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construct/include/ircd/fmt.h
2018-02-05 21:24:34 -08:00

226 lines
6.1 KiB
C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_FMT_H
/// Typesafe format strings from formal grammars & standard RTTI
namespace ircd::fmt
{
IRCD_EXCEPTION(ircd::error, error);
IRCD_EXCEPTION(error, invalid_format);
IRCD_EXCEPTION(error, invalid_type);
IRCD_EXCEPTION(error, illegal);
struct spec;
struct specifier;
struct sprintf;
struct vsprintf;
struct snprintf;
struct vsnprintf;
struct snstringf;
struct vsnstringf;
template<size_t MAX> struct bsprintf;
//
// Module API
//
constexpr char SPECIFIER
{
'%'
};
constexpr char SPECIFIER_TERMINATOR
{
'$'
};
using arg = std::tuple<const void *, std::type_index>;
const std::map<string_view, specifier *, std::less<>> &specifiers();
}
// Structural representation of a format specifier
struct ircd::fmt::spec
{
char sign {'+'};
ushort width {0};
string_view name;
spec() = default;
};
// A format specifier handler module.
// This allows a new "%foo" to be defined with custom handling.
class ircd::fmt::specifier
{
std::set<std::string> names;
public:
virtual bool operator()(char *&out, const size_t &max, const spec &, const arg &) const = 0;
specifier(const std::initializer_list<std::string> &names);
specifier(const std::string &name);
virtual ~specifier() noexcept;
};
//
// User API
//
/// Typesafe snprintf() from formal grammar and RTTI.
///
/// This function accepts a format string and a variable number of arguments
/// composing formatted null-terminated output in the provided output buffer.
/// The format string is compliant with standard snprintf() (TODO: not yet).
/// The type information of the arguments is grabbed from the variadic template
/// and references are passed to the formal output grammars. This means you can
/// pass an std::string directly without calling c_str(), as well as pass a
/// non-null-terminated string_view safely.
///
/// Furthermore, other features of ircd::fmt enable custom format specifiers
/// and handling of types not recognized by existing grammars through this
/// function.
///
class ircd::fmt::snprintf
{
const char *fstart; // Current running position in the fmtstr
const char *fstop; // Saved state from the last position
const char *fend; // past-the-end iterator of the fmtstr
const char *obeg; // Saved beginning of the output buffer
const char *oend; // past-the-end iterator of the output buffer
char *out; // Current running position of the output buffer
short idx; // Keeps count of the args for better err msgs
protected:
auto finished() const { return !fstart || fstop >= fend; }
size_t remaining() const { return std::max(oend - out - 1, 0L); }
size_t consumed() const { return out - obeg; }
auto &buffer() const { return obeg; }
void append(const char *const &begin, const char *const &end);
void argument(const arg &);
IRCD_OVERLOAD(internal)
snprintf(internal_t, char *const &, const size_t &, const char *const &, const va_rtti &);
public:
operator ssize_t() const { return consumed(); }
operator string_view() const { return { obeg, consumed() }; }
template<class... Args>
snprintf(char *const &buf,
const size_t &max,
const char *const &fmt,
Args&&... args)
:snprintf
{
internal, buf, max, fmt, va_rtti{std::forward<Args>(args)...}
}{}
};
struct ircd::fmt::sprintf
:snprintf
{
template<class... Args>
sprintf(const mutable_buffer &buf,
const char *const &fmt,
Args&&... args)
:snprintf
{
internal, data(buf), size(buf), fmt, va_rtti{std::forward<Args>(args)...}
}{}
};
/// A complement to fmt::snprintf() accepting an already-made va_rtti.
///
/// This function has no variadic template; instead it accepts the type
/// which would be composed by such a variadic template called
/// ircd::va_rtti directly.
///
/// ircd::va_rtti is a lightweight pairing of argument pointers to runtime
/// type indexes. ircd::va_rtti is not a template itself because its purpose
/// is to bring this type information out of the header files to where the
/// grammar is instantiated.
///
struct ircd::fmt::vsnprintf
:snprintf
{
vsnprintf(char *const &buf,
const size_t &max,
const char *const &fmt,
const va_rtti &ap)
:snprintf
{
internal, buf, max, fmt, ap
}{}
};
struct ircd::fmt::vsprintf
:snprintf
{
vsprintf(const mutable_buffer &buf,
const char *const &fmt,
const va_rtti &ap)
:snprintf
{
internal, data(buf), size(buf), fmt, ap
}{}
};
struct ircd::fmt::vsnstringf
:std::string
{
vsnstringf(const size_t &max,
const char *const &fmt,
const va_rtti &ap)
:std::string
{
[&max, &fmt, &ap]
{
std::string ret(max, char{});
ret.resize(vsnprintf(const_cast<char *>(ret.data()), ret.size() + 1, fmt, ap));
return ret;
}()
}{}
};
struct ircd::fmt::snstringf
:vsnstringf
{
template<class... args>
snstringf(const size_t &max,
const char *const &fmt,
args&&... a)
:vsnstringf
{
max, fmt, va_rtti{std::forward<args>(a)...}
}{}
};
template<size_t MAX>
struct ircd::fmt::bsprintf
:snprintf
,string_view
{
std::array<char, MAX> buf;
template<class... args>
bsprintf(const char *const &fmt,
args&&... a)
:snprintf
{
internal, buf.data(), buf.size(), fmt, va_rtti{std::forward<args>(a)...}
}
,string_view
{
buf.data(), size_t(static_cast<snprintf &>(*this))
}{}
};