Readable
size_t readable = targetFifo->Readable();
size_t readable = fifo->Readable();
ssize_t readable = fReceiveFifo->Readable();
size_t readable = Readable();
ancillaryEntry->offset = Readable();
if (IsReadShutdown() && fBuffer.Readable() == 0)
if (firstInQueue && !fReaders.IsEmpty() && fBuffer.Readable() > 0
size_t readable = fBuffer.Readable();
&& !(IsReadShutdown() && fBuffer.Readable() == 0)) {
if (fBuffer.Readable() == 0) {
while (fBuffer.Readable() == 0
if (fBuffer.Readable() == 0) {
size_t Readable() const;
size_t Readable() const;
size_t readable = peerFifo->Readable();
size_t readable = fifo->Readable();
ssize_t readable = fReceiveFifo->Readable();
{ return fBuffer.Readable(); }
while (fBuffer.Readable() == 0) {
if (fBuffer.Readable() != 0) {
size_t toRead = fBuffer.Readable();
size_t Readable() const;
if (fBuffer.Readable() > 0) {
if (wasEmpty && fBuffer.Readable() > 0) {
TRACE(" buffer readable: %zu\n", fBuffer.Readable());
if (fBuffer.Readable() == 0) {
if ((event == B_SELECT_READ && fBuffer.Readable() > 0)
kprintf(" %zu bytes buffered\n", fBuffer.Readable());
if (dumpData && fBuffer.Readable() > 0) {
return fOffset < fBuffer.Readable();
if (fOffset < fBuffer.Readable()) {
BKernel::print_hex_dump(dataProvider, fBuffer.Readable());