// file : libbuild2/utility.hxx -*- C++ -*- // license : MIT; see accompanying LICENSE file #ifndef LIBBUILD2_UTILITY_HXX #define LIBBUILD2_UTILITY_HXX #include // make_tuple() #include // make_shared() #include // to_string() #include // move(), forward(), declval(), make_pair(), swap() #include // assert() #include // make_move_iterator(), back_inserter() #include // * #include // ref(), cref() #include #include #include // combine_hash(), reverse_iterate(), etc #include #include #include #include // "Fake" version values used during bootstrap. // #ifdef BUILD2_BOOTSTRAP # define LIBBUILD2_VERSION 9999999999999990000ULL # define LIBBUILD2_VERSION_STR "99999.99999.99999" # define LIBBUILD2_VERSION_ID "99999.99999.99999" # define LIBBUTL_VERSION_STR "99999.99999.99999" # define LIBBUTL_VERSION_ID "99999.99999.99999" #else # include #endif #include namespace build2 { using std::move; using std::swap; using std::forward; using std::declval; using std::ref; using std::cref; using std::make_pair; using std::make_tuple; using std::make_shared; using std::make_move_iterator; using std::back_inserter; using std::stoul; using std::stoull; using std::to_string; // Currently only supports base 10 and 16. Note: adds `0x` if base 16. // LIBBUILD2_SYMEXPORT string to_string (uint64_t, int base, size_t width = 0); // // using butl::reverse_iterate; using butl::compare_c_string; using butl::compare_pointer_target; //using butl::hash_pointer_target; using butl::combine_hash; using butl::icasecmp; using butl::icase_compare_string; using butl::icase_compare_c_string; using butl::lcase; using butl::make_lcase; using butl::ucase; using butl::make_ucase; using butl::alpha; using butl::alnum; using butl::digit; using butl::wspace; using butl::trim; using butl::next_word; using butl::sanitize_identifier; using butl::make_sanitized_identifier; using butl::sanitize_strlit; using butl::make_guard; using butl::make_exception_guard; using butl::function_cast; using butl::getenv; using butl::auto_thread_env; using butl::throw_generic_error; using butl::throw_system_error; using butl::eof; // // using butl::fdopen_null; using butl::open_file_or_stdin; using butl::open_file_or_stdout; // // using butl::path_pattern; using butl::path_match; // Perform process-wide initializations/adjustments/workarounds. Should be // called once early in main(). In particular, besides other things, this // functions does the following: // // - Sets PATH to include baseutils /bin on Windows. // // - Ignores SIGPIPE. // // - Calls tzset(). // LIBBUILD2_SYMEXPORT void init_process (); // Diagnostics state (verbosity level, etc; see ). // // Note on naming of values (here and in the global state below) that come // from the command line options: if a value is not meant to be used // directly, then it has the _option suffix and a function or another // variable as its public interface. // Initialize the diagnostics state. Should be called once early in main(). // Default values are for unit tests. // // If silent is true, verbosity should be 0. // LIBBUILD2_SYMEXPORT void init_diag (uint16_t verbosity, bool silent = false, optional progress = nullopt, optional diag_color = nullopt, bool no_lines = false, bool no_columns = false, bool stderr_term = false); const uint16_t verb_never = 7; LIBBUILD2_SYMEXPORT extern uint16_t verb; LIBBUILD2_SYMEXPORT extern bool silent; // --[no-]progress // --[no-]diag-color // LIBBUILD2_SYMEXPORT extern optional diag_progress_option; LIBBUILD2_SYMEXPORT extern optional diag_color_option; LIBBUILD2_SYMEXPORT extern bool diag_no_line; // --no-line LIBBUILD2_SYMEXPORT extern bool diag_no_column; // --no-column // True if stderr is a terminal. // LIBBUILD2_SYMEXPORT extern bool stderr_term; // True if the color can be used on the stderr terminal. // LIBBUILD2_SYMEXPORT extern bool stderr_term_color; // Global state (verbosity, home/work directories, etc). // Initialize the global state. Should be called once early in main(). // Default values are for unit tests. // LIBBUILD2_SYMEXPORT void init (void (*terminate) (bool), const char* argv0, bool serial_stop, optional mtime_check = nullopt, optional config_sub = nullopt, optional config_guess = nullopt); // Terminate function. If trace is false, then printing of the stack trace, // if any, should be omitted. // LIBBUILD2_SYMEXPORT extern void (*terminate) (bool trace); // Build system driver process path (argv0.initial is argv[0]). // LIBBUILD2_SYMEXPORT extern process_path argv0; // Build system core version and interface version. // LIBBUILD2_SYMEXPORT extern const standard_version build_version; LIBBUILD2_SYMEXPORT extern const string build_version_interface; // Whether running installed build as well as the library installation // directory (only if installed, empty otherwise), the exported buildfile // installation directory (only if configured, empty otherwise), and data // installation directory (only if installed, src_root otherwise). // LIBBUILD2_SYMEXPORT extern const bool build_installed; LIBBUILD2_SYMEXPORT extern const dir_path build_install_lib; // $install.lib LIBBUILD2_SYMEXPORT extern const dir_path build_install_buildfile; // $install.buildfile LIBBUILD2_SYMEXPORT extern const dir_path build_install_data; // $install.data // --[no-]mtime-check // LIBBUILD2_SYMEXPORT extern optional mtime_check_option; LIBBUILD2_SYMEXPORT extern optional config_sub; // --config-sub LIBBUILD2_SYMEXPORT extern optional config_guess; // --config-guess LIBBUILD2_SYMEXPORT void check_build_version (const standard_version_constraint&, const location&); // Work/home directories (must be initialized in main()) and relative path // calculation. // LIBBUILD2_SYMEXPORT extern dir_path work; LIBBUILD2_SYMEXPORT extern dir_path home; // By default this points to work. Setting this to something else should // only be done in tightly controlled, non-concurrent situations (e.g., // state dump). If it is empty, then relative() below returns the original // path. // // Note: watch out for concurrent changes from multiple build contexts. // LIBBUILD2_SYMEXPORT extern const dir_path* relative_base; // If possible and beneficial, translate an absolute, normalized path into // relative to the relative_base directory, which is normally work. Note // that if the passed path is the same as relative_base, then this function // returns empty path. // template basic_path relative (const basic_path&); class path_target; LIBBUILD2_SYMEXPORT path relative (const path_target&); // In addition to calling relative(), this function also uses shorter // notations such as '~/'. For directories the result includes the trailing // slash. If the path is the same as base, returns "./" if current is true // and empty string otherwise. // LIBBUILD2_SYMEXPORT string diag_relative (const path&, bool current = true); // Basic process utilities. // // The run*() functions with process_path/_env assume that you are printing // the process command line yourself. // Search for a process executable. Issue diagnostics and throw failed in // case of an error. // LIBBUILD2_SYMEXPORT process_path run_search (const char*& args0, bool path_only, const location& = location ()); inline process_path run_search (const char*& args0, const location& l = location ()) { return run_search (args0, false, l); } LIBBUILD2_SYMEXPORT process_path run_search (const path&, bool init = false, const dir_path& fallback = dir_path (), bool path_only = false, const location& = location ()); LIBBUILD2_SYMEXPORT process_path run_try_search (const path&, bool init = false, const dir_path& fallback = dir_path (), bool path_only = false, const char* paths = nullptr); [[noreturn]] LIBBUILD2_SYMEXPORT void run_search_fail (const path&, const location& = location ()); // Start a process with the specified arguments. Issue diagnostics and throw // failed in case of an error. If in is -1, then redirect stdin to a pipe // (can also be -2 to redirect it to /dev/null or equivalent). If out is -1, // then redirect stdout to a pipe. If stderr is redirected to stdout (can // be used to analyze diagnostics from the child process), then, in case of // an error, the last line read from stdout must be passed to run_finish() // below. // LIBBUILD2_SYMEXPORT process run_start (uint16_t verbosity, const process_env&, // Implicit-constructible from process_path. const char* const* args, int in = 0, int out = 1, int err = 2, const location& = {}); inline process run_start (uint16_t verbosity, const process_env& pe, const cstrings& args, int in = 0, int out = 1, int err = 2, const location& l = {}) { return run_start (verbosity, pe, args.data (), in, out, err, l); } inline process run_start (const process_env& pe, const char* const* args, int in = 0, int out = 1, int err = 2, const location& l = {}) { return run_start (verb_never, pe, args, in, out, err, l); } inline process run_start (const process_env& pe, const cstrings& args, int in = 0, int out = 1, int err = 2, const location& l = {}) { return run_start (pe, args.data (), in, out, err, l); } // As above, but search for the process (including updating args[0]) and // print the process commands line at the specified verbosity level. // inline process run_start (uint16_t verbosity, const char* args[], int in = 0, int out = 1, int err = 2, const char* const* env = nullptr, const dir_path& cwd = {}, const location& l = {}) { process_path pp (run_search (args[0], l)); return run_start (verbosity, process_env (pp, cwd, env), args, in, out, err, l); } inline process run_start (uint16_t verbosity, cstrings& args, int in = 0, int out = 1, int err = 2, const char* const* env = nullptr, const dir_path& cwd = {}, const location& l = {}) { return run_start (verbosity, args.data (), in, out, err, env, cwd, l); } // Wait for process termination returning true if the process exited // normally with a zero code and false otherwise. The latter case is // normally followed up with a call to run_finish(). // LIBBUILD2_SYMEXPORT bool run_wait (const char* const* args, process&, const location& = location ()); bool run_wait (const cstrings& args, process&, const location& = location ()); // Wait for process termination, issues diagnostics, and throw failed. // // If the child process exited abnormally or normally with non-0 code, then // print the error diagnostics to this effect. Additionally, if the // verbosity level is between 1 and the specified value, then print the // command line as info after the error. If omit_normal is true, then don't // print either for the normal exit (usually used for custom diagnostics or // when process failure can be tolerated). // // Normally the specified verbosity will be 1 and the command line args // represent the verbosity level 2 (logical) command line. Or, to put it // another way, it should be 1 less than what gets passed to run_start(). // Note that args should only represent a single command in a pipe (see // print_process() for details). // // See also diag_buffer::close(). // // The line argument is used in cooperation with run_start() to diagnose a // failure to exec in case stderr is redirected to stdout (see the // implementation for details). // void run_finish (const char* const* args, process&, uint16_t verbosity, bool omit_normal = false, const location& = location ()); void run_finish (const cstrings& args, process&, uint16_t verbosity, bool omit_normal = false, const location& = location ()); void run_finish (const char* const* args, process&, const string& line, uint16_t verbosity, bool omit_normal = false, const location& = location ()); // As above but if the process has exited normally with a non-zero code, // then return false rather than throwing. // // Note that the normal non-0 exit diagnostics is omitted by default // assuming appropriate custom diagnostics will be issued, if required. // bool run_finish_code (const char* const* args, process&, uint16_t verbosity, bool omit_normal = true, const location& = location ()); bool run_finish_code (const cstrings& args, process&, uint16_t verbosity, bool omit_normal = true, const location& = location ()); bool run_finish_code (const char* const* args, process&, const string&, uint16_t verbosity, bool omit_normal = true, const location& = location ()); // As above but with diagnostics buffering. // // Specifically, this version first waits for the process termination, then // calls diag_buffer::close(verbosity, omit_normal), and finally throws // failed if the process didn't exit with 0 code. // class diag_buffer; void run_finish (diag_buffer&, const char* const* args, process&, uint16_t verbosity, bool omit_normal = false, const location& = location ()); void run_finish (diag_buffer&, const cstrings& args, process&, uint16_t verbosity, bool omit_normal = false, const location& = location ()); // As above but if the process has exited normally with a non-zero code, // then return false rather than throwing. // // Note that the normal non-0 exit diagnostics is omitted by default // assuming appropriate custom diagnostics will be issued, if required. // bool run_finish_code (diag_buffer&, const char* const* args, process&, uint16_t verbosity, bool omit_normal = true, const location& = location ()); bool run_finish_code (diag_buffer&, const cstrings& args, process&, uint16_t verbosity, bool omit_normal = true, const location& = location ()); // Run the process with the specified arguments by calling the above start // and finish functions. Buffer diagnostics unless in the load phase. // LIBBUILD2_SYMEXPORT void run (context&, const process_env& pe, // Implicit-constructible from process_path. const char* const* args, uint16_t finish_verbosity); inline void run (context& ctx, const process_env& pe, const cstrings& args, uint16_t finish_verbosity) { run (ctx, pe, args.data (), finish_verbosity); } // As above but pass cwd/env vars as arguments rather than as part of // process_env. // inline void run (context& ctx, const process_path& p, const char* const* args, uint16_t finish_verbosity, const char* const* env, const dir_path& cwd = {}) { run (ctx, process_env (p, cwd, env), args, finish_verbosity); } inline void run (context& ctx, const process_path& p, const cstrings& args, uint16_t finish_verbosity, const char* const* env, const dir_path& cwd = {}) { run (ctx, p, args.data (), finish_verbosity, env, cwd); } // Start the process as above and then call the specified function on each // trimmed line of the output until it returns a non-empty object T (tested // with T::empty()) which is then returned to the caller. // // If verbosity is specified, print the process commands line at that level // (with the verbosite-1 value passed run_finish()). // // If error is false, then redirecting stderr to stdout and don't fail if // the process exits normally but with non-0 code (can be used to suppress // and/or analyze diagnostics from the child process). Otherwise, buffer // diagnostics unless in the load phase. // // The predicate can move the value out of the passed string but, if error // is false, only in case of a "content match" (so that any diagnostics // lines are left intact). The function signature should be: // // T (string& line, bool last) // // If, in addition to error being false, ignore_exit is true, then the // program's normal exit status is ignored (if it is false and the program // exits with the non-zero status, then an empty T instance is returned). // // If checksum is not NULL, then feed it the content of each trimmed line // (including those that come after the callback returns non-empty object). // template T run (context&, uint16_t verbosity, const process_env&, // Implicit-constructible from process_path. const char* const* args, F&&, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr); template inline T run (context& ctx, uint16_t verbosity, const process_env& pe, const cstrings& args, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { return run (ctx, verbosity, pe, args.data (), forward (f), error, ignore_exit, checksum); } template inline T run (context&, const process_env&, const char* const* args, uint16_t finish_verbosity, F&&, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr); template inline T run (context& ctx, const process_env& pe, const cstrings& args, uint16_t finish_verbosity, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { return run (ctx, pe, args.data (), finish_verbosity, forward (f), error, ignore_exit, checksum); } template inline T run (context& ctx, uint16_t verbosity, const char* args[], F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { process_path pp (run_search (args[0])); return run (ctx, verbosity, pp, args, forward (f), error, ignore_exit, checksum); } template inline T run (context& ctx, uint16_t verbosity, cstrings& args, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { return run (ctx, verbosity, args.data (), forward (f), error, ignore_exit, checksum); } // As above but run a program without any arguments or with one argument. // // run // template inline T run (context& ctx, uint16_t verbosity, const path& prog, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { const char* args[] = {prog.string ().c_str (), nullptr}; return run (ctx, verbosity, args, forward (f), error, ignore_exit, checksum); } template inline typename std::enable_if< (!std::is_same::type, const char**>::value && !std::is_same::type, cstrings>::value), T>::type run (context& ctx, uint16_t verbosity, const process_env& pe, // Implicit-constructible from process_path. F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { const char* args[] = {pe.path->recall_string (), nullptr}; return run (ctx, verbosity, pe, args, forward (f), error, ignore_exit, checksum); } // run // template inline T run (context& ctx, uint16_t verbosity, const path& prog, const char* arg, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { const char* args[] = {prog.string ().c_str (), arg, nullptr}; return run (ctx, verbosity, args, forward (f), error, ignore_exit, checksum); } template inline T run (context& ctx, uint16_t verbosity, const process_env& pe, // Implicit-constructible from process_path. const char* arg, F&& f, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr) { const char* args[] = {pe.path->recall_string (), arg, nullptr}; return run (ctx, verbosity, pe, args, forward (f), error, ignore_exit, checksum); } // As above but a lower-level interface that erases T and F and can also be // used to suppress trimming. // // The passed function should return true if it should be called again // (i.e., the object is still empty in the T & F interface) and false // otherwise. // // The first version ruturn true if the result is usable and false // otherwise, depending on the process exit code and error/ignore_exit // values. (In the latter case, the T & F interface makes the resulting // object empty). // LIBBUILD2_SYMEXPORT bool run (context&, uint16_t verbosity, const process_env&, const char* const* args, uint16_t finish_verbosity, const function&, bool trim = true, bool error = true, bool ignore_exit = false, sha256* checksum = nullptr); // Concatenate the program path and arguments into a shallow NULL-terminated // vector of C-strings. // LIBBUILD2_SYMEXPORT cstrings process_args (const char* program, const strings& args); inline cstrings process_args (const string& program, const strings& args) { return process_args (program.c_str (), args); } // File descriptor streams. // fdpipe open_pipe (); auto_fd open_null (); // Empty/nullopt string, path, and project name. // LIBBUILD2_SYMEXPORT extern const string empty_string; LIBBUILD2_SYMEXPORT extern const path empty_path; LIBBUILD2_SYMEXPORT extern const dir_path empty_dir_path; LIBBUILD2_SYMEXPORT extern const project_name empty_project_name; LIBBUILD2_SYMEXPORT extern const optional nullopt_string; LIBBUILD2_SYMEXPORT extern const optional nullopt_path; LIBBUILD2_SYMEXPORT extern const optional nullopt_dir_path; LIBBUILD2_SYMEXPORT extern const optional nullopt_project_name; // Hash a path potentially without the specific directory prefix. // // If prefix is not empty and is a super-path of the path to hash, then only // hash the suffix. Note that both paths are assumed to be normalized. // // This functionality is normally used to strip out_root from target paths // being hashed in order to avoid updates in case out_root was moved. Note // that this should only be done if the result of the update does not // include the out_root path in any form (as could be the case, for example, // for debug information, __FILE__ macro expansion, rpath, etc). // void hash_path (sha256&, const path&, const dir_path& prefix = dir_path ()); // Append all the values from a variable to the C-string list. T is either // target or scope. The variable is expected to be of type strings. // // If excl is not NULL, then filter this option out (note: case sensitive). // template void append_options (cstrings&, T&, const variable&, const char* excl = nullptr); template void append_options (cstrings&, T&, const char*, const char* excl = nullptr); template void append_options (strings&, T&, const variable&, const char* excl = nullptr); template void append_options (strings&, T&, const char*, const char* excl = nullptr); template void append_options (sha256&, T&, const variable&); template void append_options (sha256&, T&, const char*); // As above but from the lookup directly. // LIBBUILD2_SYMEXPORT void append_options (cstrings&, const lookup&, const char* excl = nullptr); LIBBUILD2_SYMEXPORT void append_options (strings&, const lookup&, const char* excl = nullptr); LIBBUILD2_SYMEXPORT void append_options (sha256&, const lookup&); // As above but from the strings value directly. // void append_options (cstrings&, const strings&, const char* excl = nullptr); void append_options (strings&, const strings&, const char* excl = nullptr); void append_options (sha256&, const strings&); LIBBUILD2_SYMEXPORT void append_options (cstrings&, const strings&, size_t, const char* excl = nullptr); LIBBUILD2_SYMEXPORT void append_options (strings&, const strings&, size_t, const char* excl = nullptr); LIBBUILD2_SYMEXPORT void append_options (sha256&, const strings&, size_t); // As above but append/hash option values for the specified option (e.g., // -I, -L). // template void append_option_values ( cstrings&, const char* opt, I begin, I end, F&& get = [] (const string& s) {return s.c_str ();}); template void append_option_values ( sha256&, const char* opt, I begin, I end, F&& get = [] (const string& s) -> const string& {return s;}); // As above but in a combined form (e.g., -L/usr/local/lib). // template void append_combined_option_values ( strings&, const char* opt, I begin, I end, F&& get = [] (const string& s) -> const string& {return s;}); // As above but append a single option (used for append/hash uniformity). // inline void append_option (cstrings& args, const char* o) { args.push_back (o); } inline void append_option (strings& args, const char* o) { args.push_back (o); } inline void append_option (sha256& csum, const char* o) { csum.append (o); } // Check if a specified option is present in the variable or value. T is // either target or scope. For the interator version use rbegin()/rend() to // search backwards. // template bool find_option (const char* option, T&, const variable&, bool ignore_case = false); template bool find_option (const char* option, T&, const char* variable, bool ignore_case = false); template I find_option (const char* option, I begin, I end, bool ignore_case = false); LIBBUILD2_SYMEXPORT bool find_option (const char* option, const lookup&, bool ignore_case = false); LIBBUILD2_SYMEXPORT bool find_option (const char* option, const strings&, bool ignore_case = false); LIBBUILD2_SYMEXPORT bool find_option (const char* option, const cstrings&, bool ignore_case = false); // As above but look for several options returning true if any is present. // template bool find_options (const initializer_list&, T&, const variable&, bool = false); template bool find_options (const initializer_list&, T&, const char*, bool = false); LIBBUILD2_SYMEXPORT bool find_options (const initializer_list&, const lookup&, bool = false); LIBBUILD2_SYMEXPORT bool find_options (const initializer_list&, const strings&, bool = false); LIBBUILD2_SYMEXPORT bool find_options (const initializer_list&, const cstrings&, bool = false); // As above but look for an option that has the specified prefix. Return the // pointer to option or NULL if not found (thus can be used as bool). // Search backward (which is normally consistent with how options override // each other). For the interator version use rbegin()/rend() to do the // same. // template const string* find_option_prefix (const char* prefix, T&, const variable&, bool = false); template const string* find_option_prefix (const char* prefix, T&, const char*, bool = false); template I find_option_prefix (const char* prefix, I begin, I end, bool = false); LIBBUILD2_SYMEXPORT const string* find_option_prefix (const char* prefix, const lookup&, bool = false); LIBBUILD2_SYMEXPORT const string* find_option_prefix (const char* prefix, const strings&, bool = false); LIBBUILD2_SYMEXPORT const char* find_option_prefix (const char* prefix, const cstrings&, bool = false); // As above but look for several option prefixes. // template const string* find_option_prefixes (const initializer_list&, T&, const variable&, bool = false); template const string* find_option_prefixes (const initializer_list&, T&, const char*, bool = false); LIBBUILD2_SYMEXPORT const string* find_option_prefixes (const initializer_list&, const lookup&, bool = false); LIBBUILD2_SYMEXPORT const string* find_option_prefixes (const initializer_list&, const strings&, bool = false); LIBBUILD2_SYMEXPORT const char* find_option_prefixes (const initializer_list&, const cstrings&, bool = false); // Hash environment variable (its name and value) normally to be used as a // checksum. See also config::save_environment(). // void hash_environment (sha256&, const char* name); void hash_environment (sha256&, const string& name); void hash_environment (sha256&, initializer_list names); string hash_environment (initializer_list names); void hash_environment (sha256&, const cstrings& names); string hash_environment (const cstrings& names); void hash_environment (sha256&, const strings& names); string hash_environment (const strings& names); // A NULL-terminated list of variables (may itself be NULL). // void hash_environment (sha256&, const char* const* names); string hash_environment (const char* const* names); // Find in the string the stem separated from other characters with the // specified separators or begin/end of the string. Return the stem's // position or npos if not found. // size_t find_stem (const string&, size_t pos, size_t n, const char* stem, const char* seps = "-_."); inline size_t find_stem (const string& s, const char* stem, const char* seps = "-_.") { return find_stem (s, 0, s.size (), stem, seps); } // Apply the specified substitution (stem) to a '*'-pattern. If pattern is // NULL or empty, then return the stem itself. Assume the pattern is valid, // i.e., contains a single '*' character. // LIBBUILD2_SYMEXPORT string apply_pattern (const char* stem, const char* pattern); inline string apply_pattern (const char* s, const string* p) { return apply_pattern (s, p != nullptr ? p->c_str () : nullptr); } inline string apply_pattern (const char* s, const string& p) { return apply_pattern (s, p.c_str ()); } // Try to parse a string as a non-negative number returning nullopt if the // argument is not a valid number or the number is greater than the // specified maximum. // optional parse_number (const string&, uint64_t max = UINT64_MAX); // Write a string to a stream, single or double-quoting it unconditionally. // // If no quote characters are present in the string, then it is single- // quoted. Otherwise, it is double quoted and the `\"` characters (backslach // and double quote) inside the string are escaped. // LIBBUILD2_SYMEXPORT void to_stream_quoted (ostream&, const char*); inline void to_stream_quoted (ostream& o, const string& s) { to_stream_quoted (o, s.c_str ()); } // As above but only quote the string if it contains any of the specified // special characters (which should include backslash as well as single and // double quotes) or is empty (unless empty is false). // LIBBUILD2_SYMEXPORT void to_stream_quoted (ostream&, const string&, const char* special, bool empty = true); // Write a vector of strings to a stream separating elements with a space // and quoting each element if it is empty or contains any of the specified // special characters (which should include space and backslash as well as // single and double quotes; this is also the default which is suitable for // displaying command line options, etc). // LIBBUILD2_SYMEXPORT void to_stream_quoted (ostream&, const strings&, const char* special = " \\\"'"); } #include #include #endif // LIBBUILD2_UTILITY_HXX