Are there pitfalls for specific operating systems, I should know of?
There are many duplicates (1, 2, 3, 4, 5) of this question but they were answered decades ago. The very high voted answers in many of these questions are wrong today.
stat.h (wrapper sprintstatf), uses syscall
tellg(), returns per definition a position but not necessarily bytes. The return type is not int.
<filesystem> (added in C++17) makes this very straightforward.
#include <cstdint>
#include <filesystem>
// ...
std::uintmax_t size = std::filesystem::file_size("c:\\foo\\bar.txt");
As noted in comments, if you're planning to use this function to decide how many bytes to read from the file, keep in mind that...
...unless the file is exclusively opened by you, its size can be changed between the time you ask for it and the time you try to read data from it.
– Nicol Bolas
std::uintmax_t will be able to hold greater values than std::size_t? If not, why not use std::size_t, which arguably is more recognisable? +1 on the answer, btw
file_size returns. Looks slightly weird to me too.
Jun 30, 2019 at 20:40
std::size_t is only required to hold the max size of in memory objects. Files can be considerably larger,
Jun 30, 2019 at 20:42
size_t is 32 bits, and uintmax_t is 64 bits.
Jun 30, 2019 at 20:43
C++17 brings std::filesystem which streamlines a lot of tasks on files and directories. Not only you can quickly get file size, its attributes, but also create new directories, iterate through files, work with path objects.
The new library gives us two functions that we can use:
std::uintmax_t std::filesystem::file_size( const std::filesystem::path& p );
std::uintmax_t std::filesystem::directory_entry::file_size() const;
The first function is a free function in std::filesystem, the second one is a method in directory_entry.
Each method also has an overload, as it can throw an exception or return an error code (through an output parameter). Below is the detail code explaining all the possible cases.
#include <chrono>
#include <filesystem>
#include <iostream>
namespace fs = std::filesystem;
int main(int argc, char* argv[])
{
try
{
const auto fsize = fs::file_size("a.out");
std::cout << fsize << '\n';
}
catch (const fs::filesystem_error& err)
{
std::cerr << "filesystem error! " << err.what() << '\n';
if (!err.path1().empty())
std::cerr << "path1: " << err.path1().string() << '\n';
if (!err.path2().empty())
std::cerr << "path2: " << err.path2().string() << '\n';
}
catch (const std::exception& ex)
{
std::cerr << "general exception: " << ex.what() << '\n';
}
// using error_code
std::error_code ec{};
auto size = std::filesystem::file_size("a.out", ec);
if (ec == std::error_code{})
std::cout << "size: " << size << '\n';
else
std::cout << "error when accessing test file, size is: "
<< size << " message: " << ec.message() << '\n';
}
tellgproblems. The only one worth bothering with is the fourth one, and that one's not great, since it talks too much aboutofstream, in both the question and its answers. This one is far better at expressing the intent than the others (except for the first, which is oddly closed).stat(2)anyways? Has it grown too old or what?stat(2)It's not part of the language standard.