package com.google.android.gms.internal.measurement; import java.lang.Comparable; import java.util.AbstractMap; import java.util.ArrayList; import java.util.Collections; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.Set; import java.util.SortedMap; import java.util.TreeMap; /* loaded from: classes3.dex */ class zzln, V> extends AbstractMap { private final int zza; private List zzb; private Map zzc; private boolean zzd; private volatile zzlu zze; private Map zzf; private volatile zzlr zzg; public final boolean zze() { return this.zzd; } private final int zza(K k) { int i; int size = this.zzb.size(); int i2 = size - 1; if (i2 >= 0) { int compareTo = k.compareTo((Comparable) this.zzb.get(i2).getKey()); if (compareTo > 0) { i = size + 1; return -i; } if (compareTo == 0) { return i2; } } int i3 = 0; while (i3 <= i2) { int i4 = (i3 + i2) / 2; int compareTo2 = k.compareTo((Comparable) this.zzb.get(i4).getKey()); if (compareTo2 < 0) { i2 = i4 - 1; } else { if (compareTo2 <= 0) { return i4; } i3 = i4 + 1; } } i = i3 + 1; return -i; } public final int zzb() { return this.zzb.size(); } @Override // java.util.AbstractMap, java.util.Map public int hashCode() { int zzb = zzb(); int i = 0; for (int i2 = 0; i2 < zzb; i2++) { i += this.zzb.get(i2).hashCode(); } return this.zzc.size() > 0 ? i + this.zzc.hashCode() : i; } @Override // java.util.AbstractMap, java.util.Map public int size() { return this.zzb.size() + this.zzc.size(); } public static > zzln zza(int i) { return new zzlm(i); } public final Iterable> zzc() { if (this.zzc.isEmpty()) { return Collections.emptySet(); } return this.zzc.entrySet(); } /* JADX WARN: Multi-variable type inference failed */ @Override // java.util.AbstractMap, java.util.Map public V get(Object obj) { Comparable comparable = (Comparable) obj; int zza = zza((zzln) comparable); if (zza >= 0) { return (V) this.zzb.get(zza).getValue(); } return this.zzc.get(comparable); } /* JADX WARN: Multi-variable type inference failed */ public final V zza(K k, V v) { zzg(); int zza = zza((zzln) k); if (zza >= 0) { return (V) this.zzb.get(zza).setValue(v); } zzg(); if (this.zzb.isEmpty() && !(this.zzb instanceof ArrayList)) { this.zzb = new ArrayList(this.zza); } int i = -(zza + 1); if (i >= this.zza) { return zzf().put(k, v); } int size = this.zzb.size(); int i2 = this.zza; if (size == i2) { zzlt remove = this.zzb.remove(i2 - 1); zzf().put((Comparable) remove.getKey(), remove.getValue()); } this.zzb.add(i, new zzlt(this, k, v)); return null; } /* JADX WARN: Multi-variable type inference failed */ @Override // java.util.AbstractMap, java.util.Map public /* synthetic */ Object put(Object obj, Object obj2) { return zza((zzln) obj, (Comparable) obj2); } /* JADX WARN: Multi-variable type inference failed */ @Override // java.util.AbstractMap, java.util.Map public V remove(Object obj) { zzg(); Comparable comparable = (Comparable) obj; int zza = zza((zzln) comparable); if (zza >= 0) { return (V) zzc(zza); } if (this.zzc.isEmpty()) { return null; } return this.zzc.remove(comparable); } /* JADX INFO: Access modifiers changed from: private */ public final V zzc(int i) { zzg(); V v = (V) this.zzb.remove(i).getValue(); if (!this.zzc.isEmpty()) { Iterator> it = zzf().entrySet().iterator(); this.zzb.add(new zzlt(this, it.next())); it.remove(); } return v; } public final Map.Entry zzb(int i) { return this.zzb.get(i); } public final Set> zzd() { if (this.zzg == null) { this.zzg = new zzlr(this); } return this.zzg; } @Override // java.util.AbstractMap, java.util.Map public Set> entrySet() { if (this.zze == null) { this.zze = new zzlu(this); } return this.zze; } private final SortedMap zzf() { zzg(); if (this.zzc.isEmpty() && !(this.zzc instanceof TreeMap)) { TreeMap treeMap = new TreeMap(); this.zzc = treeMap; this.zzf = treeMap.descendingMap(); } return (SortedMap) this.zzc; } private zzln(int i) { this.zza = i; this.zzb = Collections.emptyList(); this.zzc = Collections.emptyMap(); this.zzf = Collections.emptyMap(); } /* JADX INFO: Access modifiers changed from: private */ public final void zzg() { if (this.zzd) { throw new UnsupportedOperationException(); } } @Override // java.util.AbstractMap, java.util.Map public void clear() { zzg(); if (!this.zzb.isEmpty()) { this.zzb.clear(); } if (this.zzc.isEmpty()) { return; } this.zzc.clear(); } public void zza() { Map unmodifiableMap; Map unmodifiableMap2; if (this.zzd) { return; } if (this.zzc.isEmpty()) { unmodifiableMap = Collections.emptyMap(); } else { unmodifiableMap = Collections.unmodifiableMap(this.zzc); } this.zzc = unmodifiableMap; if (this.zzf.isEmpty()) { unmodifiableMap2 = Collections.emptyMap(); } else { unmodifiableMap2 = Collections.unmodifiableMap(this.zzf); } this.zzf = unmodifiableMap2; this.zzd = true; } /* JADX WARN: Multi-variable type inference failed */ @Override // java.util.AbstractMap, java.util.Map public boolean containsKey(Object obj) { Comparable comparable = (Comparable) obj; return zza((zzln) comparable) >= 0 || this.zzc.containsKey(comparable); } @Override // java.util.AbstractMap, java.util.Map public boolean equals(Object obj) { if (this == obj) { return true; } if (!(obj instanceof zzln)) { return super.equals(obj); } zzln zzlnVar = (zzln) obj; int size = size(); if (size != zzlnVar.size()) { return false; } int zzb = zzb(); if (zzb != zzlnVar.zzb()) { return entrySet().equals(zzlnVar.entrySet()); } for (int i = 0; i < zzb; i++) { if (!zzb(i).equals(zzlnVar.zzb(i))) { return false; } } if (zzb != size) { return this.zzc.equals(zzlnVar.zzc); } return true; } }