checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
checkCurrentBuffer(); checkCurrentBuffer(); checkCurrentBuffer(); currentByteBuffer = currentBuffer.toByteBuffer(); bufferPos = currentBuffer.position();
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }
public void writeByte(final int b) throws IOException { connection.assertOpen(); if (closed) { return; } updateNonBlockingStatus(); if (writingChars()) { flushCharsToBuf(false); } checkCurrentBuffer(); if (!currentBuffer.hasRemaining()) { if (canWritePayloadChunk()) { doCommit(); flushBinaryBuffers(false); checkCurrentBuffer(); blockAfterWriteIfNeeded(); } else { finishCurrentBuffer(); checkCurrentBuffer(); } } currentBuffer.put((byte) b); }