When working with a C++
std::iostream (for example,
std::stringstream, does the standard guarantee anything about the relationships between reads and writes performed on the same stream? That is, is it necessarily true that if I write data into a
std::fstream, then try reading data out of that stream, I should see the data I've written? How about for a
std::stringstream? As an example, is this guaranteed to work?
std::stringstream myStream; myStream << "137 Hello 2.71828"; int myInt; std::string myString; double myDouble; myStream >> myInt >> myString >> myDouble; // Parse as expected?
Or what about this case?
std::fstream myStream("some-file.txt", ios::in | ios::out); myStream << "137 Hello 2.71828"; int myInt; std::string myString; double myDouble; myStream >> myInt >> myString >> myDouble; // Parse as expected?
I'm asking because I recently developed a networked stream class in which reads and writes do not affect one another (since reads pull from the network and writes send across the network). That is, writing
myNetworkStream << "Hi there!" << endl;
writes across the network, while
myNetworkStream >> myValue;
reads from the network. I'm not sure that this behavior is consistent with the general contract for streams. If I had to guess, one of the following three probably holds:
iostreamcontract says nothing about interleaved reads and writes, or
- In general the
iostreamcontract says nothing about interleaved reads and writes, but there are specific previsions in the spec governing how standard types like
iostreamcontract does say something about interleaved reads and writes that makes my network stream class violates.
I have a copy of the spec but the section on streams is so dense and cryptic it's all but impossible to follow. If anyone could clarify exactly how
iostreams are supposed to behave when you mix reads and writes, I'd really appreciate it.