fmtlegacy/include/fmt/core.h

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2018-01-06 17:09:50 +00:00
// Formatting library for C++ - the core API
//
// Copyright (c) 2012 - present, Victor Zverovich
// All rights reserved.
//
// For the license information refer to format.h.
#ifndef FMT_CORE_H_
#define FMT_CORE_H_
#include <cassert>
#include <cstdio> // std::FILE
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#include <cstring>
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#include <iterator>
#include <string>
#include <type_traits>
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// The fmt library version in the form major * 10000 + minor * 100 + patch.
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#define FMT_VERSION 50301
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#ifdef __has_feature
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# define FMT_HAS_FEATURE(x) __has_feature(x)
#else
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# define FMT_HAS_FEATURE(x) 0
#endif
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#if defined(__has_include) && !defined(__INTELLISENSE__) && \
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!(defined(__INTEL_COMPILER) && __INTEL_COMPILER < 1600)
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# define FMT_HAS_INCLUDE(x) __has_include(x)
#else
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# define FMT_HAS_INCLUDE(x) 0
#endif
#ifdef __has_cpp_attribute
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# define FMT_HAS_CPP_ATTRIBUTE(x) __has_cpp_attribute(x)
#else
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# define FMT_HAS_CPP_ATTRIBUTE(x) 0
#endif
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#if defined(__GNUC__) && !defined(__clang__)
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# define FMT_GCC_VERSION (__GNUC__ * 100 + __GNUC_MINOR__)
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#else
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# define FMT_GCC_VERSION 0
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#endif
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#if __cplusplus >= 201103L || defined(__GXX_EXPERIMENTAL_CXX0X__)
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# define FMT_HAS_GXX_CXX11 FMT_GCC_VERSION
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#else
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# define FMT_HAS_GXX_CXX11 0
#endif
#ifdef _MSC_VER
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# define FMT_MSC_VER _MSC_VER
#else
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# define FMT_MSC_VER 0
#endif
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// Check if relaxed C++14 constexpr is supported.
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// GCC doesn't allow throw in constexpr until version 6 (bug 67371).
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#ifndef FMT_USE_CONSTEXPR
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# define FMT_USE_CONSTEXPR \
(FMT_HAS_FEATURE(cxx_relaxed_constexpr) || FMT_MSC_VER >= 1910 || \
(FMT_GCC_VERSION >= 600 && __cplusplus >= 201402L))
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#endif
#if FMT_USE_CONSTEXPR
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# define FMT_CONSTEXPR constexpr
# define FMT_CONSTEXPR_DECL constexpr
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#else
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# define FMT_CONSTEXPR inline
# define FMT_CONSTEXPR_DECL
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#endif
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#ifndef FMT_USE_CONSTEXPR11
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# define FMT_USE_CONSTEXPR11 \
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(FMT_USE_CONSTEXPR || FMT_GCC_VERSION >= 406 || FMT_MSC_VER >= 1900)
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#endif
#if FMT_USE_CONSTEXPR11
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# define FMT_CONSTEXPR11 constexpr
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#else
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# define FMT_CONSTEXPR11
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#endif
#ifndef FMT_OVERRIDE
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# if FMT_HAS_FEATURE(cxx_override) || \
(FMT_GCC_VERSION >= 408 && FMT_HAS_GXX_CXX11) || FMT_MSC_VER >= 1900
# define FMT_OVERRIDE override
# else
# define FMT_OVERRIDE
# endif
#endif
// Check if exceptions are disabled.
#ifndef FMT_EXCEPTIONS
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# if (defined(__GNUC__) && !defined(__EXCEPTIONS)) || \
FMT_MSC_VER && !_HAS_EXCEPTIONS
# define FMT_EXCEPTIONS 0
# else
# define FMT_EXCEPTIONS 1
# endif
#endif
// Define FMT_USE_NOEXCEPT to make fmt use noexcept (C++11 feature).
#ifndef FMT_USE_NOEXCEPT
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# define FMT_USE_NOEXCEPT 0
#endif
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#if FMT_USE_NOEXCEPT || FMT_HAS_FEATURE(cxx_noexcept) || \
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(FMT_GCC_VERSION >= 408 && FMT_HAS_GXX_CXX11) || FMT_MSC_VER >= 1900
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# define FMT_DETECTED_NOEXCEPT noexcept
# define FMT_HAS_CXX11_NOEXCEPT 1
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#else
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# define FMT_DETECTED_NOEXCEPT throw()
# define FMT_HAS_CXX11_NOEXCEPT 0
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#endif
#ifndef FMT_NOEXCEPT
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# if FMT_EXCEPTIONS || FMT_HAS_CXX11_NOEXCEPT
# define FMT_NOEXCEPT FMT_DETECTED_NOEXCEPT
# else
# define FMT_NOEXCEPT
# endif
#endif
// [[noreturn]] is disabled on MSVC because of bogus unreachable code warnings.
#if FMT_EXCEPTIONS && FMT_HAS_CPP_ATTRIBUTE(noreturn) && !FMT_MSC_VER
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# define FMT_NORETURN [[noreturn]]
#else
# define FMT_NORETURN
#endif
#ifndef FMT_DEPRECATED
# if (FMT_HAS_CPP_ATTRIBUTE(deprecated) && __cplusplus >= 201402L) || \
FMT_MSC_VER >= 1900
# define FMT_DEPRECATED [[deprecated]]
# else
# if defined(__GNUC__) || defined(__clang__)
# define FMT_DEPRECATED __attribute__((deprecated))
# elif FMT_MSC_VER
# define FMT_DEPRECATED __declspec(deprecated)
# else
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# define FMT_DEPRECATED /* deprecated */
# endif
# endif
#endif
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#ifndef FMT_BEGIN_NAMESPACE
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# if FMT_HAS_FEATURE(cxx_inline_namespaces) || FMT_GCC_VERSION >= 404 || \
FMT_MSC_VER >= 1900
# define FMT_INLINE_NAMESPACE inline namespace
# define FMT_END_NAMESPACE \
} \
}
# else
# define FMT_INLINE_NAMESPACE namespace
# define FMT_END_NAMESPACE \
} \
using namespace v5; \
}
# endif
# define FMT_BEGIN_NAMESPACE \
namespace fmt { \
FMT_INLINE_NAMESPACE v5 {
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#endif
#if !defined(FMT_HEADER_ONLY) && defined(_WIN32)
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# ifdef FMT_EXPORT
# define FMT_API __declspec(dllexport)
# elif defined(FMT_SHARED)
# define FMT_API __declspec(dllimport)
Fix DLL visibility of explicit instantiation "declaration" of internal::basic_data<void> in header format.h and the explicit instantiation "definition" in format.cc (#1134) * Update format.cc As the explicit instantiation *declaration* of `internal::basic_data<void>` in format.h, this explicit instantiation *definition* should mirror FMT_API also. * Mirror visibility of explicit instantiation declaration explicit instantiation declaration of internal::basic_data<void> should mirror visibility of FMT_API * Eliminate `__declspec(dllexport)` designation on extern template internal::basic_data<> when `extern` affected during exporting phase. * Add `FMT_EXTERN_TEMPLATE_API` for designate DLL export `extern template` When exporting DLL, do not designate `__declspec(dllexport)` any template that has any explicit class template declaration a.k.a. `extern template`. Instead, designate `__declspec(dllexport)` at single point where we have explicit class template definition a.k.a. normal instantiation without `extern` Note: this is a c++11 feature. * Delete whole `FMT_USE_EXTERN_TEMPLATES` block and its condition 1. Remove whole `FMT_USE_EXTERN_TEMPLATES` block (trailing `FMT_UDL_TEMPLATE` block) ```` #ifndef FMT_USE_EXTERN_TEMPLATES # ifndef FMT_HEADER_ONLY # define FMT_USE_EXTERN_TEMPLATES \ ((FMT_CLANG_VERSION >= 209 && __cplusplus >= 201103L) || \ (FMT_GCC_VERSION >= 303 && FMT_HAS_GXX_CXX11)) # else # define FMT_USE_EXTERN_TEMPLATES 0 # endif #endif ```` 2. Delete `FMT_USE_EXTERN_TEMPLATES` condition, only condition, that trailing basic_data class template definition. ```` #if FMT_USE_EXTERN_TEMPLATES extern template struct basic_data<void>; #endif ```` 3. Replace `FMT_API` with new `FMT_EXTERN_TEMPLATE_API` added in `core.h` for sake of extern template of `basic_data<void>` * Add `#define FMT_EXTERN extern` only when not `FMT_HEADER_ONLY` * Replace `extern` on basic_data<void> with the `FMT_EXTERN` condition in core.h * replace misspelled if !define() with ifndef
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# define FMT_EXTERN_TEMPLATE_API FMT_API
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# endif
#endif
#ifndef FMT_API
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# define FMT_API
#endif
Fix DLL visibility of explicit instantiation "declaration" of internal::basic_data<void> in header format.h and the explicit instantiation "definition" in format.cc (#1134) * Update format.cc As the explicit instantiation *declaration* of `internal::basic_data<void>` in format.h, this explicit instantiation *definition* should mirror FMT_API also. * Mirror visibility of explicit instantiation declaration explicit instantiation declaration of internal::basic_data<void> should mirror visibility of FMT_API * Eliminate `__declspec(dllexport)` designation on extern template internal::basic_data<> when `extern` affected during exporting phase. * Add `FMT_EXTERN_TEMPLATE_API` for designate DLL export `extern template` When exporting DLL, do not designate `__declspec(dllexport)` any template that has any explicit class template declaration a.k.a. `extern template`. Instead, designate `__declspec(dllexport)` at single point where we have explicit class template definition a.k.a. normal instantiation without `extern` Note: this is a c++11 feature. * Delete whole `FMT_USE_EXTERN_TEMPLATES` block and its condition 1. Remove whole `FMT_USE_EXTERN_TEMPLATES` block (trailing `FMT_UDL_TEMPLATE` block) ```` #ifndef FMT_USE_EXTERN_TEMPLATES # ifndef FMT_HEADER_ONLY # define FMT_USE_EXTERN_TEMPLATES \ ((FMT_CLANG_VERSION >= 209 && __cplusplus >= 201103L) || \ (FMT_GCC_VERSION >= 303 && FMT_HAS_GXX_CXX11)) # else # define FMT_USE_EXTERN_TEMPLATES 0 # endif #endif ```` 2. Delete `FMT_USE_EXTERN_TEMPLATES` condition, only condition, that trailing basic_data class template definition. ```` #if FMT_USE_EXTERN_TEMPLATES extern template struct basic_data<void>; #endif ```` 3. Replace `FMT_API` with new `FMT_EXTERN_TEMPLATE_API` added in `core.h` for sake of extern template of `basic_data<void>` * Add `#define FMT_EXTERN extern` only when not `FMT_HEADER_ONLY` * Replace `extern` on basic_data<void> with the `FMT_EXTERN` condition in core.h * replace misspelled if !define() with ifndef
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#ifndef FMT_EXTERN_TEMPLATE_API
# define FMT_EXTERN_TEMPLATE_API
#endif
#ifndef FMT_HEADER_ONLY
# define FMT_EXTERN extern
#else
# define FMT_EXTERN
#endif
#ifndef FMT_ASSERT
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# define FMT_ASSERT(condition, message) assert((condition) && message)
#endif
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// libc++ supports string_view in pre-c++17.
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#if (FMT_HAS_INCLUDE(<string_view>) && \
(__cplusplus > 201402L || defined(_LIBCPP_VERSION))) || \
(defined(_MSVC_LANG) && _MSVC_LANG > 201402L && _MSC_VER >= 1910)
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# include <string_view>
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# define FMT_USE_STRING_VIEW
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#elif FMT_HAS_INCLUDE("experimental/string_view") && __cplusplus >= 201402L
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# include <experimental/string_view>
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# define FMT_USE_EXPERIMENTAL_STRING_VIEW
#endif
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FMT_BEGIN_NAMESPACE
// An implementation of enable_if_t for pre-C++14 systems.
template <bool B, class T = void>
using enable_if_t = typename std::enable_if<B, T>::type;
// enable_if helpers to be used in template parameters which results in much
// shorter symbols: https://godbolt.org/z/sWw4vP.
// Also include fix for VS2019 compilation issue (see #1140 and #1186).
#define FMT_ENABLE_IF(...) enable_if_t<(__VA_ARGS__), int> = 0
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namespace internal {
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#if defined(FMT_USE_STRING_VIEW)
template <typename Char> using std_string_view = std::basic_string_view<Char>;
#elif defined(FMT_USE_EXPERIMENTAL_STRING_VIEW)
template <typename Char>
using std_string_view = std::experimental::basic_string_view<Char>;
#else
template <typename T> struct std_string_view {};
#endif
#if (__cplusplus >= 201703L || \
(defined(_MSVC_LANG) && _MSVC_LANG >= 201703L)) && \
__cpp_lib_is_invocable >= 201703L
template <typename F, typename... Args>
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using invoke_result_t = std::invoke_result_t<F, Args...>;
#else
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// An implementation of invoke_result for pre-C++17.
template <typename F, typename... Args>
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using invoke_result_t = typename std::result_of<F(Args...)>::type;
#endif
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// Casts nonnegative integer to unsigned.
template <typename Int>
FMT_CONSTEXPR typename std::make_unsigned<Int>::type to_unsigned(Int value) {
FMT_ASSERT(value >= 0, "negative value");
return static_cast<typename std::make_unsigned<Int>::type>(value);
}
/** A contiguous memory buffer with an optional growing ability. */
template <typename T> class buffer {
private:
buffer(const buffer&) = delete;
void operator=(const buffer&) = delete;
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T* ptr_;
std::size_t size_;
std::size_t capacity_;
protected:
// Don't initialize ptr_ since it is not accessed to save a few cycles.
buffer(std::size_t sz) FMT_NOEXCEPT : size_(sz), capacity_(sz) {}
buffer(T* p = nullptr, std::size_t sz = 0, std::size_t cap = 0) FMT_NOEXCEPT
: ptr_(p),
size_(sz),
capacity_(cap) {}
/** Sets the buffer data and capacity. */
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void set(T* buf_data, std::size_t buf_capacity) FMT_NOEXCEPT {
ptr_ = buf_data;
capacity_ = buf_capacity;
}
/** Increases the buffer capacity to hold at least *capacity* elements. */
virtual void grow(std::size_t capacity) = 0;
public:
using value_type = T;
using const_reference = const T&;
virtual ~buffer() {}
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T* begin() FMT_NOEXCEPT { return ptr_; }
T* end() FMT_NOEXCEPT { return ptr_ + size_; }
/** Returns the size of this buffer. */
std::size_t size() const FMT_NOEXCEPT { return size_; }
/** Returns the capacity of this buffer. */
std::size_t capacity() const FMT_NOEXCEPT { return capacity_; }
/** Returns a pointer to the buffer data. */
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T* data() FMT_NOEXCEPT { return ptr_; }
/** Returns a pointer to the buffer data. */
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const T* data() const FMT_NOEXCEPT { return ptr_; }
/**
Resizes the buffer. If T is a POD type new elements may not be initialized.
*/
void resize(std::size_t new_size) {
reserve(new_size);
size_ = new_size;
}
/** Clears this buffer. */
void clear() { size_ = 0; }
/** Reserves space to store at least *capacity* elements. */
void reserve(std::size_t new_capacity) {
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if (new_capacity > capacity_) grow(new_capacity);
}
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void push_back(const T& value) {
reserve(size_ + 1);
ptr_[size_++] = value;
}
/** Appends data to the end of the buffer. */
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template <typename U> void append(const U* begin, const U* end);
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T& operator[](std::size_t index) { return ptr_[index]; }
const T& operator[](std::size_t index) const { return ptr_[index]; }
};
// A container-backed buffer.
template <typename Container>
class container_buffer : public buffer<typename Container::value_type> {
private:
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Container& container_;
protected:
void grow(std::size_t capacity) FMT_OVERRIDE {
container_.resize(capacity);
this->set(&container_[0], capacity);
}
public:
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explicit container_buffer(Container& c)
: buffer<typename Container::value_type>(c.size()), container_(c) {}
};
// Extracts a reference to the container from back_insert_iterator.
template <typename Container>
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inline Container& get_container(std::back_insert_iterator<Container> it) {
using bi_iterator = std::back_insert_iterator<Container>;
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struct accessor : bi_iterator {
accessor(bi_iterator iter) : bi_iterator(iter) {}
using bi_iterator::container;
};
return *accessor(it).container;
}
struct error_handler {
FMT_CONSTEXPR error_handler() {}
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FMT_CONSTEXPR error_handler(const error_handler&) {}
// This function is intentionally not constexpr to give a compile-time error.
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FMT_API FMT_NORETURN void on_error(const char* message);
};
} // namespace internal
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/**
An implementation of ``std::basic_string_view`` for pre-C++17. It provides a
subset of the API. ``fmt::basic_string_view`` is used for format strings even
if ``std::string_view`` is available to prevent issues when a library is
compiled with a different ``-std`` option than the client code (which is not
recommended).
*/
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template <typename Char> class basic_string_view {
private:
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const Char* data_;
size_t size_;
public:
using char_type = Char;
using iterator = const Char*;
FMT_CONSTEXPR basic_string_view() FMT_NOEXCEPT : data_(nullptr), size_(0) {}
/** Constructs a string reference object from a C string and a size. */
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FMT_CONSTEXPR basic_string_view(const Char* s, size_t count) FMT_NOEXCEPT
: data_(s),
size_(count) {}
/**
\rst
Constructs a string reference object from a C string computing
the size with ``std::char_traits<Char>::length``.
\endrst
*/
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basic_string_view(const Char* s)
: data_(s), size_(std::char_traits<Char>::length(s)) {}
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/** Constructs a string reference from a ``std::basic_string`` object. */
template <typename Alloc>
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FMT_CONSTEXPR basic_string_view(const std::basic_string<Char, Alloc>& s)
FMT_NOEXCEPT : data_(s.data()),
size_(s.size()) {}
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template <
typename S,
FMT_ENABLE_IF(std::is_same<S, internal::std_string_view<Char>>::value)>
FMT_CONSTEXPR basic_string_view(S s) FMT_NOEXCEPT : data_(s.data()),
size_(s.size()) {}
/** Returns a pointer to the string data. */
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FMT_CONSTEXPR const Char* data() const { return data_; }
/** Returns the string size. */
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FMT_CONSTEXPR size_t size() const { return size_; }
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FMT_CONSTEXPR iterator begin() const { return data_; }
FMT_CONSTEXPR iterator end() const { return data_ + size_; }
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FMT_CONSTEXPR void remove_prefix(size_t n) {
data_ += n;
size_ -= n;
}
// Lexicographically compare this string reference to other.
int compare(basic_string_view other) const {
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size_t str_size = size_ < other.size_ ? size_ : other.size_;
int result = std::char_traits<Char>::compare(data_, other.data_, str_size);
if (result == 0)
result = size_ == other.size_ ? 0 : (size_ < other.size_ ? -1 : 1);
return result;
}
friend bool operator==(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) == 0;
}
friend bool operator!=(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) != 0;
}
friend bool operator<(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) < 0;
}
friend bool operator<=(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) <= 0;
}
friend bool operator>(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) > 0;
}
friend bool operator>=(basic_string_view lhs, basic_string_view rhs) {
return lhs.compare(rhs) >= 0;
}
};
using string_view = basic_string_view<char>;
using wstring_view = basic_string_view<wchar_t>;
/**
\rst
The function ``to_string_view`` adapts non-intrusively any kind of string or
string-like type if the user provides a (possibly templated) overload of
``to_string_view`` which takes an instance of the string class
``StringType<Char>`` and returns a ``fmt::basic_string_view<Char>``.
The conversion function must live in the very same namespace as
``StringType<Char>`` to be picked up by ADL. Non-templated string types
like f.e. QString must return a ``basic_string_view`` with a fixed matching
char type.
**Example**::
namespace my_ns {
inline string_view to_string_view(const my_string &s) {
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return {s.data(), s.length()};
}
}
std::string message = fmt::format(my_string("The answer is {}"), 42);
\endrst
*/
template <typename Char>
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inline basic_string_view<Char> to_string_view(basic_string_view<Char> s) {
return s;
}
template <typename Char, typename Traits, typename Allocator>
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inline basic_string_view<Char> to_string_view(
const std::basic_string<Char, Traits, Allocator>& s) {
return {s.data(), s.size()};
}
template <typename Char>
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inline basic_string_view<Char> to_string_view(const Char* s) {
return s;
}
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template <typename Char,
FMT_ENABLE_IF(!std::is_empty<internal::std_string_view<Char>>::value)>
inline basic_string_view<Char> to_string_view(
internal::std_string_view<Char> s) {
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return s;
}
// A base class for compile-time strings. It is defined in the fmt namespace to
// make formatting functions visible via ADL, e.g. format(fmt("{}"), 42).
struct compile_string {};
template <typename S>
struct is_compile_string : std::is_base_of<compile_string, S> {};
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template <typename S, FMT_ENABLE_IF(is_compile_string<S>::value)>
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FMT_CONSTEXPR basic_string_view<typename S::char_type> to_string_view(
const S& s) {
return s;
}
// Parsing context consisting of a format string range being parsed and an
// argument counter for automatic indexing.
template <typename Char, typename ErrorHandler = internal::error_handler>
class basic_parse_context : private ErrorHandler {
private:
basic_string_view<Char> format_str_;
int next_arg_id_;
public:
using char_type = Char;
using iterator = typename basic_string_view<Char>::iterator;
explicit FMT_CONSTEXPR basic_parse_context(basic_string_view<Char> format_str,
ErrorHandler eh = ErrorHandler())
: ErrorHandler(eh), format_str_(format_str), next_arg_id_(0) {}
// Returns an iterator to the beginning of the format string range being
// parsed.
FMT_CONSTEXPR iterator begin() const FMT_NOEXCEPT {
return format_str_.begin();
}
// Returns an iterator past the end of the format string range being parsed.
FMT_CONSTEXPR iterator end() const FMT_NOEXCEPT { return format_str_.end(); }
// Advances the begin iterator to ``it``.
FMT_CONSTEXPR void advance_to(iterator it) {
format_str_.remove_prefix(internal::to_unsigned(it - begin()));
}
// Returns the next argument index.
FMT_CONSTEXPR unsigned next_arg_id();
FMT_CONSTEXPR bool check_arg_id(unsigned) {
if (next_arg_id_ > 0) {
on_error("cannot switch from automatic to manual argument indexing");
return false;
}
next_arg_id_ = -1;
return true;
}
FMT_CONSTEXPR void check_arg_id(basic_string_view<Char>) {}
FMT_CONSTEXPR void on_error(const char* message) {
ErrorHandler::on_error(message);
}
FMT_CONSTEXPR ErrorHandler error_handler() const { return *this; }
};
using format_parse_context = basic_parse_context<char>;
using wformat_parse_context = basic_parse_context<wchar_t>;
using parse_context FMT_DEPRECATED = basic_parse_context<char>;
using wparse_context FMT_DEPRECATED = basic_parse_context<wchar_t>;
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template <typename Context> class basic_format_arg;
template <typename Context> class basic_format_args;
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// A formatter for objects of type T.
template <typename T, typename Char = char, typename Enable = void>
struct formatter {
formatter() = delete;
};
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template <typename T, typename Char, typename Enable = void>
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struct convert_to_int
: std::integral_constant<bool, !std::is_arithmetic<T>::value &&
std::is_convertible<T, int>::value> {};
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namespace internal {
template <typename T> struct no_formatter_error : std::false_type {};
template <typename T, typename Char = char, typename Enable = void>
struct fallback_formatter {
static_assert(
no_formatter_error<T>::value,
"don't know how to format the type, include fmt/ostream.h if it provides "
"an operator<< that should be used");
};
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struct dummy_string_view {
typedef void char_type;
};
dummy_string_view to_string_view(...);
using fmt::v5::to_string_view;
// Specifies whether S is a string type convertible to fmt::basic_string_view.
template <typename S>
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struct is_string
: std::integral_constant<
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bool,
!std::is_same<dummy_string_view,
decltype(to_string_view(std::declval<S>()))>::value> {};
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// Forward declare FILE* specialization defined in color.h
template <> struct is_string<std::FILE*>;
template <> struct is_string<const std::FILE*>;
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template <typename S> struct char_t_impl {
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typedef decltype(to_string_view(std::declval<S>())) result;
typedef typename result::char_type type;
};
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template <typename Char> struct named_arg_base;
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template <typename T, typename Char> struct named_arg;
enum type {
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none_type,
named_arg_type,
// Integer types should go first,
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int_type,
uint_type,
long_long_type,
ulong_long_type,
bool_type,
char_type,
last_integer_type = char_type,
// followed by floating-point types.
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double_type,
long_double_type,
last_numeric_type = long_double_type,
cstring_type,
string_type,
pointer_type,
custom_type
};
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FMT_CONSTEXPR bool is_integral(type t) {
FMT_ASSERT(t != internal::named_arg_type, "invalid argument type");
return t > internal::none_type && t <= internal::last_integer_type;
}
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FMT_CONSTEXPR bool is_arithmetic(type t) {
FMT_ASSERT(t != internal::named_arg_type, "invalid argument type");
return t > internal::none_type && t <= internal::last_numeric_type;
}
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template <typename Char> struct string_value {
const Char* value;
std::size_t size;
};
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template <typename Context> struct custom_value {
const void* value;
void (*format)(const void* arg,
basic_parse_context<typename Context::char_type>& parse_ctx,
Context& ctx);
};
template <typename T, typename Context>
using is_formattable =
std::is_constructible<typename Context::template formatter_type<T>>;
// A formatting argument value.
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template <typename Context> class value {
public:
using char_type = typename Context::char_type;
union {
int int_value;
unsigned uint_value;
long long long_long_value;
unsigned long long ulong_long_value;
double double_value;
long double long_double_value;
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const void* pointer;
string_value<char_type> string;
string_value<signed char> sstring;
string_value<unsigned char> ustring;
custom_value<Context> custom;
};
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FMT_CONSTEXPR value(int val = 0) : int_value(val) {}
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FMT_CONSTEXPR value(unsigned val) : uint_value(val) {}
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value(long long val) { long_long_value = val; }
value(unsigned long long val) { ulong_long_value = val; }
value(double val) { double_value = val; }
value(long double val) { long_double_value = val; }
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value(const char_type* val) { string.value = val; }
value(const signed char* val) {
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static_assert(std::is_same<char, char_type>::value,
"incompatible string types");
sstring.value = val;
}
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value(const unsigned char* val) {
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static_assert(std::is_same<char, char_type>::value,
"incompatible string types");
ustring.value = val;
}
value(basic_string_view<char_type> val) {
string.value = val.data();
string.size = val.size();
}
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value(const void* val) { pointer = val; }
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template <typename T> explicit value(const T& val) {
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custom.value = &val;
// Get the formatter type through the context to allow different contexts
// have different extension points, e.g. `formatter<T>` for `format` and
// `printf_formatter<T>` for `printf`.
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custom.format = &format_custom_arg<
T, typename std::conditional<
is_formattable<T, Context>::value,
typename Context::template formatter_type<T>,
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internal::fallback_formatter<T, char_type>>::type>;
}
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const named_arg_base<char_type>& as_named_arg() {
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return *static_cast<const named_arg_base<char_type>*>(pointer);
}
private:
// Formats an argument of a custom type, such as a user-defined class.
template <typename T, typename Formatter>
static void format_custom_arg(const void* arg,
basic_parse_context<char_type>& parse_ctx,
Context& ctx) {
Formatter f;
parse_ctx.advance_to(f.parse(parse_ctx));
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ctx.advance_to(f.format(*static_cast<const T*>(arg), ctx));
}
};
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// Value initializer used to delay conversion to value and reduce memory churn.
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template <typename Context, typename T, type TYPE> struct init {
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T val;
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static const type type_tag = TYPE;
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FMT_CONSTEXPR init(const T& v) : val(v) {}
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FMT_CONSTEXPR operator value<Context>() const { return value<Context>(val); }
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};
template <typename Context, typename T>
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FMT_CONSTEXPR basic_format_arg<Context> make_arg(const T& value);
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#define FMT_MAKE_VALUE(TAG, ArgType, ValueType) \
template <typename C> \
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FMT_CONSTEXPR init<C, ValueType, TAG> make_value(ArgType val) { \
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return static_cast<ValueType>(val); \
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}
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#define FMT_MAKE_VALUE_SAME(TAG, Type) \
template <typename C> \
FMT_CONSTEXPR init<C, Type, TAG> make_value(Type val) { \
return val; \
}
FMT_MAKE_VALUE(bool_type, bool, int)
FMT_MAKE_VALUE(int_type, short, int)
FMT_MAKE_VALUE(uint_type, unsigned short, unsigned)
FMT_MAKE_VALUE_SAME(int_type, int)
FMT_MAKE_VALUE_SAME(uint_type, unsigned)
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// To minimize the number of types we need to deal with, long is translated
// either to int or to long long depending on its size.
using long_type =
std::conditional<sizeof(long) == sizeof(int), int, long long>::type;
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FMT_MAKE_VALUE((sizeof(long) == sizeof(int) ? int_type : long_long_type), long,
long_type)
using ulong_type = std::conditional<sizeof(unsigned long) == sizeof(unsigned),
unsigned, unsigned long long>::type;
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FMT_MAKE_VALUE((sizeof(unsigned long) == sizeof(unsigned) ? uint_type
: ulong_long_type),
unsigned long, ulong_type)
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FMT_MAKE_VALUE_SAME(long_long_type, long long)
FMT_MAKE_VALUE_SAME(ulong_long_type, unsigned long long)
FMT_MAKE_VALUE(int_type, signed char, int)
FMT_MAKE_VALUE(uint_type, unsigned char, unsigned)
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// This doesn't use FMT_MAKE_VALUE because of ambiguity in gcc 4.4.
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template <typename C, typename Char,
FMT_ENABLE_IF(std::is_same<typename C::char_type, Char>::value)>
FMT_CONSTEXPR init<C, int, char_type> make_value(Char val) {
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return val;
}
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template <typename C,
FMT_ENABLE_IF(!std::is_same<typename C::char_type, char>::value)>
FMT_CONSTEXPR init<C, int, char_type> make_value(char val) {
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return val;
}
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FMT_MAKE_VALUE(double_type, float, double)
FMT_MAKE_VALUE_SAME(double_type, double)
FMT_MAKE_VALUE_SAME(long_double_type, long double)
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// Formatting of wide strings into a narrow buffer and multibyte strings
// into a wide buffer is disallowed (https://github.com/fmtlib/fmt/pull/606).
FMT_MAKE_VALUE(cstring_type, typename C::char_type*,
const typename C::char_type*)
FMT_MAKE_VALUE(cstring_type, const typename C::char_type*,
const typename C::char_type*)
FMT_MAKE_VALUE(cstring_type, signed char*, const signed char*)
FMT_MAKE_VALUE_SAME(cstring_type, const signed char*)
FMT_MAKE_VALUE(cstring_type, unsigned char*, const unsigned char*)
FMT_MAKE_VALUE_SAME(cstring_type, const unsigned char*)
FMT_MAKE_VALUE_SAME(string_type, basic_string_view<typename C::char_type>)
FMT_MAKE_VALUE(string_type,
typename basic_string_view<typename C::char_type>::type,
basic_string_view<typename C::char_type>)
FMT_MAKE_VALUE(string_type, const std::basic_string<typename C::char_type>&,
basic_string_view<typename C::char_type>)
FMT_MAKE_VALUE(pointer_type, void*, const void*)
FMT_MAKE_VALUE_SAME(pointer_type, const void*)
FMT_MAKE_VALUE(pointer_type, std::nullptr_t, const void*)
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// Formatting of arbitrary pointers is disallowed. If you want to output a
// pointer cast it to "void *" or "const void *". In particular, this forbids
// formatting of "[const] volatile char *" which is printed as bool by
// iostreams.
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template <typename C, typename T,
FMT_ENABLE_IF(!std::is_same<T, typename C::char_type>::value)>
void make_value(const T*) {
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static_assert(!sizeof(T), "formatting of non-void pointers is disallowed");
}
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template <typename C, typename T,
FMT_ENABLE_IF(convert_to_int<T, typename C::char_type>::value&&
std::is_enum<T>::value)>
inline init<C, int, int_type> make_value(const T& val) {
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return static_cast<int>(val);
}
template <
typename C, typename T, typename Char = typename C::char_type,
FMT_ENABLE_IF(std::is_constructible<basic_string_view<Char>, T>::value &&
!internal::is_string<T>::value)>
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inline init<C, basic_string_view<Char>, string_type> make_value(const T& val) {
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return basic_string_view<Char>(val);
}
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// Implicit conversion to std::string is not handled here because it's
// unsafe: https://github.com/fmtlib/fmt/issues/729
template <
typename C, typename T, typename Char = typename C::char_type,
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typename U = typename std::remove_volatile<T>::type,
FMT_ENABLE_IF(!convert_to_int<U, Char>::value &&
!std::is_same<U, Char>::value &&
!std::is_convertible<U, basic_string_view<Char>>::value &&
!std::is_constructible<basic_string_view<Char>, U>::value &&
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!internal::is_string<U>::value)>
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inline init<C, const T&, custom_type> make_value(const T& val) {
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return val;
}
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template <typename C, typename T>
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init<C, const void*, named_arg_type> make_value(
const named_arg<T, typename C::char_type>& val) {
basic_format_arg<C> arg = make_arg<C>(val.value);
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std::memcpy(val.data, &arg, sizeof(arg));
return static_cast<const void*>(&val);
}
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template <typename C, typename S, FMT_ENABLE_IF(internal::is_string<S>::value)>
FMT_CONSTEXPR11 init<C, basic_string_view<typename C::char_type>, string_type>
make_value(const S& val) {
// Handle adapted strings.
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static_assert(std::is_same<typename C::char_type,
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typename internal::char_t_impl<S>::type>::value,
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"mismatch between char-types of context and argument");
return to_string_view(val);
}
// Maximum number of arguments with packed types.
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enum { max_packed_args = 15 };
enum : unsigned long long { is_unpacked_bit = 1ull << 63 };
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template <typename Context> class arg_map;
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} // namespace internal
// A formatting argument. It is a trivially copyable/constructible type to
// allow storage in basic_memory_buffer.
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template <typename Context> class basic_format_arg {
private:
internal::value<Context> value_;
internal::type type_;
template <typename ContextType, typename T>
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friend FMT_CONSTEXPR basic_format_arg<ContextType> internal::make_arg(
const T& value);
template <typename Visitor, typename Ctx>
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friend FMT_CONSTEXPR internal::invoke_result_t<Visitor, int> visit_format_arg(
Visitor&& vis, const basic_format_arg<Ctx>& arg);
friend class basic_format_args<Context>;
friend class internal::arg_map<Context>;
using char_type = typename Context::char_type;
public:
class handle {
public:
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explicit handle(internal::custom_value<Context> custom) : custom_(custom) {}
void format(basic_parse_context<char_type>& parse_ctx, Context& ctx) const {
custom_.format(custom_.value, parse_ctx, ctx);
}
private:
internal::custom_value<Context> custom_;
};
FMT_CONSTEXPR basic_format_arg() : type_(internal::none_type) {}
FMT_CONSTEXPR explicit operator bool() const FMT_NOEXCEPT {
return type_ != internal::none_type;
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}
internal::type type() const { return type_; }
bool is_integral() const { return internal::is_integral(type_); }
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bool is_arithmetic() const { return internal::is_arithmetic(type_); }
};
struct monostate {};
/**
\rst
Visits an argument dispatching to the appropriate visit method based on
the argument type. For example, if the argument type is ``double`` then
``vis(value)`` will be called with the value of type ``double``.
\endrst
*/
template <typename Visitor, typename Context>
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FMT_CONSTEXPR internal::invoke_result_t<Visitor, int> visit_format_arg(
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Visitor&& vis, const basic_format_arg<Context>& arg) {
using char_type = typename Context::char_type;
switch (arg.type_) {
case internal::none_type:
break;
case internal::named_arg_type:
FMT_ASSERT(false, "invalid argument type");
break;
case internal::int_type:
return vis(arg.value_.int_value);
case internal::uint_type:
return vis(arg.value_.uint_value);
case internal::long_long_type:
return vis(arg.value_.long_long_value);
case internal::ulong_long_type:
return vis(arg.value_.ulong_long_value);
case internal::bool_type:
return vis(arg.value_.int_value != 0);
case internal::char_type:
return vis(static_cast<char_type>(arg.value_.int_value));
case internal::double_type:
return vis(arg.value_.double_value);
case internal::long_double_type:
return vis(arg.value_.long_double_value);
case internal::cstring_type:
return vis(arg.value_.string.value);
case internal::string_type:
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return vis(basic_string_view<char_type>(arg.value_.string.value,
arg.value_.string.size));
case internal::pointer_type:
return vis(arg.value_.pointer);
case internal::custom_type:
return vis(typename basic_format_arg<Context>::handle(arg.value_.custom));
}
return vis(monostate());
}
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template <typename Visitor, typename Context>
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FMT_DEPRECATED FMT_CONSTEXPR internal::invoke_result_t<Visitor, int> visit(
Visitor&& vis, const basic_format_arg<Context>& arg) {
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return visit_format_arg(std::forward<Visitor>(vis), arg);
}
namespace internal {
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// A map from argument names to their values for named arguments.
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template <typename Context> class arg_map {
private:
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arg_map(const arg_map&) = delete;
void operator=(const arg_map&) = delete;
using char_type = typename Context::char_type;
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struct entry {
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basic_string_view<char_type> name;
basic_format_arg<Context> arg;
};
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entry* map_;
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unsigned size_;
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void push_back(value<Context> val) {
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const internal::named_arg_base<char_type>& named = val.as_named_arg();
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map_[size_] = entry{named.name, named.template deserialize<Context>()};
++size_;
}
public:
arg_map() : map_(nullptr), size_(0) {}
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void init(const basic_format_args<Context>& args);
~arg_map() { delete[] map_; }
basic_format_arg<Context> find(basic_string_view<char_type> name) const {
// The list is unsorted, so just return the first matching name.
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for (entry *it = map_, *end = map_ + size_; it != end; ++it) {
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if (it->name == name) return it->arg;
}
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return {};
}
};
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// A type-erased reference to an std::locale to avoid heavy <locale> include.
class locale_ref {
private:
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const void* locale_; // A type-erased pointer to std::locale.
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friend class locale;
public:
locale_ref() : locale_(nullptr) {}
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template <typename Locale> explicit locale_ref(const Locale& loc);
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template <typename Locale> Locale get() const;
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};
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template <typename Context, typename T> struct get_type {
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typedef decltype(make_value<Context>(
std::declval<typename std::decay<T>::type&>())) value_type;
static const type value = value_type::type_tag;
};
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template <typename Context> FMT_CONSTEXPR11 unsigned long long get_types() {
return 0;
}
template <typename Context, typename Arg, typename... Args>
FMT_CONSTEXPR11 unsigned long long get_types() {
return get_type<Context, Arg>::value | (get_types<Context, Args...>() << 4);
}
template <typename Context, typename T>
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FMT_CONSTEXPR basic_format_arg<Context> make_arg(const T& value) {
basic_format_arg<Context> arg;
arg.type_ = get_type<Context, T>::value;
arg.value_ = make_value<Context>(value);
return arg;
}
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template <bool IS_PACKED, typename Context, typename T,
FMT_ENABLE_IF(IS_PACKED)>
inline value<Context> make_arg(const T& value) {
return make_value<Context>(value);
}
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template <bool IS_PACKED, typename Context, typename T,
FMT_ENABLE_IF(!IS_PACKED)>
inline basic_format_arg<Context> make_arg(const T& value) {
return make_arg<Context>(value);
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}
} // namespace internal
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// Formatting context.
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template <typename OutputIt, typename Char> class basic_format_context {
public:
/** The character type for the output. */
using char_type = Char;
private:
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OutputIt out_;
basic_format_args<basic_format_context> args_;
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internal::arg_map<basic_format_context> map_;
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internal::locale_ref loc_;
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basic_format_context(const basic_format_context&) = delete;
void operator=(const basic_format_context&) = delete;
public:
using iterator = OutputIt;
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using format_arg = basic_format_arg<basic_format_context>;
template <typename T> using formatter_type = formatter<T, char_type>;
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/**
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Constructs a ``basic_format_context`` object. References to the arguments are
stored in the object so make sure they have appropriate lifetimes.
*/
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basic_format_context(OutputIt out,
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basic_format_args<basic_format_context> ctx_args,
internal::locale_ref loc = internal::locale_ref())
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: out_(out), args_(ctx_args), loc_(loc) {}
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format_arg arg(unsigned id) const { return args_.get(id); }
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// Checks if manual indexing is used and returns the argument with the
// specified name.
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format_arg arg(basic_string_view<char_type> name);
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internal::error_handler error_handler() { return {}; }
void on_error(const char* message) { error_handler().on_error(message); }
// Returns an iterator to the beginning of the output range.
iterator out() { return out_; }
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FMT_DEPRECATED iterator begin() { return out_; }
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// Advances the begin iterator to ``it``.
void advance_to(iterator it) { out_ = it; }
internal::locale_ref locale() { return loc_; }
};
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template <typename Char>
using buffer_context =
basic_format_context<std::back_insert_iterator<internal::buffer<Char>>,
Char>;
using format_context = buffer_context<char>;
using wformat_context = buffer_context<wchar_t>;
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/**
\rst
An array of references to arguments. It can be implicitly converted into
`~fmt::basic_format_args` for passing into type-erased formatting functions
such as `~fmt::vformat`.
\endrst
*/
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template <typename Context, typename... Args> class format_arg_store {
private:
static const size_t NUM_ARGS = sizeof...(Args);
// Packed is a macro on MinGW so use IS_PACKED instead.
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static const bool IS_PACKED = NUM_ARGS < internal::max_packed_args;
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using value_type =
typename std::conditional<IS_PACKED, internal::value<Context>,
basic_format_arg<Context>>::type;
// If the arguments are not packed, add one more element to mark the end.
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static const size_t DATA_SIZE =
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NUM_ARGS + (IS_PACKED && NUM_ARGS != 0 ? 0 : 1);
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value_type data_[DATA_SIZE];
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friend class basic_format_args<Context>;
static FMT_CONSTEXPR11 unsigned long long get_types() {
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return IS_PACKED ? internal::get_types<Context, Args...>()
: internal::is_unpacked_bit | NUM_ARGS;
}
public:
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#if FMT_USE_CONSTEXPR11
static FMT_CONSTEXPR11 unsigned long long TYPES = get_types();
#else
static const unsigned long long TYPES;
#endif
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#if (FMT_GCC_VERSION && FMT_GCC_VERSION <= 405) || \
(FMT_MSC_VER && FMT_MSC_VER <= 1800)
// Workaround array initialization issues in gcc <= 4.5 and MSVC <= 2013.
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format_arg_store(const Args&... args) {
value_type init[DATA_SIZE] = {
internal::make_arg<IS_PACKED, Context>(args)...};
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std::memcpy(data_, init, sizeof(init));
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}
#else
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format_arg_store(const Args&... args)
: data_{internal::make_arg<IS_PACKED, Context>(args)...} {}
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#endif
};
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#if !FMT_USE_CONSTEXPR11
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template <typename Context, typename... Args>
const unsigned long long format_arg_store<Context, Args...>::TYPES =
get_types();
#endif
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/**
\rst
Constructs an `~fmt::format_arg_store` object that contains references to
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arguments and can be implicitly converted to `~fmt::format_args`. `Context`
can be omitted in which case it defaults to `~fmt::context`.
See `~fmt::arg` for lifetime considerations.
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\endrst
*/
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template <typename Context = format_context, typename... Args>
inline format_arg_store<Context, Args...> make_format_args(
const Args&... args) {
return {args...};
}
/** Formatting arguments. */
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template <typename Context> class basic_format_args {
public:
using size_type = unsigned;
using format_arg = basic_format_arg<Context>;
private:
// To reduce compiled code size per formatting function call, types of first
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// max_packed_args arguments are passed in the types_ field.
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unsigned long long types_;
union {
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// If the number of arguments is less than max_packed_args, the argument
// values are stored in values_, otherwise they are stored in args_.
// This is done to reduce compiled code size as storing larger objects
// may require more code (at least on x86-64) even if the same amount of
// data is actually copied to stack. It saves ~10% on the bloat test.
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const internal::value<Context>* values_;
const format_arg* args_;
};
bool is_packed() const { return (types_ & internal::is_unpacked_bit) == 0; }
typename internal::type type(unsigned index) const {
unsigned shift = index * 4;
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return static_cast<typename internal::type>((types_ & (0xfull << shift)) >>
shift);
}
friend class internal::arg_map<Context>;
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void set_data(const internal::value<Context>* values) { values_ = values; }
void set_data(const format_arg* args) { args_ = args; }
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format_arg do_get(size_type index) const {
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format_arg arg;
if (!is_packed()) {
auto num_args = max_size();
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if (index < num_args) arg = args_[index];
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return arg;
}
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if (index > internal::max_packed_args) return arg;
arg.type_ = type(index);
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if (arg.type_ == internal::none_type) return arg;
internal::value<Context>& val = arg.value_;
val = values_[index];
return arg;
}
public:
basic_format_args() : types_(0) {}
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/**
\rst
Constructs a `basic_format_args` object from `~fmt::format_arg_store`.
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\endrst
*/
template <typename... Args>
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basic_format_args(const format_arg_store<Context, Args...>& store)
: types_(static_cast<unsigned long long>(store.TYPES)) {
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set_data(store.data_);
}
/**
\rst
Constructs a `basic_format_args` object from a dynamic set of arguments.
\endrst
*/
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basic_format_args(const format_arg* args, size_type count)
: types_(internal::is_unpacked_bit | count) {
set_data(args);
}
/** Returns the argument at specified index. */
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format_arg get(size_type index) const {
format_arg arg = do_get(index);
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if (arg.type_ == internal::named_arg_type)
arg = arg.value_.as_named_arg().template deserialize<Context>();
return arg;
}
size_type max_size() const {
unsigned long long max_packed = internal::max_packed_args;
return static_cast<size_type>(
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is_packed() ? max_packed : types_ & ~internal::is_unpacked_bit);
}
};
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/** An alias to ``basic_format_args<context>``. */
// It is a separate type rather than a typedef to make symbols readable.
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struct format_args : basic_format_args<format_context> {
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template <typename... Args>
format_args(Args&&... arg)
: basic_format_args<format_context>(std::forward<Args>(arg)...) {}
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};
struct wformat_args : basic_format_args<wformat_context> {
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template <typename... Args>
wformat_args(Args&&... arg)
: basic_format_args<wformat_context>(std::forward<Args>(arg)...) {}
};
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/** String's character type. */
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template <typename S> using char_t = typename internal::char_t_impl<S>::type;
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namespace internal {
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template <typename Context>
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FMT_CONSTEXPR typename Context::format_arg get_arg(Context& ctx, unsigned id) {
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auto arg = ctx.arg(id);
if (!arg) ctx.on_error("argument index out of range");
return arg;
}
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template <typename Char> struct named_arg_base {
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basic_string_view<Char> name;
// Serialized value<context>.
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mutable char data[sizeof(basic_format_arg<buffer_context<Char>>)];
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named_arg_base(basic_string_view<Char> nm) : name(nm) {}
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template <typename Context> basic_format_arg<Context> deserialize() const {
basic_format_arg<Context> arg;
std::memcpy(&arg, data, sizeof(basic_format_arg<Context>));
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return arg;
}
};
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template <typename T, typename Char> struct named_arg : named_arg_base<Char> {
const T& value;
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named_arg(basic_string_view<Char> name, const T& val)
: named_arg_base<Char>(name), value(val) {}
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};
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template <typename... Args, typename S,
FMT_ENABLE_IF(!is_compile_string<S>::value)>
inline void check_format_string(const S&) {}
template <typename... Args, typename S,
FMT_ENABLE_IF(is_compile_string<S>::value)>
void check_format_string(S);
template <typename S, typename... Args,
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typename Char = enable_if_t<internal::is_string<S>::value, char_t<S>>>
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inline format_arg_store<buffer_context<Char>, Args...> make_args_checked(
const S& format_str, const Args&... args) {
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internal::check_format_string<Args...>(format_str);
return {args...};
}
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template <typename Char>
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std::basic_string<Char> vformat(basic_string_view<Char> format_str,
basic_format_args<buffer_context<Char>> args);
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template <typename Char>
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typename buffer_context<Char>::iterator vformat_to(
internal::buffer<Char>& buf, basic_string_view<Char> format_str,
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basic_format_args<buffer_context<Char>> args);
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} // namespace internal
/**
\rst
Returns a named argument to be used in a formatting function.
The named argument holds a reference and does not extend the lifetime
of its arguments.
Consequently, a dangling reference can accidentally be created.
The user should take care to only pass this function temporaries when
the named argument is itself a temporary, as per the following example.
**Example**::
fmt::print("Elapsed time: {s:.2f} seconds", fmt::arg("s", 1.23));
\endrst
*/
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template <typename S, typename T, typename Char = char_t<S>>
inline internal::named_arg<T, Char> arg(const S& name, const T& arg) {
static_assert(internal::is_string<S>::value, "");
return {name, arg};
}
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// Disable nested named arguments, e.g. ``arg("a", arg("b", 42))``.
template <typename S, typename T, typename Char>
void arg(S, internal::named_arg<T, Char>) = delete;
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template <typename Container> struct is_contiguous : std::false_type {};
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template <typename Char>
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struct is_contiguous<std::basic_string<Char>> : std::true_type {};
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template <typename Char>
struct is_contiguous<internal::buffer<Char>> : std::true_type {};
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template <typename OutputIt>
struct is_contiguous_back_insert_iterator : std::false_type {};
template <typename Container>
struct is_contiguous_back_insert_iterator<std::back_insert_iterator<Container>>
: is_contiguous<Container> {};
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/** Formats a string and writes the output to ``out``. */
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template <typename OutputIt, typename S, typename Char = char_t<S>,
FMT_ENABLE_IF(is_contiguous_back_insert_iterator<OutputIt>::value)>
OutputIt vformat_to(OutputIt out, const S& format_str,
basic_format_args<buffer_context<Char>> args) {
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using container = typename std::remove_reference<decltype(
internal::get_container(out))>::type;
internal::container_buffer<container> buf((internal::get_container(out)));
internal::vformat_to(buf, to_string_view(format_str), args);
return out;
}
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template <typename Container, typename S, typename... Args,
FMT_ENABLE_IF(
is_contiguous<Container>::value&& internal::is_string<S>::value)>
inline std::back_insert_iterator<Container> format_to(
std::back_insert_iterator<Container> out, const S& format_str,
const Args&... args) {
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return vformat_to(out, to_string_view(format_str),
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{internal::make_args_checked(format_str, args...)});
}
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template <typename S,
typename Char = enable_if_t<internal::is_string<S>::value, char_t<S>>>
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inline std::basic_string<Char> vformat(
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const S& format_str, basic_format_args<buffer_context<Char>> args) {
return internal::vformat(to_string_view(format_str), args);
}
/**
\rst
Formats arguments and returns the result as a string.
**Example**::
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#include <fmt/core.h>
std::string message = fmt::format("The answer is {}", 42);
\endrst
*/
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// Pass char_t as a default template parameter instead of using
// std::basic_string<char_t<S>> to reduce the symbol size.
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template <typename S, typename... Args,
typename Char = enable_if_t<internal::is_string<S>::value, char_t<S>>>
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inline std::basic_string<Char> format(const S& format_str,
const Args&... args) {
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return internal::vformat(to_string_view(format_str),
{internal::make_args_checked(format_str, args...)});
}
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FMT_API void vprint(std::FILE* f, string_view format_str, format_args args);
FMT_API void vprint(std::FILE* f, wstring_view format_str, wformat_args args);
/**
\rst
Prints formatted data to the file *f*. For wide format strings,
*f* should be in wide-oriented mode set via ``fwide(f, 1)`` or
``_setmode(_fileno(f), _O_U8TEXT)`` on Windows.
**Example**::
fmt::print(stderr, "Don't {}!", "panic");
\endrst
*/
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template <typename S, typename... Args,
FMT_ENABLE_IF(internal::is_string<S>::value)>
inline void print(std::FILE* f, const S& format_str, const Args&... args) {
vprint(f, to_string_view(format_str),
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internal::make_args_checked(format_str, args...));
}
FMT_API void vprint(string_view format_str, format_args args);
FMT_API void vprint(wstring_view format_str, wformat_args args);
/**
\rst
Prints formatted data to ``stdout``.
**Example**::
fmt::print("Elapsed time: {0:.2f} seconds", 1.23);
\endrst
*/
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template <typename S, typename... Args,
FMT_ENABLE_IF(internal::is_string<S>::value)>
inline void print(const S& format_str, const Args&... args) {
vprint(to_string_view(format_str),
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internal::make_args_checked(format_str, args...));
}
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FMT_END_NAMESPACE
#endif // FMT_CORE_H_