Before you can get to the problem of "how do I send an integer?", you need to solve a bigger problem: "how do I send a message?"
In TCP, when you call
send on one side, even if it sends the whole buffer at once (which isn't guaranteed), the other side may get the data in multiple separate
recv calls rather than all at once. Worse, it may get part of one
send and part of the next
send in a single
You can use a higher-level protocol—like ZeroMQ, or even HTTP—that takes care of this for you. But if you just want to use raw TCP, you have to handle it yourself.
One obvious solution is a delimiter like newlines (or NUL bytes, etc.)—but then of course you need some way of escaping newlines in the middle of messages. Another possibility is to use some kind of header that describes the rest of the message, like netstring. Or you can use a self-delimiting message type like JSON.
Many really simple ways of handling the delimiter problem automatically take care of sending integers. JSON includes numbers as a type. Or you can just send the integers as strings over netstrings or newline-separated strings.
If you really want to encode the numbers in some "binary" way, you have to pick a representation, and write the code to convert to and from that representation on each side. For example, if you want to limit things to 32-bit signed integers, and send them in big-endian C integer format, the Python code for that is
buf = struct.pack('!I', number) and
number = struct.unpack('!I', buf).
But you should consider whether you need a binary format. It's obviously harder to read and debug as a human. It's also easier to get wrong (e.g., by forgetting about endianness or word size). And the easy ways to do it are limited (e.g., the
!I format described above will fail for numbers bigger than about 2 billion). And it isn't even necessarily more compact. Often, you're sending lots of small numbers, which take 2-3 bytes as strings with newlines, but 4 bytes in binary form.
Here's a simple Python implementation of a line-based number reader:
buf = ''
newbuf = s.recv(4096)
if not newbuf:
buf += newbuf
lines = buf.split('\n')
for line in lines[:-1]:
But you can do it even more simply with
with s.makefile() as f:
for line in f: