fish-shell/src/complete.cpp

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/// Functions related to tab-completion.
///
/// These functions are used for storing and retrieving tab-completion data, as well as for
/// performing tab-completion.
///
#include "config.h" // IWYU pragma: keep
#include "complete.h"
#include <pthread.h>
#include <pwd.h>
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#include <stddef.h>
#include <wctype.h>
#include <algorithm>
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#include <atomic>
#include <cstddef>
#include <cwchar>
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#include <functional>
#include <iterator>
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#include <list>
#include <memory>
#include <numeric>
#include <set>
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#include <string>
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#include <type_traits>
#include <unordered_map>
#include <unordered_set>
#include <utility>
#include "autoload.h"
#include "builtin.h"
#include "common.h"
#include "env.h"
#include "exec.h"
#include "expand.h"
#include "fallback.h" // IWYU pragma: keep
#include "function.h"
#include "history.h"
#include "iothread.h"
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#include "parse_constants.h"
#include "parse_util.h"
#include "parser.h"
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#include "parser_keywords.h"
#include "path.h"
#include "proc.h"
#include "reader.h"
#include "tnode.h"
#include "util.h"
#include "wcstringutil.h"
#include "wildcard.h"
#include "wutil.h" // IWYU pragma: keep
// Completion description strings, mostly for different types of files, such as sockets, block
// devices, etc.
//
// There are a few more completion description strings defined in expand.c. Maybe all completion
// description strings should be defined in the same file?
/// Description for ~USER completion.
#define COMPLETE_USER_DESC _(L"Home for %ls")
/// Description for short variables. The value is concatenated to this description.
#define COMPLETE_VAR_DESC_VAL _(L"Variable: %ls")
/// Description for abbreviations.
#define ABBR_DESC _(L"Abbreviation: %ls")
/// The special cased translation macro for completions. The empty string needs to be special cased,
/// since it can occur, and should not be translated. (Gettext returns the version information as
/// the response).
#ifdef HAVE_GETTEXT
static const wchar_t *C_(const wcstring &s) {
return s.empty() ? L"" : wgettext(s.c_str()).c_str();
}
#else
static const wcstring &C_(const wcstring &s) { return s; }
#endif
/// Struct describing a completion option entry.
///
/// If option is empty, the comp field must not be empty and contains a list of arguments to the
/// command.
///
/// The type field determines how the option is to be interpreted: either empty (args_only) or
/// short, single-long ("old") or double-long ("GNU"). An invariant is that the option is empty if
/// and only if the type is args_only.
///
/// If option is non-empty, it specifies a switch for the command. If \c comp is also not empty, it
/// contains a list of non-switch arguments that may only follow directly after the specified
/// switch.
typedef struct complete_entry_opt {
// Text of the option (like 'foo').
wcstring option;
// Type of the option: args-oly, short, single_long, or double_long.
complete_option_type_t type;
// Arguments to the option.
wcstring comp;
// Description of the completion.
wcstring desc;
// Condition under which to use the option.
wcstring condition;
// Determines how completions should be performed on the argument after the switch.
completion_mode_t result_mode;
// Completion flags.
complete_flags_t flags;
wcstring localized_desc() const { return C_(desc); }
size_t expected_dash_count() const {
switch (this->type) {
case option_type_args_only:
return 0;
case option_type_short:
case option_type_single_long:
return 1;
case option_type_double_long:
return 2;
}
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DIE("unreachable");
}
} complete_entry_opt_t;
/// Last value used in the order field of completion_entry_t.
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static std::atomic<unsigned int> k_complete_order{0};
/// Struct describing a command completion.
using option_list_t = std::list<complete_entry_opt_t>;
class completion_entry_t {
public:
/// List of all options.
option_list_t options;
public:
/// Command string.
const wcstring cmd;
/// True if command is a path.
const bool cmd_is_path;
/// Order for when this completion was created. This aids in outputting completions sorted by
/// time.
const unsigned int order;
/// Getters for option list.
const option_list_t &get_options() const;
/// Adds or removes an option.
void add_option(const complete_entry_opt_t &opt);
bool remove_option(const wcstring &option, complete_option_type_t type);
completion_entry_t(wcstring c, bool type)
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: cmd(std::move(c)), cmd_is_path(type), order(++k_complete_order) {}
};
/// Set of all completion entries.
Squashed commit of the following: commit 50f414a45d58fcab664ff662dd27befcfa0fdd95 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 13:43:35 2017 -0500 Converted file_id_t set to unordered_set with custom hash commit 83ef2dd7cc1bc3e4fdf0b2d3546d6811326cc3c9 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 13:43:14 2017 -0500 Converted remaining set<wcstring> to unordered_set<wcstring> commit 053da88f933f27505b3cf4810402e2a2be070203 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 13:29:21 2017 -0500 Switched function sets to unordered_set commit d469742a14ac99599022a9258cda8255178826b5 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 13:21:32 2017 -0500 Converted list of modified variables to an unordered set commit 5c06f866beeafb23878b1a932c7cd2558412c283 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 13:15:20 2017 -0500 Convert const_string_set_t to std::unordered_set As it is a readonly-list of raw character pointer strings (not wcstring), this necessitated the addition of a hashing function since the C++ standard library does not come with a char pointer hash function. To that end, a zlib-licensed [0] port of the excellent, lightweight XXHash family of 32- and 64-bit hashing algorithms in the form of a C++ header-only include library has been included. XXHash32/64 is pretty much universally the fastest hashing library for general purpose applications, and has been thoroughly vetted and is used in countless open source projects. The single-header version of this library makes it a lot simpler to include in the fish project, and the license compatibility with fish' GPLv2 and the zero-lib nature should make it an easy decision. std::unordered_set brings a massive speedup as compared to the default std::set, and the further use of the fast XXHash library to provide the string hashing should make all forms of string lookups in fish significantly faster (to a user-noticeable extent). 0: http://create.stephan-brumme.com/about.html commit 30d7710be8f0c23a4d42f7e713fcb7850f99036e Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 12:29:39 2017 -0500 Using std::unordered_set for completions backing store While the completions shown to the user are sorted, their storage in memory does not need to be since they are re-sorted before they are shown in completions.cpp. commit 695e83331d7a60ba188e57f6ea0d9b6da54860c6 Author: Mahmoud Al-Qudsi <mqudsi@neosmart.net> Date: Sat Aug 19 12:06:53 2017 -0500 Updated is_loading to use unordered_set
2017-08-20 04:29:52 +08:00
namespace std {
template <>
struct hash<completion_entry_t> {
size_t operator()(const completion_entry_t &c) const {
std::hash<wcstring> hasher;
return hasher(wcstring(c.cmd));
}
};
template <>
struct equal_to<completion_entry_t> {
bool operator()(const completion_entry_t &c1, const completion_entry_t &c2) const {
return c1.cmd == c2.cmd;
}
};
} // namespace std
using completion_entry_set_t = std::unordered_set<completion_entry_t>;
static owning_lock<completion_entry_set_t> s_completion_set;
/// Completion "wrapper" support. The map goes from wrapping-command to wrapped-command-list.
using wrapper_map_t = std::unordered_map<wcstring, wcstring_list_t>;
static owning_lock<wrapper_map_t> wrapper_map;
/// Comparison function to sort completions by their order field.
static bool compare_completions_by_order(const completion_entry_t &p1,
const completion_entry_t &p2) {
return p1.order < p2.order;
}
void completion_entry_t::add_option(const complete_entry_opt_t &opt) { options.push_front(opt); }
const option_list_t &completion_entry_t::get_options() const { return options; }
description_func_t const_desc(const wcstring &s) {
return [=](const wcstring &ignored) {
UNUSED(ignored);
return s;
};
}
/// Clear the COMPLETE_AUTO_SPACE flag, and set COMPLETE_NO_SPACE appropriately depending on the
/// suffix of the string.
static complete_flags_t resolve_auto_space(const wcstring &comp, complete_flags_t flags) {
complete_flags_t new_flags = flags;
if (flags & COMPLETE_AUTO_SPACE) {
new_flags &= ~COMPLETE_AUTO_SPACE;
size_t len = comp.size();
if (len > 0 && (std::wcschr(L"/=@:", comp.at(len - 1)) != nullptr))
new_flags |= COMPLETE_NO_SPACE;
}
return new_flags;
}
/// completion_t functions. Note that the constructor resolves flags!
completion_t::completion_t(wcstring comp, wcstring desc, string_fuzzy_match_t mat,
complete_flags_t flags_val)
: completion(std::move(comp)),
description(std::move(desc)),
match(mat),
flags(resolve_auto_space(completion, flags_val)) {}
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completion_t::completion_t(const completion_t &) = default;
completion_t::completion_t(completion_t &&) = default;
completion_t &completion_t::operator=(const completion_t &) = default;
completion_t &completion_t::operator=(completion_t &&) = default;
completion_t::~completion_t() = default;
__attribute__((always_inline)) static inline bool natural_compare_completions(
const completion_t &a, const completion_t &b) {
// For this to work, stable_sort must be used because results aren't interchangeable.
if (a.flags & b.flags & COMPLETE_DONT_SORT) {
// Both completions are from a source with the --keep-order flag.
return false;
}
return wcsfilecmp(a.completion.c_str(), b.completion.c_str()) < 0;
}
bool completion_t::is_naturally_less_than(const completion_t &a, const completion_t &b) {
return natural_compare_completions(a, b);
}
void completion_t::prepend_token_prefix(const wcstring &prefix) {
if (this->flags & COMPLETE_REPLACES_TOKEN) {
this->completion.insert(0, prefix);
}
}
// If these functions aren't force inlined, it is actually faster to call
// stable_sort twice rather than to iterate once performing all comparisons in one go!
__attribute__((always_inline)) static inline bool compare_completions_by_duplicate_arguments(
const completion_t &a, const completion_t &b) {
bool ad = a.flags & COMPLETE_DUPLICATES_ARGUMENT;
bool bd = b.flags & COMPLETE_DUPLICATES_ARGUMENT;
return ad < bd;
}
__attribute__((always_inline)) static inline bool compare_completions_by_tilde(
const completion_t &a, const completion_t &b) {
if (a.completion.empty() || b.completion.empty()) {
return false;
}
return ((a.completion.back() == L'~') < (b.completion.back() == L'~'));
}
/// Unique the list of completions, without perturbing their order.
static void unique_completions_retaining_order(completion_list_t *comps) {
std::unordered_set<wcstring> seen;
seen.reserve(comps->size());
auto pred = [&seen](const completion_t &c) {
// Remove (return true) if insertion fails.
bool inserted = seen.insert(c.completion).second;
return !inserted;
};
comps->erase(std::remove_if(comps->begin(), comps->end(), pred), comps->end());
}
void completions_sort_and_prioritize(completion_list_t *comps, completion_request_flags_t flags) {
// Find the best match type.
fuzzy_match_type_t best_type = fuzzy_match_none;
for (const auto &comp : *comps) {
best_type = std::min(best_type, comp.match.type);
if (best_type <= fuzzy_match_prefix) {
// We can't get better than this (see below)
break;
}
}
// If the best type is an exact match, reduce it to prefix match. Otherwise a tab completion
// will only show one match if it matches a file exactly. (see issue #959).
if (best_type == fuzzy_match_exact) {
best_type = fuzzy_match_prefix;
}
// Throw out completions whose match types are less suitable than the best.
comps->erase(
std::remove_if(comps->begin(), comps->end(),
[&](const completion_t &comp) { return comp.match.type > best_type; }),
comps->end());
// Deduplicate both sorted and unsorted results.
unique_completions_retaining_order(comps);
// Sort, provided COMPLETE_DONT_SORT isn't set.
stable_sort(comps->begin(), comps->end(), [](const completion_t &a, const completion_t &b) {
return a.match.type < b.match.type || natural_compare_completions(a, b);
});
// Lastly, if this is for an autosuggestion, prefer to avoid completions that duplicate
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// arguments, and penalize files that end in tilde - they're frequently autosave files from e.g.
// emacs.
if (flags & completion_request_t::autosuggestion) {
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stable_sort(comps->begin(), comps->end(), [](const completion_t &a, const completion_t &b) {
return compare_completions_by_duplicate_arguments(a, b) ||
compare_completions_by_tilde(a, b);
});
}
}
/// Class representing an attempt to compute completions.
class completer_t {
/// The operation context for this completion.
const operation_context_t &ctx;
/// The command to complete.
const wcstring cmd;
/// Flags associated with the completion request.
const completion_request_flags_t flags;
/// The output completions.
completion_list_t completions;
/// Table of completions conditions that have already been tested and the corresponding test
/// results.
typedef std::unordered_map<wcstring, bool> condition_cache_t;
condition_cache_t condition_cache;
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enum complete_type_t { COMPLETE_DEFAULT, COMPLETE_AUTOSUGGEST };
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complete_type_t type() const {
return (flags & completion_request_t::autosuggestion) ? COMPLETE_AUTOSUGGEST
: COMPLETE_DEFAULT;
}
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bool wants_descriptions() const { return flags & completion_request_t::descriptions; }
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bool fuzzy() const { return flags & completion_request_t::fuzzy_match; }
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fuzzy_match_type_t max_fuzzy_match_type() const {
// If we are doing fuzzy matching, request all types; if not request only prefix matching.
if (fuzzy()) return fuzzy_match_none;
return fuzzy_match_prefix_case_insensitive;
}
bool try_complete_variable(const wcstring &str);
bool try_complete_user(const wcstring &str);
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bool complete_param(const wcstring &cmd_orig, const wcstring &popt, const wcstring &str,
bool use_switches);
void complete_param_expand(const wcstring &str, bool do_file,
bool handle_as_special_cd = false);
void complete_cmd(const wcstring &str);
/// Attempt to complete an abbreviation for the given string.
void complete_abbr(const wcstring &cmd);
void complete_from_args(const wcstring &str, const wcstring &args, const wcstring &desc,
complete_flags_t flags);
void complete_cmd_desc(const wcstring &str);
bool complete_variable(const wcstring &str, size_t start_offset);
bool condition_test(const wcstring &condition);
void complete_strings(const wcstring &wc_escaped, const description_func_t &desc_func,
const completion_list_t &possible_comp, complete_flags_t flags);
expand_flags_t expand_flags() const {
// Never do command substitution in autosuggestions. Sadly, we also can't yet do job
// expansion because it's not thread safe.
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expand_flags_t result{};
if (this->type() == COMPLETE_AUTOSUGGEST) result |= expand_flag::skip_cmdsubst;
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// Allow fuzzy matching.
if (this->fuzzy()) result |= expand_flag::fuzzy_match;
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return result;
}
bool empty() const { return completions.empty(); }
void escape_opening_brackets(const wcstring &argument);
void mark_completions_duplicating_arguments(const wcstring &prefix,
const std::vector<tok_t> &args);
public:
completer_t(const operation_context_t &ctx, wcstring c, completion_request_flags_t f)
: ctx(ctx), cmd(std::move(c)), flags(f) {}
void perform();
completion_list_t acquire_completions() { return std::move(completions); }
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};
// Autoloader for completions.
static owning_lock<autoload_t> completion_autoloader{autoload_t(L"fish_complete_path")};
/// Create a new completion entry.
void append_completion(completion_list_t *completions, wcstring comp, wcstring desc,
complete_flags_t flags, string_fuzzy_match_t &&match) {
completions->emplace_back(std::move(comp), std::move(desc), match, flags);
}
/// Test if the specified script returns zero. The result is cached, so that if multiple completions
/// use the same condition, it needs only be evaluated once. condition_cache_clear must be called
/// after a completion run to make sure that there are no stale completions.
bool completer_t::condition_test(const wcstring &condition) {
if (condition.empty()) {
// std::fwprintf( stderr, L"No condition specified\n" );
return true;
}
if (!ctx.parser) {
return false;
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}
ASSERT_IS_MAIN_THREAD();
bool test_res;
condition_cache_t::iterator cached_entry = condition_cache.find(condition);
if (cached_entry == condition_cache.end()) {
// Compute new value and reinsert it.
test_res =
(0 == exec_subshell(condition, *ctx.parser, false /* don't apply exit status */));
condition_cache[condition] = test_res;
} else {
// Use the old value.
test_res = cached_entry->second;
}
return test_res;
}
/// Locate the specified entry. Create it if it doesn't exist. Must be called while locked.
static completion_entry_t &complete_get_exact_entry(completion_entry_set_t &completion_set,
const wcstring &cmd, bool cmd_is_path) {
auto ins = completion_set.emplace(cmd, cmd_is_path);
// NOTE SET_ELEMENTS_ARE_IMMUTABLE: Exposing mutable access here is only okay as long as callers
// do not change any field that matters to ordering - affecting order without telling std::set
// invalidates its internal state.
return const_cast<completion_entry_t &>(*ins.first);
}
void complete_add(const wchar_t *cmd, bool cmd_is_path, const wcstring &option,
complete_option_type_t option_type, completion_mode_t result_mode,
const wchar_t *condition, const wchar_t *comp, const wchar_t *desc,
complete_flags_t flags) {
assert(cmd && "Null command");
// option should be empty iff the option type is arguments only.
assert(option.empty() == (option_type == option_type_args_only));
// Lock the lock that allows us to edit the completion entry list.
auto completion_set = s_completion_set.acquire();
completion_entry_t &c = complete_get_exact_entry(*completion_set, cmd, cmd_is_path);
// Create our new option.
complete_entry_opt_t opt;
opt.option = option;
opt.type = option_type;
opt.result_mode = result_mode;
if (comp) opt.comp = comp;
if (condition) opt.condition = condition;
if (desc) opt.desc = desc;
opt.flags = flags;
c.add_option(opt);
}
/// Remove all completion options in the specified entry that match the specified short / long
/// option strings. Returns true if it is now empty and should be deleted, false if it's not empty.
/// Must be called while locked.
bool completion_entry_t::remove_option(const wcstring &option, complete_option_type_t type) {
option_list_t::iterator iter = this->options.begin();
while (iter != this->options.end()) {
if (iter->option == option && iter->type == type) {
iter = this->options.erase(iter);
} else {
// Just go to the next one.
++iter;
}
}
return this->options.empty();
}
void complete_remove(const wcstring &cmd, bool cmd_is_path, const wcstring &option,
complete_option_type_t type) {
auto completion_set = s_completion_set.acquire();
completion_entry_t tmp_entry(cmd, cmd_is_path);
completion_entry_set_t::iterator iter = completion_set->find(tmp_entry);
if (iter != completion_set->end()) {
// const_cast: See SET_ELEMENTS_ARE_IMMUTABLE.
completion_entry_t &entry = const_cast<completion_entry_t &>(*iter);
bool delete_it = entry.remove_option(option, type);
if (delete_it) {
completion_set->erase(iter);
}
}
}
void complete_remove_all(const wcstring &cmd, bool cmd_is_path) {
auto completion_set = s_completion_set.acquire();
completion_entry_t tmp_entry(cmd, cmd_is_path);
completion_set->erase(tmp_entry);
}
/// Find the full path and commandname from a command string 'str'.
static void parse_cmd_string(const wcstring &str, wcstring *path, wcstring *cmd,
const environment_t &vars) {
if (!path_get_path(str, path, vars)) {
/// Use the empty string as the 'path' for commands that can not be found.
path->clear();
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}
// Make sure the path is not included in the command.
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size_t last_slash = str.find_last_of(L'/');
if (last_slash != wcstring::npos) {
*cmd = str.substr(last_slash + 1);
} else {
*cmd = str;
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}
}
/// Copy any strings in possible_comp which have the specified prefix to the
/// completer's completion array. The prefix may contain wildcards. The output
/// will consist of completion_t structs.
///
/// There are three ways to specify descriptions for each completion. Firstly,
/// if a description has already been added to the completion, it is _not_
/// replaced. Secondly, if the desc_func function is specified, use it to
/// determine a dynamic completion. Thirdly, if none of the above are available,
/// the desc string is used as a description.
///
/// @param wc_escaped
/// the prefix, possibly containing wildcards. The wildcard should not have
/// been unescaped, i.e. '*' should be used for any string, not the
/// ANY_STRING character.
/// @param desc_func
/// the function that generates a description for those completions without an
/// embedded description
/// @param possible_comp
/// the list of possible completions to iterate over
/// @param flags
/// The flags
void completer_t::complete_strings(const wcstring &wc_escaped, const description_func_t &desc_func,
const completion_list_t &possible_comp, complete_flags_t flags) {
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wcstring tmp = wc_escaped;
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if (!expand_one(tmp,
this->expand_flags() | expand_flag::skip_cmdsubst | expand_flag::skip_wildcards,
ctx))
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return;
const wcstring wc = parse_util_unescape_wildcards(tmp);
for (const auto &comp : possible_comp) {
const wcstring &comp_str = comp.completion;
if (!comp_str.empty()) {
wildcard_complete(comp_str, wc.c_str(), desc_func, &this->completions,
this->expand_flags(), flags);
}
}
}
/// If command to complete is short enough, substitute the description with the whatis information
/// for the executable.
void completer_t::complete_cmd_desc(const wcstring &str) {
ASSERT_IS_MAIN_THREAD();
if (!ctx.parser) return;
wcstring cmd;
size_t pos = str.find_last_of(L'/');
if (pos != std::string::npos) {
if (pos + 1 > str.length()) return;
cmd = wcstring(str, pos + 1);
} else {
cmd = str;
}
// Using apropos with a single-character search term produces far to many results - require at
// least two characters if we don't know the location of the whatis-database.
if (cmd.length() < 2) return;
if (wildcard_has(cmd, false)) {
return;
}
bool skip = true;
for (const auto &c : completions) {
if (c.completion.empty() || (c.completion[c.completion.size() - 1] != L'/')) {
skip = false;
break;
}
}
if (skip) {
return;
}
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wcstring lookup_cmd(L"__fish_describe_command ");
lookup_cmd.append(escape_string(cmd, ESCAPE_ALL));
// See the ASSERT_IS_MAIN_THREAD() above, making it safe to make this a static variable.
// This lets us reuse the heap-allocated memory across calls.
static std::unordered_map<wcstring, wcstring> lookup;
static wcstring_list_t list;
// First locate a list of possible descriptions using a single call to apropos or a direct
// search if we know the location of the whatis database. This can take some time on slower
// systems with a large set of manuals, but it should be ok since apropos is only called once.
lookup.clear();
list.clear();
if (exec_subshell(lookup_cmd, *ctx.parser, list, false /* don't apply exit status */) != -1) {
// Then discard anything that is not a possible completion and put the result into a
// hashtable with the completion as key and the description as value.
//
// Should be reasonably fast, since no memory allocations are needed.
// mqudsi: I don't know if the above were ever true, but it's certainly not any more.
// Plenty of allocations below.
for (const wcstring &elstr : list) {
if (elstr.length() < cmd.length()) continue;
const wcstring fullkey(elstr, cmd.length());
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size_t tab_idx = fullkey.find(L'\t');
if (tab_idx == wcstring::npos) continue;
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const wcstring key(fullkey, 0, tab_idx);
wcstring val(fullkey, tab_idx + 1);
// And once again I make sure the first character is uppercased because I like it that
// way, and I get to decide these things.
if (!val.empty()) val[0] = towupper(val[0]);
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lookup[key] = val;
}
// Then do a lookup on every completion and if a match is found, change to the new
// description.
//
// This needs to do a reallocation for every description added, but there shouldn't be that
// many completions, so it should be ok.
for (auto &completion : completions) {
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const wcstring &el = completion.completion;
if (el.empty()) continue;
auto new_desc_iter = lookup.find(el);
if (new_desc_iter != lookup.end()) completion.description = new_desc_iter->second;
}
}
}
/// Returns a description for the specified function, or an empty string if none.
static wcstring complete_function_desc(const wcstring &fn) {
wcstring result;
bool has_description = function_get_desc(fn, result);
if (!has_description) {
function_get_definition(fn, result);
// A completion description is a single line.
for (wchar_t &c : result) {
if (c == L'\n') c = L' ';
}
}
return result;
}
/// Complete the specified command name. Search for executables in the path, executables defined
/// using an absolute path, functions, builtins and directories for implicit cd commands.
///
/// \param str_cmd the command string to find completions for
void completer_t::complete_cmd(const wcstring &str_cmd) {
completion_list_t possible_comp;
// Append all possible executables
expand_result_t result =
expand_string(str_cmd, &this->completions,
this->expand_flags() | expand_flag::special_for_command |
expand_flag::for_completions | expand_flag::executables_only,
ctx);
if (result != expand_result_t::error && this->wants_descriptions()) {
this->complete_cmd_desc(str_cmd);
}
// We don't really care if this succeeds or fails. If it succeeds this->completions will be
// updated with choices for the user.
expand_result_t ignore =
// Append all matching directories
expand_string(
str_cmd, &this->completions,
this->expand_flags() | expand_flag::for_completions | expand_flag::directories_only,
ctx);
UNUSED(ignore);
if (str_cmd.empty() || (str_cmd.find(L'/') == wcstring::npos && str_cmd.at(0) != L'~')) {
bool include_hidden = !str_cmd.empty() && str_cmd.at(0) == L'_';
wcstring_list_t names = function_get_names(include_hidden);
for (wcstring &name : names) {
// Append all known matching functions
append_completion(&possible_comp, std::move(name));
}
this->complete_strings(str_cmd, complete_function_desc, possible_comp, 0);
possible_comp.clear();
// Append all matching builtins
builtin_get_names(&possible_comp);
this->complete_strings(str_cmd, builtin_get_desc, possible_comp, 0);
}
}
void completer_t::complete_abbr(const wcstring &cmd) {
std::map<wcstring, wcstring> abbrs = get_abbreviations(ctx.vars);
completion_list_t possible_comp;
possible_comp.reserve(abbrs.size());
for (const auto &kv : abbrs) {
possible_comp.emplace_back(kv.first);
}
auto desc_func = [&](const wcstring &key) {
auto iter = abbrs.find(key);
assert(iter != abbrs.end() && "Abbreviation not found");
return format_string(ABBR_DESC, iter->second.c_str());
};
this->complete_strings(cmd, desc_func, possible_comp, COMPLETE_NO_SPACE);
}
/// Evaluate the argument list (as supplied by complete -a) and insert any
/// return matching completions. Matching is done using @c
/// copy_strings_with_prefix, meaning the completion may contain wildcards.
/// Logically, this is not always the right thing to do, but I have yet to come
/// up with a case where this matters.
///
/// @param str
/// The string to complete.
/// @param args
/// The list of option arguments to be evaluated.
/// @param desc
/// Description of the completion
/// @param flags
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/// The flags
///
void completer_t::complete_from_args(const wcstring &str, const wcstring &args,
const wcstring &desc, complete_flags_t flags) {
bool is_autosuggest = (this->type() == COMPLETE_AUTOSUGGEST);
bool saved_interactive = false;
if (ctx.parser) {
saved_interactive = ctx.parser->libdata().is_interactive;
ctx.parser->libdata().is_interactive = false;
}
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expand_flags_t eflags{};
if (is_autosuggest) {
eflags |= expand_flag::no_descriptions;
eflags |= expand_flag::skip_cmdsubst;
}
completion_list_t possible_comp = parser_t::expand_argument_list(args, eflags, ctx);
if (ctx.parser) {
ctx.parser->libdata().is_interactive = saved_interactive;
}
this->complete_strings(escape_string(str, ESCAPE_ALL), const_desc(desc), possible_comp, flags);
}
static size_t leading_dash_count(const wchar_t *str) {
size_t cursor = 0;
while (str[cursor] == L'-') {
cursor++;
}
return cursor;
}
/// Match a parameter.
static bool param_match(const complete_entry_opt_t *e, const wchar_t *optstr) {
bool result = false;
if (e->type != option_type_args_only) {
size_t dashes = leading_dash_count(optstr);
result = (dashes == e->expected_dash_count() && e->option == &optstr[dashes]);
}
return result;
}
/// Test if a string is an option with an argument, like --color=auto or -I/usr/include.
static const wchar_t *param_match2(const complete_entry_opt_t *e, const wchar_t *optstr) {
// We may get a complete_entry_opt_t with no options if it's just arguments.
if (e->option.empty()) {
return nullptr;
}
// Verify leading dashes.
size_t cursor = leading_dash_count(optstr);
if (cursor != e->expected_dash_count()) {
return nullptr;
}
// Verify options match.
if (!string_prefixes_string(e->option, &optstr[cursor])) {
return nullptr;
}
cursor += e->option.length();
// Short options are like -DNDEBUG. Long options are like --color=auto. So check for an equal
// sign for long options.
assert(e->type != option_type_short);
if (optstr[cursor] != L'=') {
return nullptr;
}
cursor += 1;
return &optstr[cursor];
}
/// Parses a token of short options plus one optional parameter like
/// '-xzPARAM', where x and z are short options.
///
/// Returns the position of the last option character (e.g. the position of z which is 2).
/// Everything after that is assumed to be part of the parameter.
/// Returns wcstring::npos if there is no valid short option.
size_t short_option_pos(const wcstring &arg, const option_list_t &options) {
if (arg.size() <= 1 || leading_dash_count(arg.c_str()) != 1) {
return wcstring::npos;
}
for (size_t pos = 1; pos < arg.size(); pos++) {
wchar_t arg_char = arg.at(pos);
const complete_entry_opt_t *match = nullptr;
for (const complete_entry_opt_t &o : options) {
if (o.type == option_type_short && o.option.at(0) == arg_char) {
match = &o;
break;
}
}
if (match == nullptr) {
// The first character after the dash is not a valid option.
if (pos == 1) return wcstring::npos;
return pos - 1;
}
if (match->result_mode.requires_param) {
return pos;
}
}
return arg.size() - 1;
}
/// Load command-specific completions for the specified command.
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static void complete_load(const wcstring &name) {
// We have to load this as a function, since it may define a --wraps or signature.
// See issue #2466.
auto &parser = parser_t::principal_parser();
function_load(name, parser);
// It's important to NOT hold the lock around completion loading.
// We need to take the lock to decide what to load, drop it to perform the load, then reacquire
// it.
// Note we only look at the global fish_function_path and fish_completion_path.
maybe_t<wcstring> path_to_load =
completion_autoloader.acquire()->resolve_command(name, env_stack_t::globals());
if (path_to_load) {
autoload_t::perform_autoload(*path_to_load, parser);
completion_autoloader.acquire()->mark_autoload_finished(name);
}
}
/// complete_param: Given a command, find completions for the argument str of command cmd_orig with
/// previous option popt.
///
/// Examples in format (cmd, popt, str):
///
/// echo hello world <tab> -> ("echo", "world", "")
/// echo hello world<tab> -> ("echo", "hello", "world")
///
/// Insert results into comp_out. Return true to perform file completion, false to disable it.
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bool completer_t::complete_param(const wcstring &cmd_orig, const wcstring &popt,
const wcstring &str, bool use_switches) {
bool use_common = true, use_files = true, has_force = false;
wcstring cmd, path;
parse_cmd_string(cmd_orig, &path, &cmd, ctx.vars);
// mqudsi: run_on_main_thread() already just runs `func` if we're on the main thread,
// but it makes a kcall to get the current thread id to ascertain that. Perhaps even
// that single kcall proved to be a source of slowdown so this test on a local variable
// is used to make that determination instead? I don't know.
auto run_on_main_thread = [&](std::function<void(void)> &&func) {
if (this->type() == COMPLETE_DEFAULT) {
ASSERT_IS_MAIN_THREAD();
func();
} else if (this->type() == COMPLETE_AUTOSUGGEST) {
iothread_perform_on_main([&]() { func(); });
} else {
assert(false && "this->type() is unknown!");
}
};
// FLOGF(error, L"\nThinking about looking up completions for %ls\n", cmd.c_str());
bool head_exists = builtin_exists(cmd);
// Only reload environment variables if builtin_exists returned false, as an optimization
if (!head_exists) {
head_exists = function_exists_no_autoload(cmd);
// While it may seem like first testing `path_get_path` before resorting to an env lookup
// may be faster, path_get_path can potentially do a lot of FS/IO access, so env.get() +
// function_exists() should still be faster.
// Use cmd_orig here as it is potentially pathed.
head_exists = head_exists || path_get_path(cmd_orig, nullptr, ctx.vars);
}
if (!head_exists) {
// Do not load custom completions if the head does not exist
// This prevents errors caused during the execution of completion providers for
// tools that do not exist. Applies to both manual completions ("cm<TAB>", "cmd <TAB>")
// and automatic completions ("gi" autosuggestion provider -> git)
debug(4, "Skipping completions for non-existent head\n");
} else {
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run_on_main_thread([&]() { complete_load(cmd); });
}
// Make a list of lists of all options that we care about.
std::vector<option_list_t> all_options;
{
auto completion_set = s_completion_set.acquire();
for (const completion_entry_t &i : *completion_set) {
const wcstring &match = i.cmd_is_path ? path : cmd;
if (wildcard_match(match, i.cmd)) {
// Copy all of their options into our list.
all_options.push_back(i.get_options()); // Oof, this is a lot of copying
}
}
}
// Now release the lock and test each option that we captured above. We have to do this outside
// the lock because callouts (like the condition) may add or remove completions. See issue 2.
for (const option_list_t &options : all_options) {
size_t short_opt_pos = short_option_pos(str, options);
bool last_option_requires_param = false;
use_common = true;
if (use_switches) {
if (str[0] == L'-') {
// Check if we are entering a combined option and argument (like --color=auto or
// -I/usr/include).
for (const complete_entry_opt_t &o : options) {
const wchar_t *arg;
if (o.type == option_type_short) {
if (short_opt_pos == wcstring::npos) continue;
if (o.option.at(0) != str.at(short_opt_pos)) continue;
last_option_requires_param = o.result_mode.requires_param;
arg = str.c_str() + short_opt_pos + 1;
} else {
arg = param_match2(&o, str.c_str());
}
if (arg != nullptr && this->condition_test(o.condition)) {
if (o.result_mode.requires_param) use_common = false;
if (o.result_mode.no_files) use_files = false;
if (o.result_mode.force_files) has_force = true;
complete_from_args(arg, o.comp, o.localized_desc(), o.flags);
}
}
} else if (popt[0] == L'-') {
// Set to true if we found a matching old-style switch.
// Here we are testing the previous argument,
// to see how we should complete the current argument
bool old_style_match = false;
// If we are using old style long options, check for them first.
for (const complete_entry_opt_t &o : options) {
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if (o.type == option_type_single_long && param_match(&o, popt.c_str()) &&
this->condition_test(o.condition)) {
old_style_match = true;
if (o.result_mode.requires_param) use_common = false;
if (o.result_mode.no_files) use_files = false;
if (o.result_mode.force_files) has_force = true;
complete_from_args(str, o.comp, o.localized_desc(), o.flags);
}
}
// No old style option matched, or we are not using old style options. We check if
// any short (or gnu style) options do.
if (!old_style_match) {
size_t prev_short_opt_pos = short_option_pos(popt, options);
for (const complete_entry_opt_t &o : options) {
// Gnu-style options with _optional_ arguments must be specified as a single
// token, so that it can be differed from a regular argument.
// Here we are testing the previous argument for a GNU-style match,
// to see how we should complete the current argument
if (!o.result_mode.requires_param) continue;
bool match = false;
if (o.type == option_type_short) {
match = prev_short_opt_pos != wcstring::npos &&
// Only if the option was the last char in the token,
// i.e. there is no parameter yet.
prev_short_opt_pos + 1 == popt.size() &&
o.option.at(0) == popt.at(prev_short_opt_pos);
} else if (o.type == option_type_double_long) {
match = param_match(&o, popt.c_str());
}
if (match && this->condition_test(o.condition)) {
if (o.result_mode.requires_param) use_common = false;
if (o.result_mode.no_files) use_files = false;
if (o.result_mode.force_files) has_force = true;
complete_from_args(str, o.comp, o.localized_desc(), o.flags);
}
}
}
}
}
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if (!use_common) {
continue;
}
// Now we try to complete an option itself
for (const complete_entry_opt_t &o : options) {
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// If this entry is for the base command, check if any of the arguments match.
if (!this->condition_test(o.condition)) continue;
if (o.option.empty()) {
use_files = use_files && (!(o.result_mode.no_files));
complete_from_args(str, o.comp, o.localized_desc(), o.flags);
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}
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if (!use_switches || str.empty()) {
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continue;
}
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// Check if the short style option matches.
if (o.type == option_type_short) {
wchar_t optchar = o.option.at(0);
if (short_opt_pos == wcstring::npos) {
// str has no short option at all (but perhaps it is the
// prefix of a single long option).
// Only complete short options if there is no character after the dash.
if (str != L"-") continue;
} else {
// Only complete when the last short option has no parameter yet..
if (short_opt_pos + 1 != str.size()) continue;
// .. and it does not require one ..
if (last_option_requires_param) continue;
// .. and the option is not already there.
if (str.find(optchar) != wcstring::npos) continue;
}
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// It's a match.
wcstring desc = o.localized_desc();
// Append a short-style option
append_completion(&this->completions, o.option, std::move(desc), 0);
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}
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// Check if the long style option matches.
if (o.type != option_type_single_long && o.type != option_type_double_long) {
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continue;
}
wcstring whole_opt(o.expected_dash_count(), L'-');
whole_opt.append(o.option);
int match = string_prefixes_string(str, whole_opt);
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if (!match) {
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bool match_no_case = wcsncasecmp(str.c_str(), whole_opt.c_str(), str.length()) == 0;
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if (!match_no_case) {
continue;
}
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}
int has_arg = 0; // does this switch have any known arguments
int req_arg = 0; // does this switch _require_ an argument
size_t offset = 0;
complete_flags_t flags = 0;
if (match) {
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offset = str.length();
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} else {
flags = COMPLETE_REPLACES_TOKEN;
}
has_arg = !o.comp.empty();
req_arg = o.result_mode.requires_param;
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if (o.type == option_type_double_long && (has_arg && !req_arg)) {
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// Optional arguments to a switch can only be handled using the '=', so we add it as
// a completion. By default we avoid using '=' and instead rely on '--switch
// switch-arg', since it is more commonly supported by homebrew getopt-like
// functions.
wcstring completion = format_string(L"%ls=", whole_opt.c_str() + offset);
// Append a long-style option with a mandatory trailing equal sign
append_completion(&this->completions, std::move(completion), C_(o.desc), flags);
}
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// Append a long-style option
append_completion(&this->completions, whole_opt.substr(offset), C_(o.desc), flags);
}
}
return has_force || use_files;
}
/// Perform generic (not command-specific) expansions on the specified string.
void completer_t::complete_param_expand(const wcstring &str, bool do_file,
bool handle_as_special_cd) {
if (ctx.check_cancel()) return;
expand_flags_t flags =
this->expand_flags() | expand_flag::skip_cmdsubst | expand_flag::for_completions;
if (!do_file) flags |= expand_flag::skip_wildcards;
if (handle_as_special_cd && do_file) {
if (this->type() == COMPLETE_AUTOSUGGEST) {
flags |= expand_flag::special_for_cd_autosuggestion;
}
flags |= expand_flags_t{expand_flag::directories_only, expand_flag::special_for_cd,
expand_flag::no_descriptions};
}
// Squelch file descriptions per issue #254.
if (this->type() == COMPLETE_AUTOSUGGEST || do_file) flags |= expand_flag::no_descriptions;
// We have the following cases:
//
// --foo=bar => expand just bar
// -foo=bar => expand just bar
// foo=bar => expand the whole thing, and also just bar
//
// We also support colon separator (#2178). If there's more than one, prefer the last one.
size_t sep_index = str.find_last_of(L"=:");
bool complete_from_separator = (sep_index != wcstring::npos);
bool complete_from_start = !complete_from_separator || !string_prefixes_string(L"-", str);
if (complete_from_separator) {
// FIXME: This just cuts the token,
// so any quoting or braces gets lost.
// See #4954.
const wcstring sep_string = wcstring(str, sep_index + 1);
completion_list_t local_completions;
if (expand_string(sep_string, &local_completions, flags, ctx) == expand_result_t::error) {
debug(3, L"Error while expanding string '%ls'", sep_string.c_str());
}
// Any COMPLETE_REPLACES_TOKEN will also stomp the separator. We need to "repair" them by
// inserting our separator and prefix.
const wcstring prefix_with_sep = wcstring(str, 0, sep_index + 1);
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for (completion_t &comp : local_completions) {
comp.prepend_token_prefix(prefix_with_sep);
}
this->completions.insert(this->completions.end(), local_completions.begin(),
local_completions.end());
}
if (complete_from_start) {
// Don't do fuzzy matching for files if the string begins with a dash (issue #568). We could
// consider relaxing this if there was a preceding double-dash argument.
if (string_prefixes_string(L"-", str)) flags.clear(expand_flag::fuzzy_match);
if (expand_string(str, &this->completions, flags, ctx) == expand_result_t::error) {
debug(3, L"Error while expanding string '%ls'", str.c_str());
}
}
}
/// Complete the specified string as an environment variable.
bool completer_t::complete_variable(const wcstring &str, size_t start_offset) {
const wchar_t *const whole_var = str.c_str();
const wchar_t *var = &whole_var[start_offset];
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size_t varlen = str.length() - start_offset;
bool res = false;
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for (const wcstring &env_name : ctx.vars.get_names(0)) {
string_fuzzy_match_t match =
string_fuzzy_match_string(var, env_name, this->max_fuzzy_match_type());
if (match.type == fuzzy_match_none) {
continue; // no match
}
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wcstring comp;
int flags = 0;
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if (!match_type_requires_full_replacement(match.type)) {
// Take only the suffix.
comp.append(env_name.c_str() + varlen);
} else {
comp.append(whole_var, start_offset);
comp.append(env_name);
flags = COMPLETE_REPLACES_TOKEN | COMPLETE_DONT_ESCAPE;
}
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wcstring desc;
if (this->wants_descriptions()) {
if (this->type() != COMPLETE_AUTOSUGGEST) {
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// $history can be huge, don't put all of it in the completion description; see
// #6288.
if (env_name == L"history") {
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history_t *history =
&history_t::history_with_name(history_session_id(ctx.vars));
for (size_t i = 1; i < history->size() && desc.size() < 64; i++) {
if (i > 1) desc += L' ';
desc += expand_escape_string(history->item_at_index(i).str());
}
} else {
// Can't use ctx.vars here, it could be any variable.
auto var = ctx.vars.get(env_name);
if (!var) continue;
wcstring value = expand_escape_variable(*var);
desc = format_string(COMPLETE_VAR_DESC_VAL, value.c_str());
}
}
}
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// Append matching environment variables
append_completion(&this->completions, std::move(comp), std::move(desc), flags,
std::move(match));
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res = true;
}
return res;
}
bool completer_t::try_complete_variable(const wcstring &str) {
enum { e_unquoted, e_single_quoted, e_double_quoted } mode = e_unquoted;
const size_t len = str.size();
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// Get the position of the dollar heading a (possibly empty) run of valid variable characters.
// npos means none.
size_t variable_start = wcstring::npos;
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for (size_t in_pos = 0; in_pos < len; in_pos++) {
wchar_t c = str.at(in_pos);
if (!valid_var_name_char(c)) {
// This character cannot be in a variable, reset the dollar.
variable_start = -1;
}
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switch (c) {
case L'\\': {
in_pos++;
break;
}
case L'$': {
if (mode == e_unquoted || mode == e_double_quoted) {
variable_start = in_pos;
}
break;
}
case L'\'': {
if (mode == e_single_quoted) {
mode = e_unquoted;
} else if (mode == e_unquoted) {
mode = e_single_quoted;
}
break;
}
case L'"': {
if (mode == e_double_quoted) {
mode = e_unquoted;
} else if (mode == e_unquoted) {
mode = e_double_quoted;
}
break;
}
default: {
break; // all other chars ignored here
}
}
}
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// Now complete if we have a variable start. Note the variable text may be empty; in that case
// don't generate an autosuggestion, but do allow tab completion.
bool allow_empty = !(this->flags & completion_request_t::autosuggestion);
bool text_is_empty = (variable_start == len);
bool result = false;
if (variable_start != wcstring::npos && (allow_empty || !text_is_empty)) {
result = this->complete_variable(str, variable_start + 1);
}
return result;
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}
/// Try to complete the specified string as a username. This is used by ~USER type expansion.
///
/// \return false if unable to complete, true otherwise
bool completer_t::try_complete_user(const wcstring &str) {
#ifndef HAVE_GETPWENT
// The getpwent() function does not exist on Android. A Linux user on Android isn't
// really a user - each installed app gets an UID assigned. Listing all UID:s is not
// possible without root access, and doing a ~USER type expansion does not make sense
// since every app is sandboxed and can't access eachother.
return false;
#else
const wchar_t *cmd = str.c_str();
const wchar_t *first_char = cmd;
if (*first_char != L'~' || std::wcschr(first_char, L'/')) return false;
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const wchar_t *user_name = first_char + 1;
const wchar_t *name_end = std::wcschr(user_name, L'~');
if (name_end) return false;
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double start_time = timef();
bool result = false;
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size_t name_len = str.length() - 1;
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static std::mutex s_setpwent_lock;
scoped_lock locker(s_setpwent_lock);
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setpwent();
// cppcheck-suppress getpwentCalled
while (struct passwd *pw = getpwent()) {
if (ctx.check_cancel()) {
break;
}
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const wcstring pw_name_str = str2wcstring(pw->pw_name);
const wchar_t *pw_name = pw_name_str.c_str();
if (std::wcsncmp(user_name, pw_name, name_len) == 0) {
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wcstring desc = format_string(COMPLETE_USER_DESC, pw_name);
// Append a user name
append_completion(&this->completions, &pw_name[name_len], std::move(desc),
COMPLETE_NO_SPACE);
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result = true;
} else if (wcsncasecmp(user_name, pw_name, name_len) == 0) {
wcstring name = format_string(L"~%ls", pw_name);
wcstring desc = format_string(COMPLETE_USER_DESC, pw_name);
// Append a user name
append_completion(&this->completions, std::move(name), std::move(desc),
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COMPLETE_REPLACES_TOKEN | COMPLETE_DONT_ESCAPE | COMPLETE_NO_SPACE);
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result = true;
}
// If we've spent too much time (more than 200 ms) doing this give up.
if (timef() - start_time > 0.2) break;
}
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endpwent();
return result;
#endif
}
// The callback type for walk_wrap_chain.
using wrap_chain_visitor_t = std::function<void(const wcstring &, const wcstring &, size_t depth)>;
// A set tracking which (command, wrap) pairs we have seen.
using wrap_chain_visited_set_t = std::set<std::pair<wcstring, wcstring>>;
// Recursive implementation of walk_wrap_chain().
static void walk_wrap_chain_recursive(const wcstring &command_line, source_range_t command_range,
const wrap_chain_visitor_t &visitor,
const cancel_checker_t &cancel_checker,
wrap_chain_visited_set_t *visited, size_t depth) {
// Limit our recursion depth. This prevents cycles in the wrap chain graph from overflowing.
if (depth > 24) return;
if (reader_test_should_cancel()) return;
// Extract command from the command line and invoke the receiver with it.
wcstring command(command_line, command_range.start, command_range.length);
visitor(command, command_line, depth);
wcstring_list_t targets = complete_get_wrap_targets(command);
for (const wcstring &wt : targets) {
// Construct a fake command line containing the wrap target.
wcstring faux_commandline = command_line;
faux_commandline.replace(command_range.start, command_range.length, wt);
// Try to extract the command from the faux commandline.
// We do this by simply getting the first token. This is a hack; for example one might
// imagine the first token being 'builtin' or similar. Nevertheless that is simpler than
// re-parsing everything.
wcstring wrapped_command = tok_first(wt);
if (!wrapped_command.empty()) {
size_t where = faux_commandline.find(wrapped_command, command_range.start);
if (where != wcstring::npos) {
// Do not recurse if we have already seen this.
if (visited->insert({command, wrapped_command}).second) {
// Recurse with our new command and command line.
source_range_t faux_source_range{uint32_t(where),
uint32_t(wrapped_command.size())};
walk_wrap_chain_recursive(faux_commandline, faux_source_range, visitor,
cancel_checker, visited, depth + 1);
}
}
}
}
}
// Helper to complete a parameter for a command and its transitive wrap chain.
// Given a command line \p command_line and the range of the command itself within the command line
// as \p command_range, invoke the \p receiver with the command and the command line. Then, for each
// target wrapped by the given command, update the command line with that target and invoke this
// recursively.
static void walk_wrap_chain(const wcstring &command_line, source_range_t command_range,
const wrap_chain_visitor_t &visitor,
const cancel_checker_t &cancel_checker) {
wrap_chain_visited_set_t visited;
walk_wrap_chain_recursive(command_line, command_range, visitor, cancel_checker, &visited, 0);
}
/// If the argument contains a '[' typed by the user, completion by appending to the argument might
/// produce an invalid token (#5831).
///
/// Check if there is any unescaped, unquoted '['; if yes, make the completions replace the entire
/// argument instead of appending, so '[' will be escaped.
void completer_t::escape_opening_brackets(const wcstring &argument) {
bool have_unquoted_unescaped_bracket = false;
wchar_t quote = L'\0';
bool escaped = false;
for (wchar_t c : argument) {
have_unquoted_unescaped_bracket |= (c == L'[') && !quote && !escaped;
if (escaped) {
escaped = false;
} else if (c == L'\\') {
escaped = true;
} else if (c == L'\'' || c == L'"') {
if (quote == c) {
// Closing a quote.
quote = L'\0';
} else if (quote == L'\0') {
// Opening a quote.
quote = c;
}
}
}
if (!have_unquoted_unescaped_bracket) return;
// Since completion_apply_to_command_line will escape the completion, we need to provide an
// unescaped version.
wcstring unescaped_argument;
if (!unescape_string(argument, &unescaped_argument, UNESCAPE_INCOMPLETE)) return;
for (completion_t &comp : completions) {
if (comp.flags & COMPLETE_REPLACES_TOKEN) continue;
comp.flags |= COMPLETE_REPLACES_TOKEN;
if (comp.flags & COMPLETE_DONT_ESCAPE) {
// If the completion won't be escaped, we need to do it here.
// Currently, this will probably never happen since COMPLETE_DONT_ESCAPE
// is only set for user or variable names which cannot contain '['.
unescaped_argument = escape_string(unescaped_argument, ESCAPE_ALL);
}
comp.completion = unescaped_argument + comp.completion;
}
}
/// Set the DUPLICATES_ARG flag in any completion that duplicates an argument.
void completer_t::mark_completions_duplicating_arguments(const wcstring &prefix,
const std::vector<tok_t> &args) {
// Get all the arguments, unescaped, into an array that we're going to bsearch.
wcstring_list_t arg_strs;
for (const auto &arg : args) {
wcstring argstr = arg.get_source(cmd);
wcstring argstr_unesc;
if (unescape_string(argstr, &argstr_unesc, UNESCAPE_DEFAULT)) {
arg_strs.push_back(std::move(argstr_unesc));
}
}
std::sort(arg_strs.begin(), arg_strs.end());
wcstring comp_str;
for (completion_t &comp : completions) {
comp_str = comp.completion;
if (!(comp.flags & COMPLETE_REPLACES_TOKEN)) {
comp_str.insert(0, prefix);
}
if (std::binary_search(arg_strs.begin(), arg_strs.end(), comp_str)) {
comp.flags |= COMPLETE_DUPLICATES_ARGUMENT;
}
}
}
void completer_t::perform() {
const size_t cursor_pos = cmd.size();
// Find the plain statement to operate on. The cursor may be past it (#1261), so backtrack
// until we know we're no longer in a space. But the space may actually be part of the
// argument (#2477).
size_t position_in_statement = cursor_pos;
while (position_in_statement > 0 && cmd.at(position_in_statement - 1) == L' ') {
position_in_statement--;
}
// Get all the arguments.
std::vector<tok_t> tokens;
parse_util_process_extent(cmd.c_str(), position_in_statement, nullptr, nullptr, &tokens);
// Hack: fix autosuggestion by removing prefixing "and"s #6249.
if (flags & completion_request_t::autosuggestion) {
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while (!tokens.empty() && parser_keywords_is_subcommand(tokens.front().get_source(cmd)))
tokens.erase(tokens.begin());
}
// Empty process (cursor is after one of ;, &, |, \n, &&, || modulo whitespace).
if (tokens.empty()) {
// Don't autosuggest anything based on the empty string (generalizes #1631).
if (flags & completion_request_t::autosuggestion) return;
complete_cmd(L"");
complete_abbr(L"");
return;
}
const tok_t &cmd_tok = tokens.front();
const tok_t &cur_tok = tokens.back();
// Since fish does not currently support redirect in command position, we return here.
if (cmd_tok.type != token_type_t::string) return;
if (cur_tok.type == token_type_t::error) return;
for (const auto &tok : tokens) { // If there was an error, it was in the last token.
assert(tok.type == token_type_t::string || tok.type == token_type_t::redirect);
}
// If we are completing a variable name or a tilde expansion user name, we do that and return.
// No need for any other completions.
const wcstring current_token = cur_tok.get_source(cmd);
if (try_complete_variable(current_token) || try_complete_user(current_token)) {
return;
}
if (cmd_tok.location_in_or_at_end_of_source_range(cursor_pos)) {
maybe_t<size_t> equal_sign_pos = variable_assignment_equals_pos(current_token);
if (equal_sign_pos) {
complete_param_expand(current_token.substr(*equal_sign_pos + 1), true /* do_file */);
return;
}
// Complete command filename.
complete_cmd(current_token);
complete_abbr(current_token);
return;
}
// See whether we are in an argument, in a redirection or in the whitespace in between.
bool in_redirection = cur_tok.type == token_type_t::redirect;
bool had_ddash = false;
wcstring current_argument, previous_argument;
if (cur_tok.type == token_type_t::string &&
cur_tok.location_in_or_at_end_of_source_range(position_in_statement)) {
// If the cursor is in whitespace, then the "current" argument is empty and the
// previous argument is the matching one. But if the cursor was in or at the end
// of the argument, then the current argument is the matching one, and the
// previous argument is the one before it.
bool cursor_in_whitespace = !cur_tok.location_in_or_at_end_of_source_range(cursor_pos);
if (cursor_in_whitespace) {
current_argument.clear();
previous_argument = current_token;
} else {
current_argument = current_token;
if (tokens.size() >= 2) {
tok_t prev_tok = tokens.at(tokens.size() - 2);
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if (prev_tok.type == token_type_t::string)
previous_argument = prev_tok.get_source(cmd);
in_redirection = prev_tok.type == token_type_t::redirect;
}
}
// Check to see if we have a preceding double-dash.
for (size_t i = 0; i < tokens.size() - 1; i++) {
if (tokens.at(i).get_source(cmd) == L"--") {
had_ddash = true;
break;
}
}
}
bool do_file = false, handle_as_special_cd = false;
if (in_redirection) {
do_file = true;
} else {
// Try completing as an argument.
wcstring current_command = cmd_tok.get_source(cmd), current_command_unescape,
previous_argument_unescape, current_argument_unescape;
if (unescape_string(current_command, &current_command_unescape, UNESCAPE_DEFAULT) &&
unescape_string(previous_argument, &previous_argument_unescape, UNESCAPE_DEFAULT) &&
unescape_string(current_argument, &current_argument_unescape, UNESCAPE_INCOMPLETE)) {
// Have to walk over the command and its entire wrap chain. If any command
// disables do_file, then they all do.
do_file = true;
auto receiver = [&](const wcstring &cmd, const wcstring &cmdline, size_t depth) {
// Perhaps set a transient commandline so that custom completions
// buitin_commandline will refer to the wrapped command. But not if
// we're doing autosuggestions.
bool wants_transient = depth > 0 && !(flags & completion_request_t::autosuggestion);
if (wants_transient) {
ctx.parser->libdata().transient_commandlines.push_back(cmdline);
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}
bool is_variable_assignment = bool(variable_assignment_equals_pos(cmd));
if (is_variable_assignment && ctx.parser) {
// To avoid issues like #2705 we complete commands starting with variable
// assignments by recursively calling complete for the command suffix
// without the first variable assignment token.
wcstring unaliased_cmd;
if (ctx.parser->libdata().transient_commandlines.empty()) {
unaliased_cmd = cmdline;
} else {
unaliased_cmd = ctx.parser->libdata().transient_commandlines.back();
}
tokenizer_t tok(unaliased_cmd.c_str(), TOK_ACCEPT_UNFINISHED);
maybe_t<tok_t> cmd_tok = tok.next();
assert(cmd_tok);
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unaliased_cmd =
unaliased_cmd.replace(0, cmd_tok->offset + cmd_tok->length, L"");
ctx.parser->libdata().transient_commandlines.push_back(unaliased_cmd);
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cleanup_t remove_transient(
[&] { ctx.parser->libdata().transient_commandlines.pop_back(); });
vec_append(this->completions,
complete(unaliased_cmd, completion_request_t::fuzzy_match, ctx));
do_file = false;
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} else if (!complete_param(
cmd, previous_argument_unescape, current_argument_unescape,
!had_ddash)) { // Invoke any custom completions for this command.
do_file = false;
}
if (wants_transient) {
ctx.parser->libdata().transient_commandlines.pop_back();
}
};
assert(cmd_tok.offset < std::numeric_limits<uint32_t>::max());
assert(cmd_tok.length < std::numeric_limits<uint32_t>::max());
source_range_t range = {static_cast<uint32_t>(cmd_tok.offset),
static_cast<uint32_t>(cmd_tok.length)};
walk_wrap_chain(cmd, range, receiver, ctx.cancel_checker);
}
// Hack. If we're cd, handle it specially (issue #1059, others).
handle_as_special_cd = (current_command_unescape == L"cd");
// And if we're autosuggesting, and the token is empty, don't do file suggestions.
if ((flags & completion_request_t::autosuggestion) && current_argument_unescape.empty()) {
do_file = false;
}
}
// This function wants the unescaped string.
complete_param_expand(current_argument, do_file, handle_as_special_cd);
// Escape '[' in the argument before completing it.
escape_opening_brackets(current_argument);
// Lastly mark any completions that appear to already be present in arguments.
mark_completions_duplicating_arguments(current_token, tokens);
}
completion_list_t complete(const wcstring &cmd_with_subcmds, completion_request_flags_t flags,
const operation_context_t &ctx) {
// Determine the innermost subcommand.
const wchar_t *cmdsubst_begin, *cmdsubst_end;
parse_util_cmdsubst_extent(cmd_with_subcmds.c_str(), cmd_with_subcmds.size(), &cmdsubst_begin,
&cmdsubst_end);
assert(cmdsubst_begin != nullptr && cmdsubst_end != nullptr && cmdsubst_end >= cmdsubst_begin);
wcstring cmd = wcstring(cmdsubst_begin, cmdsubst_end - cmdsubst_begin);
completer_t completer(ctx, std::move(cmd), flags);
completer.perform();
return completer.acquire_completions();
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}
/// Print the short switch \c opt, and the argument \c arg to the specified
/// wcstring, but only if \c argument isn't an empty string.
static void append_switch(wcstring &out, wchar_t opt, const wcstring &arg) {
if (arg.empty()) return;
append_format(out, L" -%lc %ls", opt, escape_string(arg, ESCAPE_ALL).c_str());
}
static void append_switch(wcstring &out, const wcstring &opt, const wcstring &arg) {
if (arg.empty()) return;
append_format(out, L" --%ls %ls", opt.c_str(), escape_string(arg, ESCAPE_ALL).c_str());
}
static void append_switch(wcstring &out, wchar_t opt) { append_format(out, L" -%lc", opt); }
static void append_switch(wcstring &out, const wcstring &opt) {
append_format(out, L" --%ls", opt.c_str());
}
/// Use by the bare `complete`, loaded completions are printed out as commands
wcstring complete_print() {
wcstring out;
out.reserve(40); // just a guess
auto completion_set = s_completion_set.acquire();
// Get a list of all completions in a vector, then sort it by order.
std::vector<std::reference_wrapper<const completion_entry_t>> all_completions;
// These should be "c"begin/end, but then gcc from ~~the dark ages~~ RHEL 7 would complain.
2020-01-17 07:14:21 +08:00
all_completions.insert(all_completions.begin(), completion_set->begin(), completion_set->end());
sort(all_completions.begin(), all_completions.end(), compare_completions_by_order);
for (const completion_entry_t &e : all_completions) {
const option_list_t &options = e.get_options();
for (const complete_entry_opt_t &o : options) {
out.append(L"complete");
if (o.flags & COMPLETE_DONT_SORT) append_switch(out, L'k');
if (o.result_mode.no_files && o.result_mode.requires_param) {
append_switch(out, L"exclusive");
} else if (o.result_mode.no_files) {
append_switch(out, L"no-files");
} else if (o.result_mode.force_files) {
append_switch(out, L"force-files");
} else if (o.result_mode.requires_param) {
append_switch(out, L"requires-param");
}
append_switch(out, e.cmd_is_path ? L'p' : L'c', e.cmd);
switch (o.type) {
case option_type_args_only: {
break;
}
case option_type_short: {
append_switch(out, L's', wcstring(1, o.option.at(0)));
break;
}
case option_type_single_long:
case option_type_double_long: {
append_switch(out, o.type == option_type_single_long ? L'o' : L'l', o.option);
break;
}
}
append_switch(out, L'd', C_(o.desc));
append_switch(out, L'a', o.comp);
append_switch(out, L'n', o.condition);
out.append(L"\n");
}
}
// Append wraps.
auto locked_wrappers = wrapper_map.acquire();
for (const auto &entry : *locked_wrappers) {
const wcstring &src = entry.first;
for (const wcstring &target : entry.second) {
out.append(L"complete");
append_switch(out, L'c', src);
append_switch(out, L"wraps", target);
out.append(L"\n");
}
}
return out;
}
void complete_invalidate_path() {
// TODO: here we unload all completions for commands that are loaded by the autoloader. We also
// unload any completions that the user may specified on the command line. We should in
// principle track those completions loaded by the autoloader alone.
wcstring_list_t cmds = completion_autoloader.acquire()->get_autoloaded_commands();
for (const wcstring &cmd : cmds) {
complete_remove_all(cmd, false /* not a path */);
}
}
/// Add a new target that wraps a command. Example: __fish_XYZ (function) wraps XYZ (target).
bool complete_add_wrapper(const wcstring &command, const wcstring &new_target) {
if (command.empty() || new_target.empty()) {
return false;
}
// If the command and the target are the same,
// there's no point in following the wrap-chain because we'd only complete the same thing.
// TODO: This should maybe include full cycle detection.
if (command == new_target) return false;
auto locked_map = wrapper_map.acquire();
wrapper_map_t &wraps = *locked_map;
wcstring_list_t *targets = &wraps[command];
// If it's already present, we do nothing.
if (!contains(*targets, new_target)) {
targets->push_back(new_target);
}
return true;
}
bool complete_remove_wrapper(const wcstring &command, const wcstring &target_to_remove) {
if (command.empty() || target_to_remove.empty()) {
return false;
}
auto locked_map = wrapper_map.acquire();
wrapper_map_t &wraps = *locked_map;
bool result = false;
wrapper_map_t::iterator current_targets_iter = wraps.find(command);
if (current_targets_iter != wraps.end()) {
wcstring_list_t *targets = &current_targets_iter->second;
auto where = std::find(targets->begin(), targets->end(), target_to_remove);
if (where != targets->end()) {
targets->erase(where);
result = true;
}
}
return result;
}
wcstring_list_t complete_get_wrap_targets(const wcstring &command) {
if (command.empty()) {
return {};
}
auto locked_map = wrapper_map.acquire();
wrapper_map_t &wraps = *locked_map;
auto iter = wraps.find(command);
if (iter == wraps.end()) return {};
return iter->second;
}