正在查看: Structured v2.5.8 应用的 C0738d.java JAVA 源代码文件
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Structured v2.5.8 - C0738d.java 源代码
package R;
import S.C0873a;
import Y8.C1008y;
import a.AbstractC1010a;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import kotlin.jvm.functions.Function0;
import l7.AbstractC2204m;
import n.AbstractC2347G;
import n.C2343C;
import o7.C2484j;
import o7.InterfaceC2483i;
public final class C0738d {
public static final Z f11148a = new Z("provider");
public static final Z f11149b = new Z("provider");
public static final Z f11150c = new Z("compositionLocalMap");
public static final Z f11151d = new Z("providers");
public static final Z f11152e = new Z("reference");
public static final C0.B f11153f = new C0.B(3);
public static final Object f11154g = new Object();
public static final G h = new G();
public static final E6.a A(C0762p c0762p) {
C2484j c2484j = C2484j.f26177m;
C1008y c1008y = C1008y.f14813n;
InterfaceC2483i h7 = c0762p.f11231b.h();
return Y8.D.c(h7.d0(new Y8.i0((Y8.g0) h7.R(c1008y))).d0(c2484j));
}
public static final long B() {
return Thread.currentThread().getId();
}
public static final void C(C0 c02, C0.a0 a0Var) {
int i6;
int i10;
int i11;
int i12 = c02.f11054t;
int i13 = c02.f11055u;
while (i12 < i13) {
Object w4 = c02.w(i12);
if (w4 instanceof InterfaceC0750j) {
a0Var.l((InterfaceC0750j) w4, c02.o() - c02.E(c02.f11037b, c02.p(i12)), -1, -1);
}
int E10 = c02.E(c02.f11037b, c02.p(i12));
int i14 = i12 + 1;
int f2 = c02.f(c02.f11037b, c02.p(i14));
int i15 = E10;
while (i15 < f2) {
int i16 = i15 - E10;
Object obj = c02.f11038c[c02.g(i15)];
boolean z10 = obj instanceof C0774v0;
S s10 = C0754l.f11186a;
if (z10) {
C0774v0 c0774v0 = (C0774v0) obj;
InterfaceC0772u0 interfaceC0772u0 = c0774v0.f11322a;
if (interfaceC0772u0 instanceof C0756m) {
i6 = i13;
} else {
int g7 = c02.g(c02.F(i12, i16));
Object[] objArr = c02.f11038c;
i6 = i13;
Object obj2 = objArr[g7];
objArr[g7] = s10;
if (obj != obj2) {
x("Slot table is out of sync");
throw null;
}
int o10 = c02.o() - i16;
C0736c c0736c = c0774v0.f11323b;
if (c0736c == null || !c0736c.a()) {
i10 = -1;
i11 = -1;
} else {
i10 = c02.c(c0736c);
i11 = c02.o() - c02.f(c02.f11037b, c02.p(c02.q(i10) + i10));
}
a0Var.l(interfaceC0772u0, o10, i10, i11);
}
} else {
i6 = i13;
if (obj instanceof C0759n0) {
int g10 = c02.g(c02.F(i12, i16));
Object[] objArr2 = c02.f11038c;
Object obj3 = objArr2[g10];
objArr2[g10] = s10;
if (obj != obj3) {
x("Slot table is out of sync");
throw null;
}
((C0759n0) obj).d();
} else {
continue;
}
}
i15++;
i13 = i6;
}
i12 = i14;
}
}
public static final T.d D() {
s6.c cVar = I0.f11073b;
T.d dVar = (T.d) cVar.j();
if (dVar == null) {
dVar = new T.d(new C0760o[0]);
cVar.D(dVar);
}
return dVar;
}
public static final D E(H0 h02, Function0 function0) {
s6.c cVar = I0.f11072a;
return new D(h02, function0);
}
public static final D F(Function0 function0) {
s6.c cVar = I0.f11072a;
return new D(null, function0);
}
public static final int G(int i6, ArrayList arrayList) {
int size = arrayList.size() - 1;
int i10 = 0;
while (i10 <= size) {
int i11 = (i10 + size) >>> 1;
int g7 = kotlin.jvm.internal.m.g(((L) arrayList.get(i11)).f11089b, i6);
if (g7 < 0) {
i10 = i11 + 1;
} else {
if (g7 <= 0) {
return i11;
}
size = i11 - 1;
}
}
return -(i10 + 1);
}
public static final int H(C0762p c0762p) {
return c0762p.f11229P;
}
public static final T I(InterfaceC2483i interfaceC2483i) {
T t9 = (T) interfaceC2483i.R(S.f11128n);
if (t9 != null) {
return t9;
}
throw new IllegalStateException("A MonotonicFrameClock is not available in this CoroutineContext. Callers should supply an appropriate MonotonicFrameClock using withContext.");
}
public static final void J() {
throw new IllegalStateException("Invalid applier");
}
public static final void K(C0762p c0762p, z7.m mVar) {
kotlin.jvm.internal.m.d("null cannot be cast to non-null type kotlin.Function2<androidx.compose.runtime.Composer, kotlin.Int, kotlin.Unit>", mVar);
kotlin.jvm.internal.C.e(2, mVar);
mVar.invoke(c0762p, 1);
}
public static List L(C0 c02, int i6, C0 c03, boolean z10, boolean z11, boolean z12) {
l7.w wVar;
boolean B10;
int i10;
int i11;
int i12;
int q3 = c02.q(i6);
int i13 = i6 + q3;
int f2 = c02.f(c02.f11037b, c02.p(i6));
int f6 = c02.f(c02.f11037b, c02.p(i13));
int i14 = f6 - f2;
boolean z13 = i6 >= 0 && (c02.f11037b[(c02.p(i6) * 5) + 1] & 201326592) != 0;
c03.r(q3);
c03.s(i14, c03.f11054t);
if (c02.f11042g < i13) {
c02.u(i13);
}
if (c02.f11045k < f6) {
c02.v(f6, i13);
}
int[] iArr = c03.f11037b;
int i15 = c03.f11054t;
int i16 = i15 * 5;
AbstractC2204m.w0(i16, i6 * 5, i13 * 5, c02.f11037b, iArr);
Object[] objArr = c03.f11038c;
int i17 = c03.f11043i;
AbstractC2204m.y0(c02.f11038c, objArr, i17, f2, f6);
int i18 = c03.f11056v;
iArr[i16 + 2] = i18;
int i19 = i15 - i6;
int i20 = i15 + q3;
int f10 = i17 - c03.f(iArr, i15);
int i21 = c03.f11047m;
int i22 = c03.f11046l;
int length = objArr.length;
boolean z14 = z13;
int i23 = i21;
int i24 = i15;
while (i24 < i20) {
if (i24 != i15) {
int i25 = (i24 * 5) + 2;
iArr[i25] = iArr[i25] + i19;
}
int i26 = i20;
int f11 = c03.f(iArr, i24) + f10;
if (i23 < i24) {
i11 = i15;
i12 = 0;
} else {
i11 = i15;
i12 = c03.f11045k;
}
iArr[(i24 * 5) + 4] = C0.h(f11, i12, i22, length);
if (i24 == i23) {
i23++;
}
i24++;
i15 = i11;
i20 = i26;
}
int i27 = i15;
int i28 = i20;
c03.f11047m = i23;
int o10 = o(c02.f11039d, i6, c02.n());
int o11 = o(c02.f11039d, i13, c02.n());
if (o10 < o11) {
ArrayList arrayList = c02.f11039d;
ArrayList arrayList2 = new ArrayList(o11 - o10);
for (int i29 = o10; i29 < o11; i29++) {
C0736c c0736c = (C0736c) arrayList.get(i29);
c0736c.f11146a += i19;
arrayList2.add(c0736c);
}
c03.f11039d.addAll(o(c03.f11039d, c03.f11054t, c03.n()), arrayList2);
arrayList.subList(o10, o11).clear();
wVar = arrayList2;
} else {
wVar = l7.w.f24690m;
}
if (!wVar.isEmpty()) {
HashMap hashMap = c02.f11040e;
HashMap hashMap2 = c03.f11040e;
if (hashMap != null && hashMap2 != null) {
int size = wVar.size();
for (int i30 = 0; i30 < size; i30++) {
}
}
}
int i31 = c03.f11056v;
c03.G(i18);
int x7 = c02.x(c02.f11037b, i6);
if (!z12) {
i10 = 1;
B10 = false;
} else if (z10) {
boolean z15 = x7 >= 0;
if (z15) {
c02.H();
c02.a(x7 - c02.f11054t);
c02.H();
}
c02.a(i6 - c02.f11054t);
boolean A10 = c02.A();
if (z15) {
c02.D();
c02.i();
c02.D();
c02.i();
}
B10 = A10;
i10 = 1;
} else {
B10 = c02.B(i6, q3);
i10 = 1;
c02.C(f2, i14, i6 - 1);
}
if (B10) {
x("Unexpectedly removed anchors");
throw null;
}
c03.f11049o += n(iArr, i27) ? i10 : p(iArr, i27);
if (z11) {
c03.f11054t = i28;
c03.f11043i = i17 + i14;
}
if (z14) {
c03.L(i18);
}
return wVar;
}
public static final C0735b0 M(float f2) {
int i6 = AbstractC0734b.f11144b;
return new C0735b0(f2);
}
public static final C0737c0 N(int i6) {
int i10 = AbstractC0734b.f11144b;
return new C0737c0(i6);
}
public static final C0743f0 O(Object obj, H0 h02) {
int i6 = AbstractC0734b.f11144b;
return new C0743f0(obj, h02);
}
public static final Y P(C0762p c0762p, Object obj, z7.m mVar) {
Object K = c0762p.K();
S s10 = C0754l.f11186a;
if (K == s10) {
K = O(obj, S.f11132r);
c0762p.f0(K);
}
Y y7 = (Y) K;
k7.C c7 = k7.C.f24133a;
boolean h7 = c0762p.h(mVar);
Object K3 = c0762p.K();
if (!h7) {
if (K3 == s10) {
}
f(c0762p, c7, (z7.m) K3);
return y7;
}
K3 = new J0(mVar, y7, null);
c0762p.f0(K3);
f(c0762p, c7, (z7.m) K3);
return y7;
}
public static final Object Q(InterfaceC0749i0 interfaceC0749i0, AbstractC0755l0 abstractC0755l0) {
kotlin.jvm.internal.m.d("null cannot be cast to non-null type androidx.compose.runtime.CompositionLocal<kotlin.Any?>", abstractC0755l0);
Z.f fVar = (Z.f) interfaceC0749i0;
Object obj = fVar.get(abstractC0755l0);
if (obj == null) {
obj = abstractC0755l0.b();
}
return ((V0) obj).a(fVar);
}
public static final R.C0758n R(R.C0762p r12) {
throw new UnsupportedOperationException("Method not decompiled: R.C0738d.R(R.p):R.n");
}
public static final Y S(Object obj, C0762p c0762p) {
Object K = c0762p.K();
if (K == C0754l.f11186a) {
K = O(obj, S.f11132r);
c0762p.f0(K);
}
Y y7 = (Y) K;
y7.setValue(obj);
return y7;
}
public static final void T(C0 c02, C0.a0 a0Var) {
int i6;
int[] iArr = c02.f11037b;
int i10 = c02.f11054t;
int f2 = c02.f(iArr, c02.p(c02.q(i10) + i10));
for (int f6 = c02.f(c02.f11037b, c02.p(c02.f11054t)); f6 < f2; f6++) {
Object obj = c02.f11038c[c02.g(f6)];
int i11 = -1;
if (obj instanceof InterfaceC0750j) {
int o10 = c02.o() - f6;
InterfaceC0750j interfaceC0750j = (InterfaceC0750j) obj;
C2343C c2343c = (C2343C) a0Var.f1145f;
if (c2343c == null) {
int i12 = AbstractC2347G.f25227a;
c2343c = new C2343C();
a0Var.f1145f = c2343c;
}
c2343c.f25220b[c2343c.d(interfaceC0750j)] = interfaceC0750j;
a0Var.l(interfaceC0750j, o10, -1, -1);
}
if (obj instanceof C0774v0) {
int o11 = c02.o() - f6;
C0774v0 c0774v0 = (C0774v0) obj;
C0736c c0736c = c0774v0.f11323b;
if (c0736c == null || !c0736c.a()) {
i6 = -1;
} else {
i11 = c02.c(c0736c);
i6 = c02.o() - c02.f(c02.f11037b, c02.p(c02.q(i11) + i11));
}
a0Var.l(c0774v0.f11322a, o11, i11, i6);
}
if (obj instanceof C0759n0) {
((C0759n0) obj).d();
}
}
c02.A();
}
public static final void U(boolean z10) {
if (z10) {
return;
}
x("Check failed");
throw null;
}
public static final int V(ArrayList arrayList, int i6, int i10) {
int size = arrayList.size() - 1;
int i11 = 0;
while (i11 <= size) {
int i12 = (i11 + size) >>> 1;
int i13 = ((C0736c) arrayList.get(i12)).f11146a;
if (i13 < 0) {
i13 += i10;
}
int g7 = kotlin.jvm.internal.m.g(i13, i6);
if (g7 < 0) {
i11 = i12 + 1;
} else {
if (g7 <= 0) {
return i12;
}
size = i12 - 1;
}
}
return -(i11 + 1);
}
public static final void W(C0762p c0762p, Object obj, z7.m mVar) {
if (!c0762p.f11228O) {
if (!kotlin.jvm.internal.m.a(c0762p.K(), obj)) {
}
}
c0762p.f0(obj);
c0762p.b(obj, mVar);
}
public static final L4.I X(Function0 function0) {
return new L4.I(new Q0(function0, null));
}
public static final void Y(String str) {
throw new IllegalArgumentException(str);
}
public static final void Z(String str) {
throw new IllegalStateException(str);
}
public static final void a(R.C0757m0 r11, z7.m r12, R.C0762p r13, int r14) {
throw new UnsupportedOperationException("Method not decompiled: R.C0738d.a(R.m0, z7.m, R.p, int):void");
}
public static final int a0(int i6) {
int i10 = 306783378 & i6;
int i11 = 613566756 & i6;
return (i6 & (-920350135)) | (i11 >> 1) | i10 | ((i10 << 1) & i11);
}
public static final void b(R.C0757m0[] r8, z7.m r9, R.C0762p r10, int r11) {
throw new UnsupportedOperationException("Method not decompiled: R.C0738d.b(R.m0[], z7.m, R.p, int):void");
}
public static final Z.f b0(C0757m0[] c0757m0Arr, InterfaceC0749i0 interfaceC0749i0, InterfaceC0749i0 interfaceC0749i02) {
int i6;
Z.e eVar = new Z.e(Z.f.f14838p);
for (C0757m0 c0757m0 : c0757m0Arr) {
AbstractC0755l0 abstractC0755l0 = c0757m0.f11189a;
i6 = (!c0757m0.f11194f && ((Z.f) interfaceC0749i0).containsKey(abstractC0755l0)) ? i6 + 1 : 0;
eVar.put(abstractC0755l0, abstractC0755l0.c(c0757m0, (V0) ((Z.f) interfaceC0749i02).get(abstractC0755l0)));
}
return eVar.e();
}
public static final void c(Object obj, Object obj2, z7.j jVar, C0762p c0762p) {
boolean f2 = c0762p.f(obj) | c0762p.f(obj2);
Object K = c0762p.K();
if (!f2) {
if (K == C0754l.f11186a) {
}
}
K = new E(jVar);
c0762p.f0(K);
}
public static final void d(Object obj, z7.j jVar, C0762p c0762p) {
boolean f2 = c0762p.f(obj);
Object K = c0762p.K();
if (!f2) {
if (K == C0754l.f11186a) {
}
}
K = new E(jVar);
c0762p.f0(K);
}
public static final void e(Object[] objArr, z7.j jVar, C0762p c0762p) {
boolean z10 = false;
for (Object obj : Arrays.copyOf(objArr, objArr.length)) {
z10 |= c0762p.f(obj);
}
Object K = c0762p.K();
if (!z10) {
if (K == C0754l.f11186a) {
}
}
c0762p.f0(new E(jVar));
}
public static final void f(C0762p c0762p, Object obj, z7.m mVar) {
InterfaceC2483i h7 = c0762p.f11231b.h();
boolean f2 = c0762p.f(obj);
Object K = c0762p.K();
if (!f2) {
if (K == C0754l.f11186a) {
}
}
K = new O(h7, mVar);
c0762p.f0(K);
}
public static final void g(Object obj, Object obj2, z7.m mVar, C0762p c0762p) {
InterfaceC2483i h7 = c0762p.f11231b.h();
boolean f2 = c0762p.f(obj) | c0762p.f(obj2);
Object K = c0762p.K();
if (!f2) {
if (K == C0754l.f11186a) {
}
}
K = new O(h7, mVar);
c0762p.f0(K);
}
public static final void h(Function0 function0, C0762p c0762p) {
C0873a c0873a = c0762p.L.f12516b;
c0873a.getClass();
S.v vVar = S.v.f12550c;
S.D d10 = c0873a.f12514e;
d10.e0(vVar);
AbstractC1010a.P(d10, 0, function0);
int i6 = d10.f12512k;
int i10 = vVar.f12505a;
int X10 = S.D.X(d10, i10);
int i11 = vVar.f12506b;
if (i6 == X10 && d10.f12513l == S.D.X(d10, i11)) {
return;
}
StringBuilder sb = new StringBuilder();
int i12 = 0;
for (int i13 = 0; i13 < i10; i13++) {
if (((1 << i13) & d10.f12512k) != 0) {
if (i12 > 0) {
sb.append(", ");
}
sb.append(vVar.b(i13));
i12++;
}
}
String sb2 = sb.toString();
StringBuilder l10 = C0.E.l(sb2, "StringBuilder().apply(builderAction).toString()");
int i14 = 0;
for (int i15 = 0; i15 < i11; i15++) {
if (((1 << i15) & d10.f12513l) != 0) {
if (i12 > 0) {
l10.append(", ");
}
l10.append(vVar.c(i15));
i14++;
}
}
String sb3 = l10.toString();
kotlin.jvm.internal.m.e("StringBuilder().apply(builderAction).toString()", sb3);
StringBuilder sb4 = new StringBuilder("Error while pushing ");
sb4.append(vVar);
sb4.append(". Not all arguments were provided. Missing ");
C0.E.o(sb4, i12, " int arguments (", sb2, ") and ");
C0.E.q(sb4, i14, " object arguments (", sb3, ").");
throw null;
}
public static final boolean i(int[] iArr, int i6) {
return (iArr[(i6 * 5) + 1] & 67108864) != 0;
}
public static final int j(int[] iArr, int i6) {
return iArr[(i6 * 5) + 4];
}
public static final int k(int[] iArr, int i6) {
return iArr[(i6 * 5) + 3];
}
public static final boolean l(int[] iArr, int i6) {
return (iArr[(i6 * 5) + 1] & 268435456) != 0;
}
public static final boolean m(int[] iArr, int i6) {
return (iArr[(i6 * 5) + 1] & 536870912) != 0;
}
public static final boolean n(int[] iArr, int i6) {
return (iArr[(i6 * 5) + 1] & 1073741824) != 0;
}
public static final int o(ArrayList arrayList, int i6, int i10) {
int V7 = V(arrayList, i6, i10);
return V7 >= 0 ? V7 : -(V7 + 1);
}
public static final int p(int[] iArr, int i6) {
return iArr[(i6 * 5) + 1] & 67108863;
}
public static final int q(int[] iArr, int i6) {
return iArr[(i6 * 5) + 2];
}
public static final void r(ArrayList arrayList, int i6, int i10) {
int G3 = G(i6, arrayList);
if (G3 < 0) {
G3 = -(G3 + 1);
}
while (G3 < arrayList.size() && ((L) arrayList.get(G3)).f11089b < i10) {
arrayList.remove(G3);
}
}
public static final int s(int[] iArr, int i6) {
int i10 = i6 * 5;
return z(iArr[i10 + 1] >> 28) + iArr[i10 + 4];
}
public static final void t(int i6, int i10, int[] iArr) {
U(i10 >= 0);
iArr[(i6 * 5) + 3] = i10;
}
public static final void u(int i6, int i10, int[] iArr) {
U(i10 >= 0 && i10 < 67108863);
int i11 = (i6 * 5) + 1;
iArr[i11] = i10 | (iArr[i11] & (-67108864));
}
public static final R.Y v(b9.InterfaceC1323g r6, java.lang.Object r7, o7.InterfaceC2483i r8, R.C0762p r9, int r10, int r11) {
throw new UnsupportedOperationException("Method not decompiled: R.C0738d.v(b9.g, java.lang.Object, o7.i, R.p, int, int):R.Y");
}
public static final Y w(b9.Z z10, C0762p c0762p) {
return v(z10, z10.getValue(), C2484j.f26177m, c0762p, 8, 0);
}
public static final void x(String str) {
throw new C0752k(l2.v.j("Compose Runtime internal error. Unexpected or incorrect use of the Compose internal runtime API (", str, "). Please report to Google or use https://goo.gle/compose-feedback"));
}
public static final void y(String str) {
throw new C0752k(l2.v.j("Compose Runtime internal error. Unexpected or incorrect use of the Compose internal runtime API (", str, "). Please report to Google or use https://goo.gle/compose-feedback"));
}
public static final int z(int i6) {
int i10 = 1;
switch (i6) {
case 0:
i10 = 0;
break;
case 1:
case 2:
case 4:
break;
case 3:
case 5:
case 6:
i10 = 2;
break;
default:
i10 = 3;
break;
}
return i10;
}
}