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package androidx.emoji2.text.flatbuffer;
import java.io.IOException;
import java.io.InputStream;
import java.nio.BufferUnderflowException;
import java.nio.ByteBuffer;
import java.nio.ByteOrder;
import java.util.Arrays;
public class FlatBufferBuilder {
static final /* synthetic */ boolean $assertionsDisabled = false;
ByteBuffer bb;
ByteBufferFactory bb_factory;
boolean finished;
boolean force_defaults;
int minalign;
boolean nested;
int num_vtables;
int object_start;
int space;
final Utf8 utf8;
int vector_num_elems;
int[] vtable;
int vtable_in_use;
int[] vtables;
public static abstract class ByteBufferFactory {
public abstract ByteBuffer newByteBuffer(int i);
public void releaseByteBuffer(ByteBuffer byteBuffer) {
}
}
public FlatBufferBuilder(int i, ByteBufferFactory byteBufferFactory) {
this(i, byteBufferFactory, (ByteBuffer) null, Utf8.getDefault());
}
public FlatBufferBuilder(int i, ByteBufferFactory byteBufferFactory, ByteBuffer byteBuffer, Utf8 utf82) {
this.minalign = 1;
this.vtable = null;
this.vtable_in_use = 0;
this.nested = false;
this.finished = false;
this.vtables = new int[16];
this.num_vtables = 0;
this.vector_num_elems = 0;
this.force_defaults = false;
i = i <= 0 ? 1 : i;
this.bb_factory = byteBufferFactory;
if (byteBuffer != null) {
this.bb = byteBuffer;
byteBuffer.clear();
this.bb.order(ByteOrder.LITTLE_ENDIAN);
} else {
this.bb = byteBufferFactory.newByteBuffer(i);
}
this.utf8 = utf82;
this.space = this.bb.capacity();
}
public FlatBufferBuilder(int i) {
this(i, HeapByteBufferFactory.INSTANCE, (ByteBuffer) null, Utf8.getDefault());
}
public FlatBufferBuilder() {
this(1024);
}
public FlatBufferBuilder(ByteBuffer byteBuffer, ByteBufferFactory byteBufferFactory) {
this(byteBuffer.capacity(), byteBufferFactory, byteBuffer, Utf8.getDefault());
}
public FlatBufferBuilder(ByteBuffer byteBuffer) {
this(byteBuffer, (ByteBufferFactory) new HeapByteBufferFactory());
}
public FlatBufferBuilder init(ByteBuffer byteBuffer, ByteBufferFactory byteBufferFactory) {
this.bb_factory = byteBufferFactory;
this.bb = byteBuffer;
byteBuffer.clear();
this.bb.order(ByteOrder.LITTLE_ENDIAN);
this.minalign = 1;
this.space = this.bb.capacity();
this.vtable_in_use = 0;
this.nested = false;
this.finished = false;
this.object_start = 0;
this.num_vtables = 0;
this.vector_num_elems = 0;
return this;
}
public static final class HeapByteBufferFactory extends ByteBufferFactory {
public static final HeapByteBufferFactory INSTANCE = new HeapByteBufferFactory();
public ByteBuffer newByteBuffer(int i) {
return ByteBuffer.allocate(i).order(ByteOrder.LITTLE_ENDIAN);
}
}
public static boolean isFieldPresent(Table table, int i) {
return table.__offset(i) != 0;
}
public void clear() {
this.space = this.bb.capacity();
this.bb.clear();
this.minalign = 1;
while (true) {
int i = this.vtable_in_use;
if (i > 0) {
int[] iArr = this.vtable;
int i2 = i - 1;
this.vtable_in_use = i2;
iArr[i2] = 0;
} else {
this.vtable_in_use = 0;
this.nested = false;
this.finished = false;
this.object_start = 0;
this.num_vtables = 0;
this.vector_num_elems = 0;
return;
}
}
}
static ByteBuffer growByteBuffer(ByteBuffer byteBuffer, ByteBufferFactory byteBufferFactory) {
int capacity = byteBuffer.capacity();
if ((-1073741824 & capacity) == 0) {
int i = capacity == 0 ? 1 : capacity << 1;
byteBuffer.position(0);
ByteBuffer newByteBuffer = byteBufferFactory.newByteBuffer(i);
newByteBuffer.position(newByteBuffer.clear().capacity() - capacity);
newByteBuffer.put(byteBuffer);
return newByteBuffer;
}
throw new AssertionError("FlatBuffers: cannot grow buffer beyond 2 gigabytes.");
}
public int offset() {
return this.bb.capacity() - this.space;
}
public void pad(int i) {
for (int i2 = 0; i2 < i; i2++) {
ByteBuffer byteBuffer = this.bb;
int i3 = this.space - 1;
this.space = i3;
byteBuffer.put(i3, (byte) 0);
}
}
public void prep(int i, int i2) {
if (i > this.minalign) {
this.minalign = i;
}
int i3 = ((~((this.bb.capacity() - this.space) + i2)) + 1) & (i - 1);
while (this.space < i3 + i + i2) {
int capacity = this.bb.capacity();
ByteBuffer byteBuffer = this.bb;
ByteBuffer growByteBuffer = growByteBuffer(byteBuffer, this.bb_factory);
this.bb = growByteBuffer;
if (byteBuffer != growByteBuffer) {
this.bb_factory.releaseByteBuffer(byteBuffer);
}
this.space += this.bb.capacity() - capacity;
}
pad(i3);
}
public void putBoolean(boolean z) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 1;
this.space = i;
byteBuffer.put(i, z ? (byte) 1 : 0);
}
public void putByte(byte b) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 1;
this.space = i;
byteBuffer.put(i, b);
}
public void putShort(short s) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 2;
this.space = i;
byteBuffer.putShort(i, s);
}
public void putInt(int i) {
ByteBuffer byteBuffer = this.bb;
int i2 = this.space - 4;
this.space = i2;
byteBuffer.putInt(i2, i);
}
public void putLong(long j) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 8;
this.space = i;
byteBuffer.putLong(i, j);
}
public void putFloat(float f) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 4;
this.space = i;
byteBuffer.putFloat(i, f);
}
public void putDouble(double d) {
ByteBuffer byteBuffer = this.bb;
int i = this.space - 8;
this.space = i;
byteBuffer.putDouble(i, d);
}
public void addBoolean(boolean z) {
prep(1, 0);
putBoolean(z);
}
public void addByte(byte b) {
prep(1, 0);
putByte(b);
}
public void addShort(short s) {
prep(2, 0);
putShort(s);
}
public void addInt(int i) {
prep(4, 0);
putInt(i);
}
public void addLong(long j) {
prep(8, 0);
putLong(j);
}
public void addFloat(float f) {
prep(4, 0);
putFloat(f);
}
public void addDouble(double d) {
prep(8, 0);
putDouble(d);
}
public void addOffset(int i) {
prep(4, 0);
putInt((offset() - i) + 4);
}
public void startVector(int i, int i2, int i3) {
notNested();
this.vector_num_elems = i2;
int i4 = i * i2;
prep(4, i4);
prep(i3, i4);
this.nested = true;
}
public int endVector() {
if (this.nested) {
this.nested = false;
putInt(this.vector_num_elems);
return offset();
}
throw new AssertionError("FlatBuffers: endVector called without startVector");
}
public ByteBuffer createUnintializedVector(int i, int i2, int i3) {
int i4 = i * i2;
startVector(i, i2, i3);
ByteBuffer byteBuffer = this.bb;
int i5 = this.space - i4;
this.space = i5;
byteBuffer.position(i5);
ByteBuffer order = this.bb.slice().order(ByteOrder.LITTLE_ENDIAN);
order.limit(i4);
return order;
}
public int createVectorOfTables(int[] iArr) {
notNested();
startVector(4, iArr.length, 4);
for (int length = iArr.length - 1; length >= 0; length--) {
addOffset(iArr[length]);
}
return endVector();
}
public <T extends Table> int createSortedVectorOfTables(T t, int[] iArr) {
t.sortTables(iArr, this.bb);
return createVectorOfTables(iArr);
}
public int createString(CharSequence charSequence) {
int encodedLength = this.utf8.encodedLength(charSequence);
addByte((byte) 0);
startVector(1, encodedLength, 1);
ByteBuffer byteBuffer = this.bb;
int i = this.space - encodedLength;
this.space = i;
byteBuffer.position(i);
this.utf8.encodeUtf8(charSequence, this.bb);
return endVector();
}
public int createString(ByteBuffer byteBuffer) {
int remaining = byteBuffer.remaining();
addByte((byte) 0);
startVector(1, remaining, 1);
ByteBuffer byteBuffer2 = this.bb;
int i = this.space - remaining;
this.space = i;
byteBuffer2.position(i);
this.bb.put(byteBuffer);
return endVector();
}
public int createByteVector(byte[] bArr) {
int length = bArr.length;
startVector(1, length, 1);
ByteBuffer byteBuffer = this.bb;
int i = this.space - length;
this.space = i;
byteBuffer.position(i);
this.bb.put(bArr);
return endVector();
}
public int createByteVector(byte[] bArr, int i, int i2) {
startVector(1, i2, 1);
ByteBuffer byteBuffer = this.bb;
int i3 = this.space - i2;
this.space = i3;
byteBuffer.position(i3);
this.bb.put(bArr, i, i2);
return endVector();
}
public int createByteVector(ByteBuffer byteBuffer) {
int remaining = byteBuffer.remaining();
startVector(1, remaining, 1);
ByteBuffer byteBuffer2 = this.bb;
int i = this.space - remaining;
this.space = i;
byteBuffer2.position(i);
this.bb.put(byteBuffer);
return endVector();
}
public void finished() {
if (!this.finished) {
throw new AssertionError("FlatBuffers: you can only access the serialized buffer after it has been finished by FlatBufferBuilder.finish().");
}
}
public void notNested() {
if (this.nested) {
throw new AssertionError("FlatBuffers: object serialization must not be nested.");
}
}
public void Nested(int i) {
if (i != offset()) {
throw new AssertionError("FlatBuffers: struct must be serialized inline.");
}
}
public void startTable(int i) {
notNested();
int[] iArr = this.vtable;
if (iArr == null || iArr.length < i) {
this.vtable = new int[i];
}
this.vtable_in_use = i;
Arrays.fill(this.vtable, 0, i, 0);
this.nested = true;
this.object_start = offset();
}
public void addBoolean(int i, boolean z, boolean z2) {
if (this.force_defaults || z != z2) {
addBoolean(z);
slot(i);
}
}
public void addByte(int i, byte b, int i2) {
if (this.force_defaults || b != i2) {
addByte(b);
slot(i);
}
}
public void addShort(int i, short s, int i2) {
if (this.force_defaults || s != i2) {
addShort(s);
slot(i);
}
}
public void addInt(int i, int i2, int i3) {
if (this.force_defaults || i2 != i3) {
addInt(i2);
slot(i);
}
}
public void addLong(int i, long j, long j2) {
if (this.force_defaults || j != j2) {
addLong(j);
slot(i);
}
}
public void addFloat(int i, float f, double d) {
if (this.force_defaults || ((double) f) != d) {
addFloat(f);
slot(i);
}
}
public void addDouble(int i, double d, double d2) {
if (this.force_defaults || d != d2) {
addDouble(d);
slot(i);
}
}
public void addOffset(int i, int i2, int i3) {
if (this.force_defaults || i2 != i3) {
addOffset(i2);
slot(i);
}
}
public void addStruct(int i, int i2, int i3) {
if (i2 != i3) {
Nested(i2);
slot(i);
}
}
public void slot(int i) {
this.vtable[i] = offset();
}
public int endTable() {
int i;
if (this.vtable == null || !this.nested) {
throw new AssertionError("FlatBuffers: endTable called without startTable");
}
addInt(0);
int offset = offset();
int i2 = this.vtable_in_use - 1;
while (i2 >= 0 && this.vtable[i2] == 0) {
i2--;
}
int i3 = i2 + 1;
while (i2 >= 0) {
int[] iArr = this.vtable;
addShort((short) (iArr[i2] != 0 ? offset - iArr[i2] : 0));
i2--;
}
addShort((short) (offset - this.object_start));
addShort((short) ((i3 + 2) * 2));
int i4 = 0;
loop2:
while (true) {
if (i4 >= this.num_vtables) {
i = 0;
break;
}
int capacity = this.bb.capacity() - this.vtables[i4];
int i5 = this.space;
short s = this.bb.getShort(capacity);
if (s == this.bb.getShort(i5)) {
int i6 = 2;
while (i6 < s) {
if (this.bb.getShort(capacity + i6) == this.bb.getShort(i5 + i6)) {
i6 += 2;
}
}
i = this.vtables[i4];
break loop2;
}
i4++;
}
if (i != 0) {
int capacity2 = this.bb.capacity() - offset;
this.space = capacity2;
this.bb.putInt(capacity2, i - offset);
} else {
int i7 = this.num_vtables;
int[] iArr2 = this.vtables;
if (i7 == iArr2.length) {
this.vtables = Arrays.copyOf(iArr2, i7 * 2);
}
int[] iArr3 = this.vtables;
int i8 = this.num_vtables;
this.num_vtables = i8 + 1;
iArr3[i8] = offset();
ByteBuffer byteBuffer = this.bb;
byteBuffer.putInt(byteBuffer.capacity() - offset, offset() - offset);
}
this.nested = false;
return offset;
}
public void required(int i, int i2) {
int capacity = this.bb.capacity() - i;
if (!(this.bb.getShort((capacity - this.bb.getInt(capacity)) + i2) != 0)) {
throw new AssertionError("FlatBuffers: field " + i2 + " must be set");
}
}
/* access modifiers changed from: protected */
public void finish(int i, boolean z) {
prep(this.minalign, (z ? 4 : 0) + 4);
addOffset(i);
if (z) {
addInt(this.bb.capacity() - this.space);
}
this.bb.position(this.space);
this.finished = true;
}
public void finish(int i) {
finish(i, false);
}
public void finishSizePrefixed(int i) {
finish(i, true);
}
/* access modifiers changed from: protected */
public void finish(int i, String str, boolean z) {
prep(this.minalign, (z ? 4 : 0) + 8);
if (str.length() == 4) {
for (int i2 = 3; i2 >= 0; i2--) {
addByte((byte) str.charAt(i2));
}
finish(i, z);
return;
}
throw new AssertionError("FlatBuffers: file identifier must be length 4");
}
public void finish(int i, String str) {
finish(i, str, false);
}
public void finishSizePrefixed(int i, String str) {
finish(i, str, true);
}
public FlatBufferBuilder forceDefaults(boolean z) {
this.force_defaults = z;
return this;
}
public ByteBuffer dataBuffer() {
finished();
return this.bb;
}
@Deprecated
private int dataStart() {
finished();
return this.space;
}
public byte[] sizedByteArray(int i, int i2) {
finished();
byte[] bArr = new byte[i2];
this.bb.position(i);
this.bb.get(bArr);
return bArr;
}
public byte[] sizedByteArray() {
return sizedByteArray(this.space, this.bb.capacity() - this.space);
}
public InputStream sizedInputStream() {
finished();
ByteBuffer duplicate = this.bb.duplicate();
duplicate.position(this.space);
duplicate.limit(this.bb.capacity());
return new ByteBufferBackedInputStream(duplicate);
}
static class ByteBufferBackedInputStream extends InputStream {
ByteBuffer buf;
public ByteBufferBackedInputStream(ByteBuffer byteBuffer) {
this.buf = byteBuffer;
}
public int read() throws IOException {
try {
return this.buf.get() & 255;
} catch (BufferUnderflowException unused) {
return -1;
}
}
}
}
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