/// Prototypes for functions related to tab-completion. /// /// These functions are used for storing and retrieving tab-completion data, as well as for /// performing tab-completion. #ifndef FISH_COMPLETE_H #define FISH_COMPLETE_H #include #include #include "common.h" /// Use all completions. #define SHARED 0 /// Do not use file completion. #define NO_FILES 1 /// Require a parameter after completion. #define NO_COMMON 2 /// Only use the argument list specifies with completion after option. This is the same as (NO_FILES /// | NO_COMMON). #define EXCLUSIVE 3 /// Command is a path. #define PATH 1 /// Command is not a path. #define COMMAND 0 /// Separator between completion and description. #define COMPLETE_SEP L'\004' /// Character that separates the completion and description on programmable completions. #define PROG_COMPLETE_SEP L'\t' enum { /// Do not insert space afterwards if this is the only completion. (The default is to try insert /// a space). COMPLETE_NO_SPACE = 1 << 0, /// This is not the suffix of a token, but replaces it entirely. COMPLETE_REPLACES_TOKEN = 1 << 2, /// This completion may or may not want a space at the end - guess by checking the last /// character of the completion. COMPLETE_AUTO_SPACE = 1 << 3, /// This completion should be inserted as-is, without escaping. COMPLETE_DONT_ESCAPE = 1 << 4, /// If you do escape, don't escape tildes. COMPLETE_DONT_ESCAPE_TILDES = 1 << 5, /// Do not sort supplied completions COMPLETE_DONT_SORT = 1 << 6 }; typedef int complete_flags_t; class completion_t { private: // No public default constructor. completion_t(); public: // Destructor. Not inlining it saves code size. ~completion_t(); /// The completion string. wcstring completion; /// The description for this completion. wcstring description; /// The type of fuzzy match. string_fuzzy_match_t match; /// Flags determining the completion behaviour. /// /// Determines whether a space should be inserted after this completion if it is the only /// possible completion using the COMPLETE_NO_SPACE flag. The COMPLETE_NO_CASE can be used to /// signal that this completion is case insensitive. complete_flags_t flags; // Construction. explicit completion_t(wcstring comp, wcstring desc = wcstring(), string_fuzzy_match_t match = string_fuzzy_match_t(fuzzy_match_exact), complete_flags_t flags_val = 0); completion_t(const completion_t &); completion_t &operator=(const completion_t &); completion_t(completion_t &&); completion_t &operator=(completion_t &&); // Compare two completions. No operating overlaoding to make this always explicit (there's // potentially multiple ways to compare completions). // // "Naturally less than" means in a natural ordering, where digits are treated as numbers. For // example, foo10 is naturally greater than foo2 (but alphabetically less than it). static bool is_naturally_less_than(const completion_t &a, const completion_t &b); // Deduplicate a potentially-unsorted vector, preserving the order template static Iterator unique_unsorted(Iterator begin, Iterator end, HashFunction hash); // If this completion replaces the entire token, prepend a prefix. Otherwise do nothing. void prepend_token_prefix(const wcstring &prefix); }; /// Sorts and remove any duplicate completions in the completion list, then puts them in priority /// order. void completions_sort_and_prioritize(std::vector *comps); enum { COMPLETION_REQUEST_DEFAULT = 0, COMPLETION_REQUEST_AUTOSUGGESTION = 1 << 0, // indicates the completion is for an autosuggestion COMPLETION_REQUEST_DESCRIPTIONS = 1 << 1, // indicates that we want descriptions COMPLETION_REQUEST_FUZZY_MATCH = 1 << 2 // indicates that we don't require a prefix match }; typedef uint32_t completion_request_flags_t; enum complete_option_type_t { option_type_args_only, // no option option_type_short, // -x option_type_single_long, // -foo option_type_double_long // --foo }; /// Add a completion. /// /// All supplied values are copied, they should be freed by or otherwise disposed by the caller. /// /// Examples: /// /// The command 'gcc -o' requires that a file follows it, so the NO_COMMON option is suitable. This /// can be done using the following line: /// /// complete -c gcc -s o -r /// /// The command 'grep -d' required that one of the strings 'read', 'skip' or 'recurse' is used. As /// such, it is suitable to specify that a completion requires one of them. This can be done using /// the following line: /// /// complete -c grep -s d -x -a "read skip recurse" /// /// \param cmd Command to complete. /// \param cmd_is_path If cmd_is_path is true, cmd will be interpreted as the absolute /// path of the program (optionally containing wildcards), otherwise it /// will be interpreted as the command name. /// \param option The name of an option. /// \param option_type The type of option: can be option_type_short (-x), /// option_type_single_long (-foo), option_type_double_long (--bar). /// \param result_mode Whether to search further completions when this completion has been /// succesfully matched. If result_mode is SHARED, any other completions may also be used. If /// result_mode is NO_FILES, file completion should not be used, but other completions may be used. /// If result_mode is NO_COMMON, on option may follow it - only a parameter. If result_mode is /// EXCLUSIVE, no option may follow it, and file completion is not performed. /// \param comp A space separated list of completions which may contain subshells. /// \param desc A description of the completion. /// \param condition a command to be run to check it this completion should be used. If \c condition /// is empty, the completion is always used. /// \param flags A set of completion flags void complete_add(const wchar_t *cmd, bool cmd_is_path, const wcstring &option, complete_option_type_t option_type, int result_mode, const wchar_t *condition, const wchar_t *comp, const wchar_t *desc, int flags); /// Remove a previously defined completion. void complete_remove(const wcstring &cmd, bool cmd_is_path, const wcstring &option, complete_option_type_t type); /// Removes all completions for a given command. void complete_remove_all(const wcstring &cmd, bool cmd_is_path); /// Find all completions of the command cmd, insert them into out. void complete(const wcstring &cmd, std::vector *out_comps, completion_request_flags_t flags); /// Return a list of all current completions. wcstring complete_print(); /// Tests if the specified option is defined for the specified command. int complete_is_valid_option(const wcstring &str, const wcstring &opt, wcstring_list_t *inErrorsOrNull, bool allow_autoload); /// Tests if the specified argument is valid for the specified option and command. bool complete_is_valid_argument(const wcstring &str, const wcstring &opt, const wcstring &arg); /// Create a new completion entry. /// /// \param completions The array of completions to append to /// \param comp The completion string /// \param desc The description of the completion /// \param flags completion flags void append_completion(std::vector *completions, wcstring comp, wcstring desc = wcstring(), int flags = 0, string_fuzzy_match_t match = string_fuzzy_match_t(fuzzy_match_exact)); /// Function used for testing. void complete_set_variable_names(const wcstring_list_t *names); /// Support for "wrap targets." A wrap target is a command that completes like another command. bool complete_add_wrapper(const wcstring &command, const wcstring &wrap_target); bool complete_remove_wrapper(const wcstring &command, const wcstring &wrap_target); /// Returns a list of wrap targets for a given command. wcstring_list_t complete_get_wrap_targets(const wcstring &command); // Wonky interface: returns all wraps. Even-values are the commands, odd values are the targets. wcstring_list_t complete_get_wrap_pairs(); // Observes that fish_complete_path has changed. void complete_invalidate_path(); #endif