I'm using Google's protobuf, and I would like to read/write several gigabytes of protobuf marshalled data to a file using C++. As it's recommended to keep the size of each protobuf object under 1MB, I figured a binary stream (illustrated below) written to a file would work. Each offset contains the number of bytes to the next offset until the end of the file is reached. This way, each protobuf can stay under 1MB, and I can glob them together to my heart's content.
[int32 offset] [protobuf blob 1] [int32 offset] [protobuf blob 2] ... [eof]
I have an implemntation that works on Github:
But I feel I have written some poor code, and would appreciate some advice on how to improve it. Thus,
- I'm using
reinterpret_cast<char*>to read/write the 32 bit integers to and from the binary
fstream. Since I'm using protobuf, I'm making the assumption that all machines are little-endian. I also assert that an
intis indeed 4 bytes. Is there a better way to read/write a 32 bit integer to a binary
fstreamgiven these two limiting assumptions?
- In reading from
fstream, I create a temporary fixed-length
charbuffer, so that I can then pass this fixed-length buffer to the protobuf library to decode using
ParseFromIstreamwill consume the entire stream. I'd really prefer just to tell the library to read at most the next
fstream, but there doesn't seem to be that functionality in protobuf. What would be the most idiomatic way to pass a function at most N bytes of an
fstream? Or is my design sufficiently upside down that I should consider a different approach entirely?
- @codymanix: I'm casting to
chararray if I'm not mistaken. I'm also not using the extraction operator
>>since I read it was poor form to use with binary streams. Or is this last piece of advice bogus?
- @Martin York: Removed
deletein favor of
glob.cppis now updated. Thanks!