package gnu.trove; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; /* loaded from: classes2.dex */ public class TDoubleFloatHashMap extends TDoubleHash { protected transient float[] _values; private static final class EqProcedure implements TDoubleFloatProcedure { private final TDoubleFloatHashMap a; EqProcedure(TDoubleFloatHashMap tDoubleFloatHashMap) { this.a = tDoubleFloatHashMap; } private static boolean a(float f, float f2) { return f == f2; } @Override // gnu.trove.TDoubleFloatProcedure public final boolean a(double d, float f) { return this.a.index(d) >= 0 && a(f, this.a.get(d)); } } private final class HashProcedure implements TDoubleFloatProcedure { private int a; HashProcedure() { } public int a() { return this.a; } @Override // gnu.trove.TDoubleFloatProcedure public final boolean a(double d, float f) { this.a += TDoubleFloatHashMap.this._hashingStrategy.computeHashCode(d) ^ HashFunctions.a(f); return true; } } public TDoubleFloatHashMap() { } private void readObject(ObjectInputStream objectInputStream) throws IOException, ClassNotFoundException { objectInputStream.defaultReadObject(); int readInt = objectInputStream.readInt(); setUp(readInt); while (true) { int i = readInt - 1; if (readInt <= 0) { return; } put(objectInputStream.readDouble(), objectInputStream.readFloat()); readInt = i; } } private void writeObject(ObjectOutputStream objectOutputStream) throws IOException { objectOutputStream.defaultWriteObject(); objectOutputStream.writeInt(this._size); SerializationProcedure serializationProcedure = new SerializationProcedure(objectOutputStream); if (!forEachEntry(serializationProcedure)) { throw serializationProcedure.b; } } public boolean adjustValue(double d, float f) { int index = index(d); if (index < 0) { return false; } float[] fArr = this._values; fArr[index] = fArr[index] + f; return true; } @Override // gnu.trove.THash public void clear() { super.clear(); double[] dArr = this._set; float[] fArr = this._values; if (fArr == null) { return; } byte[] bArr = this._states; int length = dArr.length; while (true) { int i = length - 1; if (length <= 0) { return; } dArr[i] = 0.0d; fArr[i] = 0.0f; bArr[i] = 0; length = i; } } @Override // gnu.trove.TDoubleHash, gnu.trove.TPrimitiveHash, gnu.trove.THash public Object clone() { TDoubleFloatHashMap tDoubleFloatHashMap = (TDoubleFloatHashMap) super.clone(); float[] fArr = this._values; tDoubleFloatHashMap._values = fArr == null ? null : (float[]) fArr.clone(); return tDoubleFloatHashMap; } public boolean containsKey(double d) { return contains(d); } public boolean containsValue(float f) { byte[] bArr = this._states; float[] fArr = this._values; if (bArr == null) { return false; } int length = bArr.length; while (true) { int i = length - 1; if (length <= 0) { return false; } if (bArr[i] == 1 && f == fArr[i]) { return true; } length = i; } } public boolean equals(Object obj) { if (!(obj instanceof TDoubleFloatHashMap)) { return false; } TDoubleFloatHashMap tDoubleFloatHashMap = (TDoubleFloatHashMap) obj; if (tDoubleFloatHashMap.size() != size()) { return false; } return forEachEntry(new EqProcedure(tDoubleFloatHashMap)); } public boolean forEachEntry(TDoubleFloatProcedure tDoubleFloatProcedure) { byte[] bArr = this._states; double[] dArr = this._set; float[] fArr = this._values; if (bArr != null) { int length = bArr.length; while (true) { int i = length - 1; if (length <= 0) { break; } if (bArr[i] == 1 && !tDoubleFloatProcedure.a(dArr[i], fArr[i])) { return false; } length = i; } } return true; } public boolean forEachKey(TDoubleProcedure tDoubleProcedure) { return forEach(tDoubleProcedure); } public boolean forEachValue(TFloatProcedure tFloatProcedure) { byte[] bArr = this._states; float[] fArr = this._values; if (bArr != null) { int length = bArr.length; while (true) { int i = length - 1; if (length <= 0) { break; } if (bArr[i] == 1 && !tFloatProcedure.a(fArr[i])) { return false; } length = i; } } return true; } public float get(double d) { int index = index(d); if (index < 0) { return 0.0f; } return this._values[index]; } public float[] getValues() { float[] fArr = new float[size()]; float[] fArr2 = this._values; byte[] bArr = this._states; if (bArr != null) { int length = bArr.length; int i = 0; while (true) { int i2 = length - 1; if (length <= 0) { break; } if (bArr[i2] == 1) { fArr[i] = fArr2[i2]; i++; } length = i2; } } return fArr; } public int hashCode() { HashProcedure hashProcedure = new HashProcedure(); forEachEntry(hashProcedure); return hashProcedure.a(); } public boolean increment(double d) { return adjustValue(d, 1.0f); } public TDoubleFloatIterator iterator() { return new TDoubleFloatIterator(this); } public double[] keys() { double[] dArr = new double[size()]; double[] dArr2 = this._set; byte[] bArr = this._states; if (bArr != null) { int length = bArr.length; int i = 0; while (true) { int i2 = length - 1; if (length <= 0) { break; } if (bArr[i2] == 1) { dArr[i] = dArr2[i2]; i++; } length = i2; } } return dArr; } public float put(double d, float f) { boolean z; float f2; int insertionIndex = insertionIndex(d); if (insertionIndex < 0) { insertionIndex = (-insertionIndex) - 1; f2 = this._values[insertionIndex]; z = false; } else { z = true; f2 = 0.0f; } byte[] bArr = this._states; byte b = bArr[insertionIndex]; this._set[insertionIndex] = d; bArr[insertionIndex] = 1; this._values[insertionIndex] = f; if (z) { postInsertHook(b == 0); } return f2; } @Override // gnu.trove.THash protected void rehash(int i) { int capacity = capacity(); double[] dArr = this._set; float[] fArr = this._values; byte[] bArr = this._states; this._set = new double[i]; this._values = new float[i]; this._states = new byte[i]; while (true) { int i2 = capacity - 1; if (capacity <= 0) { return; } if (bArr[i2] == 1) { double d = dArr[i2]; int insertionIndex = insertionIndex(d); this._set[insertionIndex] = d; this._values[insertionIndex] = fArr[i2]; this._states[insertionIndex] = 1; } capacity = i2; } } public float remove(double d) { int index = index(d); if (index < 0) { return 0.0f; } float f = this._values[index]; removeAt(index); return f; } @Override // gnu.trove.TDoubleHash, gnu.trove.TPrimitiveHash, gnu.trove.THash protected void removeAt(int i) { this._values[i] = 0.0f; super.removeAt(i); } public boolean retainEntries(TDoubleFloatProcedure tDoubleFloatProcedure) { byte[] bArr = this._states; double[] dArr = this._set; float[] fArr = this._values; boolean z = false; if (bArr != null) { int length = bArr.length; while (true) { int i = length - 1; if (length <= 0) { break; } if (bArr[i] != 1 || tDoubleFloatProcedure.a(dArr[i], fArr[i])) { length = i; } else { removeAt(i); length = i; z = true; } } } return z; } @Override // gnu.trove.TDoubleHash, gnu.trove.TPrimitiveHash, gnu.trove.THash protected int setUp(int i) { int up = super.setUp(i); this._values = i == -1 ? null : new float[up]; return up; } public String toString() { final StringBuilder sb = new StringBuilder(); forEachEntry(new TDoubleFloatProcedure(this) { // from class: gnu.trove.TDoubleFloatHashMap.1 @Override // gnu.trove.TDoubleFloatProcedure public boolean a(double d, float f) { if (sb.length() != 0) { StringBuilder sb2 = sb; sb2.append(','); sb2.append(' '); } sb.append(d); sb.append('='); sb.append(f); return true; } }); sb.append('}'); sb.insert(0, '{'); return sb.toString(); } public void transformValues(TFloatFunction tFloatFunction) { byte[] bArr = this._states; float[] fArr = this._values; if (bArr == null) { return; } int length = bArr.length; while (true) { int i = length - 1; if (length <= 0) { return; } if (bArr[i] == 1) { fArr[i] = tFloatFunction.a(fArr[i]); } length = i; } } public TDoubleFloatHashMap(int i) { super(i); } public TDoubleFloatHashMap(int i, float f) { super(i, f); } public TDoubleFloatHashMap(TDoubleHashingStrategy tDoubleHashingStrategy) { super(tDoubleHashingStrategy); } public TDoubleFloatHashMap(int i, TDoubleHashingStrategy tDoubleHashingStrategy) { super(i, tDoubleHashingStrategy); } public TDoubleFloatHashMap(int i, float f, TDoubleHashingStrategy tDoubleHashingStrategy) { super(i, f, tDoubleHashingStrategy); } }