package com.google.gson.internal; import com.huawei.hms.framework.common.ContainerUtils; import java.io.IOException; import java.io.InvalidObjectException; import java.io.ObjectInputStream; import java.io.ObjectStreamException; import java.io.Serializable; import java.util.AbstractMap; import java.util.AbstractSet; import java.util.Comparator; import java.util.ConcurrentModificationException; import java.util.Iterator; import java.util.LinkedHashMap; import java.util.Map; import java.util.NoSuchElementException; import java.util.Set; /* loaded from: classes.dex */ public final class LinkedTreeMap extends AbstractMap implements Serializable { static final boolean $assertionsDisabled = false; private static final Comparator NATURAL_ORDER = new Comparator() { // from class: com.google.gson.internal.LinkedTreeMap.1 @Override // java.util.Comparator public int compare(Comparable comparable, Comparable comparable2) { return comparable.compareTo(comparable2); } }; Comparator comparator; private LinkedTreeMap.EntrySet entrySet; final Node header; private LinkedTreeMap.KeySet keySet; int modCount; Node root; int size; public LinkedTreeMap() { this(NATURAL_ORDER); } public LinkedTreeMap(Comparator comparator) { this.size = 0; this.modCount = 0; this.header = new Node<>(); this.comparator = comparator == null ? NATURAL_ORDER : comparator; } @Override // java.util.AbstractMap, java.util.Map public final V get(Object obj) { Node findByObject = findByObject(obj); if (findByObject != null) { return findByObject.value; } return null; } @Override // java.util.AbstractMap, java.util.Map public final boolean containsKey(Object obj) { return findByObject(obj) != null; } @Override // java.util.AbstractMap, java.util.Map public final V put(K k, V v) { if (k == null) { throw new NullPointerException("key == null"); } Node find = find(k, true); V v2 = find.value; find.value = v; return v2; } @Override // java.util.AbstractMap, java.util.Map public final void clear() { this.root = null; this.size = 0; this.modCount++; Node node = this.header; node.prev = node; node.next = node; } @Override // java.util.AbstractMap, java.util.Map public final V remove(Object obj) { Node removeInternalByKey = removeInternalByKey(obj); if (removeInternalByKey != null) { return removeInternalByKey.value; } return null; } final Node find(K k, boolean z) { int i; Node node; Comparator comparator = this.comparator; Node node2 = this.root; if (node2 != null) { Comparable comparable = comparator == NATURAL_ORDER ? (Comparable) k : null; while (true) { if (comparable != null) { i = comparable.compareTo(node2.key); } else { i = comparator.compare(k, node2.key); } if (i != 0) { Node node3 = i < 0 ? node2.left : node2.right; if (node3 == null) { break; } node2 = node3; } else { return node2; } } } else { i = 0; } if (!z) { return null; } Node node4 = this.header; if (node2 == null) { if (comparator == NATURAL_ORDER && !(k instanceof Comparable)) { StringBuilder sb = new StringBuilder(); sb.append(k.getClass().getName()); sb.append(" is not Comparable"); throw new ClassCastException(sb.toString()); } node = new Node<>(node2, k, node4, node4.prev); this.root = node; } else { node = new Node<>(node2, k, node4, node4.prev); if (i < 0) { node2.left = node; } else { node2.right = node; } rebalance(node2, true); } this.size++; this.modCount++; return node; } /* JADX WARN: Multi-variable type inference failed */ final Node findByObject(Object obj) { if (obj == 0) { return null; } try { return find(obj, false); } catch (ClassCastException unused) { return null; } } final Node findByEntry(Map.Entry entry) { Node findByObject = findByObject(entry.getKey()); if (findByObject == null || !equal(findByObject.value, entry.getValue())) { return null; } return findByObject; } private boolean equal(Object obj, Object obj2) { return obj == obj2 || (obj != null && obj.equals(obj2)); } final void removeInternal(Node node, boolean z) { int i; if (z) { node.prev.next = node.next; node.next.prev = node.prev; } Node node2 = node.left; Node node3 = node.right; Node node4 = node.parent; int i2 = 0; if (node2 != null && node3 != null) { Node last = node2.height > node3.height ? node2.last() : node3.first(); removeInternal(last, false); Node node5 = node.left; if (node5 != null) { i = node5.height; last.left = node5; node5.parent = last; node.left = null; } else { i = 0; } Node node6 = node.right; if (node6 != null) { i2 = node6.height; last.right = node6; node6.parent = last; node.right = null; } last.height = Math.max(i, i2) + 1; replaceInParent(node, last); return; } if (node2 != null) { replaceInParent(node, node2); node.left = null; } else if (node3 != null) { replaceInParent(node, node3); node.right = null; } else { replaceInParent(node, null); } rebalance(node4, false); this.size--; this.modCount++; } final Node removeInternalByKey(Object obj) { Node findByObject = findByObject(obj); if (findByObject != null) { removeInternal(findByObject, true); } return findByObject; } private void replaceInParent(Node node, Node node2) { Node node3 = node.parent; node.parent = null; if (node2 != null) { node2.parent = node3; } if (node3 == null) { this.root = node2; } else if (node3.left == node) { node3.left = node2; } else { node3.right = node2; } } private void rebalance(Node node, boolean z) { while (node != null) { Node node2 = node.left; Node node3 = node.right; int i = node2 != null ? node2.height : 0; int i2 = node3 != null ? node3.height : 0; int i3 = i - i2; if (i3 == -2) { Node node4 = node3.left; Node node5 = node3.right; int i4 = (node4 != null ? node4.height : 0) - (node5 != null ? node5.height : 0); if (i4 != -1 && (i4 != 0 || z)) { rotateRight(node3); } rotateLeft(node); if (z) { return; } } else if (i3 == 2) { Node node6 = node2.left; Node node7 = node2.right; int i5 = (node6 != null ? node6.height : 0) - (node7 != null ? node7.height : 0); if (i5 != 1 && (i5 != 0 || z)) { rotateLeft(node2); } rotateRight(node); if (z) { return; } } else if (i3 == 0) { node.height = i + 1; if (z) { return; } } else { node.height = Math.max(i, i2) + 1; if (!z) { return; } } node = node.parent; } } private void rotateLeft(Node node) { Node node2 = node.left; Node node3 = node.right; Node node4 = node3.left; Node node5 = node3.right; node.right = node4; if (node4 != null) { node4.parent = node; } replaceInParent(node, node3); node3.left = node; node.parent = node3; node.height = Math.max(node2 != null ? node2.height : 0, node4 != null ? node4.height : 0) + 1; node3.height = Math.max(node.height, node5 != null ? node5.height : 0) + 1; } private void rotateRight(Node node) { Node node2 = node.left; Node node3 = node.right; Node node4 = node2.left; Node node5 = node2.right; node.left = node5; if (node5 != null) { node5.parent = node; } replaceInParent(node, node2); node2.right = node; node.parent = node2; node.height = Math.max(node3 != null ? node3.height : 0, node5 != null ? node5.height : 0) + 1; node2.height = Math.max(node.height, node4 != null ? node4.height : 0) + 1; } @Override // java.util.AbstractMap, java.util.Map public final Set> entrySet() { LinkedTreeMap.EntrySet entrySet = this.entrySet; if (entrySet != null) { return entrySet; } LinkedTreeMap.EntrySet entrySet2 = new EntrySet(this); this.entrySet = entrySet2; return entrySet2; } @Override // java.util.AbstractMap, java.util.Map public final Set keySet() { LinkedTreeMap.KeySet keySet = this.keySet; if (keySet != null) { return keySet; } LinkedTreeMap.KeySet keySet2 = new KeySet(this); this.keySet = keySet2; return keySet2; } /* JADX INFO: Access modifiers changed from: package-private */ /* loaded from: classes.dex */ public static final class Node implements Map.Entry { int height; final K key; Node left; Node next; Node parent; Node prev; Node right; V value; Node() { this.key = null; this.prev = this; this.next = this; } Node(Node node, K k, Node node2, Node node3) { this.parent = node; this.key = k; this.height = 1; this.next = node2; this.prev = node3; node3.next = this; node2.prev = this; } @Override // java.util.Map.Entry public final boolean equals(Object obj) { if (!(obj instanceof Map.Entry)) { return false; } Map.Entry entry = (Map.Entry) obj; K k = this.key; if (k == null) { if (entry.getKey() != null) { return false; } } else if (!k.equals(entry.getKey())) { return false; } V v = this.value; if (v == null) { if (entry.getValue() != null) { return false; } } else if (!v.equals(entry.getValue())) { return false; } return true; } @Override // java.util.Map.Entry public final int hashCode() { K k = this.key; int hashCode = k == null ? 0 : k.hashCode(); V v = this.value; return hashCode ^ (v != null ? v.hashCode() : 0); } public final String toString() { StringBuilder sb = new StringBuilder(); sb.append(this.key); sb.append(ContainerUtils.KEY_VALUE_DELIMITER); sb.append(this.value); return sb.toString(); } public final Node first() { Node node = this; for (Node node2 = this.left; node2 != null; node2 = node2.left) { node = node2; } return node; } public final Node last() { Node node = this; for (Node node2 = this.right; node2 != null; node2 = node2.right) { node = node2; } return node; } @Override // java.util.Map.Entry public final V setValue(V v) { V v2 = this.value; this.value = v; return v2; } @Override // java.util.Map.Entry public final V getValue() { return this.value; } @Override // java.util.Map.Entry public final K getKey() { return this.key; } } /* JADX INFO: Access modifiers changed from: package-private */ /* loaded from: classes.dex */ public abstract class LinkedTreeMapIterator implements Iterator { int expectedModCount; Node lastReturned = null; Node next; final LinkedTreeMap this$0; LinkedTreeMapIterator(LinkedTreeMap linkedTreeMap) { this.this$0 = linkedTreeMap; this.next = linkedTreeMap.header.next; this.expectedModCount = linkedTreeMap.modCount; } @Override // java.util.Iterator public final boolean hasNext() { return this.next != this.this$0.header; } final Node nextNode() { Node node = this.next; if (node == this.this$0.header) { throw new NoSuchElementException(); } if (this.this$0.modCount != this.expectedModCount) { throw new ConcurrentModificationException(); } this.next = node.next; this.lastReturned = node; return node; } @Override // java.util.Iterator public final void remove() { Node node = this.lastReturned; if (node == null) { throw new IllegalStateException(); } this.this$0.removeInternal(node, true); this.lastReturned = null; this.expectedModCount = this.this$0.modCount; } } /* loaded from: classes.dex */ class EntrySet extends AbstractSet> { final LinkedTreeMap this$0; EntrySet(LinkedTreeMap linkedTreeMap) { this.this$0 = linkedTreeMap; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public int size() { return this.this$0.size; } @Override // java.util.AbstractCollection, java.util.Collection, java.lang.Iterable, java.util.Set public Iterator> iterator() { return new LinkedTreeMapIterator(this) { // from class: com.google.gson.internal.LinkedTreeMap.EntrySet.1 final EntrySet this$1; { this.this$1 = this; LinkedTreeMap linkedTreeMap = this.this$0; } @Override // java.util.Iterator public Map.Entry next() { return nextNode(); } }; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public boolean contains(Object obj) { return (obj instanceof Map.Entry) && this.this$0.findByEntry((Map.Entry) obj) != null; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public boolean remove(Object obj) { Node findByEntry; if (!(obj instanceof Map.Entry) || (findByEntry = this.this$0.findByEntry((Map.Entry) obj)) == null) { return false; } this.this$0.removeInternal(findByEntry, true); return true; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public void clear() { this.this$0.clear(); } } /* loaded from: classes.dex */ final class KeySet extends AbstractSet { final LinkedTreeMap this$0; KeySet(LinkedTreeMap linkedTreeMap) { this.this$0 = linkedTreeMap; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public final int size() { return this.this$0.size; } @Override // java.util.AbstractCollection, java.util.Collection, java.lang.Iterable, java.util.Set public final Iterator iterator() { return new LinkedTreeMapIterator(this) { // from class: com.google.gson.internal.LinkedTreeMap.KeySet.1 final KeySet this$1; { this.this$1 = this; LinkedTreeMap linkedTreeMap = this.this$0; } @Override // java.util.Iterator public K next() { return nextNode().key; } }; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public final boolean contains(Object obj) { return this.this$0.containsKey(obj); } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public final boolean remove(Object obj) { return this.this$0.removeInternalByKey(obj) != null; } @Override // java.util.AbstractCollection, java.util.Collection, java.util.Set public final void clear() { this.this$0.clear(); } } private Object writeReplace() throws ObjectStreamException { return new LinkedHashMap(this); } private void readObject(ObjectInputStream objectInputStream) throws IOException { throw new InvalidObjectException("Deserialization is unsupported"); } @Override // java.util.AbstractMap, java.util.Map public final int size() { return this.size; } }