/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as big-endian. */ public BufferIterator bigEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.BIG_ENDIAN); }
/** * Returns a new iterator that treats the mapped data as little-endian. */ public BufferIterator littleEndianIterator() { return new NioBufferIterator(address, (int) size, ByteOrder.nativeOrder() != ByteOrder.LITTLE_ENDIAN); }