kakoune/src/insert_completer.cc

648 lines
22 KiB
C++
Raw Normal View History

#include "insert_completer.hh"
#include "buffer_manager.hh"
#include "buffer_utils.hh"
#include "client.hh"
#include "command_manager.hh"
#include "changes.hh"
#include "context.hh"
#include "display_buffer.hh"
#include "face_registry.hh"
#include "file.hh"
#include "regex.hh"
#include "window.hh"
#include "word_db.hh"
#include "option_types.hh"
#include "utf8_iterator.hh"
2016-11-29 20:53:11 +01:00
#include "user_interface.hh"
#include <numeric>
#include <utility>
2015-09-02 21:59:45 +02:00
namespace Kakoune
{
2015-01-12 14:24:30 +01:00
using StringList = Vector<String, MemoryDomain::Options>;
String option_to_string(const InsertCompleterDesc& opt)
{
switch (opt.mode)
{
case InsertCompleterDesc::Word:
return "word=" + (opt.param ? *opt.param : "");
case InsertCompleterDesc::Filename:
return "filename";
case InsertCompleterDesc::Option:
return "option=" + (opt.param ? *opt.param : "");
case InsertCompleterDesc::Line:
return "line=" + (opt.param ? *opt.param : "");
}
kak_assert(false);
return "";
}
InsertCompleterDesc option_from_string(Meta::Type<InsertCompleterDesc>, StringView str)
{
if (str.substr(0_byte, 7_byte) == "option=")
return {InsertCompleterDesc::Option, str.substr(7_byte).str()};
else if (str.substr(0_byte, 5_byte) == "word=")
{
auto param = str.substr(5_byte);
if (param == "all" or param == "buffer")
return {InsertCompleterDesc::Word, param.str()};
}
else if (str == "filename")
return {InsertCompleterDesc::Filename, {}};
else if (str.substr(0_byte, 5_byte) == "line=")
{
auto param = str.substr(5_byte);
if (param == "all" or param == "buffer")
return {InsertCompleterDesc::Line, param.str()};
}
throw runtime_error(format("invalid completer description: '{}'", str));
}
namespace
{
template<bool other_buffers>
InsertCompletion complete_word(const SelectionList& sels,
const OptionManager& options,
const FaceRegistry& faces)
{
ConstArrayView<Codepoint> extra_word_chars = options["extra_word_chars"].get<Vector<Codepoint, MemoryDomain::Options>>();
auto is_word_pred = [extra_word_chars](Codepoint c) { return is_word(c, extra_word_chars); };
const Buffer& buffer = sels.buffer();
BufferCoord cursor_pos = sels.main().cursor();
using Utf8It = utf8::iterator<BufferIterator>;
Utf8It pos{buffer.iterator_at(cursor_pos), buffer};
if (pos == buffer.begin() or not is_word_pred(*(pos-1)))
return {};
BufferCoord word_begin;
StringView prefix;
HashMap<StringView, int> sel_word_counts;
for (int i = 0; i < sels.size(); ++i)
{
int len = 0;
auto is_short_enough_word = [&] (Codepoint c) { return len++ < WordDB::max_word_len && is_word_pred(c); };
2016-04-09 08:57:55 +02:00
Utf8It end{buffer.iterator_at(sels[i].cursor()), buffer};
Utf8It begin = end-1;
if (not skip_while_reverse(begin, buffer.begin(), is_short_enough_word) and
begin < end) // (begin might == end if end == buffer.begin())
++begin;
if (i == sels.main_index())
{
word_begin = begin.base().coord();
prefix = buffer.substr(word_begin, end.base().coord());
}
skip_while(end, buffer.end(), is_short_enough_word);
if (len <= WordDB::max_word_len)
{
StringView word = buffer.substr(begin.base().coord(), end.base().coord());
++sel_word_counts[word];
}
}
struct RankedMatchAndBuffer : RankedMatch
{
RankedMatchAndBuffer(RankedMatch m, const Buffer* b)
: RankedMatch{std::move(m)}, buffer{b} {}
using RankedMatch::operator==;
using RankedMatch::operator<;
2015-10-27 22:25:18 +01:00
bool operator==(StringView other) const { return candidate() == other; }
const Buffer* buffer;
};
auto& word_db = get_word_db(buffer);
2019-10-16 23:15:12 +02:00
Vector<RankedMatchAndBuffer> matches = word_db.find_matching(prefix)
| transform([&](auto& m) { return RankedMatchAndBuffer{m, &buffer}; })
| gather<Vector>();
// Remove words that are being edited
for (auto& word_count : sel_word_counts)
{
if (word_db.get_word_occurences(word_count.key) <= word_count.value)
unordered_erase(matches, word_count.key);
}
if (other_buffers)
{
for (const auto& buf : BufferManager::instance())
{
if (buf.get() == &buffer or buf->flags() & Buffer::Flags::Debug)
continue;
for (auto& m : get_word_db(*buf).find_matching(prefix) |
// filter out words that are not considered words for the current buffer
filter([&](auto& rm) {
auto&& c = rm.candidate();
return std::all_of(utf8::iterator{c.begin(), c},
utf8::iterator{c.end(), c},
is_word_pred); }))
matches.push_back({ m, buf.get() });
}
}
2016-03-14 14:38:46 +01:00
using StaticWords = Vector<String, MemoryDomain::Options>;
for (auto& word : options["static_words"].get<StaticWords>())
if (RankedMatch match{word, prefix})
matches.emplace_back(match, nullptr);
unordered_erase(matches, prefix);
const auto longest = accumulate(matches, 0_char,
[](const CharCount& lhs, const RankedMatchAndBuffer& rhs)
{ return std::max(lhs, rhs.candidate().char_length()); });
auto limit = [](StringView s, ColumnCount l) { return s.column_length() <= l ? s.str() : "" + s.substr(s.column_length() - (l + 1)); };
constexpr size_t max_count = 100;
// Gather best max_count matches
InsertCompletion::CandidateList candidates;
candidates.reserve(std::min(matches.size(), max_count));
for_n_best(matches, max_count, [](auto& lhs, auto& rhs) { return rhs < lhs; },
[&](RankedMatchAndBuffer& m) {
if (not candidates.empty() and candidates.back().completion == m.candidate())
return false;
DisplayLine menu_entry;
if (other_buffers && m.buffer)
{
const auto pad_len = longest + 1 - m.candidate().char_length();
menu_entry.push_back({ m.candidate().str(), {} });
menu_entry.push_back({ String{' ', pad_len}, {} });
menu_entry.push_back({ limit(m.buffer->display_name(), 20), faces["MenuInfo"] });
}
else
menu_entry.push_back({ m.candidate().str(), {} });
candidates.push_back({m.candidate().str(), "", std::move(menu_entry)});
return true;
});
return { std::move(candidates), word_begin, cursor_pos, buffer.timestamp() };
}
template<bool require_slash>
InsertCompletion complete_filename(const SelectionList& sels,
const OptionManager& options,
const FaceRegistry&)
{
const Buffer& buffer = sels.buffer();
auto pos = buffer.iterator_at(sels.main().cursor());
auto begin = pos;
auto is_filename = [](char c)
{
return isalnum(c) or c == '/' or c == '.' or c == '_' or c == '-';
};
while (begin != buffer.begin() and is_filename(*(begin-1)))
--begin;
if (begin != buffer.begin() and *begin == '/' and *(begin-1) == '~')
--begin;
StringView prefix = buffer.substr(begin.coord(), pos.coord());
if (require_slash and not contains(prefix, '/'))
return {};
// Do not try to complete in that case as its unlikely to be a filename,
// and triggers network host search of cygwin.
if (prefix.substr(0_byte, 2_byte) == "//")
return {};
InsertCompletion::CandidateList candidates;
if (prefix.front() == '/' or prefix.front() == '~')
{
for (auto& filename : Kakoune::complete_filename(prefix,
options["ignored_files"].get<Regex>()))
candidates.push_back({ filename, "", {filename, {}} });
}
else
{
Vector<String> visited_dirs;
for (auto dir : options["path"].get<StringList>())
{
dir = real_path(parse_filename(dir, (buffer.flags() & Buffer::Flags::File) ?
split_path(buffer.name()).first : StringView{}));
if (not dir.empty() and dir.back() != '/')
dir += '/';
if (contains(visited_dirs, dir))
continue;
for (auto& filename : Kakoune::complete_filename(dir + prefix,
options["ignored_files"].get<Regex>()))
{
StringView candidate = filename.substr(dir.length());
candidates.push_back({ candidate.str(), "", {candidate.str(), {}} });
}
visited_dirs.push_back(std::move(dir));
}
}
if (candidates.empty())
return {};
return { std::move(candidates), begin.coord(), pos.coord(), buffer.timestamp() };
}
InsertCompletion complete_option(const SelectionList& sels,
const OptionManager& options,
const FaceRegistry& faces,
StringView option_name)
{
const Buffer& buffer = sels.buffer();
BufferCoord cursor_pos = sels.main().cursor();
const CompletionList& opt = options[option_name].get<CompletionList>();
if (opt.list.empty())
return {};
auto& desc = opt.prefix;
static const Regex re(R"((\d+)\.(\d+)(?:\+(\d+))?@(\d+))");
MatchResults<String::const_iterator> match;
2020-10-12 03:41:52 +02:00
if (not regex_match(desc.begin(), desc.end(), match, re))
return {};
2014-11-17 21:15:54 +01:00
2020-10-12 03:41:52 +02:00
BufferCoord coord{str_to_int({match[1].first, match[1].second}) - 1,
str_to_int({match[2].first, match[2].second}) - 1};
if (not buffer.is_valid(coord))
return {};
size_t timestamp = (size_t)str_to_int({match[4].first, match[4].second});
auto changes = buffer.changes_since(timestamp);
if (any_of(changes, [&](auto&& change) { return change.begin < coord; }))
return {};
2020-10-12 03:41:52 +02:00
if (cursor_pos.line != coord.line or cursor_pos.column < coord.column)
return {};
2020-10-12 03:41:52 +02:00
const ColumnCount tabstop = options["tabstop"].get<int>();
const ColumnCount column = get_column(buffer, tabstop, cursor_pos);
2020-10-12 03:41:52 +02:00
struct RankedMatchAndInfo : RankedMatch
{
using RankedMatch::RankedMatch;
using RankedMatch::operator==;
using RankedMatch::operator<;
2020-10-12 03:41:52 +02:00
StringView on_select;
DisplayLine menu_entry;
};
2020-10-12 03:41:52 +02:00
StringView query = buffer.substr(coord, cursor_pos);
Vector<RankedMatchAndInfo> matches;
2020-10-12 03:41:52 +02:00
for (auto& candidate : opt.list)
{
if (RankedMatchAndInfo match{std::get<0>(candidate), query})
{
match.on_select = std::get<1>(candidate);
auto& menu = std::get<2>(candidate);
match.menu_entry = not menu.empty() ?
parse_display_line(expand_tabs(menu, tabstop, column), faces)
: DisplayLine{String{}, {}};
matches.push_back(std::move(match));
}
}
2020-10-12 03:41:52 +02:00
constexpr size_t max_count = 100;
// Gather best max_count matches
auto greater = [](auto& lhs, auto& rhs) { return rhs < lhs; };
auto first = matches.begin(), last = matches.end();
std::make_heap(first, last, greater);
InsertCompletion::CandidateList candidates;
candidates.reserve(std::min(matches.size(), max_count));
candidates.reserve(matches.size());
while (candidates.size() < max_count and first != last)
{
if (candidates.empty() or candidates.back().completion != first->candidate()
or candidates.back().on_select != first->on_select)
2020-10-12 03:41:52 +02:00
candidates.push_back({ first->candidate().str(), first->on_select.str(),
std::move(first->menu_entry) });
std::pop_heap(first, last--, greater);
}
auto end = cursor_pos;
if (match[3].matched)
{
ByteCount len = str_to_int({match[3].first, match[3].second});
end = buffer.advance(coord, len);
}
return { std::move(candidates), coord, end, timestamp };
}
template<bool other_buffers>
InsertCompletion complete_line(const SelectionList& sels,
const OptionManager& options,
const FaceRegistry&)
{
const Buffer& buffer = sels.buffer();
BufferCoord cursor_pos = sels.main().cursor();
const ColumnCount tabstop = options["tabstop"].get<int>();
const ColumnCount column = get_column(buffer, tabstop, cursor_pos);
auto trim_leading_whitespaces = [](StringView s) {
utf8::iterator it{s.begin(), s};
while (it != s.end() and is_horizontal_blank(*it))
++it;
return StringView{it.base(), s.end()};
};
StringView prefix = trim_leading_whitespaces(buffer[cursor_pos.line].substr(0_byte, cursor_pos.column));
BufferCoord replace_begin = buffer.advance(cursor_pos, -prefix.length());
InsertCompletion::CandidateList candidates;
auto add_candidates = [&](const Buffer& buf) {
for (LineCount l = 0_line; l < buf.line_count(); ++l)
{
if (buf.name() == buffer.name() && l == cursor_pos.line)
continue;
StringView line = buf[l];
StringView candidate = trim_leading_whitespaces(line.substr(0_byte, line.length()-1));
if (candidate.length() == 0)
continue;
if (prefix == candidate.substr(0_byte, prefix.length()))
{
candidates.push_back({candidate.str(), "", {expand_tabs(candidate, tabstop, column), {}} });
// perf: it's unlikely the user intends to search among >10 candidates anyway
if (candidates.size() == 100)
break;
}
}
};
add_candidates(buffer);
if (other_buffers)
{
for (const auto& buf : BufferManager::instance())
{
if (buf.get() != &buffer and not (buf->flags() & Buffer::Flags::Debug))
add_candidates(*buf);
}
}
if (candidates.empty())
return {};
std::sort(candidates.begin(), candidates.end());
candidates.erase(std::unique(candidates.begin(), candidates.end()), candidates.end());
return { std::move(candidates), replace_begin, cursor_pos, buffer.timestamp() };
}
}
InsertCompleter::InsertCompleter(Context& context)
: m_context(context), m_options(context.options()), m_faces(context.faces())
2014-11-02 17:04:24 +01:00
{
m_options.register_watcher(*this);
2014-11-02 17:04:24 +01:00
}
InsertCompleter::~InsertCompleter()
{
m_options.unregister_watcher(*this);
2014-11-02 17:04:24 +01:00
}
void InsertCompleter::select(int index, bool relative, Vector<Key>& keystrokes)
{
m_enabled = true;
if (not setup_ifn())
return;
auto& buffer = m_context.buffer();
m_current_candidate = (relative ? m_current_candidate + index : index) % (int)m_completions.candidates.size();
if (m_current_candidate < 0)
m_current_candidate += m_completions.candidates.size();
const InsertCompletion::Candidate& candidate = m_completions.candidates[m_current_candidate];
auto& selections = m_context.selections();
const auto& cursor_pos = selections.main().cursor();
const auto prefix_len = buffer.distance(m_completions.begin, cursor_pos);
const auto suffix_len = std::max(0_byte, buffer.distance(cursor_pos, m_completions.end));
auto ref = buffer.string(m_completions.begin, m_completions.end);
Vector<BufferRange> ranges;
for (auto& sel : selections)
{
auto pos = buffer.iterator_at(sel.cursor());
if (pos.coord().column >= prefix_len and (pos + suffix_len) != buffer.end() and std::equal(ref.begin(), ref.end(), pos - prefix_len))
ranges.push_back({(pos - prefix_len).coord(), (pos + suffix_len).coord()});
}
replace(buffer, ranges, candidate.completion);
selections.update();
2014-05-31 19:18:29 +02:00
m_completions.end = cursor_pos;
m_completions.begin = buffer.advance(cursor_pos, -candidate.completion.length());
m_completions.timestamp = buffer.timestamp();
m_inserted_ranges = std::move(ranges);
if (m_context.has_client())
{
m_context.client().menu_select(m_current_candidate);
}
for (auto i = 0_byte; i < prefix_len; ++i)
keystrokes.emplace_back(Key::Backspace);
for (auto i = 0_byte; i < suffix_len; ++i)
keystrokes.emplace_back(Key::Delete);
for (auto& c : candidate.completion)
keystrokes.emplace_back(c);
if (not candidate.on_select.empty())
CommandManager::instance().execute(candidate.on_select, m_context);
}
void InsertCompleter::update(bool allow_implicit)
{
m_enabled = allow_implicit;
if (m_explicit_completer and try_complete(m_explicit_completer))
return;
reset();
setup_ifn();
}
auto& get_first(BufferRange& range) { return range.begin; }
auto& get_last(BufferRange& range) { return range.end; }
bool InsertCompleter::has_candidate_selected() const
{
return m_current_candidate >= 0 and m_current_candidate < m_completions.candidates.size() - 1;
}
Run InsertCompletionHide hook before insertions that close completion menu Insert mode completions are accepted by typing any key. For example, if there is a completion "somefunction()", then typing some<c-n>; will insert somefunction(); and then the InsertCompletionHide hook will fire. The hook parameter is a range that contains the entire thing: the actual completion plus the trailing semicolon that closed the completion menu. The [original motivation] for the hook parameter was to support removing text inserted by completion, so we can apply text edits or expand snippets instead. One problem is that we don't want to remove the semicolon. Another problem came up in a discussion about [snippets]: let's say we have a snippet "add" that expands to add(?, ?) where ? are placeholders. After snippet expansion the cursor replaces the first placeholder. If I type "ad<c-n>1" I expect to get "add(1, ?)". If the InsertCompletionHide hook only runs after processing the "1" keystroke, this is not possible without evil hacks. Fix these problems by running InsertCompletionHide when a completion is accepted _before_ inserting anything else into the buffer. This should make it much easier to fully implement [LSP text edits]. I doubt that anyone besides kak-lsp is using the hook parameter today so this should be a low-risk fix. [original motivation]: https://github.com/mawww/kakoune/issues/2898 [snippets]: https://github.com/kak-lsp/kak-lsp/pull/616#discussion_r883208858 [LSP text edits]: https://github.com/kak-lsp/kak-lsp/issues/40
2022-05-29 08:06:48 +02:00
void InsertCompleter::try_accept()
{
if (m_completions.is_valid() and m_context.has_client() and has_candidate_selected())
Run InsertCompletionHide hook before insertions that close completion menu Insert mode completions are accepted by typing any key. For example, if there is a completion "somefunction()", then typing some<c-n>; will insert somefunction(); and then the InsertCompletionHide hook will fire. The hook parameter is a range that contains the entire thing: the actual completion plus the trailing semicolon that closed the completion menu. The [original motivation] for the hook parameter was to support removing text inserted by completion, so we can apply text edits or expand snippets instead. One problem is that we don't want to remove the semicolon. Another problem came up in a discussion about [snippets]: let's say we have a snippet "add" that expands to add(?, ?) where ? are placeholders. After snippet expansion the cursor replaces the first placeholder. If I type "ad<c-n>1" I expect to get "add(1, ?)". If the InsertCompletionHide hook only runs after processing the "1" keystroke, this is not possible without evil hacks. Fix these problems by running InsertCompletionHide when a completion is accepted _before_ inserting anything else into the buffer. This should make it much easier to fully implement [LSP text edits]. I doubt that anyone besides kak-lsp is using the hook parameter today so this should be a low-risk fix. [original motivation]: https://github.com/mawww/kakoune/issues/2898 [snippets]: https://github.com/kak-lsp/kak-lsp/pull/616#discussion_r883208858 [LSP text edits]: https://github.com/kak-lsp/kak-lsp/issues/40
2022-05-29 08:06:48 +02:00
reset();
}
void InsertCompleter::reset()
{
if (not m_explicit_completer and not m_completions.is_valid())
return;
String hook_param;
if (m_context.has_client() and has_candidate_selected())
{
auto& buffer = m_context.buffer();
update_ranges(buffer, m_completions.timestamp, m_inserted_ranges);
m_completions.timestamp = buffer.timestamp();
hook_param = join(m_inserted_ranges | filter([](auto&& r) { return not r.empty(); }) | transform([&](auto&& r) {
return selection_to_string(ColumnType::Byte, buffer, {r.begin, buffer.char_prev(r.end)});
}), ' ');
}
m_explicit_completer = nullptr;
m_completions = InsertCompletion{};
m_inserted_ranges.clear();
if (m_context.has_client())
{
m_context.client().menu_hide();
m_context.client().info_hide();
m_context.hooks().run_hook(Hook::InsertCompletionHide, hook_param, m_context);
}
}
bool InsertCompleter::setup_ifn()
{
if (!m_enabled)
return false;
using namespace std::placeholders;
if (not m_completions.is_valid())
{
auto& completers = m_options["completers"].get<InsertCompleterDescList>();
for (auto& completer : completers)
{
if (completer.mode == InsertCompleterDesc::Filename and
try_complete(complete_filename<true>))
return true;
if (completer.mode == InsertCompleterDesc::Option and
try_complete([&](const SelectionList& sels,
const OptionManager& options,
const FaceRegistry& faces) {
return complete_option(sels, options, faces, *completer.param);
}))
return true;
if (completer.mode == InsertCompleterDesc::Word and
*completer.param == "buffer" and
try_complete(complete_word<false>))
return true;
if (completer.mode == InsertCompleterDesc::Word and
*completer.param == "all" and
try_complete(complete_word<true>))
return true;
if (completer.mode == InsertCompleterDesc::Line and
*completer.param == "buffer" and
try_complete(complete_line<false>))
return true;
if (completer.mode == InsertCompleterDesc::Line and
*completer.param == "all" and
try_complete(complete_line<true>))
return true;
}
return false;
}
return true;
}
void InsertCompleter::menu_show()
{
if (not m_context.has_client())
return;
2015-10-05 02:25:23 +02:00
Vector<DisplayLine> menu_entries;
for (auto& candidate : m_completions.candidates)
menu_entries.push_back(candidate.menu_entry);
m_context.client().menu_show(std::move(menu_entries), m_completions.begin,
MenuStyle::Inline);
m_context.client().menu_select(m_current_candidate);
m_context.hooks().run_hook(Hook::InsertCompletionShow, "", m_context);
}
void InsertCompleter::on_option_changed(const Option& opt)
{
// Do not reset the menu if the user has selected an entry
if (not m_completions.candidates.empty() and
m_current_candidate != m_completions.candidates.size() - 1)
return;
2019-11-02 21:49:26 +01:00
const auto& completers = m_options["completers"].get<InsertCompleterDescList>();
for (auto& completer : completers)
{
if (completer.mode == InsertCompleterDesc::Option and
*completer.param == opt.name())
{
reset();
setup_ifn();
break;
}
}
}
template<typename Func>
bool InsertCompleter::try_complete(Func complete_func)
{
auto& sels = m_context.selections();
try
{
reset();
m_completions = complete_func(sels, m_options, m_faces);
}
catch (runtime_error& e)
{
write_to_debug_buffer(format("error while trying to run completer: {}", e.what()));
return false;
}
if (not m_completions.is_valid())
return false;
kak_assert(m_completions.begin <= sels.main().cursor());
m_current_candidate = m_completions.candidates.size();
menu_show();
m_completions.candidates.push_back({sels.buffer().string(m_completions.begin, m_completions.end), "", {}});
return true;
}
void InsertCompleter::explicit_file_complete()
{
try_complete(complete_filename<false>);
m_explicit_completer = complete_filename<false>;
}
void InsertCompleter::explicit_word_buffer_complete()
{
try_complete(complete_word<false>);
m_explicit_completer = complete_word<false>;
}
void InsertCompleter::explicit_word_all_complete()
{
try_complete(complete_word<true>);
m_explicit_completer = complete_word<true>;
}
void InsertCompleter::explicit_line_buffer_complete()
{
try_complete(complete_line<false>);
m_explicit_completer = complete_line<false>;
}
void InsertCompleter::explicit_line_all_complete()
{
try_complete(complete_line<true>);
m_explicit_completer = complete_line<true>;
}
}