@Test public void testLE() { checkBEAndLE(2, Buffer.buffer().appendShort(Short.MAX_VALUE), Buffer.buffer().appendShortLE(Short.MAX_VALUE)); checkBEAndLE(2, Buffer.buffer().appendUnsignedShort(Short.MAX_VALUE), Buffer.buffer().appendUnsignedShortLE(Short.MAX_VALUE)); checkBEAndLE(3, Buffer.buffer().appendMedium(Integer.MAX_VALUE / 2), Buffer.buffer().appendMediumLE(Integer.MAX_VALUE / 2)); checkBEAndLE(4, Buffer.buffer().appendInt(Integer.MAX_VALUE), Buffer.buffer().appendIntLE(Integer.MAX_VALUE)); checkBEAndLE(4, Buffer.buffer().appendUnsignedInt(Integer.MAX_VALUE), Buffer.buffer().appendUnsignedIntLE(Integer.MAX_VALUE)); checkBEAndLE(8, Buffer.buffer().appendLong(Long.MAX_VALUE), Buffer.buffer().appendLongLE(Long.MAX_VALUE)); }
@Test public void testAppendUnsignedInt() { Buffer b = Buffer.buffer(TestUtils.randomByteArray(100)); b.appendUnsignedInt(Integer.MAX_VALUE + (long) Integer.MAX_VALUE / 2); assertEquals(104, b.length()); b.appendUnsignedIntLE(Integer.MAX_VALUE + (long) Integer.MAX_VALUE / 2); assertEquals(108, b.length()); }
@Test public void testLE() { checkBEAndLE(2, Buffer.buffer().appendShort(Short.MAX_VALUE), Buffer.buffer().appendShortLE(Short.MAX_VALUE)); checkBEAndLE(2, Buffer.buffer().appendUnsignedShort(Short.MAX_VALUE), Buffer.buffer().appendUnsignedShortLE(Short.MAX_VALUE)); checkBEAndLE(3, Buffer.buffer().appendMedium(Integer.MAX_VALUE / 2), Buffer.buffer().appendMediumLE(Integer.MAX_VALUE / 2)); checkBEAndLE(4, Buffer.buffer().appendInt(Integer.MAX_VALUE), Buffer.buffer().appendIntLE(Integer.MAX_VALUE)); checkBEAndLE(4, Buffer.buffer().appendUnsignedInt(Integer.MAX_VALUE), Buffer.buffer().appendUnsignedIntLE(Integer.MAX_VALUE)); checkBEAndLE(8, Buffer.buffer().appendLong(Long.MAX_VALUE), Buffer.buffer().appendLongLE(Long.MAX_VALUE)); }
/** * Appends the specified unsigned <code>int</code> to the end of the Buffer in the Little Endian Byte Order. The buffer will expand as necessary to accommodate any bytes written.<p> * Returns a reference to <code>this</code> so multiple operations can be appended together. * @param i * @return */ public io.vertx.rxjava.core.buffer.Buffer appendUnsignedIntLE(long i) { delegate.appendUnsignedIntLE(i); return this; }
/** * Appends the specified unsigned <code>int</code> to the end of the Buffer in the Little Endian Byte Order. The buffer will expand as necessary to accommodate any bytes written.<p> * Returns a reference to <code>this</code> so multiple operations can be appended together. * @param i * @return */ public io.vertx.rxjava.core.buffer.Buffer appendUnsignedIntLE(long i) { delegate.appendUnsignedIntLE(i); return this; }
@Test public void testAppendUnsignedInt() { Buffer b = Buffer.buffer(TestUtils.randomByteArray(100)); b.appendUnsignedInt(Integer.MAX_VALUE + (long) Integer.MAX_VALUE / 2); assertEquals(104, b.length()); b.appendUnsignedIntLE(Integer.MAX_VALUE + (long) Integer.MAX_VALUE / 2); assertEquals(108, b.length()); }
crc.update(content); Buffer trailer = Buffer.buffer(); trailer.appendUnsignedIntLE((int)crc.getValue()); trailer.appendUnsignedIntLE(content.length); baos.write(trailer.getBytes()); b.appendBytes(baos.toByteArray());