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/* Proposed SG14 status_code
(C) 2018-2019 Niall Douglas <http://www.nedproductions.biz/> (5 commits)
File Created: Feb 2018
Boost Software License - Version 1.0 - August 17th, 2003
Permission is hereby granted, free of charge, to any person or organization
obtaining a copy of the software and accompanying documentation covered by
this license (the "Software") to use, reproduce, display, distribute,
execute, and transmit the Software, and to prepare derivative works of the
Software, and to permit third-parties to whom the Software is furnished to
do so, all subject to the following:
The copyright notices in the Software and this entire statement, including
the above license grant, this restriction and the following disclaimer,
must be included in all copies of the Software, in whole or in part, and
all derivative works of the Software, unless such copies or derivative
works are solely in the form of machine-executable object code generated by
a source language processor.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO EVENT
SHALL THE COPYRIGHT HOLDERS OR ANYONE DISTRIBUTING THE SOFTWARE BE LIABLE
FOR ANY DAMAGES OR OTHER LIABILITY, WHETHER IN CONTRACT, TORT OR OTHERWISE,
ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.
*/
#ifndef BOOST_OUTCOME_SYSTEM_ERROR2_GENERIC_CODE_HPP
#define BOOST_OUTCOME_SYSTEM_ERROR2_GENERIC_CODE_HPP
#include "status_error.hpp"
#include <cerrno> // for error constants
BOOST_OUTCOME_SYSTEM_ERROR2_NAMESPACE_BEGIN
//! The generic error coding (POSIX)
enum class errc : int
{
success = 0,
unknown = -1,
address_family_not_supported = EAFNOSUPPORT,
address_in_use = EADDRINUSE,
address_not_available = EADDRNOTAVAIL,
already_connected = EISCONN,
argument_list_too_long = E2BIG,
argument_out_of_domain = EDOM,
bad_address = EFAULT,
bad_file_descriptor = EBADF,
bad_message = EBADMSG,
broken_pipe = EPIPE,
connection_aborted = ECONNABORTED,
connection_already_in_progress = EALREADY,
connection_refused = ECONNREFUSED,
connection_reset = ECONNRESET,
cross_device_link = EXDEV,
destination_address_required = EDESTADDRREQ,
device_or_resource_busy = EBUSY,
directory_not_empty = ENOTEMPTY,
executable_format_error = ENOEXEC,
file_exists = EEXIST,
file_too_large = EFBIG,
filename_too_long = ENAMETOOLONG,
function_not_supported = ENOSYS,
host_unreachable = EHOSTUNREACH,
identifier_removed = EIDRM,
illegal_byte_sequence = EILSEQ,
inappropriate_io_control_operation = ENOTTY,
interrupted = EINTR,
invalid_argument = EINVAL,
invalid_seek = ESPIPE,
io_error = EIO,
is_a_directory = EISDIR,
message_size = EMSGSIZE,
network_down = ENETDOWN,
network_reset = ENETRESET,
network_unreachable = ENETUNREACH,
no_buffer_space = ENOBUFS,
no_child_process = ECHILD,
no_link = ENOLINK,
no_lock_available = ENOLCK,
no_message = ENOMSG,
no_protocol_option = ENOPROTOOPT,
no_space_on_device = ENOSPC,
no_stream_resources = ENOSR,
no_such_device_or_address = ENXIO,
no_such_device = ENODEV,
no_such_file_or_directory = ENOENT,
no_such_process = ESRCH,
not_a_directory = ENOTDIR,
not_a_socket = ENOTSOCK,
not_a_stream = ENOSTR,
not_connected = ENOTCONN,
not_enough_memory = ENOMEM,
not_supported = ENOTSUP,
operation_canceled = ECANCELED,
operation_in_progress = EINPROGRESS,
operation_not_permitted = EPERM,
operation_not_supported = EOPNOTSUPP,
operation_would_block = EWOULDBLOCK,
owner_dead = EOWNERDEAD,
permission_denied = EACCES,
protcol_error = EPROTO,
protocol_not_supported = EPROTONOSUPPORT,
read_only_file_system = EROFS,
resource_deadlock_would_occur = EDEADLK,
resource_unavailable_try_again = EAGAIN,
result_out_of_range = ERANGE,
state_not_recoverable = ENOTRECOVERABLE,
stream_timeout = ETIME,
text_file_busy = ETXTBSY,
timed_out = ETIMEDOUT,
too_many_files_open_in_system = ENFILE,
too_many_files_open = EMFILE,
too_many_links = EMLINK,
too_many_symbolic_link_levels = ELOOP,
value_too_large = EOVERFLOW,
wrong_protocol_type = EPROTOTYPE
};
namespace detail
{
struct generic_code_messages
{
// libc++ defines missing errc macros to integers in the 9xxx range
// As much as 10,000 seems wasteful, bear in mind this is all constexpr
// and on C++ 14 or later this entire construct disappears.
const char *msgs[(ETIME >= 256) ? 10000 : 256];
BOOST_OUTCOME_SYSTEM_ERROR2_CONSTEXPR14 size_t size() const { return sizeof(msgs) / sizeof(*msgs); } // NOLINT
BOOST_OUTCOME_SYSTEM_ERROR2_CONSTEXPR14 const char *operator[](int i) const { return (i < 0 || i >= static_cast<int>(size()) || nullptr == msgs[i]) ? "unknown" : msgs[i]; } // NOLINT
BOOST_OUTCOME_SYSTEM_ERROR2_CONSTEXPR14 generic_code_messages()
: msgs{}
{
msgs[0] = "Success";
msgs[EAFNOSUPPORT] = "Address family not supported by protocol";
msgs[EADDRINUSE] = "Address already in use";
msgs[EADDRNOTAVAIL] = "Cannot assign requested address";
msgs[EISCONN] = "Transport endpoint is already connected";
msgs[E2BIG] = "Argument list too long";
msgs[EDOM] = "Numerical argument out of domain";
msgs[EFAULT] = "Bad address";
msgs[EBADF] = "Bad file descriptor";
msgs[EBADMSG] = "Bad message";
msgs[EPIPE] = "Broken pipe";
msgs[ECONNABORTED] = "Software caused connection abort";
msgs[EALREADY] = "Operation already in progress";
msgs[ECONNREFUSED] = "Connection refused";
msgs[ECONNRESET] = "Connection reset by peer";
msgs[EXDEV] = "Invalid cross-device link";
msgs[EDESTADDRREQ] = "Destination address required";
msgs[EBUSY] = "Device or resource busy";
msgs[ENOTEMPTY] = "Directory not empty";
msgs[ENOEXEC] = "Exec format error";
msgs[EEXIST] = "File exists";
msgs[EFBIG] = "File too large";
msgs[ENAMETOOLONG] = "File name too long";
msgs[ENOSYS] = "Function not implemented";
msgs[EHOSTUNREACH] = "No route to host";
msgs[EIDRM] = "Identifier removed";
msgs[EILSEQ] = "Invalid or incomplete multibyte or wide character";
msgs[ENOTTY] = "Inappropriate ioctl for device";
msgs[EINTR] = "Interrupted system call";
msgs[EINVAL] = "Invalid argument";
msgs[ESPIPE] = "Illegal seek";
msgs[EIO] = "Input/output error";
msgs[EISDIR] = "Is a directory";
msgs[EMSGSIZE] = "Message too long";
msgs[ENETDOWN] = "Network is down";
msgs[ENETRESET] = "Network dropped connection on reset";
msgs[ENETUNREACH] = "Network is unreachable";
msgs[ENOBUFS] = "No buffer space available";
msgs[ECHILD] = "No child processes";
msgs[ENOLINK] = "Link has been severed";
msgs[ENOLCK] = "No locks available";
msgs[ENOMSG] = "No message of desired type";
msgs[ENOPROTOOPT] = "Protocol not available";
msgs[ENOSPC] = "No space left on device";
msgs[ENOSR] = "Out of streams resources";
msgs[ENXIO] = "No such device or address";
msgs[ENODEV] = "No such device";
msgs[ENOENT] = "No such file or directory";
msgs[ESRCH] = "No such process";
msgs[ENOTDIR] = "Not a directory";
msgs[ENOTSOCK] = "Socket operation on non-socket";
msgs[ENOSTR] = "Device not a stream";
msgs[ENOTCONN] = "Transport endpoint is not connected";
msgs[ENOMEM] = "Cannot allocate memory";
msgs[ENOTSUP] = "Operation not supported";
msgs[ECANCELED] = "Operation canceled";
msgs[EINPROGRESS] = "Operation now in progress";
msgs[EPERM] = "Operation not permitted";
msgs[EOPNOTSUPP] = "Operation not supported";
msgs[EWOULDBLOCK] = "Resource temporarily unavailable";
msgs[EOWNERDEAD] = "Owner died";
msgs[EACCES] = "Permission denied";
msgs[EPROTO] = "Protocol error";
msgs[EPROTONOSUPPORT] = "Protocol not supported";
msgs[EROFS] = "Read-only file system";
msgs[EDEADLK] = "Resource deadlock avoided";
msgs[EAGAIN] = "Resource temporarily unavailable";
msgs[ERANGE] = "Numerical result out of range";
msgs[ENOTRECOVERABLE] = "State not recoverable";
msgs[ETIME] = "Timer expired";
msgs[ETXTBSY] = "Text file busy";
msgs[ETIMEDOUT] = "Connection timed out";
msgs[ENFILE] = "Too many open files in system";
msgs[EMFILE] = "Too many open files";
msgs[EMLINK] = "Too many links";
msgs[ELOOP] = "Too many levels of symbolic links";
msgs[EOVERFLOW] = "Value too large for defined data type";
msgs[EPROTOTYPE] = "Protocol wrong type for socket";
}
};
} // namespace detail
/*! The implementation of the domain for generic status codes, those mapped by `errc` (POSIX).
*/
class _generic_code_domain : public status_code_domain
{
template <class> friend class status_code;
template <class StatusCode> friend class detail::indirecting_domain;
using _base = status_code_domain;
public:
//! The value type of the generic code, which is an `errc` as per POSIX.
using value_type = errc;
using string_ref = _base::string_ref;
public:
//! Default constructor
constexpr explicit _generic_code_domain(typename _base::unique_id_type id = 0x746d6354f4f733e9) noexcept : _base(id) {}
_generic_code_domain(const _generic_code_domain &) = default;
_generic_code_domain(_generic_code_domain &&) = default;
_generic_code_domain &operator=(const _generic_code_domain &) = default;
_generic_code_domain &operator=(_generic_code_domain &&) = default;
~_generic_code_domain() = default;
//! Constexpr singleton getter. Returns the constexpr generic_code_domain variable.
static inline constexpr const _generic_code_domain &get();
virtual _base::string_ref name() const noexcept override { return string_ref("generic domain"); } // NOLINT
protected:
virtual bool _do_failure(const status_code<void> &code) const noexcept override // NOLINT
{
assert(code.domain() == *this); // NOLINT
return static_cast<const generic_code &>(code).value() != errc::success; // NOLINT
}
virtual bool _do_equivalent(const status_code<void> &code1, const status_code<void> &code2) const noexcept override // NOLINT
{
assert(code1.domain() == *this); // NOLINT
const auto &c1 = static_cast<const generic_code &>(code1); // NOLINT
if(code2.domain() == *this)
{
const auto &c2 = static_cast<const generic_code &>(code2); // NOLINT
return c1.value() == c2.value();
}
return false;
}
virtual generic_code _generic_code(const status_code<void> &code) const noexcept override // NOLINT
{
assert(code.domain() == *this); // NOLINT
return static_cast<const generic_code &>(code); // NOLINT
}
virtual _base::string_ref _do_message(const status_code<void> &code) const noexcept override // NOLINT
{
assert(code.domain() == *this); // NOLINT
const auto &c = static_cast<const generic_code &>(code); // NOLINT
static BOOST_OUTCOME_SYSTEM_ERROR2_CONSTEXPR14 detail::generic_code_messages msgs;
return string_ref(msgs[static_cast<int>(c.value())]);
}
#if defined(_CPPUNWIND) || defined(__EXCEPTIONS) || defined(BOOST_OUTCOME_STANDARDESE_IS_IN_THE_HOUSE)
BOOST_OUTCOME_SYSTEM_ERROR2_NORETURN virtual void _do_throw_exception(const status_code<void> &code) const override // NOLINT
{
assert(code.domain() == *this); // NOLINT
const auto &c = static_cast<const generic_code &>(code); // NOLINT
throw status_error<_generic_code_domain>(c);
}
#endif
};
//! A specialisation of `status_error` for the generic code domain.
using generic_error = status_error<_generic_code_domain>;
//! A constexpr source variable for the generic code domain, which is that of `errc` (POSIX). Returned by `_generic_code_domain::get()`.
constexpr _generic_code_domain generic_code_domain;
inline constexpr const _generic_code_domain &_generic_code_domain::get()
{
return generic_code_domain;
}
// Enable implicit construction of generic_code from errc
BOOST_OUTCOME_SYSTEM_ERROR2_CONSTEXPR14 inline generic_code make_status_code(errc c) noexcept
{
return generic_code(in_place, c);
}
/*************************************************************************************************************/
template <class T> inline bool status_code<void>::equivalent(const status_code<T> &o) const noexcept
{
if(_domain && o._domain)
{
if(_domain->_do_equivalent(*this, o))
{
return true;
}
if(o._domain->_do_equivalent(o, *this))
{
return true;
}
generic_code c1 = o._domain->_generic_code(o);
if(c1.value() != errc::unknown && _domain->_do_equivalent(*this, c1))
{
return true;
}
generic_code c2 = _domain->_generic_code(*this);
if(c2.value() != errc::unknown && o._domain->_do_equivalent(o, c2))
{
return true;
}
}
// If we are both empty, we are equivalent, otherwise not equivalent
return (!_domain && !o._domain);
}
//! True if the status code's are semantically equal via `equivalent()`.
template <class DomainType1, class DomainType2> inline bool operator==(const status_code<DomainType1> &a, const status_code<DomainType2> &b) noexcept
{
return a.equivalent(b);
}
//! True if the status code's are not semantically equal via `equivalent()`.
template <class DomainType1, class DomainType2> inline bool operator!=(const status_code<DomainType1> &a, const status_code<DomainType2> &b) noexcept
{
return !a.equivalent(b);
}
//! True if the status code's are semantically equal via `equivalent()` to `make_status_code(T)`.
template <class DomainType1, class T, //
class MakeStatusCodeResult = typename detail::safe_get_make_status_code_result<const T &>::type, // Safe ADL lookup of make_status_code(), returns void if not found
typename std::enable_if<is_status_code<MakeStatusCodeResult>::value, bool>::type = true> // ADL makes a status code
inline bool
operator==(const status_code<DomainType1> &a, const T &b)
{
return a.equivalent(make_status_code(b));
}
//! True if the status code's are semantically equal via `equivalent()` to `make_status_code(T)`.
template <class T, class DomainType1, //
class MakeStatusCodeResult = typename detail::safe_get_make_status_code_result<const T &>::type, // Safe ADL lookup of make_status_code(), returns void if not found
typename std::enable_if<is_status_code<MakeStatusCodeResult>::value, bool>::type = true> // ADL makes a status code
inline bool
operator==(const T &a, const status_code<DomainType1> &b)
{
return b.equivalent(make_status_code(a));
}
//! True if the status code's are not semantically equal via `equivalent()` to `make_status_code(T)`.
template <class DomainType1, class T, //
class MakeStatusCodeResult = typename detail::safe_get_make_status_code_result<const T &>::type, // Safe ADL lookup of make_status_code(), returns void if not found
typename std::enable_if<is_status_code<MakeStatusCodeResult>::value, bool>::type = true> // ADL makes a status code
inline bool
operator!=(const status_code<DomainType1> &a, const T &b)
{
return !a.equivalent(make_status_code(b));
}
//! True if the status code's are semantically equal via `equivalent()` to `make_status_code(T)`.
template <class T, class DomainType1, //
class MakeStatusCodeResult = typename detail::safe_get_make_status_code_result<const T &>::type, // Safe ADL lookup of make_status_code(), returns void if not found
typename std::enable_if<is_status_code<MakeStatusCodeResult>::value, bool>::type = true> // ADL makes a status code
inline bool
operator!=(const T &a, const status_code<DomainType1> &b)
{
return !b.equivalent(make_status_code(a));
}
BOOST_OUTCOME_SYSTEM_ERROR2_NAMESPACE_END
#endif
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