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Tantrum serializers for digital types
package com.github.tommyettinger.tantrum.digital.helpers;
import org.apache.fury.memory.BoundsChecking;
import org.apache.fury.memory.MemoryBuffer;
import org.apache.fury.memory.Platform;
public final class Support {
private Support() {
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static boolean[] readBooleansAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final boolean[] booleans = new boolean[numBytes];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, booleans, Platform.BOOLEAN_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return booleans;
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
* It delegates to {@link MemoryBuffer#readBytesAndSize()}.
*/
public static byte[] readBytesAndSize(MemoryBuffer buffer) {
return buffer.readBytesAndSize();
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static short[] readShortsAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final short[] shorts = new short[numBytes >>> 1];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, shorts, Platform.SHORT_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return shorts;
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
* It delegates to {@link MemoryBuffer#readCharsAndSize()}.
*/
public static char[] readCharsAndSize(MemoryBuffer buffer) {
return buffer.readCharsAndSize();
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static int[] readIntsAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final int[] ints = new int[numBytes >>> 2];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, ints, Platform.INT_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return ints;
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static float[] readFloatsAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final float[] floats = new float[numBytes >>> 2];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, floats, Platform.FLOAT_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return floats;
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static long[] readLongsAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final long[] longs = new long[numBytes >>> 3];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, longs, Platform.LONG_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return longs;
}
/**
* This method should be used to read data written by
* {@link MemoryBuffer#writePrimitiveArrayWithSize(Object, int, int)}.
*/
public static double[] readDoublesAndSize(MemoryBuffer buffer) {
final int numBytes = buffer.readVarUint32();
int readerIdx = buffer.readerIndex();
final int size = buffer.size();
// use subtract to avoid overflow
if (BoundsChecking.BOUNDS_CHECKING_ENABLED && readerIdx > size - numBytes) {
throw new IndexOutOfBoundsException(
String.format(
"readerIdx(%d) + length(%d) exceeds size(%d): %s", readerIdx, numBytes, size, buffer));
}
final double[] doubles = new double[numBytes >>> 3];
Platform.copyMemory(
buffer.getHeapMemory(), buffer.getUnsafeAddress() + readerIdx, doubles, Platform.DOUBLE_ARRAY_OFFSET, numBytes);
buffer._increaseReaderIndexUnsafe(numBytes);
return doubles;
}
}
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