//===---------------------------- system_error ------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This was lifted from libc++ and modified for C++03. This is called // system_error even though it does not define that class because that's what // it's called in C++0x. We don't define system_error because it is only used // for exception handling, which we don't use in LLVM. // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_SYSTEM_ERROR_H #define LLVM_SUPPORT_SYSTEM_ERROR_H #include "llvm/Support/Compiler.h" /* system_error synopsis namespace std { class error_category { public: virtual ~error_category(); error_category(const error_category&) = delete; error_category& operator=(const error_category&) = delete; virtual const char* name() const = 0; virtual error_condition default_error_condition(int ev) const; virtual bool equivalent(int code, const error_condition& condition) const; virtual bool equivalent(const error_code& code, int condition) const; virtual std::string message(int ev) const = 0; bool operator==(const error_category& rhs) const; bool operator!=(const error_category& rhs) const; bool operator<(const error_category& rhs) const; }; const error_category& generic_category(); const error_category& system_category(); template struct is_error_code_enum : public false_type {}; template struct is_error_condition_enum : public false_type {}; class error_code { public: // constructors: error_code(); error_code(int val, const error_category& cat); template error_code(ErrorCodeEnum e); // modifiers: void assign(int val, const error_category& cat); template error_code& operator=(ErrorCodeEnum e); void clear(); // observers: int value() const; const error_category& category() const; error_condition default_error_condition() const; std::string message() const; explicit operator bool() const; }; // non-member functions: bool operator<(const error_code& lhs, const error_code& rhs); template basic_ostream& operator<<(basic_ostream& os, const error_code& ec); class error_condition { public: // constructors: error_condition(); error_condition(int val, const error_category& cat); template error_condition(ErrorConditionEnum e); // modifiers: void assign(int val, const error_category& cat); template error_condition& operator=(ErrorConditionEnum e); void clear(); // observers: int value() const; const error_category& category() const; std::string message() const; explicit operator bool() const; }; bool operator<(const error_condition& lhs, const error_condition& rhs); class system_error : public runtime_error { public: system_error(error_code ec, const std::string& what_arg); system_error(error_code ec, const char* what_arg); system_error(error_code ec); system_error(int ev, const error_category& ecat, const std::string& what_arg); system_error(int ev, const error_category& ecat, const char* what_arg); system_error(int ev, const error_category& ecat); const error_code& code() const throw(); const char* what() const throw(); }; enum class errc { 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_available, // ENODATA 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 protocol_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 }; template <> struct is_error_condition_enum : true_type { } error_code make_error_code(errc e); error_condition make_error_condition(errc e); // Comparison operators: bool operator==(const error_code& lhs, const error_code& rhs); bool operator==(const error_code& lhs, const error_condition& rhs); bool operator==(const error_condition& lhs, const error_code& rhs); bool operator==(const error_condition& lhs, const error_condition& rhs); bool operator!=(const error_code& lhs, const error_code& rhs); bool operator!=(const error_code& lhs, const error_condition& rhs); bool operator!=(const error_condition& lhs, const error_code& rhs); bool operator!=(const error_condition& lhs, const error_condition& rhs); template <> struct hash; } // std */ #include "llvm/Config/llvm-config.h" #include "llvm/Support/type_traits.h" #include #include // This must be here instead of a .inc file because it is used in the definition // of the enum values below. #ifdef LLVM_ON_WIN32 // The following numbers were taken from VS2010. # ifndef EAFNOSUPPORT # define EAFNOSUPPORT 102 # endif # ifndef EADDRINUSE # define EADDRINUSE 100 # endif # ifndef EADDRNOTAVAIL # define EADDRNOTAVAIL 101 # endif # ifndef EISCONN # define EISCONN 113 # endif # ifndef E2BIG # define E2BIG 7 # endif # ifndef EDOM # define EDOM 33 # endif # ifndef EFAULT # define EFAULT 14 # endif # ifndef EBADF # define EBADF 9 # endif # ifndef EBADMSG # define EBADMSG 104 # endif # ifndef EPIPE # define EPIPE 32 # endif # ifndef ECONNABORTED # define ECONNABORTED 106 # endif # ifndef EALREADY # define EALREADY 103 # endif # ifndef ECONNREFUSED # define ECONNREFUSED 107 # endif # ifndef ECONNRESET # define ECONNRESET 108 # endif # ifndef EXDEV # define EXDEV 18 # endif # ifndef EDESTADDRREQ # define EDESTADDRREQ 109 # endif # ifndef EBUSY # define EBUSY 16 # endif # ifndef ENOTEMPTY # define ENOTEMPTY 41 # endif # ifndef ENOEXEC # define ENOEXEC 8 # endif # ifndef EEXIST # define EEXIST 17 # endif # ifndef EFBIG # define EFBIG 27 # endif # ifndef ENAMETOOLONG # define ENAMETOOLONG 38 # endif # ifndef ENOSYS # define ENOSYS 40 # endif # ifndef EHOSTUNREACH # define EHOSTUNREACH 110 # endif # ifndef EIDRM # define EIDRM 111 # endif # ifndef EILSEQ # define EILSEQ 42 # endif # ifndef ENOTTY # define ENOTTY 25 # endif # ifndef EINTR # define EINTR 4 # endif # ifndef EINVAL # define EINVAL 22 # endif # ifndef ESPIPE # define ESPIPE 29 # endif # ifndef EIO # define EIO 5 # endif # ifndef EISDIR # define EISDIR 21 # endif # ifndef EMSGSIZE # define EMSGSIZE 115 # endif # ifndef ENETDOWN # define ENETDOWN 116 # endif # ifndef ENETRESET # define ENETRESET 117 # endif # ifndef ENETUNREACH # define ENETUNREACH 118 # endif # ifndef ENOBUFS # define ENOBUFS 119 # endif # ifndef ECHILD # define ECHILD 10 # endif # ifndef ENOLINK # define ENOLINK 121 # endif # ifndef ENOLCK # define ENOLCK 39 # endif # ifndef ENODATA # define ENODATA 120 # endif # ifndef ENOMSG # define ENOMSG 122 # endif # ifndef ENOPROTOOPT # define ENOPROTOOPT 123 # endif # ifndef ENOSPC # define ENOSPC 28 # endif # ifndef ENOSR # define ENOSR 124 # endif # ifndef ENXIO # define ENXIO 6 # endif # ifndef ENODEV # define ENODEV 19 # endif # ifndef ENOENT # define ENOENT 2 # endif # ifndef ESRCH # define ESRCH 3 # endif # ifndef ENOTDIR # define ENOTDIR 20 # endif # ifndef ENOTSOCK # define ENOTSOCK 128 # endif # ifndef ENOSTR # define ENOSTR 125 # endif # ifndef ENOTCONN # define ENOTCONN 126 # endif # ifndef ENOMEM # define ENOMEM 12 # endif # ifndef ENOTSUP # define ENOTSUP 129 # endif # ifndef ECANCELED # define ECANCELED 105 # endif # ifndef EINPROGRESS # define EINPROGRESS 112 # endif # ifndef EPERM # define EPERM 1 # endif # ifndef EOPNOTSUPP # define EOPNOTSUPP 130 # endif # ifndef EWOULDBLOCK # define EWOULDBLOCK 140 # endif # ifndef EOWNERDEAD # define EOWNERDEAD 133 # endif # ifndef EACCES # define EACCES 13 # endif # ifndef EPROTO # define EPROTO 134 # endif # ifndef EPROTONOSUPPORT # define EPROTONOSUPPORT 135 # endif # ifndef EROFS # define EROFS 30 # endif # ifndef EDEADLK # define EDEADLK 36 # endif # ifndef EAGAIN # define EAGAIN 11 # endif # ifndef ERANGE # define ERANGE 34 # endif # ifndef ENOTRECOVERABLE # define ENOTRECOVERABLE 127 # endif # ifndef ETIME # define ETIME 137 # endif # ifndef ETXTBSY # define ETXTBSY 139 # endif # ifndef ETIMEDOUT # define ETIMEDOUT 138 # endif # ifndef ENFILE # define ENFILE 23 # endif # ifndef EMFILE # define EMFILE 24 # endif # ifndef EMLINK # define EMLINK 31 # endif # ifndef ELOOP # define ELOOP 114 # endif # ifndef EOVERFLOW # define EOVERFLOW 132 # endif # ifndef EPROTOTYPE # define EPROTOTYPE 136 # endif #endif namespace llvm { // is_error_code_enum template struct is_error_code_enum : public false_type {}; // is_error_condition_enum template struct is_error_condition_enum : public false_type {}; // Some error codes are not present on all platforms, so we provide equivalents // for them: //enum class errc struct errc { enum _ { success = 0, 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, #ifdef EBADMSG bad_message = EBADMSG, #else bad_message = EINVAL, #endif 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, #ifdef ENOLINK no_link = ENOLINK, #else no_link = EINVAL, #endif no_lock_available = ENOLCK, #ifdef ENODATA no_message_available = ENODATA, #else no_message_available = ENOMSG, #endif no_message = ENOMSG, no_protocol_option = ENOPROTOOPT, no_space_on_device = ENOSPC, #ifdef ENOSR no_stream_resources = ENOSR, #else no_stream_resources = ENOMEM, #endif 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, #ifdef ENOSTR not_a_stream = ENOSTR, #else not_a_stream = EINVAL, #endif not_connected = ENOTCONN, not_enough_memory = ENOMEM, not_supported = ENOTSUP, #ifdef ECANCELED operation_canceled = ECANCELED, #else operation_canceled = EINVAL, #endif operation_in_progress = EINPROGRESS, operation_not_permitted = EPERM, operation_not_supported = EOPNOTSUPP, operation_would_block = EWOULDBLOCK, #ifdef EOWNERDEAD owner_dead = EOWNERDEAD, #else owner_dead = EINVAL, #endif permission_denied = EACCES, #ifdef EPROTO protocol_error = EPROTO, #else protocol_error = EINVAL, #endif protocol_not_supported = EPROTONOSUPPORT, read_only_file_system = EROFS, resource_deadlock_would_occur = EDEADLK, resource_unavailable_try_again = EAGAIN, result_out_of_range = ERANGE, #ifdef ENOTRECOVERABLE state_not_recoverable = ENOTRECOVERABLE, #else state_not_recoverable = EINVAL, #endif #ifdef ETIME stream_timeout = ETIME, #else stream_timeout = ETIMEDOUT, #endif 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 }; _ v_; errc(_ v) : v_(v) {} operator int() const {return v_;} }; template <> struct is_error_condition_enum : true_type { }; template <> struct is_error_condition_enum : true_type { }; class error_condition; class error_code; // class error_category class _do_message; class error_category { public: virtual ~error_category(); private: error_category(); error_category(const error_category&) LLVM_DELETED_FUNCTION; error_category& operator=(const error_category&) LLVM_DELETED_FUNCTION; public: virtual const char* name() const = 0; virtual error_condition default_error_condition(int _ev) const; virtual bool equivalent(int _code, const error_condition& _condition) const; virtual bool equivalent(const error_code& _code, int _condition) const; virtual std::string message(int _ev) const = 0; bool operator==(const error_category& _rhs) const {return this == &_rhs;} bool operator!=(const error_category& _rhs) const {return !(*this == _rhs);} bool operator< (const error_category& _rhs) const {return this < &_rhs;} friend class _do_message; }; class _do_message : public error_category { public: virtual std::string message(int ev) const LLVM_OVERRIDE; }; const error_category& generic_category(); const error_category& system_category(); /// Get the error_category used for errno values from POSIX functions. This is /// the same as the system_category on POSIX systems, but is the same as the /// generic_category on Windows. const error_category& posix_category(); class error_condition { int _val_; const error_category* _cat_; public: error_condition() : _val_(0), _cat_(&generic_category()) {} error_condition(int _val, const error_category& _cat) : _val_(_val), _cat_(&_cat) {} template error_condition(E _e, typename enable_if_c< is_error_condition_enum::value >::type* = 0) {*this = make_error_condition(_e);} void assign(int _val, const error_category& _cat) { _val_ = _val; _cat_ = &_cat; } template typename enable_if_c < is_error_condition_enum::value, error_condition& >::type operator=(E _e) {*this = make_error_condition(_e); return *this;} void clear() { _val_ = 0; _cat_ = &generic_category(); } int value() const {return _val_;} const error_category& category() const {return *_cat_;} std::string message() const; typedef void (*unspecified_bool_type)(); static void unspecified_bool_true() {} operator unspecified_bool_type() const { // true if error return _val_ == 0 ? 0 : unspecified_bool_true; } }; inline error_condition make_error_condition(errc _e) { return error_condition(static_cast(_e), generic_category()); } inline bool operator<(const error_condition& _x, const error_condition& _y) { return _x.category() < _y.category() || (_x.category() == _y.category() && _x.value() < _y.value()); } // error_code class error_code { int _val_; const error_category* _cat_; public: error_code() : _val_(0), _cat_(&system_category()) {} static error_code success() { return error_code(); } error_code(int _val, const error_category& _cat) : _val_(_val), _cat_(&_cat) {} template error_code(E _e, typename enable_if_c< is_error_code_enum::value >::type* = 0) { *this = make_error_code(_e); } void assign(int _val, const error_category& _cat) { _val_ = _val; _cat_ = &_cat; } template typename enable_if_c < is_error_code_enum::value, error_code& >::type operator=(E _e) {*this = make_error_code(_e); return *this;} void clear() { _val_ = 0; _cat_ = &system_category(); } int value() const {return _val_;} const error_category& category() const {return *_cat_;} error_condition default_error_condition() const {return _cat_->default_error_condition(_val_);} std::string message() const; typedef void (*unspecified_bool_type)(); static void unspecified_bool_true() {} operator unspecified_bool_type() const { // true if error return _val_ == 0 ? 0 : unspecified_bool_true; } }; inline error_code make_error_code(errc _e) { return error_code(static_cast(_e), generic_category()); } inline bool operator<(const error_code& _x, const error_code& _y) { return _x.category() < _y.category() || (_x.category() == _y.category() && _x.value() < _y.value()); } inline bool operator==(const error_code& _x, const error_code& _y) { return _x.category() == _y.category() && _x.value() == _y.value(); } inline bool operator==(const error_code& _x, const error_condition& _y) { return _x.category().equivalent(_x.value(), _y) || _y.category().equivalent(_x, _y.value()); } inline bool operator==(const error_condition& _x, const error_code& _y) { return _y == _x; } inline bool operator==(const error_condition& _x, const error_condition& _y) { return _x.category() == _y.category() && _x.value() == _y.value(); } inline bool operator!=(const error_code& _x, const error_code& _y) { return !(_x == _y); } inline bool operator!=(const error_code& _x, const error_condition& _y) { return !(_x == _y); } inline bool operator!=(const error_condition& _x, const error_code& _y) { return !(_x == _y); } inline bool operator!=(const error_condition& _x, const error_condition& _y) { return !(_x == _y); } // Windows errors. // To construct an error_code after an API error: // // error_code( ::GetLastError(), system_category() ) struct windows_error { enum _ { success = 0, // These names and values are based on Windows WinError.h // This is not a complete list. Add to this list if you need to explicitly // check for it. invalid_function = 1, // ERROR_INVALID_FUNCTION, file_not_found = 2, // ERROR_FILE_NOT_FOUND, path_not_found = 3, // ERROR_PATH_NOT_FOUND, too_many_open_files = 4, // ERROR_TOO_MANY_OPEN_FILES, access_denied = 5, // ERROR_ACCESS_DENIED, invalid_handle = 6, // ERROR_INVALID_HANDLE, arena_trashed = 7, // ERROR_ARENA_TRASHED, not_enough_memory = 8, // ERROR_NOT_ENOUGH_MEMORY, invalid_block = 9, // ERROR_INVALID_BLOCK, bad_environment = 10, // ERROR_BAD_ENVIRONMENT, bad_format = 11, // ERROR_BAD_FORMAT, invalid_access = 12, // ERROR_INVALID_ACCESS, outofmemory = 14, // ERROR_OUTOFMEMORY, invalid_drive = 15, // ERROR_INVALID_DRIVE, current_directory = 16, // ERROR_CURRENT_DIRECTORY, not_same_device = 17, // ERROR_NOT_SAME_DEVICE, no_more_files = 18, // ERROR_NO_MORE_FILES, write_protect = 19, // ERROR_WRITE_PROTECT, bad_unit = 20, // ERROR_BAD_UNIT, not_ready = 21, // ERROR_NOT_READY, bad_command = 22, // ERROR_BAD_COMMAND, crc = 23, // ERROR_CRC, bad_length = 24, // ERROR_BAD_LENGTH, seek = 25, // ERROR_SEEK, not_dos_disk = 26, // ERROR_NOT_DOS_DISK, sector_not_found = 27, // ERROR_SECTOR_NOT_FOUND, out_of_paper = 28, // ERROR_OUT_OF_PAPER, write_fault = 29, // ERROR_WRITE_FAULT, read_fault = 30, // ERROR_READ_FAULT, gen_failure = 31, // ERROR_GEN_FAILURE, sharing_violation = 32, // ERROR_SHARING_VIOLATION, lock_violation = 33, // ERROR_LOCK_VIOLATION, wrong_disk = 34, // ERROR_WRONG_DISK, sharing_buffer_exceeded = 36, // ERROR_SHARING_BUFFER_EXCEEDED, handle_eof = 38, // ERROR_HANDLE_EOF, handle_disk_full = 39, // ERROR_HANDLE_DISK_FULL, rem_not_list = 51, // ERROR_REM_NOT_LIST, dup_name = 52, // ERROR_DUP_NAME, bad_net_path = 53, // ERROR_BAD_NETPATH, network_busy = 54, // ERROR_NETWORK_BUSY, file_exists = 80, // ERROR_FILE_EXISTS, cannot_make = 82, // ERROR_CANNOT_MAKE, broken_pipe = 109, // ERROR_BROKEN_PIPE, open_failed = 110, // ERROR_OPEN_FAILED, buffer_overflow = 111, // ERROR_BUFFER_OVERFLOW, disk_full = 112, // ERROR_DISK_FULL, insufficient_buffer = 122, // ERROR_INSUFFICIENT_BUFFER, lock_failed = 167, // ERROR_LOCK_FAILED, busy = 170, // ERROR_BUSY, cancel_violation = 173, // ERROR_CANCEL_VIOLATION, already_exists = 183 // ERROR_ALREADY_EXISTS }; _ v_; windows_error(_ v) : v_(v) {} explicit windows_error(int v) : v_(_(v)) {} operator int() const {return v_;} }; template <> struct is_error_code_enum : true_type { }; template <> struct is_error_code_enum : true_type { }; inline error_code make_error_code(windows_error e) { return error_code(static_cast(e), system_category()); } } // end namespace llvm #endif