int i13 = 0; i13 < spannableStringBuilder.length() - 1; i13++) {
                if (spannableStringBuilder.charAt(i13) == ' ') {
                    int i14 = i13 + 1;
                    if (spannableStringBuilder.charAt(i14) == '\n') {
                        spannableStringBuilder.delete(i13, i14);
                    }
                }
            }
            if (spannableStringBuilder.length() > 0 && spannableStringBuilder.charAt(spannableStringBuilder.length() - 1) == '\n') {
                spannableStringBuilder.delete(spannableStringBuilder.length() - 1, spannableStringBuilder.length());
            }
            aVar.f18168e = fVar2.f18266c;
            aVar.f18169f = fVar2.f18267d;
            aVar.f18170g = fVar2.f18268e;
            aVar.f18171h = fVar2.f18265b;
            aVar.f18174l = fVar2.f18269f;
            aVar.f18173k = fVar2.i;
            aVar.f18172j = fVar2.f18271h;
            aVar.f18178p = fVar2.f18272j;
            arrayList2.add(aVar.a());
        }
        return arrayList2;
    }

    @Override // d4.c
    public n g(p pVar) {
        if (((Set) this.f3554s).contains(pVar)) {
            return ((d4.c) this.f3556u).g(pVar);
        }
        throw new A6.b("Attempting to request an undeclared dependency Deferred<" + pVar + ">.");
    }

    /* JADX WARN: Type inference failed for: r0v3, types: [O6.a, P6.h] */
    /* JADX WARN: Type inference failed for: r2v1, types: [O6.a, P6.h] */
    @Override // A6.e
    public Object getValue() {
        W w4 = (W) this.f3556u;
        if (w4 != null) {
            return w4;
        }
        Z z8 = (Z) ((P6.h) this.f3553r).a();
        Y y8 = (Y) ((O6.a) this.f3554s).a();
        AbstractC1483b abstractC1483b = (AbstractC1483b) ((P6.h) this.f3555t).a();
        P6.g.e(z8, "store");
        P6.g.e(y8, "factory");
        P6.g.e(abstractC1483b, "extras");
        C2.a aVar = new C2.a(z8, y8, abstractC1483b);
        P6.d dVar = (P6.d) this.f3552q;
        String strB = dVar.b();
        if (strB == null) {
            throw new IllegalArgumentException("Local and anonymous classes can not be ViewModels");
        }
        W wV = aVar.v(dVar, "androidx.lifecycle.ViewModelProvider.DefaultKey:".concat(strB));
        this.f3556u = wV;
        return wV;
    }

    @Override // d4.c
    public Object h(p pVar) {
        if (((Set) this.f3552q).contains(pVar)) {
            return ((d4.c) this.f3556u).h(pVar);
        }
        throw new A6.b("Attempting to request an undeclared dependency " + pVar + ".");
    }

    @Override // q1.InterfaceC1447d
    public long i(int i) {
        return ((long[]) this.f3555t)[i];
    }

    @Override // k7.InterfaceC1110b
    public y j(F f3, C c3) {
        P6.g.e(c3, "response");
        return (y) AbstractC0385z.v(E6.j.f2226q, new C0887g((i7.d) this.f3554s, null, c3, this));
    }

    @Override // q1.InterfaceC1447d
    public int k() {
        return ((long[]) this.f3555t).length;
    }

    public void m(j2.f fVar, Class cls) {
        ((ArrayList) this.f3555t).add(new A6.h(fVar, cls));
    }

    public void n(C1161a c1161a, Class cls) {
        ((ArrayList) this.f3553r).add(new A6.h(c1161a, cls));
    }

    public void o(List list, c cVar, int i, int i5) {
        cVar.f3544m = i5;
        ((a) this.f3552q).e(cVar);
        cVar.f3547p = i;
        list.add(cVar);
    }

    public void p(String str, String str2) {
        P6.g.e(str, "name");
        P6.g.e(str2, "value");
        ((N0.c) this.f3554s).f(str, str2);
    }

    public y q() {
        Map mapUnmodifiableMap;
        k7.q qVar = (k7.q) this.f3552q;
        if (qVar == null) {
            throw new IllegalStateException("url == null");
        }
        String str = (String) this.f3553r;
        k7.o oVarI = ((N0.c) this.f3554s).i();
        A a3 = (A) this.f3555t;
        LinkedHashMap linkedHashMap = (LinkedHashMap) this.f3556u;
        byte[] bArr = l7.b.f14412a;
        P6.g.e(linkedHashMap, "<this>");
        if (linkedHashMap.isEmpty()) {
            mapUnmodifiableMap = u.f1033q;
        } else {
            mapUnmodifiableMap = Collections.unmodifiableMap(new LinkedHashMap(linkedHashMap));
            P6.g.d(mapUnmodifiableMap, "{\n    Collections.unmodi…(LinkedHashMap(this))\n  }");
        }
        return new y(qVar, str, oVarI, a3, mapUnmodifiableMap);
    }

    public void r(C1111c c1111c) {
        P6.g.e(c1111c, "cacheControl");
        String string = c1111c.toString();
        if (string.length() == 0) {
            K("Cache-Control");
        } else {
            G("Cache-Control", string);
        }
    }

    /* JADX WARN: Removed duplicated region for block: B:119:0x028f  */
    /* JADX WARN: Removed duplicated region for block: B:120:0x0291  */
    /* JADX WARN: Removed duplicated region for block: B:123:0x029f  */
    /* JADX WARN: Removed duplicated region for block: B:124:0x02a1  */
    /* JADX WARN: Removed duplicated region for block: B:127:0x02ab  */
    /* JADX WARN: Removed duplicated region for block: B:130:0x02b5  */
    /* JADX WARN: Removed duplicated region for block: B:131:0x02ba  */
    /* JADX WARN: Removed duplicated region for block: B:133:0x02c0  */
    /* JADX WARN: Removed duplicated region for block: B:134:0x02c5  */
    /* JADX WARN: Removed duplicated region for block: B:137:0x02cd  */
    /* JADX WARN: Removed duplicated region for block: B:138:0x02d2  */
    /* JADX WARN: Removed duplicated region for block: B:141:0x02f2  */
    /* JADX WARN: Removed duplicated region for block: B:142:0x02f7  */
    /* JADX WARN: Removed duplicated region for block: B:144:0x02fd  */
    /* JADX WARN: Removed duplicated region for block: B:145:0x0302  */
    /* JADX WARN: Removed duplicated region for block: B:148:0x0309  */
    /* JADX WARN: Removed duplicated region for block: B:149:0x030e  */
    /* JADX WARN: Removed duplicated region for block: B:152:0x0326  */
    /* JADX WARN: Removed duplicated region for block: B:158:0x0359  */
    /* JADX WARN: Removed duplicated region for block: B:163:0x036a  */
    /* JADX WARN: Removed duplicated region for block: B:174:0x0395 A[ADDED_TO_REGION] */
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public void s(C0005f c0005f, int i, int i5, int i8, int i9, int i10, List list) {
        List list2;
        int i11;
        int iD;
        b bVar;
        int i12;
        int[] iArr;
        boolean z8;
        int i13 = i;
        a aVar = (a) this.f3552q;
        boolean zJ = aVar.j();
        int mode = View.MeasureSpec.getMode(i13);
        int size = View.MeasureSpec.getSize(i13);
        List arrayList = list == null ? new ArrayList() : list;
        c0005f.f156b = arrayList;
        boolean z9 = i10 == -1;
        int paddingStart = zJ ? aVar.getPaddingStart() : aVar.getPaddingTop();
        int paddingEnd = zJ ? aVar.getPaddingEnd() : aVar.getPaddingBottom();
        int paddingTop = zJ ? aVar.getPaddingTop() : aVar.getPaddingStart();
        int paddingBottom = zJ ? aVar.getPaddingBottom() : aVar.getPaddingEnd();
        c cVar = new c();
        int i14 = i9;
        int i15 = 1;
        cVar.f3546o = i14;
        int i16 = paddingStart + paddingEnd;
        cVar.f3537e = i16;
        int flexItemCount = aVar.getFlexItemCount();
        boolean z10 = z9;
        int i17 = Integer.MIN_VALUE;
        int iCombineMeasuredStates = 0;
        int i18 = 0;
        int i19 = 0;
        while (i14 < flexItemCount) {
            int i20 = flexItemCount;
            View viewG = aVar.g(i14);
            if (viewG == null) {
                if (i14 == i20 - 1 && cVar.a() != 0) {
                    o(arrayList, cVar, i14, i18);
                }
            } else if (viewG.getVisibility() == 8) {
                cVar.i++;
                cVar.f3540h++;
                if (i14 == i20 - 1 && cVar.a() != 0) {
                    o(arrayList, cVar, i14, i18);
                }
            } else {
                if (viewG instanceof CompoundButton) {
                    CompoundButton compoundButton = (CompoundButton) viewG;
                    b bVar2 = (b) compoundButton.getLayoutParams();
                    int iF = bVar2.f();
                    i11 = i16;
                    int iC = bVar2.c();
                    Drawable buttonDrawable = compoundButton.getButtonDrawable();
                    int minimumWidth = buttonDrawable == null ? 0 : buttonDrawable.getMinimumWidth();
                    int minimumHeight = buttonDrawable == null ? 0 : buttonDrawable.getMinimumHeight();
                    list2 = arrayList;
                    if (iF == -1) {
                        iF = minimumWidth;
                    }
                    bVar2.n(iF);
                    if (iC == -1) {
                        iC = minimumHeight;
                    }
                    bVar2.g(iC);
                } else {
                    list2 = arrayList;
                    i11 = i16;
                }
                b bVar3 = (b) viewG.getLayoutParams();
                if (bVar3.t() == 4) {
                    cVar.f3545n.add(Integer.valueOf(i14));
                }
                int iJ = zJ ? bVar3.j() : bVar3.k();
                if (bVar3.p() != -1.0f && mode == 1073741824) {
                    iJ = Math.round(bVar3.p() * size);
                }
                if (zJ) {
                    iD = aVar.i(i13, bVar3.b() + bVar3.s() + i11, iJ);
                    int iD2 = aVar.d(i5, bVar3.o() + bVar3.x() + paddingTop + paddingBottom + i18, bVar3.k());
                    viewG.measure(iD, iD2);
                    U(i14, iD, iD2, viewG);
                } else {
                    int i21 = aVar.i(i5, bVar3.b() + bVar3.s() + paddingTop + paddingBottom + i18, bVar3.j());
                    iD = aVar.d(i13, bVar3.o() + bVar3.x() + i11, iJ);
                    viewG.measure(i21, iD);
                    U(i14, i21, iD, viewG);
                }
                aVar.h(viewG, i14);
                t(viewG, i14);
                iCombineMeasuredStates = View.combineMeasuredStates(iCombineMeasuredStates, viewG.getMeasuredState());
                int i22 = cVar.f3537e;
                int measuredWidth = (zJ ? viewG.getMeasuredWidth() : viewG.getMeasuredHeight()) + (zJ ? bVar3.s() : bVar3.x()) + (zJ ? bVar3.b() : bVar3.o());
                int size2 = list2.size();
                if (aVar.getFlexWrap() != 0) {
                    if (bVar3.h()) {
                        bVar = bVar3;
                    } else {
                        if (mode != 0) {
                            bVar = bVar3;
                            int maxLine = aVar.getMaxLine();
                            if (maxLine == -1 || maxLine > size2 + 1) {
                                int iC2 = aVar.c(viewG, i14, i19);
                                if (iC2 > 0) {
                                    measuredWidth += iC2;
                                }
                                if (size < i22 + measuredWidth) {
                                }
                                cVar.f3548q |= bVar.i() == 0.0f;
                                cVar.f3549r |= bVar.u() == 0.0f;
                                iArr = (int[]) this.f3554s;
                                if (iArr != null) {
                                    iArr[i14] = arrayList.size();
                                }
                                cVar.f3537e = (!zJ ? viewG.getMeasuredWidth() : viewG.getMeasuredHeight()) + (!zJ ? bVar.s() : bVar.x()) + (!zJ ? bVar.b() : bVar.o()) + cVar.f3537e;
                                cVar.f3541j = bVar.i() + cVar.f3541j;
                                cVar.f3542k = bVar.u() + cVar.f3542k;
                                aVar.a(viewG, i14, i19, cVar);
                                int iMax = Math.max(i12, aVar.k(viewG) + (!zJ ? viewG.getMeasuredHeight() : viewG.getMeasuredWidth()) + (!zJ ? bVar.x() : bVar.s()) + (!zJ ? bVar.o() : bVar.b()));
                                cVar.f3539g = Math.max(cVar.f3539g, iMax);
                                if (zJ) {
                                    if (aVar.getFlexWrap() != 2) {
                                        cVar.f3543l = Math.max(cVar.f3543l, bVar.x() + viewG.getBaseline());
                                    } else {
                                        cVar.f3543l = Math.max(cVar.f3543l, bVar.o() + (viewG.getMeasuredHeight() - viewG.getBaseline()));
                                    }
                                }
                                if (i14 == i20 - 1 && cVar.a() != 0) {
                                    o(arrayList, cVar, i14, i18);
                                    i18 += cVar.f3539g;
                                }
                                if (i10 == -1 && arrayList.size() > 0) {
                                    i15 = 1;
                                    if (((c) arrayList.get(arrayList.size() - 1)).f3547p >= i10 && i14 >= i10 && !z10) {
                                        i18 = -cVar.f3539g;
                                        z8 = true;
                                    }
                                    if (i18 <= i8 && z8) {
                                        break;
                                    }
                                    i17 = iMax;
                                    i14++;
                                    i13 = i;
                                    z10 = z8;
                                    flexItemCount = i20;
                                } else {
                                    i15 = 1;
                                }
                                z8 = z10;
                                if (i18 <= i8) {
                                }
                                i17 = iMax;
                                i14++;
                                i13 = i;
                                z10 = z8;
                                flexItemCount = i20;
                            }
                        }
                        i16 = i11;
                        arrayList = list2;
                        cVar.f3540h += i15;
                        i19++;
                        i12 = i17;
                        cVar.f3548q |= bVar.i() == 0.0f;
                        cVar.f3549r |= bVar.u() == 0.0f;
                        iArr = (int[]) this.f3554s;
                        if (iArr != null) {
                        }
                        cVar.f3537e = (!zJ ? viewG.getMeasuredWidth() : viewG.getMeasuredHeight()) + (!zJ ? bVar.s() : bVar.x()) + (!zJ ? bVar.b() : bVar.o()) + cVar.f3537e;
                        cVar.f3541j = bVar.i() + cVar.f3541j;
                        cVar.f3542k = bVar.u() + cVar.f3542k;
                        aVar.a(viewG, i14, i19, cVar);
                        int iMax2 = Math.max(i12, aVar.k(viewG) + (!zJ ? viewG.getMeasuredHeight() : viewG.getMeasuredWidth()) + (!zJ ? bVar.x() : bVar.s()) + (!zJ ? bVar.o() : bVar.b()));
                        cVar.f3539g = Math.max(cVar.f3539g, iMax2);
                        if (zJ) {
                        }
                        if (i14 == i20 - 1) {
                            o(arrayList, cVar, i14, i18);
                            i18 += cVar.f3539g;
                        }
                        if (i10 == -1) {
                        }
                        i15 = 1;
                        z8 = z10;
                        if (i18 <= i8) {
                        }
                        i17 = iMax2;
                        i14++;
                        i13 = i;
                        z10 = z8;
                        flexItemCount = i20;
                    }
                    if (cVar.a() > 0) {
                        arrayList = list2;
                        o(arrayList, cVar, i14 > 0 ? i14 - 1 : 0, i18);
                        i18 += cVar.f3539g;
                    } else {
                        arrayList = list2;
                    }
                    if (zJ) {
                        if (bVar.k() == -1) {
                            viewG.measure(iD, aVar.d(i5, bVar.o() + bVar.x() + aVar.getPaddingBottom() + aVar.getPaddingTop() + i18, bVar.k()));
                            t(viewG, i14);
                        }
                    } else if (bVar.j() == -1) {
                        viewG.measure(aVar.i(i5, bVar.b() + bVar.s() + aVar.getPaddingRight() + aVar.getPaddingLeft() + i18, bVar.j()), iD);
                        t(viewG, i14);
                    }
                    cVar = new c();
                    cVar.f3540h = i15;
                    i16 = i11;
                    cVar.f3537e = i16;
                    cVar.f3546o = i14;
                    i12 = Integer.MIN_VALUE;
                    i19 = 0;
                    cVar.f3548q |= bVar.i() == 0.0f;
                    cVar.f3549r |= bVar.u() == 0.0f;
                    iArr = (int[]) this.f3554s;
                    if (iArr != null) {
                    }
                    cVar.f3537e = (!zJ ? viewG.getMeasuredWidth() : viewG.getMeasuredHeight()) + (!zJ ? bVar.s() : bVar.x()) + (!zJ ? bVar.b() : bVar.o()) + cVar.f3537e;
                    cVar.f3541j = bVar.i() + cVar.f3541j;
                    cVar.f3542k = bVar.u() + cVar.f3542k;
                    aVar.a(viewG, i14, i19, cVar);
                    int iMax22 = Math.max(i12, aVar.k(viewG) + (!zJ ? viewG.getMeasuredHeight() : viewG.getMeasuredWidth()) + (!zJ ? bVar.x() : bVar.s()) + (!zJ ? bVar.o() : bVar.b()));
                    cVar.f3539g = Math.max(cVar.f3539g, iMax22);
                    if (zJ) {
                    }
                    if (i14 == i20 - 1) {
                    }
                    if (i10 == -1) {
                    }
                    i15 = 1;
                    z8 = z10;
                    if (i18 <= i8) {
                    }
                    i17 = iMax22;
                    i14++;
                    i13 = i;
                    z10 = z8;
                    flexItemCount = i20;
                }
                bVar = bVar3;
                i16 = i11;
                arrayList = list2;
                cVar.f3540h += i15;
                i19++;
                i12 = i17;
                cVar.f3548q |= bVar.i() == 0.0f;
                cVar.f3549r |= bVar.u() == 0.0f;
                iArr = (int[]) this.f3554s;
                if (iArr != null) {
                }
                cVar.f3537e = (!zJ ? viewG.getMeasuredWidth() : viewG.getMeasuredHeight()) + (!zJ ? bVar.s() : bVar.x()) + (!zJ ? bVar.b() : bVar.o()) + cVar.f3537e;
                cVar.f3541j = bVar.i() + cVar.f3541j;
                cVar.f3542k = bVar.u() + cVar.f3542k;
                aVar.a(viewG, i14, i19, cVar);
                int iMax222 = Math.max(i12, aVar.k(viewG) + (!zJ ? viewG.getMeasuredHeight() : viewG.getMeasuredWidth()) + (!zJ ? bVar.x() : bVar.s()) + (!zJ ? bVar.o() : bVar.b()));
                cVar.f3539g = Math.max(cVar.f3539g, iMax222);
                if (zJ) {
                }
                if (i14 == i20 - 1) {
                }
                if (i10 == -1) {
                }
                i15 = 1;
                z8 = z10;
                if (i18 <= i8) {
                }
                i17 = iMax222;
                i14++;
                i13 = i;
                z10 = z8;
                flexItemCount = i20;
            }
            z8 = z10;
            i14++;
            i13 = i;
            z10 = z8;
            flexItemCount = i20;
        }
        c0005f.f155a = iCombineMeasuredStates;
    }

    /* JADX WARN: Removed duplicated region for block: B:12:0x002d  */
    /* JADX WARN: Removed duplicated region for block: B:13:0x0032  */
    /* JADX WARN: Removed duplicated region for block: B:18:0x0040  */
    /* JADX WARN: Removed duplicated region for block: B:20:? A[RETURN, SYNTHETIC] */
    /*
        Code decompiled incorrectly, please refer to instructions dump.
    */
    public void t(View view, int i) {
        boolean z8;
        b bVar = (b) view.getLayoutParams();
        int measuredWidth = view.getMeasuredWidth();
        int measuredHeight = view.getMeasuredHeight();
        boolean z9 = true;
        if (measuredWidth < bVar.f()) {
            measuredWidth = bVar.f();
        } else {
            if (measuredWidth <= bVar.v()) {
                z8 = false;
                if (measuredHeight >= bVar.c()) {
                    measuredHeight = bVar.c();
                } else if (measuredHeight > bVar.l()) {
                    measuredHeight = bVar.l();
                } else {
                    z9 = z8;
                }
                if (z9) {
                    return;
                }
                int iMakeMeasureSpec = View.MeasureSpec.makeMeasureSpec(measuredWidth, 1073741824);
                int iMakeMeasureSpec2 = View.MeasureSpec.makeMeasureSpec(measuredHeight, 1073741824);
                view.measure(iMakeMeasureSpec, iMakeMeasureSpec2);
                U(i, iMakeMeasureSpec, iMakeMeasureSpec2, view);
                ((a) this.f3552q).h(view, i);
                return;
            }
            measuredWidth = bVar.v();
        }
        z8 = true;
        if (measuredHeight >= bVar.c()) {
        }
        if (z9) {
        }
    }

    public void u(int i, List list) {
        int i5 = ((int[]) this.f3554s)[i];
        if (i5 == -1) {
            i5 = 0;
        }
        if (list.size() > i5) {
            list.subList(i5, list.size()).clear();
        }
        int[] iArr = (int[]) this.f3554s;
        int length = iArr.length - 1;
        if (i > length) {
            Arrays.fill(iArr, -1);
        } else {
            Arrays.fill(iArr, i, length, -1);
        }
        long[] jArr = (long[]) this.f3555t;
        int length2 = jArr.length - 1;
        if (i > length2) {
            Arrays.fill(jArr, 0L);
        } else {
            Arrays.fill(jArr, i, length2, 0L);
        }
    }

    public ArrayList w(int i) {
        ArrayList arrayList = new ArrayList(i);
        for (int i5 = 0; i5 < i; i5++) {
            b bVar = (b) ((a) this.f3552q).b(i5).getLayoutParams();
            d dVar = new d();
            dVar.f3551r = bVar.getOrder();
            dVar.f3550q = i5;
            arrayList.add(dVar);
        }
        return arrayList;
    }

    public void x(int i, int i5, int i8) {
        int mode;
        int size;
        a aVar = (a) this.f3552q;
        int flexDirection = aVar.getFlexDirection();
        if (flexDirection == 0 || flexDirection == 1) {
            mode = View.MeasureSpec.getMode(i5);
            size = View.MeasureSpec.getSize(i5);
        } else {
            if (flexDirection != 2 && flexDirection != 3) {
                throw new IllegalArgumentException(AbstractC0844a.j("Invalid flex direction: ", flexDirection));
            }
            mode = View.MeasureSpec.getMode(i);
            size = View.MeasureSpec.getSize(i);
        }
        List<c> flexLinesInternal = aVar.getFlexLinesInternal();
        if (mode == 1073741824) {
            int sumOfCrossSize = aVar.getSumOfCrossSize() + i8;
            int i9 = 0;
            if (flexLinesInternal.size() == 1) {
                ((c) flexLinesInternal.get(0)).f3539g = size - i8;
                return;
            }
            if (flexLinesInternal.size() >= 2) {
                int alignContent = aVar.getAlignContent();
                if (alignContent == 1) {
                    c cVar = new c();
                    cVar.f3539g = size - sumOfCrossSize;
                    flexLinesInternal.add(0, cVar);
                    return;
                }
                if (alignContent == 2) {
                    aVar.setFlexLines(v(size, sumOfCrossSize, flexLinesInternal));
                    return;
                }
                if (alignContent == 3) {
                    if (sumOfCrossSize >= size) {
                        return;
                    }
                    float size2 = (size - sumOfCrossSize) / (flexLinesInternal.size() - 1);
                    ArrayList arrayList = new ArrayList();
                    int size3 = flexLinesInternal.size();
                    float f3 = 0.0f;
                    while (i9 < size3) {
                        arrayList.add((c) flexLinesInternal.get(i9));
                        if (i9 != flexLinesInternal.size() - 1) {
                            c cVar2 = new c();
                            if (i9 == flexLinesInternal.size() - 2) {
                                cVar2.f3539g = Math.round(f3 + size2);
                                f3 = 0.0f;
                            } else {
                                cVar2.f3539g = Math.round(size2);
                            }
                            int i10 = cVar2.f3539g;
                            float f7 = (size2 - i10) + f3;
                            if (f7 > 1.0f) {
                                cVar2.f3539g = i10 + 1;
                                f7 -= 1.0f;
                            } else if (f7 < -1.0f) {
                                cVar2.f3539g = i10 - 1;
                                f7 += 1.0f;
                            }
                            f3 = f7;
                            arrayList.add(cVar2);
                        }
                        i9++;
                    }
                    aVar.setFlexLines(arrayList);
                    return;
                }
                if (alignContent == 4) {
                    if (sumOfCrossSize >= size) {
                        aVar.setFlexLines(v(size, sumOfCrossSize, flexLinesInternal));
                        return;
                    }
                    int size4 = (size - sumOfCrossSize) / (flexLinesInternal.size() * 2);
                    ArrayList arrayList2 = new ArrayList();
                    c cVar3 = new c();
                    cVar3.f3539g = size4;
                    for (c cVar4 : flexLinesInternal) {
                        arrayList2.add(cVar3);
                        arrayList2.add(cVar4);
                        arrayList2.add(cVar3);
                    }
                    aVar.setFlexLines(arrayList2);
                    return;
                }
                if (alignContent == 5 && sumOfCrossSize < size) {
                    float size5 = (size - sumOfCrossSize) / flexLinesInternal.size();
                    int size6 = flexLinesInternal.size();
                    float f8 = 0.0f;
                    while (i9 < size6) {
                        c cVar5 = (c) flexLinesInternal.get(i9);
                        float f9 = cVar5.f3539g + size5;
                        if (i9 == flexLinesInternal.size() - 1) {
                            f9 += f8;
                            f8 = 0.0f;
                        }
                        int iRound = Math.round(f9);
                        float f10 = (f9 - iRound) + f8;
                        if (f10 > 1.0f) {
                            iRound++;
                            f10 -= 1.0f;
                        } else if (f10 < -1.0f) {
                            iRound--;
                            f10 += 1.0f;
                        }
                        f8 = f10;
                        cVar5.f3539g = iRound;
                        i9++;
                    }
                }
            }
        }
    }

    public void y(int i, int i5, int i8) {
        int size;
        int paddingLeft;
        int paddingRight;
        int i9;
        int i10;
        a aVar = (a) this.f3552q;
        int flexItemCount = aVar.getFlexItemCount();
        boolean[] zArr = (boolean[]) this.f3553r;
        if (zArr == null) {
            this.f3553r = new boolean[Math.max(flexItemCount, 10)];
        } else if (zArr.length < flexItemCount) {
            this.f3553r = new boolean[Math.max(zArr.length * 2, flexItemCount)];
        } else {
            Arrays.fill(zArr, false);
        }
        if (i8 >= aVar.getFlexItemCount()) {
            return;
        }
        int flexDirection = aVar.getFlexDirection();
        int flexDirection2 = aVar.getFlexDirection();
        if (flexDirection2 == 0 || flexDirection2 == 1) {
            int mode = View.MeasureSpec.getMode(i);
            size = View.MeasureSpec.getSize(i);
            int largestMainSize = aVar.getLargestMainSize();
            if (mode != 1073741824) {
                size = Math.min(largestMainSize, size);
            }
            paddingLeft = aVar.getPaddingLeft();
            paddingRight = aVar.getPaddingRight();
        } else {
            if (flexDirection2 != 2 && flexDirection2 != 3) {
                throw new IllegalArgumentException(AbstractC0844a.j("Invalid flex direction: ", flexDirection));
            }
            int mode2 = View.MeasureSpec.getMode(i5);
            size = View.MeasureSpec.getSize(i5);
            if (mode2 != 1073741824) {
                size = aVar.getLargestMainSize();
            }
            paddingLeft = aVar.getPaddingTop();
            paddingRight = aVar.getPaddingBottom();
        }
        int i11 = paddingRight + paddingLeft;
        int i12 = size;
        int[] iArr = (int[]) this.f3554s;
        int i13 = iArr != null ? iArr[i8] : 0;
        List flexLinesInternal = aVar.getFlexLinesInternal();
        int size2 = flexLinesInternal.size();
        while (i13 < size2) {
            c cVar = (c) flexLinesInternal.get(i13);
            int i14 = cVar.f3537e;
            if (i14 >= i12 || !cVar.f3548q) {
                i9 = i;
                i10 = i5;
                if (i14 > i12 && cVar.f3549r) {
                    O(i9, i10, cVar, i12, i11, false);
                }
            } else {
                i9 = i;
                i10 = i5;
                C(i9, i10, cVar, i12, i11, false);
            }
            i13++;
            i = i9;
            i5 = i10;
        }
    }

    public void z(int i) {
        int[] iArr = (int[]) this.f3554s;
        if (iArr == null) {
            this.f3554s = new int[Math.max(i, 10)];
        } else if (iArr.length < i) {
            this.f3554s = Arrays.copyOf((int[]) this.f3554s, Math.max(iArr.length * 2, i));
        }
    }

    /* JADX WARN: Multi-variable type inference failed */
    public e(P6.d dVar, O6.a aVar, O6.a aVar2, O6.a aVar3) {
        this.f3552q = dVar;
        this.f3553r = (P6.h) aVar;
        this.f3554s = aVar2;
        this.f3555t = (P6.h) aVar3;
    }

    public e(C1697c c1697c, HashMap map, HashMap map2, HashMap map3) {
        this.f3552q = c1697c;
        this.f3554s = map2;
        this.f3556u = map3;
        this.f3553r = Collections.unmodifiableMap(map);
        TreeSet treeSet = new TreeSet();
        int i = 0;
        c1697c.d(treeSet, false);
        long[] jArr = new long[treeSet.size()];
        Iterator it = treeSet.iterator();
        while (it.hasNext()) {
            jArr[i] = ((Long) it.next()).longValue();
            i++;
        }
        this.f3555t = jArr;
    }

    public e(a aVar) {
        this.f3552q = aVar;
    }

    public e() {
        this.f3556u = new LinkedHashMap();
        this.f3553r = "GET";
        this.f3554s = new N0.c(1);
    }
}
