Proxy Master v3.4.9版本的 MD5 值为:14d0aa2468d13530c8f6e96bcc114bf5
以下内容为反编译后的 b.java 源代码,内容仅作参考
package a;
import android.content.Context;
import android.graphics.drawable.ColorDrawable;
import android.graphics.drawable.Drawable;
import android.os.Handler;
import android.os.Looper;
import android.text.TextUtils;
import android.view.View;
import android.webkit.WebView;
import androidx.lifecycle.runtime.R$id;
import androidx.lifecycle.s;
import com.google.android.exoplayer2.PlaybackException;
import com.google.android.exoplayer2.extractor.ts.TsExtractor;
import com.google.android.exoplayer2.upstream.CmcdHeadersFactory;
import com.hotspot.vpn.tls.TlsPlusManager;
import df.g;
import df.w;
import h5.d;
import j3.h;
import java.io.ByteArrayOutputStream;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.Reader;
import java.io.StringWriter;
import java.lang.reflect.Array;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.Proxy;
import java.net.ProxySelector;
import java.net.URL;
import java.net.URLEncoder;
import java.nio.charset.StandardCharsets;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.CancellationException;
import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;
import ke.i;
import kotlin.jvm.internal.f0;
import kotlin.jvm.internal.k;
import lc.m;
import le.a1;
import le.c1;
import le.e0;
import le.f1;
import le.i1;
import le.k1;
import le.n1;
import le.r1;
import le.s0;
import le.t1;
import le.u1;
import le.y;
import le.y0;
import mc.l;
import mc.p;
import mc.q;
import me.b;
import n7.e;
import org.apache.commons.net.telnet.TelnetCommand;
import org.chromium.support_lib_boundary.WebViewProviderBoundaryInterface;
import org.chromium.support_lib_boundary.WebkitToCompatConverterBoundaryInterface;
import pc.m0;
import qc.f;
import re.v;
import sb.j;
import tb.a0;
import tb.b0;
import tb.i0;
import tb.o;
import tb.u;
import te.a;
import u1.t;
import vc.c0;
import vc.x0;
import ve.r;
import ye.e2;
import ye.g0;
import ye.h1;
import ye.p0;
import ye.r0;
import ye.w0;
import ye.x;
import ye.z;
import ye.z1;
public class b implements h, i3.c, a.c, fg.b, qa.b, t, d {
public static b f6b;
public static final p.d f7c = new p.d("NULL", 6);
public static final p.d f8d = new p.d("CLOSED", 6);
public static final p.d f9e = new p.d("UNDEFINED", 6);
public static final p.d f10f = new p.d("REUSABLE_CLAIMED", 6);
public static final b f11g = new b();
public static final b f12h = new b();
public static final Object[] f13i = new Object[0];
public static final int[] f14j = {1, 5, 9, 13, 17, 25, 33, 41, 49, 65, 81, 97, 113, 145, 177, 209, TelnetCommand.NOP, 305, 369, 497, 753, 1265, 2289, 4337, 8433, 16625};
public static final int[] f15k = {2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 6, 6, 7, 8, 9, 10, 11, 12, 13, 24};
public static final int[] f16l = {0, 1, 2, 3, 4, 5, 6, 8, 10, 14, 18, 26, 34, 50, 66, 98, TsExtractor.TS_STREAM_TYPE_HDMV_DTS, 194, 322, 578, 1090, 2114, 6210, 22594};
public static final int[] f17m = {0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 8, 9, 10, 12, 14, 24};
public static final int[] f18n = {2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 18, 22, 30, 38, 54, 70, 102, TsExtractor.TS_STREAM_TYPE_SPLICE_INFO, 198, 326, 582, 1094, 2118};
public static final int[] f19o = {0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 7, 8, 9, 10, 24};
public static final int[] f20p = {0, 0, 8, 8, 0, 16, 8, 16, 16};
public static final int[] f21q = {0, 8, 0, 8, 16, 0, 16, 8, 16};
public static final String[] f22r = new String[0];
public b() {
}
public b(int i10) {
}
public static final int A(f fVar) {
k.e(fVar, "<this>");
return fVar.a().size();
}
public static final sc.k B(e0 e0Var) {
k.e(e0Var, "<this>");
sc.k j10 = e0Var.H0().j();
k.d(j10, "getBuiltIns(...)");
return j10;
}
public static ArrayList C(String str) {
ArrayList arrayList = new ArrayList();
ArrayList c10 = s7.a.c();
ArrayList e10 = s7.a.e();
Iterator it = c10.iterator();
while (it.hasNext()) {
String str2 = (String) it.next();
Iterator it2 = e10.iterator();
while (it2.hasNext()) {
String str3 = (String) it2.next();
String b6 = s7.a.b(str2, str3, str);
if (!TextUtils.isEmpty(b6) && !TextUtils.isEmpty(str2)) {
arrayList.add(new x7.a(b6, str2, str3, true, 30L));
}
}
}
return arrayList;
}
public static ArrayList D(String str) {
ArrayList arrayList = new ArrayList();
ArrayList h10 = s7.a.h();
ArrayList e10 = s7.a.e();
Iterator it = h10.iterator();
while (it.hasNext()) {
String str2 = (String) it.next();
Iterator it2 = e10.iterator();
while (it2.hasNext()) {
String str3 = (String) it2.next();
String b6 = s7.a.b(str2, str3, str);
if (!TextUtils.isEmpty(b6) && !TextUtils.isEmpty(str2)) {
arrayList.add(new x7.a(b6, str2, str3, true, 30L));
}
}
}
return arrayList;
}
public static Proxy E(URL url) {
System.setProperty("java.net.useSystemProxies", "true");
List<Proxy> select = ProxySelector.getDefault().select(url.toURI());
if (select != null) {
for (Proxy proxy : select) {
if (proxy.address() != null) {
return proxy;
}
}
return null;
}
return null;
}
public static ArrayList F() {
String d10 = s7.a.d();
ArrayList arrayList = new ArrayList();
ArrayList arrayList2 = new ArrayList();
ArrayList e10 = e.e();
if (!e10.isEmpty() && e10.size() > 1) {
String j10 = s7.a.j();
for (String str : e10.subList(1, e10.size())) {
arrayList2.add(a.o("https://raw.githubusercontent.com/", str, "/main/conf/super4_v3_", j10, ".png"));
}
}
Iterator it = arrayList2.iterator();
while (it.hasNext()) {
String str2 = (String) it.next();
if (!TextUtils.isEmpty(str2) && !TextUtils.isEmpty("https://raw.githubusercontent.com")) {
arrayList.add(new x7.a(str2, "https://raw.githubusercontent.com", d10, false, 30L));
}
}
return arrayList;
}
public static final mc.d G(mc.e eVar) {
vc.e eVar2;
boolean z6;
if (eVar instanceof mc.d) {
return (mc.d) eVar;
}
if (!(eVar instanceof q)) {
throw new fc.a("Cannot calculate JVM erasure for type: " + eVar, 1);
}
List<p> upperBounds = ((q) eVar).getUpperBounds();
Iterator<T> it = upperBounds.iterator();
while (true) {
if (!it.hasNext()) {
break;
}
Object next = it.next();
p pVar = (p) next;
k.c(pVar, "null cannot be cast to non-null type kotlin.reflect.jvm.internal.KTypeImpl");
vc.h k8 = ((m0) pVar).f29572b.H0().k();
eVar2 = k8 instanceof vc.e ? (vc.e) k8 : null;
if (eVar2 == null || eVar2.getKind() == vc.f.f35627c || eVar2.getKind() == vc.f.f35630f) {
z6 = false;
continue;
} else {
z6 = true;
continue;
}
if (z6) {
eVar2 = next;
break;
}
}
p pVar2 = (p) eVar2;
if (pVar2 == null) {
pVar2 = (p) u.q2(upperBounds);
}
return pVar2 != null ? H(pVar2) : f0.a(Object.class);
}
public static final mc.d H(p pVar) {
mc.d G;
k.e(pVar, "<this>");
mc.e c10 = pVar.c();
if (c10 == null || (G = G(c10)) == null) {
throw new fc.a("Cannot calculate JVM erasure for type: " + pVar, 1);
}
return G;
}
public static x7.a I(String str) {
String e10 = o7.a.e("last_success_data_api_2319");
String d10 = s7.a.d();
String b6 = s7.a.b(e10, d10, str);
if (TextUtils.isEmpty(b6) || TextUtils.isEmpty(e10)) {
return null;
}
return new x7.a(b6, e10, d10, true, 30L);
}
public static final e0 J(x0 x0Var) {
vc.e eVar;
boolean z6;
List<e0> upperBounds = x0Var.getUpperBounds();
k.d(upperBounds, "getUpperBounds(...)");
upperBounds.isEmpty();
List<e0> upperBounds2 = x0Var.getUpperBounds();
k.d(upperBounds2, "getUpperBounds(...)");
Iterator<T> it = upperBounds2.iterator();
while (true) {
if (!it.hasNext()) {
break;
}
Object next = it.next();
vc.h k8 = ((e0) next).H0().k();
eVar = k8 instanceof vc.e ? (vc.e) k8 : null;
if (eVar == null || eVar.getKind() == vc.f.f35627c || eVar.getKind() == vc.f.f35630f) {
z6 = false;
continue;
} else {
z6 = true;
continue;
}
if (z6) {
eVar = next;
break;
}
}
e0 e0Var = (e0) eVar;
if (e0Var == null) {
List<e0> upperBounds3 = x0Var.getUpperBounds();
k.d(upperBounds3, "getUpperBounds(...)");
Object o22 = u.o2(upperBounds3);
k.d(o22, "first(...)");
return (e0) o22;
}
return e0Var;
}
public static final vc.h K(vc.k kVar) {
k.e(kVar, "<this>");
vc.k b6 = kVar.b();
if (b6 == null || (kVar instanceof vc.f0)) {
return null;
}
if (b6.b() instanceof vc.f0) {
if (b6 instanceof vc.h) {
return (vc.h) b6;
}
return null;
}
return K(b6);
}
public static final Object L(i iVar, l p10) {
k.e(iVar, "<this>");
k.e(p10, "p");
return iVar.invoke();
}
public static final boolean M(x0 typeParameter, c1 c1Var, Set set) {
boolean z6;
k.e(typeParameter, "typeParameter");
List<e0> upperBounds = typeParameter.getUpperBounds();
k.d(upperBounds, "getUpperBounds(...)");
List<e0> list = upperBounds;
if ((list instanceof Collection) && list.isEmpty()) {
return false;
}
for (e0 e0Var : list) {
k.b(e0Var);
if (p(e0Var, typeParameter.l().H0(), set) && (c1Var == null || k.a(e0Var.H0(), c1Var))) {
z6 = true;
continue;
} else {
z6 = false;
continue;
}
if (z6) {
return true;
}
}
return false;
}
public static void N(String str, Object... objArr) {
SimpleDateFormat simpleDateFormat = e.f28649f;
y7.b.d(str);
}
public static final long O(long j10) {
if (j10 < 0) {
int i10 = xe.b.f36648e;
return xe.b.f36647d;
}
int i11 = xe.b.f36648e;
return xe.b.f36646c;
}
public static final boolean P(e0 e0Var) {
k.e(e0Var, "<this>");
t1 K0 = e0Var.K0();
return (K0 instanceof ne.h) || ((K0 instanceof y) && (((y) K0).O0() instanceof ne.h));
}
public static final boolean Q(vc.m0 m0Var) {
k.e(m0Var, "<this>");
return m0Var.getGetter() == null;
}
public static final boolean R(e0 e0Var, e0 superType) {
k.e(superType, "superType");
return me.d.f28403a.d(e0Var, superType);
}
public static final t1 S(e0 e0Var) {
k.e(e0Var, "<this>");
return r1.j(e0Var, true);
}
public static final Set T(Object... objArr) {
LinkedHashSet linkedHashSet = new LinkedHashSet(tb.f0.M0(objArr.length));
tb.l.u2(linkedHashSet, objArr);
return linkedHashSet;
}
public static final void U(wb.d frame) {
k.e(frame, "frame");
}
public static final byte[] V(InputStream inputStream) {
ByteArrayOutputStream byteArrayOutputStream = new ByteArrayOutputStream(Math.max(8192, inputStream.available()));
q(inputStream, byteArrayOutputStream, 8192);
byte[] byteArray = byteArrayOutputStream.toByteArray();
k.d(byteArray, "toByteArray(...)");
return byteArray;
}
public static final String W(Reader reader) {
StringWriter stringWriter = new StringWriter();
char[] cArr = new char[8192];
int read = reader.read(cArr);
while (read >= 0) {
stringWriter.write(cArr, 0, read);
read = reader.read(cArr);
}
String stringWriter2 = stringWriter.toString();
k.d(stringWriter2, "toString(...)");
return stringWriter2;
}
public static final e0 X(e0 e0Var, wc.h hVar) {
return (e0Var.getAnnotations().isEmpty() && hVar.isEmpty()) ? e0Var : e0Var.K0().N0(Y(e0Var.G0(), hVar));
}
public static final a1 Y(a1 a1Var, wc.h hVar) {
a1 a1Var2;
k.e(a1Var, "<this>");
if (le.l.a(a1Var) == hVar) {
return a1Var;
}
le.k kVar = (le.k) le.l.f27952b.getValue(a1Var, le.l.f27951a[0]);
if (kVar != null) {
if (!a1Var.isEmpty()) {
Iterable iterable = a1Var.f30725b;
ArrayList arrayList = new ArrayList();
for (Object obj : iterable) {
if (!k.a((y0) obj, kVar)) {
arrayList.add(obj);
}
}
if (arrayList.size() != a1Var.f30725b.b()) {
a1.f27879c.getClass();
a1Var2 = a1.a.a(arrayList);
if (a1Var2 != null) {
a1Var = a1Var2;
}
}
}
a1Var2 = a1Var;
if (a1Var2 != null) {
}
}
if (hVar.iterator().hasNext() || !hVar.isEmpty()) {
le.k kVar2 = new le.k(hVar);
mc.d<? extends le.k> kClass = kVar2.b();
a1.a aVar = a1.f27879c;
aVar.getClass();
k.e(kClass, "kClass");
String j10 = kClass.j();
k.b(j10);
return a1Var.f30725b.get(aVar.b(aVar.f30783a, j10, new v(aVar))) != null ? a1Var : a1Var.isEmpty() ? new a1(ad.h.Y0(kVar2)) : a1.a.a(u.C2(u.N2(a1Var), kVar2));
}
return a1Var;
}
public static final t1 Z(e0 e0Var) {
le.m0 m0Var;
k.e(e0Var, "<this>");
t1 K0 = e0Var.K0();
if (K0 instanceof y) {
y yVar = (y) K0;
le.m0 m0Var2 = yVar.f28006c;
if (!m0Var2.H0().getParameters().isEmpty() && m0Var2.H0().k() != null) {
List<x0> parameters = m0Var2.H0().getParameters();
k.d(parameters, "getParameters(...)");
List<x0> list = parameters;
ArrayList arrayList = new ArrayList(o.V1(list, 10));
for (x0 x0Var : list) {
arrayList.add(new s0(x0Var));
}
m0Var2 = n1.d(m0Var2, arrayList, null, 2);
}
le.m0 m0Var3 = yVar.f28007d;
if (!m0Var3.H0().getParameters().isEmpty() && m0Var3.H0().k() != null) {
List<x0> parameters2 = m0Var3.H0().getParameters();
k.d(parameters2, "getParameters(...)");
List<x0> list2 = parameters2;
ArrayList arrayList2 = new ArrayList(o.V1(list2, 10));
for (x0 x0Var2 : list2) {
arrayList2.add(new s0(x0Var2));
}
m0Var3 = n1.d(m0Var3, arrayList2, null, 2);
}
m0Var = le.f0.c(m0Var2, m0Var3);
} else if (!(K0 instanceof le.m0)) {
throw new sb.i();
} else {
le.m0 m0Var4 = (le.m0) K0;
boolean isEmpty = m0Var4.H0().getParameters().isEmpty();
m0Var = m0Var4;
if (!isEmpty) {
vc.h k8 = m0Var4.H0().k();
m0Var = m0Var4;
if (k8 != null) {
List<x0> parameters3 = m0Var4.H0().getParameters();
k.d(parameters3, "getParameters(...)");
List<x0> list3 = parameters3;
ArrayList arrayList3 = new ArrayList(o.V1(list3, 10));
for (x0 x0Var3 : list3) {
arrayList3.add(new s0(x0Var3));
}
m0Var = n1.d(m0Var4, arrayList3, null, 2);
}
}
}
return ad.h.M0(m0Var, K0);
}
public static final hd.e a0(y3.k kVar, ld.d annotationsOwner) {
k.e(kVar, "<this>");
k.e(annotationsOwner, "annotationsOwner");
return new hd.e(kVar, annotationsOwner, false);
}
public static final vc.e b0(c0 c0Var, ud.c fqName) {
vc.h hVar;
ee.i Q;
dd.c cVar = dd.c.f21640b;
k.e(c0Var, "<this>");
k.e(fqName, "fqName");
if (fqName.d()) {
return null;
}
ud.c e10 = fqName.e();
k.d(e10, "parent(...)");
ee.i k8 = c0Var.E(e10).k();
ud.f f10 = fqName.f();
k.d(f10, "shortName(...)");
vc.h f11 = k8.f(f10, cVar);
vc.e eVar = f11 instanceof vc.e ? (vc.e) f11 : null;
if (eVar != null) {
return eVar;
}
ud.c e11 = fqName.e();
k.d(e11, "parent(...)");
vc.e b02 = b0(c0Var, e11);
if (b02 == null || (Q = b02.Q()) == null) {
hVar = null;
} else {
ud.f f12 = fqName.f();
k.d(f12, "shortName(...)");
hVar = Q.f(f12, cVar);
}
if (hVar instanceof vc.e) {
return (vc.e) hVar;
}
return null;
}
public static final void c0(p0 p0Var, wb.d dVar, boolean z6) {
Object i10 = p0Var.i();
Throwable d10 = p0Var.d(i10);
Object a8 = d10 != null ? sb.l.a(d10) : p0Var.f(i10);
if (!z6) {
dVar.resumeWith(a8);
return;
}
k.c(dVar, "null cannot be cast to non-null type kotlinx.coroutines.internal.DispatchedContinuation<T of kotlinx.coroutines.DispatchedTaskKt.resume>");
g gVar = (g) dVar;
wb.d<T> dVar2 = gVar.f21914f;
wb.f context = dVar2.getContext();
Object c10 = w.c(context, gVar.f21916h);
e2<?> c11 = c10 != w.f21949a ? x.c(dVar2, context, c10) : null;
try {
gVar.f21914f.resumeWith(a8);
sb.x xVar = sb.x.f31049a;
} finally {
if (c11 == null || c11.q0()) {
w.a(context, c10);
}
}
}
public static final void d0(wb.d dVar, Object obj, gc.l lVar) {
if (!(dVar instanceof g)) {
dVar.resumeWith(obj);
return;
}
g gVar = (g) dVar;
Throwable a8 = sb.k.a(obj);
boolean z6 = false;
Object uVar = a8 == null ? lVar != null ? new ye.u(obj, lVar) : obj : new ye.t(false, a8);
wb.d<T> dVar2 = gVar.f21914f;
gVar.getContext();
z zVar = gVar.f21913e;
if (zVar.x()) {
gVar.f21915g = uVar;
gVar.f37276d = 1;
zVar.q(gVar.getContext(), gVar);
return;
}
w0 a10 = z1.a();
if (a10.f37298c >= 4294967296L) {
gVar.f21915g = uVar;
gVar.f37276d = 1;
tb.h<p0<?>> hVar = a10.f37300e;
if (hVar == null) {
hVar = new tb.h<>();
a10.f37300e = hVar;
}
hVar.addLast(gVar);
return;
}
a10.B(true);
try {
h1 h1Var = (h1) gVar.getContext().get(h1.b.f37242b);
if (h1Var != null && !h1Var.isActive()) {
CancellationException f10 = h1Var.f();
gVar.a(uVar, f10);
gVar.resumeWith(sb.l.a(f10));
z6 = true;
}
if (!z6) {
Object obj2 = gVar.f21916h;
wb.f context = dVar2.getContext();
Object c10 = w.c(context, obj2);
e2<?> c11 = c10 != w.f21949a ? x.c(dVar2, context, c10) : null;
dVar2.resumeWith(obj);
sb.x xVar = sb.x.f31049a;
if (c11 == null || c11.q0()) {
w.a(context, c10);
}
}
do {
} while (a10.E());
} finally {
try {
} finally {
}
}
}
public static void e0(Runnable runnable) {
new Handler(Looper.getMainLooper()).postDelayed(runnable, 0L);
}
public static final long f0(long j10, long j11, xe.d dVar) {
long j12 = j10 - j11;
if (((j12 ^ j10) & (~(j12 ^ j11))) < 0) {
xe.d dVar2 = xe.d.f36652d;
if (dVar.compareTo(dVar2) < 0) {
long F = androidx.activity.z.F(1L, dVar2, dVar);
long j13 = (j10 % F) - (j11 % F);
int i10 = xe.b.f36648e;
long H0 = androidx.activity.z.H0((j10 / F) - (j11 / F), dVar2);
long H02 = androidx.activity.z.H0(j13, dVar);
if (xe.b.f(H0)) {
if ((!xe.b.f(H02)) || (H02 ^ H0) >= 0) {
return H0;
}
throw new IllegalArgumentException("Summing infinite durations of different signs yields an undefined result.");
}
if (!xe.b.f(H02)) {
int i11 = ((int) H0) & 1;
if (i11 == (((int) H02) & 1)) {
long j14 = (H0 >> 1) + (H02 >> 1);
if (i11 == 0) {
if (new lc.l(-4611686018426999999L, 4611686018426999999L).b(j14)) {
H02 = j14 << 1;
int i12 = xe.c.f36650a;
} else {
H02 = androidx.activity.z.L(j14 / ((long) PlaybackException.CUSTOM_ERROR_CODE_BASE));
}
} else if (new lc.l(-4611686018426L, 4611686018426L).b(j14)) {
H02 = (j14 * ((long) PlaybackException.CUSTOM_ERROR_CODE_BASE)) << 1;
int i13 = xe.c.f36650a;
} else {
H02 = androidx.activity.z.L(m.t0(j14, -4611686018427387903L, 4611686018427387903L));
}
} else {
H02 = i11 == 1 ? xe.b.a(H0 >> 1, H02 >> 1) : xe.b.a(H02 >> 1, H0 >> 1);
}
}
return H02;
}
return xe.b.i(O(j12));
}
return androidx.activity.z.H0(j12, dVar);
}
public static final Object g0(Set set, Enum r22, Enum r32, Object obj, boolean z6) {
if (!z6) {
if (obj != null) {
set = u.R2(i0.s0(set, obj));
}
return u.G2(set);
}
Enum r12 = set.contains(r22) ? r22 : set.contains(r32) ? r32 : null;
if (k.a(r12, r22) && k.a(obj, r32)) {
return null;
}
return obj == null ? r12 : obj;
}
public static void h(int i10) {
Object[] objArr = new Object[3];
switch (i10) {
case 1:
case 4:
objArr[0] = "b";
break;
case 2:
case 7:
objArr[0] = "typeCheckingProcedure";
break;
case 3:
default:
objArr[0] = CmcdHeadersFactory.OBJECT_TYPE_AUDIO_ONLY;
break;
case 5:
case 10:
objArr[0] = "subtype";
break;
case 6:
case 11:
objArr[0] = "supertype";
break;
case 8:
objArr[0] = "type";
break;
case 9:
objArr[0] = "typeProjection";
break;
}
objArr[1] = "kotlin/reflect/jvm/internal/impl/types/checker/TypeCheckerProcedureCallbacksImpl";
switch (i10) {
case 3:
case 4:
objArr[2] = "assertEqualTypeConstructors";
break;
case 5:
case 6:
case 7:
objArr[2] = "assertSubtype";
break;
case 8:
case 9:
objArr[2] = "capture";
break;
case 10:
case 11:
objArr[2] = "noCorrespondingSupertype";
break;
default:
objArr[2] = "assertEqualTypes";
break;
}
throw new IllegalArgumentException(String.format("Argument for @NotNull parameter '%s' of %s.%s must not be null", objArr));
}
public static final void h0(View view, s sVar) {
k.e(view, "<this>");
view.setTag(R$id.view_tree_lifecycle_owner, sVar);
}
public static final k1 i(e0 e0Var) {
k.e(e0Var, "<this>");
return new k1(e0Var);
}
public static void i0(androidx.constraintlayout.widget.a aVar, View view, float[] fArr) {
Class<?> cls = view.getClass();
String str = "set" + aVar.f1771b;
try {
boolean z6 = true;
switch (o.h.c(aVar.f1772c)) {
case 0:
cls.getMethod(str, Integer.TYPE).invoke(view, Integer.valueOf((int) fArr[0]));
return;
case 1:
cls.getMethod(str, Float.TYPE).invoke(view, Float.valueOf(fArr[0]));
return;
case 2:
cls.getMethod(str, Integer.TYPE).invoke(view, Integer.valueOf((m((int) (fArr[3] * 255.0f)) << 24) | (m((int) (((float) Math.pow(fArr[0], 0.45454545454545453d)) * 255.0f)) << 16) | (m((int) (((float) Math.pow(fArr[1], 0.45454545454545453d)) * 255.0f)) << 8) | m((int) (((float) Math.pow(fArr[2], 0.45454545454545453d)) * 255.0f))));
return;
case 3:
Method method = cls.getMethod(str, Drawable.class);
int m10 = m((int) (((float) Math.pow(fArr[0], 0.45454545454545453d)) * 255.0f));
int m11 = m((int) (((float) Math.pow(fArr[1], 0.45454545454545453d)) * 255.0f));
int m12 = m((int) (((float) Math.pow(fArr[2], 0.45454545454545453d)) * 255.0f));
ColorDrawable colorDrawable = new ColorDrawable();
colorDrawable.setColor((m((int) (fArr[3] * 255.0f)) << 24) | (m10 << 16) | (m11 << 8) | m12);
method.invoke(view, colorDrawable);
return;
case 4:
throw new RuntimeException("unable to interpolate strings " + aVar.f1771b);
case 5:
Method method2 = cls.getMethod(str, Boolean.TYPE);
Object[] objArr = new Object[1];
if (fArr[0] <= 0.5f) {
z6 = false;
}
objArr[0] = Boolean.valueOf(z6);
method2.invoke(view, objArr);
return;
case 6:
cls.getMethod(str, Float.TYPE).invoke(view, Float.valueOf(fArr[0]));
return;
default:
return;
}
} catch (IllegalAccessException e10) {
t.a.d(view);
e10.printStackTrace();
} catch (NoSuchMethodException e11) {
t.a.d(view);
e11.printStackTrace();
} catch (InvocationTargetException e12) {
e12.printStackTrace();
}
}
public static final String j(Number from, Number until) {
k.e(from, "from");
k.e(until, "until");
return "Random range is empty: [" + from + ", " + until + ").";
}
public static final Set j0(Object obj) {
Set singleton = Collections.singleton(obj);
k.d(singleton, "singleton(...)");
return singleton;
}
public static void k(Object obj, Class cls) {
if (obj != null) {
return;
}
throw new IllegalStateException(cls.getCanonicalName() + " must be set");
}
public static final Set k0(Object... objArr) {
return objArr.length > 0 ? tb.l.x2(objArr) : tb.y.f34923b;
}
public static void l(Object obj) {
if (obj == null) {
throw new NullPointerException("Cannot return null from a non-@Nullable @Provides method");
}
}
public static final String l0(vc.e classDescriptor, String jvmDescriptor) {
String internalName;
k.e(classDescriptor, "classDescriptor");
k.e(jvmDescriptor, "jvmDescriptor");
String str = uc.c.f35403a;
ud.d i10 = be.b.g(classDescriptor).i();
k.d(i10, "toUnsafe(...)");
ud.b g10 = uc.c.g(i10);
if (g10 != null) {
internalName = ce.b.b(g10).e();
k.d(internalName, "getInternalName(...)");
} else {
internalName = ad.h.S(classDescriptor, g0.f37221g);
}
k.e(internalName, "internalName");
return internalName + '.' + jvmDescriptor;
}
public static int m(int i10) {
int i11 = (i10 & (~(i10 >> 31))) - 255;
return (i11 & (i11 >> 31)) + 255;
}
public static final j m0(String str, String str2) {
return new j(str, str2);
}
public static final oe.h n(oe.h hVar, HashSet hashSet) {
oe.h n10;
me.p pVar = me.p.f28429a;
c1 g02 = pVar.g0(hVar);
if (hashSet.add(g02)) {
x0 w8 = b.a.w(g02);
if (w8 != null) {
e0 t10 = b.a.t(w8);
n10 = n(t10, hashSet);
if (n10 == null) {
return null;
}
boolean z6 = b.a.J(pVar.g0(t10)) || ((t10 instanceof oe.i) && b.a.P((oe.i) t10));
if ((n10 instanceof oe.i) && b.a.P((oe.i) n10) && b.a.O(hVar) && z6) {
return pVar.n0(t10);
}
if (!b.a.O(n10) && pVar.m0(hVar)) {
return pVar.n0(n10);
}
} else if (!b.a.J(g02)) {
return hVar;
} else {
le.m0 x8 = b.a.x(hVar);
if (x8 == null || (n10 = n(x8, hashSet)) == null) {
return null;
}
if (b.a.O(hVar)) {
return b.a.O(n10) ? hVar : ((n10 instanceof oe.i) && b.a.P((oe.i) n10)) ? hVar : pVar.n0(n10);
}
}
return n10;
}
return null;
}
public static final Object[] n0(Collection collection) {
k.e(collection, "collection");
int size = collection.size();
Object[] objArr = f13i;
if (size == 0) {
return objArr;
}
Iterator it = collection.iterator();
if (!it.hasNext()) {
return objArr;
}
Object[] objArr2 = new Object[size];
int i10 = 0;
while (true) {
int i11 = i10 + 1;
objArr2[i10] = it.next();
if (i11 >= objArr2.length) {
if (!it.hasNext()) {
return objArr2;
}
int i12 = ((i11 * 3) + 1) >>> 1;
if (i12 <= i11) {
i12 = 2147483645;
if (i11 >= 2147483645) {
throw new OutOfMemoryError();
}
}
objArr2 = Arrays.copyOf(objArr2, i12);
k.d(objArr2, "copyOf(...)");
} else if (!it.hasNext()) {
Object[] copyOf = Arrays.copyOf(objArr2, i11);
k.d(copyOf, "copyOf(...)");
return copyOf;
}
i10 = i11;
}
}
public static final Object[] o0(Collection collection, Object[] objArr) {
Object[] objArr2;
k.e(collection, "collection");
objArr.getClass();
int size = collection.size();
int i10 = 0;
if (size == 0) {
if (objArr.length > 0) {
objArr[0] = null;
return objArr;
}
return objArr;
}
Iterator it = collection.iterator();
if (!it.hasNext()) {
if (objArr.length > 0) {
objArr[0] = null;
return objArr;
}
return objArr;
}
if (size <= objArr.length) {
objArr2 = objArr;
} else {
Object newInstance = Array.newInstance(objArr.getClass().getComponentType(), size);
k.c(newInstance, "null cannot be cast to non-null type kotlin.Array<kotlin.Any?>");
objArr2 = (Object[]) newInstance;
}
while (true) {
int i11 = i10 + 1;
objArr2[i10] = it.next();
if (i11 >= objArr2.length) {
if (!it.hasNext()) {
return objArr2;
}
int i12 = ((i11 * 3) + 1) >>> 1;
if (i12 <= i11) {
i12 = 2147483645;
if (i11 >= 2147483645) {
throw new OutOfMemoryError();
}
}
objArr2 = Arrays.copyOf(objArr2, i12);
k.d(objArr2, "copyOf(...)");
} else if (!it.hasNext()) {
if (objArr2 == objArr) {
objArr[i11] = null;
return objArr;
}
Object[] copyOf = Arrays.copyOf(objArr2, i11);
k.d(copyOf, "copyOf(...)");
return copyOf;
}
i10 = i11;
}
}
public static final boolean p(e0 e0Var, c1 c1Var, Set set) {
boolean z6;
if (k.a(e0Var.H0(), c1Var)) {
return true;
}
vc.h k8 = e0Var.H0().k();
vc.i iVar = k8 instanceof vc.i ? (vc.i) k8 : null;
List<x0> m10 = iVar != null ? iVar.m() : null;
a0 S2 = u.S2(e0Var.F0());
if (!(S2 instanceof Collection) || !((Collection) S2).isEmpty()) {
Iterator it = S2.iterator();
do {
b0 b0Var = (b0) it;
if (b0Var.hasNext()) {
tb.z zVar = (tb.z) b0Var.next();
int i10 = zVar.f34924a;
i1 i1Var = (i1) zVar.f34925b;
x0 x0Var = m10 != null ? (x0) u.r2(i10, m10) : null;
if (((x0Var == null || set == null || !set.contains(x0Var)) ? false : true) || i1Var.b()) {
z6 = false;
continue;
} else {
e0 type = i1Var.getType();
k.d(type, "getType(...)");
z6 = p(type, c1Var, set);
continue;
}
}
} while (!z6);
return true;
}
return false;
}
public static final a1 p0(wc.h hVar) {
k.e(hVar, "<this>");
if (hVar.isEmpty()) {
a1.f27879c.getClass();
return a1.f27880d;
}
a1.a aVar = a1.f27879c;
List Y0 = ad.h.Y0(new le.k(hVar));
aVar.getClass();
return a1.a.a(Y0);
}
public static final long q(InputStream inputStream, OutputStream outputStream, int i10) {
byte[] bArr = new byte[i10];
int read = inputStream.read(bArr);
long j10 = 0;
while (read >= 0) {
outputStream.write(bArr, 0, read);
j10 += read;
read = inputStream.read(bArr);
}
return j10;
}
public static l0.q r(l0.m serializer, List migrations, df.d dVar, gc.a aVar, int i10) {
if ((i10 & 4) != 0) {
migrations = tb.w.f34921b;
}
if ((i10 & 8) != 0) {
dVar = ye.e0.a(r0.f37280b.plus(ad.h.m()));
}
df.d scope = dVar;
k.e(serializer, "serializer");
k.e(migrations, "migrations");
k.e(scope, "scope");
return new l0.q(aVar, serializer, ad.h.Y0(new l0.e(migrations, null)), new androidx.activity.z(), scope);
}
public static final k1 s(e0 type, u1 u1Var, x0 x0Var) {
k.e(type, "type");
if ((x0Var != null ? x0Var.i() : null) == u1Var) {
u1Var = u1.f27992d;
}
return new k1(type, u1Var);
}
public static void t(String str) {
SimpleDateFormat simpleDateFormat = e.f28649f;
y7.b.d(str);
}
public static final void u(e0 e0Var, le.m0 m0Var, LinkedHashSet linkedHashSet, Set set) {
vc.h k8 = e0Var.H0().k();
if (k8 instanceof x0) {
if (!k.a(e0Var.H0(), m0Var.H0())) {
linkedHashSet.add(k8);
return;
}
for (e0 e0Var2 : ((x0) k8).getUpperBounds()) {
k.b(e0Var2);
u(e0Var2, m0Var, linkedHashSet, set);
}
return;
}
vc.h k10 = e0Var.H0().k();
vc.i iVar = k10 instanceof vc.i ? (vc.i) k10 : null;
List<x0> m10 = iVar != null ? iVar.m() : null;
int i10 = 0;
for (i1 i1Var : e0Var.F0()) {
int i11 = i10 + 1;
x0 x0Var = m10 != null ? (x0) u.r2(i10, m10) : null;
if (!((x0Var == null || set == null || !set.contains(x0Var)) ? false : true) && !i1Var.b() && !u.i2(linkedHashSet, i1Var.getType().H0().k()) && !k.a(i1Var.getType().H0(), m0Var.H0())) {
e0 type = i1Var.getType();
k.d(type, "getType(...)");
u(type, m0Var, linkedHashSet, set);
}
i10 = i11;
}
}
public static ArrayList v(ArrayList arrayList) {
String str;
ArrayList O2 = u.O2(arrayList);
for (int size = O2.size() - 1; -1 < size; size--) {
v6.a aVar = (v6.a) arrayList.get(size);
String str2 = aVar.f35572b.f8269g;
boolean z6 = false;
if (str2 != null && (str = aVar.f35571a) != null) {
z6 = o7.a.b("f_r_" + str2 + str, false);
}
if (z6) {
O2.remove(size);
}
}
return O2;
}
public static final Object w(df.t tVar, long j10, gc.p pVar) {
boolean z6;
while (true) {
if (tVar.f21946d >= j10 && !tVar.c()) {
return tVar;
}
Object obj = df.c.f21907b.get(tVar);
p.d dVar = f8d;
if (obj == dVar) {
return dVar;
}
df.t tVar2 = (df.t) ((df.c) obj);
if (tVar2 == null) {
tVar2 = (df.t) pVar.invoke(Long.valueOf(tVar.f21946d + 1), tVar);
while (true) {
AtomicReferenceFieldUpdater atomicReferenceFieldUpdater = df.c.f21907b;
if (!atomicReferenceFieldUpdater.compareAndSet(tVar, null, tVar2)) {
if (atomicReferenceFieldUpdater.get(tVar) != null) {
z6 = false;
break;
}
} else {
z6 = true;
break;
}
}
if (z6) {
if (tVar.c()) {
tVar.d();
}
}
}
tVar = tVar2;
}
}
public static ArrayList x() {
ArrayList arrayList = new ArrayList();
try {
arrayList.addAll(D(URLEncoder.encode(TlsPlusManager.d(r7.m.b(), s7.a.f()), StandardCharsets.UTF_8.name())));
} catch (Exception e10) {
e10.printStackTrace();
}
return arrayList;
}
public static ArrayList y() {
ArrayList arrayList = new ArrayList();
try {
String encode = URLEncoder.encode(TlsPlusManager.d(r7.m.b(), s7.a.f()), StandardCharsets.UTF_8.name());
String d10 = s7.a.d();
String b6 = s7.a.b("https://fastly.jsdelivr.net", d10, encode);
x7.a aVar = null;
arrayList.add((TextUtils.isEmpty(b6) || TextUtils.isEmpty("https://fastly.jsdelivr.net")) ? null : new x7.a(b6, "https://fastly.jsdelivr.net", d10, false, 30L));
String d11 = s7.a.d();
String b10 = s7.a.b("https://cdn.jsdelivr.net", d11, encode);
arrayList.add((TextUtils.isEmpty(b10) || TextUtils.isEmpty("https://cdn.jsdelivr.net")) ? null : new x7.a(b10, "https://cdn.jsdelivr.net", d11, false, 30L));
String d12 = s7.a.d();
String b11 = s7.a.b("https://cdn.statically.io", d12, encode);
if (!TextUtils.isEmpty(b11) && !TextUtils.isEmpty("https://cdn.statically.io")) {
aVar = new x7.a(b11, "https://cdn.statically.io", d12, false, 30L);
}
arrayList.add(aVar);
} catch (Exception e10) {
e10.printStackTrace();
}
return arrayList;
}
public static ArrayList z(String str) {
String encode;
x7.a aVar;
ArrayList F;
ArrayList C;
ArrayList x8;
x7.a I;
x7.a I2;
ArrayList arrayList = new ArrayList();
try {
encode = URLEncoder.encode(TlsPlusManager.d(r7.m.b(), s7.a.f()), StandardCharsets.UTF_8.name());
String d10 = s7.a.d();
String b6 = s7.a.b("https://raw.githubusercontent.com", d10, encode);
aVar = (TextUtils.isEmpty(b6) || TextUtils.isEmpty("https://raw.githubusercontent.com")) ? null : new x7.a(b6, "https://raw.githubusercontent.com", d10, false, 30L);
F = F();
C = C(encode);
x8 = x();
} catch (Exception e10) {
e10.printStackTrace();
}
if (!"RU".equals(str) && !"UA".equals(str) && !"IR".equals(str)) {
if ((!TextUtils.isEmpty(o7.a.e("last_success_data_api_2319"))) && (I2 = I(encode)) != null) {
arrayList.add(I2);
}
if (aVar != null && !arrayList.contains(aVar)) {
arrayList.add(aVar);
}
Iterator it = C.iterator();
while (it.hasNext()) {
x7.a aVar2 = (x7.a) it.next();
if (!arrayList.contains(aVar2)) {
arrayList.add(aVar2);
}
}
arrayList.addAll(F);
return arrayList;
}
if ((!TextUtils.isEmpty(o7.a.e("last_success_data_api_2319"))) && (I = I(encode)) != null) {
arrayList.add(I);
}
if (aVar != null && !arrayList.contains(aVar)) {
arrayList.add(aVar);
}
Iterator it2 = x8.iterator();
while (it2.hasNext()) {
x7.a aVar3 = (x7.a) it2.next();
if (!arrayList.contains(aVar3)) {
arrayList.add(aVar3);
}
}
return arrayList;
}
@Override
public void a(Context context, String str) {
k.e(context, "context");
}
@Override
public void b(j3.j jVar) {
jVar.onStart();
}
@Override
public void c(j3.j jVar) {
}
@Override
public void call(Object obj) {
Throwable th = (Throwable) obj;
mg.e.f28486d.a().getClass();
}
@Override
public WebViewProviderBoundaryInterface createWebView(WebView webView) {
throw new UnsupportedOperationException("This should never happen, if this method was called it means we're trying to reach into WebView APK code on an incompatible device. This most likely means the current method is being called too early, or is being called on start-up rather than lazily");
}
@Override
public String[] d() {
return f22r;
}
@Override
public Iterable e(Object obj) {
int i10 = id.x.f23531p;
Collection<e0> i11 = ((vc.e) obj).g().i();
k.d(i11, "getSupertypes(...)");
return new r(ve.x.X0(u.h2(i11), id.v.f23527d));
}
@Override
public void execute() {
if (f5.c.S.f22522a && !f5.c.h()) {
h5.c cVar = h5.c.f22928c;
if (cVar.f22930b == null) {
synchronized (cVar) {
h5.b bVar = new h5.b();
cVar.f22930b = bVar;
cVar.scheduleAtFixedRate(bVar, 0L, 1000L);
}
}
f5.c.i();
}
}
@Override
public w2.v f(w2.v vVar, u2.h hVar) {
return vVar;
}
@Override
public void g(byte[] bArr) {
}
@Override
public String getName() {
return "onResume";
}
@Override
public WebkitToCompatConverterBoundaryInterface getWebkitToCompatConverter() {
throw new UnsupportedOperationException("This should never happen, if this method was called it means we're trying to reach into WebView APK code on an incompatible device. This most likely means the current method is being called too early, or is being called on start-up rather than lazily");
}
public i1 o(x0 x0Var, le.x typeAttr, f1 typeParameterUpperBoundEraser, e0 erasedUpperBound) {
k.e(typeAttr, "typeAttr");
k.e(typeParameterUpperBoundEraser, "typeParameterUpperBoundEraser");
k.e(erasedUpperBound, "erasedUpperBound");
return new k1(erasedUpperBound, u1.f27994f);
}
}