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Overview
{fmt} is an open-source formatting library providing a fast and safe alternative to C stdio and C++ iostreams.
What users say:
Thanks for creating this library. It’s been a hole in C++ for a long time. I’ve used both
boost::format
andloki::SPrintf
, and neither felt like the right answer. This does.
Format API
The format API is similar in spirit to the C printf
family of function
but is safer, simpler and several times
faster
than common standard library implementations.
The format string syntax is similar to the one used by
str.format
in Python:
std::string s = fmt::format("The answer is {}.", 42);
The fmt::format
function returns a string "The answer is 42.". You
can use fmt::memory_buffer
to avoid constructing std::string
:
auto out = fmt::memory_buffer();
fmt::format_to(std::back_inserter(out),
"For a moment, {} happened.", "nothing");
auto data = out.data(); // pointer to the formatted data
auto size = out.size(); // size of the formatted data
The fmt::print
function performs formatting and writes the result to a
stream:
fmt::print(stderr, "System error code = {}\n", errno);
If you omit the file argument the function will print to stdout
:
fmt::print("Don't {}\n", "panic");
The format API also supports positional arguments useful for localization:
fmt::print("I'd rather be {1} than {0}.", "right", "happy");
You can pass named arguments with fmt::arg
:
fmt::print("Hello, {name}! The answer is {number}. Goodbye, {name}.",
fmt::arg("name", "World"), fmt::arg("number", 42));
If your compiler supports C++11 user-defined literals, the suffix _a
offers an alternative, slightly terser syntax for named arguments:
using namespace fmt::literals;
fmt::print("Hello, {name}! The answer is {number}. Goodbye, {name}.",
"name"_a="World", "number"_a=42);
Safety
The library is fully type safe, automatic memory management prevents buffer overflow, errors in format strings are reported using exceptions or at compile time. For example, the code
fmt::format("The answer is {:d}", "forty-two");
throws the format_error
exception because the argument "forty-two"
is a string while the format code d
only applies to integers.
The code
format(FMT_STRING("The answer is {:d}"), "forty-two");
reports a compile-time error on compilers that support relaxed constexpr
.
See Compile-Time Format String Checks
for details.
The following code
fmt::format("Cyrillic letter {}", L'\x42e');
produces a compile-time error because wide character L'\x42e'
cannot
be formatted into a narrow string. For comparison, writing a wide
character to std::ostream
results in its numeric value being written
to the stream (i.e. 1070 instead of letter 'ю' which is represented by
L'\x42e'
if we use Unicode) which is rarely desirable.
Compact Binary Code
The library produces compact per-call compiled code. For example (godbolt),
#include <fmt/core.h>
int main() {
fmt::print("The answer is {}.", 42);
}
compiles to just
main: # @main
sub rsp, 24
mov qword ptr [rsp], 42
mov rcx, rsp
mov edi, offset .L.str
mov esi, 17
mov edx, 1
call fmt::v7::vprint(fmt::v7::basic_string_view<char>, fmt::v7::format_args)
xor eax, eax
add rsp, 24
ret
.L.str:
.asciz "The answer is {}."
Portability
The library is highly portable and relies only on a small set of C++11 features:
- variadic templates
- type traits
- rvalue references
- decltype
- trailing return types
- deleted functions
- alias templates
These are available in GCC 4.8, Clang 3.4, MSVC 19.0 (2015) and more recent compiler version. For older compilers use {fmt} version 4.x which is maintained and only requires C++98.
The output of all formatting functions is consistent across platforms. For example,
fmt::print("{}", std::numeric_limits<double>::infinity());
always prints inf
while the output of printf
is platform-dependent.
Ease of Use
{fmt} has a small self-contained code base with the core library consisting of just three header files and no external dependencies. A permissive MIT license allows using the library both in open-source and commercial projects.
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