Overview
========
**fmt** (formerly cppformat) is an open-source formatting library.
It can be used as a fast and safe alternative to printf and IOStreams.
.. raw:: html
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<div class="panel-heading">What users say:</div>
<div class="panel-body">
Thanks for creating this library. It’s been a hole in C++ for a long
time. I’ve used both boost::format and loki::SPrintf, and neither felt
like the right answer. This does.
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.. _format-api-intro:
Format API
----------
The replacement-based Format API provides a safe alternative to ``printf``,
``sprintf`` and friends with comparable or `better performance
<http://zverovich.net/2013/09/07/integer-to-string-conversion-in-cplusplus.html>`_.
The `format string syntax <syntax.html>`_ is similar to the one used by
`str.format <http://docs.python.org/3/library/stdtypes.html#str.format>`_
in Python:
.. code:: c++
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``:
fmt::memory_buffer out;
format_to(out, "For a moment, {} happened.", "nothing");
out.data(); // returns a pointer to the formatted data
The ``fmt::print`` function performs formatting and writes the result to a file:
fmt::print(stderr, "System error code = {}\n", errno);
The file argument can be omitted in which case the function prints 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");
Named arguments can be created with ``fmt::arg``. This makes it easier to track
what goes where when multiple values are being inserted:
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:
"name"_a="World", "number"_a=42);
The ``_format`` suffix may be used to format string literals similar to Python:
std::string message = "{0}{1}{0}"_format("abra", "cad");
Other than the placement of the format string on the left of the operator,
``_format`` is functionally identical to ``fmt::format``. In order to use the
literal operators, they must be made visible with the directive
``using namespace fmt::literals;``. Note that this brings in only ``_a`` and
``_format`` but nothing else from the ``fmt`` namespace.
.. _safety:
Safety
------
The library is fully type safe, automatic memory management prevents buffer
overflow, errors in format strings are reported using exceptions or at compile
tim. For example, the code
fmt::format("The answer is {:d}", "forty-two");
throws a ``format_error`` exception with description "unknown format code 'd' for
string", because the argument ``"forty-two"`` is a string while the format code
``d`` only applies to integers, while
format(fmt("The answer is {:d}"), "forty-two");
reports a compile-time error for the same reason on compilers that support
relaxed ``constexpr``.
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. You can use a wide format string instead:
fmt::format(L"Cyrillic letter {}", L'\x42e');
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 what is
needed.
Compact binary code
-------------------
The library is designed to produce compact per-call compiled code. For example
(`godbolt <https://godbolt.org/g/TZU4KF>`_),
#include <fmt/core.h>
int main() {
fmt::print("The answer is {}.", 42);
}
compiles to just
.. code:: asm
main: # @main
sub rsp, 24
mov qword ptr [rsp], 42
mov rcx, rsp
mov edi, offset .L.str
mov esi, 17
mov edx, 2
call fmt::v5::vprint(fmt::v5::basic_string_view<char>, fmt::v5::format_args)
xor eax, eax
add rsp, 24
ret
.L.str:
.asciz "The answer is {}."
.. _portability:
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
These are available since GCC 4.4, Clang 2.9 and MSVC 18.0 (2013). For older
compilers use fmt `version 4.x
<https://github.com/fmtlib/fmt/releases/tag/4.1.0>`_ which continues to be
maintained and only requires C++98.
The output of all formatting functions is consistent across platforms. In
particular, formatting a floating-point infinity always gives ``inf`` while the
output of ``printf`` is platform-dependent in this case. For example,
.. code::
fmt::print("{}", std::numeric_limits<double>::infinity());
always prints ``inf``.
.. _ease-of-use:
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 BSD `license <https://github.com/fmtlib/fmt#license>`_ allows
using the library both in open-source and commercial projects.
<a class="btn btn-success" href="https://github.com/fmtlib/fmt">GitHub Repository</a>
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