If SUB (0x1a) gave you problems, that is most likely because you opened the file in text mode, not binary mode, in Windows (*). Text-mode streams are allowed several implementation-defined things binary-mode streams are not, like changing the format of end-of-line (\n
vs. \r\n
), truncating trailing whitespace before a newline, or -- in your case -- considering 0x1a to mean end-of-file. So make sure that you use binary mode for reading binary data.
Note that binary-mode streams may have additional zero bytes at the end of the stream.
This kind of stream behaviour is specified for C99 in chapter 7.19.2 "Streams", section 2-3. I am sure similar specs are given for C11 and C++, but I cannot give you chapter and verse on those.
#include <iostream>
#include <fstream>
#include <sstream>
// ...
std::string filename( "foo.txt" );
std::stringstream sstr;
// It's the std::ios::binary that is making all the difference
std::ifstream in( filename.c_str(), std::ios::binary );
sstr << in.rdbuf();
Congratulations, you have just read the whole file into the stringstream sstr
. You can get a string
out of that with sstr.str()
-- and a string
has many of the same features as a std::vector< char >
-- but djf's solution for directly reading into a vector<char>
is more efficient (and would also work for a std::string
by the way).
(*): Linux makes no difference between text and binary mode.
All that being said, there is no guarantee whatsoever that a file will actually contain ASCII. Going with the assumption that you are working on Windows, the default encoding for text files is CP1252, which is quite a different thing from either ASCII or ISO 8859-1 (Latin-1) or ISO 8859-15 (Latin-9). Welcome to the world of text encodings. My suggestion is to use UTF-8, it's the only sane choice...