fmt/doc/api.rst

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.. _string-formatting-api:
*************
API Reference
*************
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The {fmt} library API consists of the following parts:
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* :ref:`fmt/base.h <base-api>`: the base API providing main formatting functions
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for ``char``/UTF-8 with C++20 compile-time checks and minimal dependencies
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* :ref:`fmt/format.h <format-api>`: the full format API providing additional
formatting functions and locale support
* :ref:`fmt/ranges.h <ranges-api>`: formatting of ranges and tuples
* :ref:`fmt/chrono.h <chrono-api>`: date and time formatting
* :ref:`fmt/std.h <std-api>`: formatters for standard library types
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* :ref:`fmt/compile.h <compile-api>`: format string compilation
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* :ref:`fmt/color.h <color-api>`: terminal color and text style
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* :ref:`fmt/os.h <os-api>`: system APIs
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* :ref:`fmt/ostream.h <ostream-api>`: ``std::ostream`` support
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* :ref:`fmt/args.h <args-api>`: dynamic argument lists
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* :ref:`fmt/printf.h <printf-api>`: ``printf`` formatting
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* :ref:`fmt/xchar.h <xchar-api>`: optional ``wchar_t`` support
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All functions and types provided by the library reside in namespace ``fmt`` and
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macros have prefix ``FMT_``.
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.. _base-api:
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Base API
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========
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``fmt/base.h`` defines the base API which provides main formatting functions
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for ``char``/UTF-8 with C++20 compile-time checks. It has minimal include
dependencies for better compile times. This header is only beneficial when
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using {fmt} as a library (the default) and not in the header-only mode.
It also provides ``formatter`` specializations for built-in and string types.
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The following functions use :ref:`format string syntax <syntax>`
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similar to that of Python's `str.format
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<https://docs.python.org/3/library/stdtypes.html#str.format>`_.
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They take *fmt* and *args* as arguments.
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*fmt* is a format string that contains literal text and replacement fields
surrounded by braces ``{}``. The fields are replaced with formatted arguments
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in the resulting string. `~fmt::format_string` is a format string which can be
implicitly constructed from a string literal or a ``constexpr`` string and is
checked at compile time in C++20. To pass a runtime format string wrap it in
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`fmt::runtime`.
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*args* is an argument list representing objects to be formatted.
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I/O errors are reported as `std::system_error
<https://en.cppreference.com/w/cpp/error/system_error>`_ exceptions unless
specified otherwise.
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.. _print:
.. doxygenfunction:: fmt::print(format_string<T...> fmt, T&&... args)
.. doxygenfunction:: fmt::vprint(string_view fmt, format_args args)
.. doxygenfunction:: print(FILE *f, format_string<T...> fmt, T&&... args)
.. doxygenfunction:: vprint(FILE *f, string_view fmt, format_args args)
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.. doxygenfunction:: println(format_string<T...> fmt, T&&... args)
.. doxygenfunction:: println(FILE *f, format_string<T...> fmt, T&&... args)
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.. _format:
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.. doxygenfunction:: format_to(OutputIt out, format_string<T...> fmt, T&&... args) -> OutputIt
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.. doxygenfunction:: format_to_n(OutputIt out, size_t n, format_string<T...> fmt, T&&... args) -> format_to_n_result<OutputIt>
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.. doxygenfunction:: formatted_size(format_string<T...> fmt, T&&... args) -> size_t
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.. doxygenstruct:: fmt::format_to_n_result
:members:
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Compile-Time Format String Checks
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---------------------------------
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Compile-time format string checks are enabled by default on compilers
that support C++20 ``consteval``. On older compilers you can use the
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:ref:`FMT_STRING <legacy-checks>`: macro defined in ``fmt/format.h`` instead.
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Unused arguments are allowed as in Python's `str.format` and ordinary functions.
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.. doxygenclass:: fmt::basic_format_string
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:members:
.. doxygentypedef:: fmt::format_string
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.. doxygenfunction:: fmt::runtime(string_view) -> runtime_format_string<>
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.. _udt:
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Formatting User-Defined Types
-----------------------------
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The {fmt} library provides formatters for many standard C++ types.
See :ref:`fmt/ranges.h <ranges-api>` for ranges and tuples including standard
containers such as ``std::vector``, :ref:`fmt/chrono.h <chrono-api>` for date
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and time formatting and :ref:`fmt/std.h <std-api>` for other standard library
types.
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There are two ways to make a user-defined type formattable: providing a
``format_as`` function or specializing the ``formatter`` struct template.
Use ``format_as`` if you want to make your type formattable as some other type
with the same format specifiers. The ``format_as`` function should take an
object of your type and return an object of a formattable type. It should be
defined in the same namespace as your type.
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Example (https://godbolt.org/z/nvME4arz8)::
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#include <fmt/format.h>
namespace kevin_namespacy {
enum class film {
house_of_cards, american_beauty, se7en = 7
};
auto format_as(film f) { return fmt::underlying(f); }
}
int main() {
fmt::print("{}\n", kevin_namespacy::film::se7en); // prints "7"
}
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Using specialization is more complex but gives you full control over parsing and
formatting. To use this method specialize the ``formatter`` struct template for
your type and implement ``parse`` and ``format`` methods.
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The recommended way of defining a formatter is by reusing an existing one via
inheritance or composition. This way you can support standard format specifiers
without implementing them yourself. For example::
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// color.h:
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#include <fmt/base.h>
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enum class color {red, green, blue};
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template <> struct fmt::formatter<color>: formatter<string_view> {
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// parse is inherited from formatter<string_view>.
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auto format(color c, format_context& ctx) const
-> format_parse_context::iterator;
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};
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// color.cc:
#include "color.h"
#include <fmt/format.h>
auto fmt::formatter<color>::format(color c, format_context& ctx) const
-> format_parse_context::iterator {
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string_view name = "unknown";
switch (c) {
case color::red: name = "red"; break;
case color::green: name = "green"; break;
case color::blue: name = "blue"; break;
}
return formatter<string_view>::format(name, ctx);
}
Note that ``formatter<string_view>::format`` is defined in ``fmt/format.h`` so
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it has to be included in the source file. Since ``parse`` is inherited from
``formatter<string_view>`` it will recognize all string format specifications,
for example
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.. code-block:: c++
fmt::format("{:>10}", color::blue)
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will return ``" blue"``.
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The experimental ``nested_formatter`` provides an easy way of applying a
formatter to one or more subobjects.
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For example::
#include <fmt/format.h>
struct point {
double x, y;
};
template <>
struct fmt::formatter<point> : nested_formatter<double> {
auto format(point p, format_context& ctx) const {
return write_padded(ctx, [=](auto out) {
return format_to(out, "({}, {})", this->nested(p.x),
this->nested(p.y));
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});
}
};
int main() {
fmt::print("[{:>20.2f}]", point{1, 2});
}
prints::
[ (1.00, 2.00)]
Notice that fill, align and width are applied to the whole object which is the
recommended behavior while the remaining specifiers apply to elements.
In general the formatter has the following form::
template <> struct fmt::formatter<T> {
// Parses format specifiers and stores them in the formatter.
//
// [ctx.begin(), ctx.end()) is a, possibly empty, character range that
// contains a part of the format string starting from the format
// specifications to be parsed, e.g. in
//
// fmt::format("{:f} continued", ...);
//
// the range will contain "f} continued". The formatter should parse
// specifiers until '}' or the end of the range. In this example the
// formatter should parse the 'f' specifier and return an iterator
// pointing to '}'.
constexpr auto parse(format_parse_context& ctx)
-> format_parse_context::iterator;
// Formats value using the parsed format specification stored in this
// formatter and writes the output to ctx.out().
auto format(const T& value, format_context& ctx) const
-> format_context::iterator;
};
It is recommended to at least support fill, align and width that apply to the
whole object and have the same semantics as in standard formatters.
You can also write a formatter for a hierarchy of classes::
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// demo.h:
#include <type_traits>
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#include <fmt/core.h>
struct A {
virtual ~A() {}
virtual std::string name() const { return "A"; }
};
struct B : A {
virtual std::string name() const { return "B"; }
};
template <typename T>
struct fmt::formatter<T, std::enable_if_t<std::is_base_of<A, T>::value, char>> :
fmt::formatter<std::string> {
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auto format(const A& a, format_context& ctx) const {
return fmt::formatter<std::string>::format(a.name(), ctx);
}
};
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// demo.cc:
#include "demo.h"
#include <fmt/format.h>
int main() {
B b;
A& a = b;
fmt::print("{}", a); // prints "B"
}
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Providing both a ``formatter`` specialization and a ``format_as`` overload is
disallowed.
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Named Arguments
---------------
.. doxygenfunction:: fmt::arg(const S&, const T&)
Named arguments are not supported in compile-time checks at the moment.
Argument Lists
--------------
You can create your own formatting function with compile-time checks and small
binary footprint, for example (https://godbolt.org/z/vajfWEG4b):
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.. code:: c++
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#include <fmt/base.h>
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void vlog(const char* file, int line, fmt::string_view format,
fmt::format_args args) {
fmt::print("{}: {}: ", file, line);
fmt::vprint(format, args);
}
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template <typename... T>
void log(const char* file, int line, fmt::format_string<T...> format, T&&... args) {
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vlog(file, line, format, fmt::make_format_args(args...));
}
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#define MY_LOG(format, ...) log(__FILE__, __LINE__, format, __VA_ARGS__)
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MY_LOG("invalid squishiness: {}", 42);
Note that ``vlog`` is not parameterized on argument types which improves compile
times and reduces binary code size compared to a fully parameterized version.
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.. doxygenfunction:: make_format_args(T&... args)
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.. doxygenclass:: fmt::basic_format_args
:members:
.. doxygentypedef:: fmt::format_args
.. doxygenclass:: fmt::basic_format_arg
:members:
.. doxygenclass:: fmt::basic_format_parse_context
:members:
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.. doxygenclass:: fmt::context
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:members:
.. doxygentypedef:: fmt::format_context
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.. _args-api:
Dynamic Argument Lists
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----------------------
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The header ``fmt/args.h`` provides ``dynamic_format_arg_store``, a builder-like
API that can be used to construct format argument lists dynamically.
.. doxygenclass:: fmt::dynamic_format_arg_store
:members:
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Compatibility
-------------
.. doxygenclass:: fmt::basic_string_view
:members:
.. doxygentypedef:: fmt::string_view
.. _format-api:
Format API
==========
``fmt/format.h`` defines the full format API providing additional formatting
functions and locale support.
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.. doxygenfunction:: format(format_string<T...> fmt, T&&... args) -> std::string
.. doxygenfunction:: vformat(string_view fmt, format_args args) -> std::string
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Literal-Based API
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-----------------
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The following user-defined literals are defined in ``fmt/format.h``.
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.. doxygenfunction:: operator""_a()
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Utilities
---------
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.. doxygenfunction:: fmt::ptr(T p) -> const void*
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.. doxygenfunction:: fmt::ptr(const std::unique_ptr<T, Deleter> &p) -> const void*
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.. doxygenfunction:: fmt::ptr(const std::shared_ptr<T> &p) -> const void*
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.. doxygenfunction:: fmt::underlying(Enum e) -> typename std::underlying_type<Enum>::type
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.. doxygenfunction:: fmt::to_string(const T &value) -> std::string
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.. doxygenfunction:: fmt::group_digits(T value) -> group_digits_view<T>
.. doxygenclass:: fmt::detail::buffer
:members:
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.. doxygenclass:: fmt::basic_memory_buffer
:protected-members:
:members:
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System Errors
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-------------
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{fmt} does not use ``errno`` to communicate errors to the user, but it may call
system functions which set ``errno``. Users should not make any assumptions
about the value of ``errno`` being preserved by library functions.
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.. doxygenfunction:: fmt::system_error
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.. doxygenfunction:: fmt::format_system_error
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Custom Allocators
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-----------------
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The {fmt} library supports custom dynamic memory allocators.
A custom allocator class can be specified as a template argument to
:class:`fmt::basic_memory_buffer`::
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using custom_memory_buffer =
fmt::basic_memory_buffer<char, fmt::inline_buffer_size, custom_allocator>;
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It is also possible to write a formatting function that uses a custom
allocator::
using custom_string =
std::basic_string<char, std::char_traits<char>, custom_allocator>;
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custom_string vformat(custom_allocator alloc, fmt::string_view format_str,
fmt::format_args args) {
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auto buf = custom_memory_buffer(alloc);
fmt::vformat_to(std::back_inserter(buf), format_str, args);
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return custom_string(buf.data(), buf.size(), alloc);
}
template <typename ...Args>
inline custom_string format(custom_allocator alloc,
fmt::string_view format_str,
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const Args& ... args) {
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return vformat(alloc, format_str, fmt::make_format_args(args...));
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}
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The allocator will be used for the output container only. Formatting functions
normally don't do any allocations for built-in and string types except for
non-default floating-point formatting that occasionally falls back on
``sprintf``.
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Locale
------
All formatting is locale-independent by default. Use the ``'L'`` format
specifier to insert the appropriate number separator characters from the
locale::
#include <fmt/core.h>
#include <locale>
std::locale::global(std::locale("en_US.UTF-8"));
auto s = fmt::format("{:L}", 1000000); // s == "1,000,000"
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``fmt/format.h`` provides the following overloads of formatting functions that
take ``std::locale`` as a parameter. The locale type is a template parameter to
avoid the expensive ``<locale>`` include.
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.. doxygenfunction:: format(const Locale& loc, format_string<T...> fmt, T&&... args) -> std::string
.. doxygenfunction:: format_to(OutputIt out, const Locale& loc, format_string<T...> fmt, T&&... args) -> OutputIt
.. doxygenfunction:: formatted_size(const Locale& loc, format_string<T...> fmt, T&&... args) -> size_t
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.. _legacy-checks:
Legacy Compile-Time Format String Checks
----------------------------------------
``FMT_STRING`` enables compile-time checks on older compilers. It requires C++14
or later and is a no-op in C++11.
.. doxygendefine:: FMT_STRING
To force the use of legacy compile-time checks, define the preprocessor variable
``FMT_ENFORCE_COMPILE_STRING``. When set, functions accepting ``FMT_STRING``
will fail to compile with regular strings.
.. _ranges-api:
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Range and Tuple Formatting
==========================
The library also supports convenient formatting of ranges and tuples::
#include <fmt/ranges.h>
std::tuple<char, int, float> t{'a', 1, 2.0f};
// Prints "('a', 1, 2.0)"
fmt::print("{}", t);
Using ``fmt::join``, you can separate tuple elements with a custom separator::
#include <fmt/ranges.h>
std::tuple<int, char> t = {1, 'a'};
// Prints "1, a"
fmt::print("{}", fmt::join(t, ", "));
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.. doxygenfunction:: fmt::join(Range &&range, string_view sep) -> join_view<decltype(std::begin(range)), decltype(std::end(range))>
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.. doxygenfunction:: fmt::join(It begin, Sentinel end, string_view sep) -> join_view<It, Sentinel>
.. _chrono-api:
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Date and Time Formatting
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========================
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``fmt/chrono.h`` provides formatters for
* `std::chrono::duration <https://en.cppreference.com/w/cpp/chrono/duration>`_
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* `std::chrono::time_point
<https://en.cppreference.com/w/cpp/chrono/time_point>`_
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* `std::tm <https://en.cppreference.com/w/cpp/chrono/c/tm>`_
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The format syntax is described in :ref:`chrono-specs`.
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**Example**::
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#include <fmt/chrono.h>
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int main() {
std::time_t t = std::time(nullptr);
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// Prints "The date is 2020-11-07." (with the current date):
fmt::print("The date is {:%Y-%m-%d}.", fmt::localtime(t));
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using namespace std::literals::chrono_literals;
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// Prints "Default format: 42s 100ms":
fmt::print("Default format: {} {}\n", 42s, 100ms);
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// Prints "strftime-like format: 03:15:30":
fmt::print("strftime-like format: {:%H:%M:%S}\n", 3h + 15min + 30s);
}
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.. doxygenfunction:: localtime(std::time_t time)
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.. doxygenfunction:: gmtime(std::time_t time) -> std::tm
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.. _std-api:
Standard Library Types Formatting
=================================
``fmt/std.h`` provides formatters for:
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* `std::atomic <https://en.cppreference.com/w/cpp/atomic/atomic>`_
* `std::atomic_flag <https://en.cppreference.com/w/cpp/atomic/atomic_flag>`_
* `std::bitset <https://en.cppreference.com/w/cpp/utility/bitset>`_
* `std::error_code <https://en.cppreference.com/w/cpp/error/error_code>`_
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* `std::filesystem::path <https://en.cppreference.com/w/cpp/filesystem/path>`_
* `std::monostate <https://en.cppreference.com/w/cpp/utility/variant/monostate>`_
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* `std::optional <https://en.cppreference.com/w/cpp/utility/optional>`_
* `std::source_location <https://en.cppreference.com/w/cpp/utility/source_location>`_
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* `std::thread::id <https://en.cppreference.com/w/cpp/thread/thread/id>`_
* `std::variant <https://en.cppreference.com/w/cpp/utility/variant/variant>`_
Formatting Variants
-------------------
A ``std::variant`` is only formattable if every variant alternative is formattable, and requires the
``__cpp_lib_variant`` `library feature <https://en.cppreference.com/w/cpp/feature_test>`_.
**Example**::
#include <fmt/std.h>
std::variant<char, float> v0{'x'};
// Prints "variant('x')"
fmt::print("{}", v0);
std::variant<std::monostate, char> v1;
// Prints "variant(monostate)"
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.. _compile-api:
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Format String Compilation
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=========================
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``fmt/compile.h`` provides format string compilation enabled via the
``FMT_COMPILE`` macro or the ``_cf`` user-defined literal. Format strings
marked with ``FMT_COMPILE`` or ``_cf`` are parsed, checked and converted into
efficient formatting code at compile-time. This supports arguments of built-in
and string types as well as user-defined types with ``format`` functions taking
the format context type as a template parameter in their ``formatter``
specializations. For example::
template <> struct fmt::formatter<point> {
constexpr auto parse(format_parse_context& ctx);
template <typename FormatContext>
auto format(const point& p, FormatContext& ctx) const;
};
Format string compilation can generate more binary code compared to the default
API and is only recommended in places where formatting is a performance
bottleneck.
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.. doxygendefine:: FMT_COMPILE
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.. doxygenfunction:: operator""_cf()
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.. _color-api:
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Terminal Color and Text Style
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=============================
``fmt/color.h`` provides support for terminal color and text style output.
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.. doxygenfunction:: print(const text_style &ts, format_string<T...> fmt, T&&... args)
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.. doxygenfunction:: fg(detail::color_type)
.. doxygenfunction:: bg(detail::color_type)
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.. doxygenfunction:: styled(const T& value, text_style ts)
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.. _os-api:
System APIs
===========
.. doxygenclass:: fmt::ostream
:members:
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.. doxygenfunction:: fmt::windows_error
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.. _ostream-api:
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``std::ostream`` Support
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========================
``fmt/ostream.h`` provides ``std::ostream`` support including formatting of
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user-defined types that have an overloaded insertion operator (``operator<<``).
In order to make a type formattable via ``std::ostream`` you should provide a
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``formatter`` specialization inherited from ``ostream_formatter``::
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#include <fmt/ostream.h>
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struct date {
int year, month, day;
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friend std::ostream& operator<<(std::ostream& os, const date& d) {
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return os << d.year << '-' << d.month << '-' << d.day;
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}
};
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template <> struct fmt::formatter<date> : ostream_formatter {};
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std::string s = fmt::format("The date is {}", date{2012, 12, 9});
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// s == "The date is 2012-12-9"
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.. doxygenfunction:: streamed(const T &)
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.. doxygenfunction:: print(std::ostream &os, format_string<T...> fmt, T&&... args)
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.. _printf-api:
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``printf`` Formatting
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=====================
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The header ``fmt/printf.h`` provides ``printf``-like formatting functionality.
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The following functions use `printf format string syntax
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<https://pubs.opengroup.org/onlinepubs/009695399/functions/fprintf.html>`_ with
the POSIX extension for positional arguments. Unlike their standard
counterparts, the ``fmt`` functions are type-safe and throw an exception if an
argument type doesn't match its format specification.
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.. doxygenfunction:: printf(string_view fmt, const T&... args) -> int
2014-10-10 15:40:35 +00:00
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.. doxygenfunction:: fprintf(std::FILE *f, const S &fmt, const T&... args) -> int
2016-08-03 15:52:05 +00:00
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.. doxygenfunction:: sprintf(const S&, const T&...)
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.. _xchar-api:
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``wchar_t`` Support
===================
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The optional header ``fmt/xchar.h`` provides support for ``wchar_t`` and exotic
character types.
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.. doxygenstruct:: fmt::is_char
.. doxygentypedef:: fmt::wstring_view
.. doxygentypedef:: fmt::wformat_context
.. doxygenfunction:: fmt::to_wstring(const T &value)
Compatibility with C++20 ``std::format``
========================================
{fmt} implements nearly all of the `C++20 formatting library
<https://en.cppreference.com/w/cpp/utility/format>`_ with the following
differences:
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* Names are defined in the ``fmt`` namespace instead of ``std`` to avoid
collisions with standard library implementations.
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* Width calculation doesn't use grapheme clusterization. The latter has been
implemented in a separate branch but hasn't been integrated yet.
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* Most C++20 chrono types are not supported yet.