fmtlegacy/include/fmt/printf.h

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/*
Formatting library for C++
Copyright (c) 2012 - 2016, Victor Zverovich
All rights reserved.
For the license information refer to format.h.
*/
#ifndef FMT_PRINTF_H_
#define FMT_PRINTF_H_
#include <algorithm> // std::fill_n
#include <limits> // std::numeric_limits
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#include "fmt/ostream.h"
namespace fmt {
namespace internal {
// Checks if a value fits in int - used to avoid warnings about comparing
// signed and unsigned integers.
template <bool IsSigned>
struct IntChecker {
template <typename T>
static bool fits_in_int(T value) {
unsigned max = std::numeric_limits<int>::max();
return value <= max;
}
static bool fits_in_int(bool) { return true; }
};
template <>
struct IntChecker<true> {
template <typename T>
static bool fits_in_int(T value) {
return value >= std::numeric_limits<int>::min() &&
value <= std::numeric_limits<int>::max();
}
static bool fits_in_int(int) { return true; }
};
class PrintfPrecisionHandler {
public:
template <typename T>
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typename std::enable_if<std::is_integral<T>::value, int>::type
operator()(T value) {
if (!IntChecker<std::numeric_limits<T>::is_signed>::fits_in_int(value))
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FMT_THROW(format_error("number is too big"));
return static_cast<int>(value);
}
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template <typename T>
typename std::enable_if<!std::is_integral<T>::value, int>::type
operator()(T) {
FMT_THROW(format_error("precision is not integer"));
return 0;
}
};
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// An argument visitor that returns true iff arg is a zero integer.
class IsZeroInt {
public:
template <typename T>
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typename std::enable_if<std::is_integral<T>::value, bool>::type
operator()(T value) { return value == 0; }
template <typename T>
typename std::enable_if<!std::is_integral<T>::value, bool>::type
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operator()(T) { return false; }
};
template <typename T>
struct make_unsigned_or_bool : std::make_unsigned<T> {};
template <>
struct make_unsigned_or_bool<bool> {
using type = bool;
};
template <typename T, typename Context>
class ArgConverter {
private:
typedef typename Context::char_type Char;
basic_arg<Context> &arg_;
typename Context::char_type type_;
public:
ArgConverter(basic_arg<Context> &arg, Char type)
: arg_(arg), type_(type) {}
void operator()(bool value) {
if (type_ != 's')
operator()<bool>(value);
}
template <typename U>
typename std::enable_if<std::is_integral<U>::value>::type
operator()(U value) {
bool is_signed = type_ == 'd' || type_ == 'i';
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typedef typename std::conditional<
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std::is_same<T, void>::value, U, T>::type TargetType;
if (sizeof(TargetType) <= sizeof(int)) {
// Extra casts are used to silence warnings.
if (is_signed) {
arg_ = internal::make_arg<Context>(
static_cast<int>(static_cast<TargetType>(value)));
} else {
typedef typename make_unsigned_or_bool<TargetType>::type Unsigned;
arg_ = internal::make_arg<Context>(
static_cast<unsigned>(static_cast<Unsigned>(value)));
}
} else {
if (is_signed) {
// glibc's printf doesn't sign extend arguments of smaller types:
// std::printf("%lld", -42); // prints "4294967254"
// but we don't have to do the same because it's a UB.
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arg_ = internal::make_arg<Context>(static_cast<long long>(value));
} else {
arg_ = internal::make_arg<Context>(
static_cast<typename make_unsigned_or_bool<U>::type>(value));
}
}
}
template <typename U>
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typename std::enable_if<!std::is_integral<U>::value>::type operator()(U) {
// No coversion needed for non-integral types.
}
};
// Converts an integer argument to T for printf, if T is an integral type.
// If T is void, the argument is converted to corresponding signed or unsigned
// type depending on the type specifier: 'd' and 'i' - signed, other -
// unsigned).
template <typename T, typename Context, typename Char>
void convert_arg(basic_arg<Context> &arg, Char type) {
visit(ArgConverter<T, Context>(arg, type), arg);
}
// Converts an integer argument to char for printf.
template <typename Context>
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class CharConverter {
private:
basic_arg<Context> &arg_;
FMT_DISALLOW_COPY_AND_ASSIGN(CharConverter);
public:
explicit CharConverter(basic_arg<Context> &arg) : arg_(arg) {}
template <typename T>
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typename std::enable_if<std::is_integral<T>::value>::type
operator()(T value) {
arg_ = internal::make_arg<Context>(static_cast<char>(value));
}
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template <typename T>
typename std::enable_if<!std::is_integral<T>::value>::type operator()(T) {
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// No coversion needed for non-integral types.
}
};
// Checks if an argument is a valid printf width specifier and sets
// left alignment if it is negative.
template <typename Char>
class PrintfWidthHandler {
private:
typedef basic_format_specs<Char> format_specs;
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format_specs &spec_;
FMT_DISALLOW_COPY_AND_ASSIGN(PrintfWidthHandler);
public:
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explicit PrintfWidthHandler(format_specs &spec) : spec_(spec) {}
template <typename T>
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typename std::enable_if<std::is_integral<T>::value, unsigned>::type
operator()(T value) {
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typedef typename internal::int_traits<T>::main_type UnsignedType;
UnsignedType width = static_cast<UnsignedType>(value);
if (internal::is_negative(value)) {
spec_.align_ = ALIGN_LEFT;
width = 0 - width;
}
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unsigned int_max = std::numeric_limits<int>::max();
if (width > int_max)
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FMT_THROW(format_error("number is too big"));
return static_cast<unsigned>(width);
}
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template <typename T>
typename std::enable_if<!std::is_integral<T>::value, unsigned>::type
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operator()(T) {
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FMT_THROW(format_error("width is not integer"));
return 0;
}
};
} // namespace internal
/**
\rst
The ``printf`` argument formatter.
\endrst
*/
template <typename Char>
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class printf_arg_formatter : public internal::arg_formatter_base<Char> {
private:
void write_null_pointer() {
this->spec().type_ = 0;
this->write("(nil)");
}
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typedef internal::arg_formatter_base<Char> Base;
public:
typedef typename Base::format_specs format_specs;
/**
\rst
Constructs an argument formatter object.
*buffer* is a reference to the output buffer and *spec* contains format
specifier information for standard argument types.
\endrst
*/
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printf_arg_formatter(basic_buffer<Char> &buffer, format_specs &spec)
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: internal::arg_formatter_base<Char>(buffer, spec) {}
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using Base::operator();
/** Formats an argument of type ``bool``. */
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void operator()(bool value) {
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format_specs &fmt_spec = this->spec();
if (fmt_spec.type_ != 's')
return (*this)(value ? 1 : 0);
fmt_spec.type_ = 0;
this->write(value);
}
/** Formats a character. */
void operator()(Char value) {
format_specs &fmt_spec = this->spec();
if (fmt_spec.type_ && fmt_spec.type_ != 'c')
return (*this)(static_cast<int>(value));
fmt_spec.flags_ = 0;
fmt_spec.align_ = ALIGN_RIGHT;
Base::operator()(value);
}
/** Formats a null-terminated C string. */
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void operator()(const char *value) {
if (value)
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Base::operator()(value);
else if (this->spec().type_ == 'p')
write_null_pointer();
else
this->write("(null)");
}
/** Formats a pointer. */
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void operator()(const void *value) {
if (value)
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return Base::operator()(value);
this->spec().type_ = 0;
write_null_pointer();
}
/** Formats an argument of a custom (user-defined) type. */
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void operator()(internal::custom_value<Char> c) {
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const Char format_str[] = {'}', '\0'};
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auto args = basic_args<basic_context<Char>>();
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basic_context<Char> ctx(basic_string_view<Char>(format_str), args);
c.format(this->writer().buffer(), c.value, &ctx);
}
};
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template <typename Char,
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typename ArgFormatter = printf_arg_formatter<Char> >
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class printf_context;
template <typename T, typename Char = char>
struct printf_formatter {
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template <typename ParseContext>
const Char *parse(ParseContext& ctx) { return ctx.begin(); }
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void format(basic_buffer<Char> &buf, const T &value, printf_context<Char> &) {
internal::format_value(buf, value);
}
};
/** This template formats data and writes the output to a writer. */
template <typename Char, typename ArgFormatter>
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class printf_context :
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private internal::context_base<
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Char, printf_context<Char, ArgFormatter>> {
public:
/** The character type for the output. */
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using char_type = Char;
template <typename T>
using formatter_type = printf_formatter<T>;
private:
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typedef internal::context_base<Char, printf_context> Base;
typedef typename Base::format_arg format_arg;
typedef basic_format_specs<Char> format_specs;
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typedef internal::null_terminating_iterator<Char> iterator;
void parse_flags(format_specs &spec, iterator &it);
// Returns the argument with specified index or, if arg_index is equal
// to the maximum unsigned value, the next argument.
format_arg get_arg(
iterator it,
unsigned arg_index = (std::numeric_limits<unsigned>::max)());
// Parses argument index, flags and width and returns the argument index.
unsigned parse_header(iterator &it, format_specs &spec);
public:
/**
\rst
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Constructs a ``printf_context`` object. References to the arguments and
the writer are stored in the context object so make sure they have
appropriate lifetimes.
\endrst
*/
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printf_context(
basic_string_view<Char> format_str, basic_args<printf_context> args)
: Base(format_str, args) {}
using Base::get_parse_context;
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/** Formats stored arguments and writes the output to the buffer. */
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FMT_API void format(basic_buffer<Char> &buffer);
};
template <typename Char, typename AF>
void printf_context<Char, AF>::parse_flags(format_specs &spec, iterator &it) {
for (;;) {
switch (*it++) {
case '-':
spec.align_ = ALIGN_LEFT;
break;
case '+':
spec.flags_ |= SIGN_FLAG | PLUS_FLAG;
break;
case '0':
spec.fill_ = '0';
break;
case ' ':
spec.flags_ |= SIGN_FLAG;
break;
case '#':
spec.flags_ |= HASH_FLAG;
break;
default:
--it;
return;
}
}
}
template <typename Char, typename AF>
typename printf_context<Char, AF>::format_arg printf_context<Char, AF>::get_arg(
iterator it, unsigned arg_index) {
(void)it;
const char *error = 0;
format_arg arg;
if (arg_index == std::numeric_limits<unsigned>::max()) {
arg_index = this->next_arg_index(error);
if (!error)
arg = this->do_get_arg(arg_index, error);
} else {
arg = Base::get_arg(arg_index - 1, error);
}
if (error)
FMT_THROW(format_error(!*it ? "invalid format string" : error));
return arg;
}
template <typename Char, typename AF>
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unsigned printf_context<Char, AF>::parse_header(
iterator &it, format_specs &spec) {
unsigned arg_index = std::numeric_limits<unsigned>::max();
Char c = *it;
if (c >= '0' && c <= '9') {
// Parse an argument index (if followed by '$') or a width possibly
// preceded with '0' flag(s).
unsigned value = internal::parse_nonnegative_int(it);
if (*it == '$') { // value is an argument index
++it;
arg_index = value;
} else {
if (c == '0')
spec.fill_ = '0';
if (value != 0) {
// Nonzero value means that we parsed width and don't need to
// parse it or flags again, so return now.
spec.width_ = value;
return arg_index;
}
}
}
parse_flags(spec, it);
// Parse width.
if (*it >= '0' && *it <= '9') {
spec.width_ = internal::parse_nonnegative_int(it);
} else if (*it == '*') {
++it;
spec.width_ = visit(internal::PrintfWidthHandler<Char>(spec), get_arg(it));
}
return arg_index;
}
template <typename Char, typename AF>
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void printf_context<Char, AF>::format(basic_buffer<Char> &buffer) {
Base &base = *this;
auto start = iterator(base);
auto it = start;
using internal::pointer_from;
while (*it) {
Char c = *it++;
if (c != '%') continue;
if (*it == c) {
buffer.append(pointer_from(start), pointer_from(it));
start = ++it;
continue;
}
buffer.append(pointer_from(start), pointer_from(it) - 1);
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format_specs spec;
spec.align_ = ALIGN_RIGHT;
// Parse argument index, flags and width.
unsigned arg_index = parse_header(it, spec);
// Parse precision.
if (*it == '.') {
++it;
if ('0' <= *it && *it <= '9') {
spec.precision_ = static_cast<int>(internal::parse_nonnegative_int(it));
} else if (*it == '*') {
++it;
spec.precision_ =
visit(internal::PrintfPrecisionHandler(), get_arg(it));
}
}
format_arg arg = get_arg(it, arg_index);
if (spec.flag(HASH_FLAG) && visit(internal::IsZeroInt(), arg))
spec.flags_ &= ~internal::to_unsigned<int>(HASH_FLAG);
if (spec.fill_ == '0') {
if (arg.is_numeric())
spec.align_ = ALIGN_NUMERIC;
else
spec.fill_ = ' '; // Ignore '0' flag for non-numeric types.
}
// Parse length and convert the argument to the required type.
using internal::convert_arg;
switch (*it++) {
case 'h':
if (*it == 'h')
convert_arg<signed char>(arg, *++it);
else
convert_arg<short>(arg, *it);
break;
case 'l':
if (*it == 'l')
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convert_arg<long long>(arg, *++it);
else
convert_arg<long>(arg, *it);
break;
case 'j':
convert_arg<intmax_t>(arg, *it);
break;
case 'z':
convert_arg<std::size_t>(arg, *it);
break;
case 't':
convert_arg<std::ptrdiff_t>(arg, *it);
break;
case 'L':
// printf produces garbage when 'L' is omitted for long double, no
// need to do the same.
break;
default:
--it;
convert_arg<void>(arg, *it);
}
// Parse type.
if (!*it)
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FMT_THROW(format_error("invalid format string"));
spec.type_ = static_cast<char>(*it++);
if (arg.is_integral()) {
// Normalize type.
switch (spec.type_) {
case 'i': case 'u':
spec.type_ = 'd';
break;
case 'c':
// TODO: handle wchar_t
visit(internal::CharConverter<printf_context<Char, AF>>(arg), arg);
break;
}
}
start = it;
// Format argument.
visit(AF(buffer, spec), arg);
}
buffer.append(pointer_from(start), pointer_from(it));
}
template <typename Char>
void printf(basic_buffer<Char> &buf, basic_string_view<Char> format,
basic_args<printf_context<Char>> args) {
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printf_context<Char>(format, args).format(buf);
}
typedef basic_args<printf_context<char>> printf_args;
inline std::string vsprintf(string_view format, printf_args args) {
memory_buffer buffer;
printf(buffer, format, args);
return to_string(buffer);
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}
/**
\rst
Formats arguments and returns the result as a string.
**Example**::
std::string message = fmt::sprintf("The answer is %d", 42);
\endrst
*/
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template <typename... Args>
inline std::string sprintf(string_view format_str, const Args & ... args) {
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return vsprintf(format_str, make_args<printf_context<char>>(args...));
}
inline std::wstring vsprintf(
wstring_view format, basic_args<printf_context<wchar_t>> args) {
wmemory_buffer buffer;
printf(buffer, format, args);
return to_string(buffer);
}
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template <typename... Args>
inline std::wstring sprintf(wstring_view format_str, const Args & ... args) {
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auto vargs = make_args<printf_context<wchar_t>>(args...);
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return vsprintf(format_str, vargs);
}
FMT_API int vfprintf(std::FILE *f, string_view format, printf_args args);
/**
\rst
Prints formatted data to the file *f*.
**Example**::
fmt::fprintf(stderr, "Don't %s!", "panic");
\endrst
*/
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template <typename... Args>
inline int fprintf(std::FILE *f, string_view format_str, const Args & ... args) {
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auto vargs = make_args<printf_context<char>>(args...);
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return vfprintf(f, format_str, vargs);
}
inline int vprintf(string_view format, printf_args args) {
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return vfprintf(stdout, format, args);
}
/**
\rst
Prints formatted data to ``stdout``.
**Example**::
fmt::printf("Elapsed time: %.2f seconds", 1.23);
\endrst
*/
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template <typename... Args>
inline int printf(string_view format_str, const Args & ... args) {
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return vprintf(format_str, make_args<printf_context<char>>(args...));
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}
inline int vfprintf(std::ostream &os, string_view format_str, printf_args args) {
memory_buffer buffer;
printf(buffer, format_str, args);
internal::write(os, buffer);
return static_cast<int>(buffer.size());
}
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/**
\rst
Prints formatted data to the stream *os*.
**Example**::
fprintf(cerr, "Don't %s!", "panic");
\endrst
*/
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template <typename... Args>
inline int fprintf(std::ostream &os, string_view format_str,
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const Args & ... args) {
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auto vargs = make_args<printf_context<char>>(args...);
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return vfprintf(os, format_str, vargs);
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}
} // namespace fmt
#endif // FMT_PRINTF_H_