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kakoune/src/highlighters.cc

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#include "highlighters.hh"
#include "assert.hh"
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#include "buffer_utils.hh"
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#include "context.hh"
#include "containers.hh"
#include "display_buffer.hh"
#include "face_registry.hh"
#include "highlighter_group.hh"
#include "line_modification.hh"
#include "option_types.hh"
#include "parameters_parser.hh"
#include "register_manager.hh"
#include "string.hh"
#include "utf8.hh"
#include "utf8_iterator.hh"
#include <sstream>
#include <locale>
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namespace Kakoune
{
using namespace std::placeholders;
template<typename T>
void highlight_range(DisplayBuffer& display_buffer,
ByteCoord begin, ByteCoord end,
bool skip_replaced, T func)
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{
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if (begin == end or end <= display_buffer.range().first
or begin >= display_buffer.range().second)
return;
for (auto& line : display_buffer.lines())
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{
auto& range = line.range();
if (range.second <= begin or end < range.first)
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continue;
for (auto atom_it = line.begin(); atom_it != line.end(); ++atom_it)
{
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bool is_replaced = atom_it->type() == DisplayAtom::ReplacedBufferRange;
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if (not atom_it->has_buffer_range() or
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(skip_replaced and is_replaced))
continue;
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if (end <= atom_it->begin() or begin >= atom_it->end())
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continue;
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if (not is_replaced and begin > atom_it->begin())
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atom_it = ++line.split(atom_it, begin);
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if (not is_replaced and end < atom_it->end())
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{
atom_it = line.split(atom_it, end);
func(*atom_it);
++atom_it;
}
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else
func(*atom_it);
}
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}
}
void apply_highlighter(const Context& context,
HighlightFlags flags,
DisplayBuffer& display_buffer,
ByteCoord begin, ByteCoord end,
Highlighter& highlighter)
{
using LineIterator = DisplayBuffer::LineList::iterator;
LineIterator first_line;
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Vector<DisplayLine::iterator> insert_pos;
auto line_end = display_buffer.lines().end();
DisplayBuffer region_display;
auto& region_lines = region_display.lines();
for (auto line_it = display_buffer.lines().begin(); line_it != line_end; ++line_it)
{
auto& line = *line_it;
auto& range = line.range();
if (range.second <= begin or end <= range.first)
continue;
if (region_lines.empty())
first_line = line_it;
region_lines.emplace_back();
insert_pos.emplace_back();
if (range.first < begin or range.second > end)
{
size_t beg_idx = 0;
size_t end_idx = line.atoms().size();
for (auto atom_it = line.begin(); atom_it != line.end(); ++atom_it)
{
if (not atom_it->has_buffer_range() or end <= atom_it->begin() or begin >= atom_it->end())
continue;
bool is_replaced = atom_it->type() == DisplayAtom::ReplacedBufferRange;
if (atom_it->begin() <= begin)
{
if (is_replaced or atom_it->begin() == begin)
beg_idx = atom_it - line.begin();
else
{
atom_it = ++line.split(atom_it, begin);
beg_idx = atom_it - line.begin();
++end_idx;
}
}
if (atom_it->end() >= end)
{
if (is_replaced or atom_it->end() == end)
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end_idx = atom_it - line.begin() + 1;
else
{
atom_it = ++line.split(atom_it, end);
end_idx = atom_it - line.begin();
}
}
}
std::move(line.begin() + beg_idx, line.begin() + end_idx,
std::back_inserter(region_lines.back()));
insert_pos.back() = line.erase(line.begin() + beg_idx, line.begin() + end_idx);
}
else
{
region_lines.back() = std::move(line);
insert_pos.back() = line.begin();
}
}
region_display.compute_range();
highlighter.highlight(context, flags, region_display, {begin, end});
for (size_t i = 0; i < region_lines.size(); ++i)
{
auto& line = *(first_line + i);
auto pos = insert_pos[i];
for (auto& atom : region_lines[i])
pos = ++line.insert(pos, std::move(atom));
}
display_buffer.compute_range();
}
auto apply_face = [](const Face& face)
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{
return [&face](DisplayAtom& atom) {
if (face.fg != Colors::Default)
atom.face.fg = face.fg;
if (face.bg != Colors::Default)
atom.face.bg = face.bg;
if (face.attributes != Attribute::Normal)
atom.face.attributes |= face.attributes;
};
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};
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using FacesSpec = Vector<String, MemoryDomain::Highlight>;
static HighlighterAndId create_fill_highlighter(HighlighterParameters params)
{
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if (params.size() != 1)
throw runtime_error("wrong parameter count");
const String& facespec = params[0];
get_face(facespec); // validate param
auto func = [=](const Context& context, HighlightFlags flags,
DisplayBuffer& display_buffer, BufferRange range)
{
highlight_range(display_buffer, range.first, range.second, true,
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apply_face(get_face(facespec)));
};
return {"fill_" + facespec, make_simple_highlighter(std::move(func))};
}
template<typename T>
struct BufferSideCache
{
BufferSideCache() : m_id{ValueId::get_free_id()} {}
T& get(const Buffer& buffer)
{
Value& cache_val = buffer.values()[m_id];
if (not cache_val)
cache_val = Value(T{});
return cache_val.as<T>();
}
private:
ValueId m_id;
};
class RegexHighlighter : public Highlighter
{
public:
RegexHighlighter(Regex regex, FacesSpec faces)
: m_regex{std::move(regex)}, m_faces{std::move(faces)}
{
}
void highlight(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange) override
{
if (flags != HighlightFlags::Highlight)
return;
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Vector<Optional<Face>> faces(m_faces.size());
auto& cache = update_cache_ifn(context.buffer(), display_buffer.range());
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for (auto& match : cache.m_matches)
{
for (size_t n = 0; n < match.size(); ++n)
{
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if (n >= m_faces.size() or m_faces[n].empty())
continue;
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if (not faces[n])
faces[n] = get_face(m_faces[n]);
highlight_range(display_buffer, match[n].first, match[n].second, true,
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apply_face(*faces[n]));
}
}
}
void reset(Regex regex, FacesSpec faces)
{
m_regex = std::move(regex);
m_faces = std::move(faces);
m_force_update = true;
}
static HighlighterAndId create(HighlighterParameters params)
{
if (params.size() < 2)
throw runtime_error("wrong parameter count");
try
{
static Regex face_spec_ex(R"((\d+):(.*))");
FacesSpec faces;
for (auto it = params.begin() + 1; it != params.end(); ++it)
{
MatchResults<String::const_iterator> res;
if (not regex_match(it->begin(), it->end(), res, face_spec_ex))
throw runtime_error("wrong face spec: '" + *it +
"' expected <capture>:<facespec>");
get_face(res[2].str()); // throw if wrong face spec
int capture = str_to_int(res[1].str());
if (capture >= faces.size())
faces.resize(capture+1);
faces[capture] = res[2].str();
}
String id = "hlregex'" + params[0] + "'";
Regex ex{params[0].begin(), params[0].end(), Regex::optimize};
return {id, make_unique<RegexHighlighter>(std::move(ex),
std::move(faces))};
}
catch (RegexError& err)
{
throw runtime_error(String("regex error: ") + err.what());
}
}
private:
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struct Cache
{
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std::pair<LineCount, LineCount> m_range;
size_t m_timestamp = 0;
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Vector<Vector<BufferRange, MemoryDomain::Highlight>, MemoryDomain::Highlight> m_matches;
};
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BufferSideCache<Cache> m_cache;
Regex m_regex;
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FacesSpec m_faces;
bool m_force_update = false;
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Cache& update_cache_ifn(const Buffer& buffer, const BufferRange& range)
{
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Cache& cache = m_cache.get(buffer);
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LineCount first_line = range.first.line;
LineCount last_line = std::min(buffer.line_count()-1, range.second.line);
if (not m_force_update and
buffer.timestamp() == cache.m_timestamp and
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first_line >= cache.m_range.first and
last_line <= cache.m_range.second)
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return cache;
m_force_update = false;
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cache.m_range.first = std::max(0_line, first_line - 10);
cache.m_range.second = std::min(buffer.line_count()-1, last_line+10);
cache.m_timestamp = buffer.timestamp();
cache.m_matches.clear();
using RegexIt = RegexIterator<BufferIterator>;
RegexIt re_it{buffer.iterator_at(cache.m_range.first),
buffer.iterator_at(cache.m_range.second+1), m_regex};
RegexIt re_end;
for (; re_it != re_end; ++re_it)
{
cache.m_matches.emplace_back();
auto& match = cache.m_matches.back();
for (auto& sub : *re_it)
match.emplace_back(sub.first.coord(), sub.second.coord());
}
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return cache;
}
};
template<typename RegexGetter, typename FaceGetter>
class DynamicRegexHighlighter : public Highlighter
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{
public:
DynamicRegexHighlighter(RegexGetter regex_getter, FaceGetter face_getter)
: m_regex_getter(std::move(regex_getter)),
m_face_getter(std::move(face_getter)),
m_highlighter(Regex(), FacesSpec{}) {}
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void highlight(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange range)
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{
if (flags != HighlightFlags::Highlight)
return;
Regex regex = m_regex_getter(context);
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FacesSpec face = m_face_getter(context);
if (regex != m_last_regex or face != m_last_face)
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{
m_last_regex = regex;
m_last_face = face;
if (not m_last_regex.empty())
m_highlighter.reset(m_last_regex, m_last_face);
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}
if (not m_last_regex.empty() and not m_last_face.empty())
m_highlighter.highlight(context, flags, display_buffer, range);
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}
private:
Regex m_last_regex;
RegexGetter m_regex_getter;
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FacesSpec m_last_face;
FaceGetter m_face_getter;
RegexHighlighter m_highlighter;
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};
template<typename RegexGetter, typename FaceGetter>
std::unique_ptr<DynamicRegexHighlighter<RegexGetter, FaceGetter>>
make_dynamic_regex_highlighter(RegexGetter regex_getter, FaceGetter face_getter)
{
return make_unique<DynamicRegexHighlighter<RegexGetter, FaceGetter>>(
std::move(regex_getter), std::move(face_getter));
}
HighlighterAndId create_search_highlighter(HighlighterParameters params)
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{
if (params.size() != 0)
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throw runtime_error("wrong parameter count");
auto get_face = [](const Context& context){
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return FacesSpec{ { "Search" } };
};
auto get_regex = [](const Context&){
auto s = Context().main_sel_register_value("/");
try
{
return s.empty() ? Regex{} : Regex{s.begin(), s.end()};
}
catch (RegexError& err)
{
return Regex{};
}
};
return {"hlsearch", make_dynamic_regex_highlighter(get_regex, get_face)};
}
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HighlighterAndId create_regex_option_highlighter(HighlighterParameters params)
{
if (params.size() != 2)
throw runtime_error("wrong parameter count");
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String facespec = params[1];
auto get_face = [=](const Context&){
return FacesSpec{ { facespec } };
};
String option_name = params[0];
// verify option type now
GlobalScope::instance().options()[option_name].get<Regex>();
auto get_regex = [option_name](const Context& context){
return context.options()[option_name].get<Regex>();
};
return {"hloption_" + option_name, make_dynamic_regex_highlighter(get_regex, get_face)};
}
HighlighterAndId create_line_option_highlighter(HighlighterParameters params)
{
if (params.size() != 2)
throw runtime_error("wrong parameter count");
String facespec = params[1];
String option_name = params[0];
get_face(facespec); // validate facespec
GlobalScope::instance().options()[option_name].get<int>(); // verify option type now
auto func = [=](const Context& context, HighlightFlags flags,
DisplayBuffer& display_buffer, BufferRange)
{
int line = context.options()[option_name].get<int>();
highlight_range(display_buffer, {line-1, 0}, {line, 0}, false,
apply_face(get_face(facespec)));
};
return {"hlline_" + params[0], make_simple_highlighter(std::move(func))};
}
void expand_tabulations(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
{
const int tabstop = context.options()["tabstop"].get<int>();
auto& buffer = context.buffer();
for (auto& line : display_buffer.lines())
{
for (auto atom_it = line.begin(); atom_it != line.end(); ++atom_it)
{
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if (atom_it->type() != DisplayAtom::BufferRange)
continue;
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auto begin = buffer.iterator_at(atom_it->begin());
auto end = buffer.iterator_at(atom_it->end());
for (BufferIterator it = begin; it != end; ++it)
{
if (*it == '\t')
{
if (it != begin)
atom_it = ++line.split(atom_it, it.coord());
if (it+1 != end)
atom_it = line.split(atom_it, (it+1).coord());
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int column = (int)get_column(buffer, tabstop, it.coord());
int count = tabstop - (column % tabstop);
String padding;
for (int i = 0; i < count; ++i)
padding += ' ';
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atom_it->replace(padding);
break;
}
}
}
}
}
void show_whitespaces(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
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{
const int tabstop = context.options()["tabstop"].get<int>();
auto& buffer = context.buffer();
for (auto& line : display_buffer.lines())
{
for (auto atom_it = line.begin(); atom_it != line.end(); ++atom_it)
{
if (atom_it->type() != DisplayAtom::BufferRange)
continue;
auto begin = buffer.iterator_at(atom_it->begin());
auto end = buffer.iterator_at(atom_it->end());
for (BufferIterator it = begin; it != end; ++it)
{
auto c = *it;
if (c == '\t' or c == ' ' or c == '\n')
{
if (it != begin)
atom_it = ++line.split(atom_it, it.coord());
if (it+1 != end)
atom_it = line.split(atom_it, (it+1).coord());
if (c == '\t')
{
int column = (int)get_column(buffer, tabstop, it.coord());
int count = tabstop - (column % tabstop);
String padding = "";
for (int i = 0; i < count-1; ++i)
padding += ' ';
atom_it->replace(padding);
}
else if (c == ' ')
atom_it->replace("·");
else if (c == '\n')
atom_it->replace("¬");
break;
}
}
}
}
}
void show_line_numbers(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
{
LineCount last_line = context.buffer().line_count();
int digit_count = 0;
for (LineCount c = last_line; c > 0; c /= 10)
++digit_count;
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char format[] = "%?d│";
format[1] = '0' + digit_count;
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const Face face = get_face("LineNumbers");
for (auto& line : display_buffer.lines())
{
char buffer[10];
snprintf(buffer, 10, format, (int)line.range().first.line + 1);
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DisplayAtom atom{buffer};
atom.face = face;
line.insert(line.begin(), std::move(atom));
}
}
void show_matching_char(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
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{
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const Face face = get_face("MatchingChar");
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using CodepointPair = std::pair<Codepoint, Codepoint>;
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static const CodepointPair matching_chars[] = { { '(', ')' }, { '{', '}' }, { '[', ']' }, { '<', '>' } };
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const auto range = display_buffer.range();
const auto& buffer = context.buffer();
for (auto& sel : context.selections())
{
auto pos = sel.cursor();
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if (pos < range.first or pos >= range.second)
continue;
auto c = buffer.byte_at(pos);
for (auto& pair : matching_chars)
{
int level = 1;
if (c == pair.first)
{
auto it = buffer.iterator_at(pos)+1;
auto end = buffer.iterator_at(range.second);
skip_while(it, end, [&](char c) {
if (c == pair.first)
++level;
else if (c == pair.second and --level == 0)
return false;
return true;
});
if (it != end)
highlight_range(display_buffer, it.coord(), (it+1).coord(), false,
apply_face(face));
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break;
}
else if (c == pair.second and pos > range.first)
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{
auto it = buffer.iterator_at(pos)-1;
auto end = buffer.iterator_at(range.first);
skip_while_reverse(it, end, [&](char c) {
if (c == pair.second)
++level;
else if (c == pair.first and --level == 0)
return false;
return true;
});
if (it != end or (*end == pair.first and level == 1))
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highlight_range(display_buffer, it.coord(), (it+1).coord(), false,
apply_face(face));
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break;
}
}
}
}
void highlight_selections(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
{
if (flags != HighlightFlags::Highlight)
return;
const auto& buffer = context.buffer();
for (size_t i = 0; i < context.selections().size(); ++i)
{
auto& sel = context.selections()[i];
const bool forward = sel.anchor() <= sel.cursor();
ByteCoord begin = forward ? sel.anchor() : buffer.char_next(sel.cursor());
ByteCoord end = forward ? (ByteCoord)sel.cursor() : buffer.char_next(sel.anchor());
const bool primary = (i == context.selections().main_index());
Face sel_face = get_face(primary ? "PrimarySelection" : "SecondarySelection");
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highlight_range(display_buffer, begin, end, false,
apply_face(sel_face));
}
for (size_t i = 0; i < context.selections().size(); ++i)
{
auto& sel = context.selections()[i];
const bool primary = (i == context.selections().main_index());
Face cur_face = get_face(primary ? "PrimaryCursor" : "SecondaryCursor");
highlight_range(display_buffer, sel.cursor(), buffer.char_next(sel.cursor()), false,
apply_face(cur_face));
}
}
void expand_unprintable(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange)
{
auto& buffer = context.buffer();
for (auto& line : display_buffer.lines())
{
for (auto atom_it = line.begin(); atom_it != line.end(); ++atom_it)
{
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if (atom_it->type() == DisplayAtom::BufferRange)
{
for (auto it = buffer.iterator_at(atom_it->begin()),
end = buffer.iterator_at(atom_it->end()); it < end;)
{
Codepoint cp = utf8::codepoint<utf8::InvalidPolicy::Pass>(it, end);
auto next = utf8::next(it, end);
if (cp != '\n' and not iswprint(cp))
{
std::ostringstream oss;
oss << "U+" << std::hex << cp;
String str = oss.str();
if (it.coord() != atom_it->begin())
atom_it = ++line.split(atom_it, it.coord());
if (next.coord() < atom_it->end())
atom_it = line.split(atom_it, next.coord());
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atom_it->replace(str);
atom_it->face = { Colors::Red, Colors::Black };
break;
}
it = next;
}
}
}
}
}
HighlighterAndId create_flag_lines_highlighter(HighlighterParameters params)
{
if (params.size() != 2)
throw runtime_error("wrong parameter count");
const String& option_name = params[1];
Color bg = str_to_color(params[0]);
// throw if wrong option type
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GlobalScope::instance().options()[option_name].get<Vector<LineAndFlag, MemoryDomain::Options>>();
auto func = [=](const Context& context, HighlightFlags flags,
DisplayBuffer& display_buffer, BufferRange)
{
auto& lines_opt = context.options()[option_name];
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auto& lines = lines_opt.get<Vector<LineAndFlag, MemoryDomain::Options>>();
CharCount width = 0;
for (auto& l : lines)
width = std::max(width, std::get<2>(l).char_length());
const String empty{' ', width};
for (auto& line : display_buffer.lines())
{
int line_num = (int)line.range().first.line + 1;
auto it = find_if(lines,
[&](const LineAndFlag& l)
{ return std::get<0>(l) == line_num; });
String content = it != lines.end() ? std::get<2>(*it) : empty;
content += String(' ', width - content.char_length());
DisplayAtom atom{std::move(content)};
atom.face = { it != lines.end() ? std::get<1>(*it) : Colors::Default , bg };
line.insert(line.begin(), std::move(atom));
}
};
return {"hlflags_" + params[1], make_simple_highlighter(func) };
}
HighlighterAndId create_highlighter_group(HighlighterParameters params)
{
if (params.size() != 1)
throw runtime_error("wrong parameter count");
return HighlighterAndId(params[0], make_unique<HighlighterGroup>());
}
HighlighterAndId create_reference_highlighter(HighlighterParameters params)
{
if (params.size() != 1)
throw runtime_error("wrong parameter count");
const String& name = params[0];
// throw if not found
//DefinedHighlighters::instance().get_group(name, '/');
auto func = [=](const Context& context, HighlightFlags flags,
DisplayBuffer& display_buffer, BufferRange range)
{
try
{
DefinedHighlighters::instance().get_child(name).highlight(context, flags, display_buffer, range);
}
catch (child_not_found&)
{}
};
return {name, make_simple_highlighter(func)};
}
struct RegexMatch
{
size_t timestamp;
LineCount line;
ByteCount begin;
ByteCount end;
ByteCoord begin_coord() const { return { line, begin }; }
ByteCoord end_coord() const { return { line, end }; }
};
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using RegexMatchList = Vector<RegexMatch, MemoryDomain::Highlight>;
void find_matches(const Buffer& buffer, RegexMatchList& matches, const Regex& regex)
{
const size_t buf_timestamp = buffer.timestamp();
for (auto line = 0_line, end = buffer.line_count(); line < end; ++line)
{
auto l = buffer[line];
for (RegexIterator<const char*> it{l.begin(), l.end(), regex}, end{}; it != end; ++it)
{
ByteCount b = (int)((*it)[0].first - l.begin());
ByteCount e = (int)((*it)[0].second - l.begin());
matches.push_back({ buf_timestamp, line, b, e });
}
}
}
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void update_matches(const Buffer& buffer, ArrayView<LineModification> modifs,
RegexMatchList& matches, const Regex& regex)
{
const size_t buf_timestamp = buffer.timestamp();
// remove out of date matches and update line for others
auto ins_pos = matches.begin();
for (auto it = ins_pos; it != matches.end(); ++it)
{
auto modif_it = std::upper_bound(modifs.begin(), modifs.end(), it->line,
[](const LineCount& l, const LineModification& c)
{ return l < c.old_line; });
bool erase = false;
if (modif_it != modifs.begin())
{
auto& prev = *(modif_it-1);
erase = it->line < prev.old_line + prev.num_removed;
it->line += prev.diff();
}
if (not erase)
{
it->timestamp = buf_timestamp;
kak_assert(buffer.is_valid(it->begin_coord()) or
buffer[it->line].length() == it->begin);
kak_assert(buffer.is_valid(it->end_coord()) or
buffer[it->line].length() == it->end);
if (ins_pos != it)
*ins_pos = std::move(*it);
++ins_pos;
}
}
matches.erase(ins_pos, matches.end());
size_t pivot = matches.size();
// try to find new matches in each updated lines
for (auto& modif : modifs)
{
for (auto line = modif.new_line; line < modif.new_line + modif.num_added; ++line)
{
auto l = buffer[line];
for (RegexIterator<const char*> it{l.begin(), l.end(), regex}, end{}; it != end; ++it)
{
ByteCount b = (int)((*it)[0].first - l.begin());
ByteCount e = (int)((*it)[0].second - l.begin());
matches.push_back({ buf_timestamp, line, b, e });
}
}
}
std::inplace_merge(matches.begin(), matches.begin() + pivot, matches.end(),
[](const RegexMatch& lhs, const RegexMatch& rhs) {
return lhs.begin_coord() < rhs.begin_coord();
});
}
struct RegionMatches
{
RegexMatchList begin_matches;
RegexMatchList end_matches;
RegexMatchList recurse_matches;
static bool compare_to_begin(const RegexMatch& lhs, ByteCoord rhs)
{
return lhs.begin_coord() < rhs;
}
RegexMatchList::const_iterator find_next_begin(ByteCoord pos) const
{
return std::lower_bound(begin_matches.begin(), begin_matches.end(),
pos, compare_to_begin);
}
RegexMatchList::const_iterator find_matching_end(ByteCoord beg_pos) const
{
auto end_it = end_matches.begin();
auto rec_it = recurse_matches.begin();
int recurse_level = 0;
while (true)
{
end_it = std::lower_bound(end_it, end_matches.end(),
beg_pos, compare_to_begin);
rec_it = std::lower_bound(rec_it, recurse_matches.end(),
beg_pos, compare_to_begin);
if (end_it == end_matches.end())
return end_it;
while (rec_it != recurse_matches.end() and
rec_it->end_coord() < end_it->begin_coord())
{
++recurse_level;
++rec_it;
}
if (recurse_level == 0)
return end_it;
--recurse_level;
beg_pos = end_it->end_coord();
}
}
};
struct RegionDesc
{
Regex m_begin;
Regex m_end;
Regex m_recurse;
RegionMatches find_matches(const Buffer& buffer) const
{
RegionMatches res;
Kakoune::find_matches(buffer, res.begin_matches, m_begin);
Kakoune::find_matches(buffer, res.end_matches, m_end);
if (not m_recurse.empty())
Kakoune::find_matches(buffer, res.recurse_matches, m_recurse);
return res;
}
void update_matches(const Buffer& buffer,
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ArrayView<LineModification> modifs,
RegionMatches& matches) const
{
Kakoune::update_matches(buffer, modifs, matches.begin_matches, m_begin);
Kakoune::update_matches(buffer, modifs, matches.end_matches, m_end);
if (not m_recurse.empty())
Kakoune::update_matches(buffer, modifs, matches.recurse_matches, m_recurse);
}
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};
struct RegionsHighlighter : public Highlighter
{
public:
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using NamedRegionDescList = Vector<std::pair<String, RegionDesc>, MemoryDomain::Highlight>;
RegionsHighlighter(NamedRegionDescList regions, String default_group)
: m_regions{std::move(regions)}, m_default_group{std::move(default_group)}
{
if (m_regions.empty())
throw runtime_error("at least one region must be defined");
for (auto& region : m_regions)
{
m_groups.append({region.first, HighlighterGroup{}});
if (region.second.m_begin.empty() or region.second.m_end.empty())
throw runtime_error("invalid regex for region highlighter");
}
if (not m_default_group.empty())
m_groups.append({m_default_group, HighlighterGroup{}});
}
void highlight(const Context& context, HighlightFlags flags, DisplayBuffer& display_buffer, BufferRange range)
{
if (flags != HighlightFlags::Highlight)
return;
auto display_range = display_buffer.range();
const auto& buffer = context.buffer();
auto& regions = get_regions_for_range(buffer, range);
auto begin = std::lower_bound(regions.begin(), regions.end(), display_range.first,
[](const Region& r, ByteCoord c) { return r.end < c; });
auto end = std::lower_bound(begin, regions.end(), display_range.second,
[](const Region& r, ByteCoord c) { return r.begin < c; });
auto correct = [&](ByteCoord c) -> ByteCoord {
if (buffer[c.line].length() == c.column)
return {c.line+1, 0};
return c;
};
auto default_group_it = m_groups.find(m_default_group);
const bool apply_default = default_group_it != m_groups.end();
auto last_begin = display_range.first;
for (; begin != end; ++begin)
{
if (apply_default and last_begin < begin->begin)
apply_highlighter(context, flags, display_buffer,
correct(last_begin), correct(begin->begin),
default_group_it->second);
auto it = m_groups.find(begin->group);
if (it == m_groups.end())
continue;
apply_highlighter(context, flags, display_buffer,
correct(begin->begin), correct(begin->end),
it->second);
last_begin = begin->end;
}
if (apply_default and last_begin < display_range.second)
apply_highlighter(context, flags, display_buffer,
correct(last_begin), range.second,
default_group_it->second);
}
bool has_children() const override { return true; }
Highlighter& get_child(StringView path) override
{
auto sep_it = find(path, '/');
StringView id(path.begin(), sep_it);
auto it = m_groups.find(id);
if (it == m_groups.end())
throw child_not_found("no such id: "_str + id);
if (sep_it == path.end())
return it->second;
else
return it->second.get_child({sep_it+1, path.end()});
}
Completions complete_child(StringView path, ByteCount cursor_pos, bool group) const override
{
auto sep_it = find(path, '/');
if (sep_it != path.end())
{
ByteCount offset = sep_it+1 - path.begin();
Highlighter& hl = const_cast<RegionsHighlighter*>(this)->get_child({path.begin(), sep_it});
return offset_pos(hl.complete_child(path.substr(offset), cursor_pos - offset, group), offset);
}
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auto container = transformed(m_groups, IdMap<HighlighterGroup>::get_id);
return { 0, 0, complete(path, cursor_pos, container) };
}
static HighlighterAndId create(HighlighterParameters params)
{
try
{
static const ParameterDesc param_desc{
SwitchMap{ { "default", { true, "" } } },
ParameterDesc::Flags::SwitchesOnlyAtStart,
5};
ParametersParser parser{params, param_desc};
if ((parser.positional_count() % 4) != 1)
throw runtime_error("wrong parameter count, expect <id> (<group name> <begin> <end> <recurse>)+");
RegionsHighlighter::NamedRegionDescList regions;
for (size_t i = 1; i < parser.positional_count(); i += 4)
{
if (parser[i].empty() or parser[i+1].empty() or parser[i+2].empty())
throw runtime_error("group id, begin and end must not be empty");
Regex begin{parser[i+1], Regex::nosubs | Regex::optimize };
Regex end{parser[i+2], Regex::nosubs | Regex::optimize };
Regex recurse;
if (not parser[i+3].empty())
recurse = Regex{parser[i+3], Regex::nosubs | Regex::optimize };
regions.push_back({ parser[i], {std::move(begin), std::move(end), std::move(recurse)} });
}
String default_group;
if (parser.has_option("default"))
default_group = parser.option_value("default");
return {parser[0], make_unique<RegionsHighlighter>(std::move(regions),
std::move(default_group))};
}
catch (RegexError& err)
{
throw runtime_error(String("regex error: ") + err.what());
}
}
private:
const NamedRegionDescList m_regions;
const String m_default_group;
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IdMap<HighlighterGroup, MemoryDomain::Highlight> m_groups;
struct Region
{
ByteCoord begin;
ByteCoord end;
StringView group;
};
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using RegionList = Vector<Region, MemoryDomain::Highlight>;
struct Cache
{
size_t timestamp = 0;
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Vector<RegionMatches, MemoryDomain::Highlight> matches;
UnorderedMap<BufferRange, RegionList, MemoryDomain::Highlight> regions;
};
BufferSideCache<Cache> m_cache;
using RegionAndMatch = std::pair<size_t, RegexMatchList::const_iterator>;
// find the begin closest to pos in all matches
RegionAndMatch find_next_begin(const Cache& cache, ByteCoord pos) const
{
RegionAndMatch res{0, cache.matches[0].find_next_begin(pos)};
for (size_t i = 1; i < cache.matches.size(); ++i)
{
const auto& matches = cache.matches[i];
auto it = matches.find_next_begin(pos);
if (it != matches.begin_matches.end() and
(res.second == cache.matches[res.first].begin_matches.end() or
it->begin_coord() < res.second->begin_coord()))
res = RegionAndMatch{i, it};
}
return res;
}
const RegionList& get_regions_for_range(const Buffer& buffer, BufferRange range)
{
Cache& cache = m_cache.get(buffer);
const size_t buf_timestamp = buffer.timestamp();
if (cache.timestamp != buf_timestamp)
{
if (cache.timestamp == 0)
{
cache.matches.resize(m_regions.size());
for (size_t i = 0; i < m_regions.size(); ++i)
cache.matches[i] = m_regions[i].second.find_matches(buffer);
}
else
{
auto modifs = compute_line_modifications(buffer, cache.timestamp);
for (size_t i = 0; i < m_regions.size(); ++i)
m_regions[i].second.update_matches(buffer, modifs, cache.matches[i]);
}
cache.regions.clear();
}
auto it = cache.regions.find(range);
if (it != cache.regions.end())
return it->second;
RegionList& regions = cache.regions[range];
for (auto begin = find_next_begin(cache, range.first),
end = RegionAndMatch{ 0, cache.matches[0].begin_matches.end() };
begin != end; )
{
const RegionMatches& matches = cache.matches[begin.first];
auto& named_region = m_regions[begin.first];
auto beg_it = begin.second;
auto end_it = matches.find_matching_end(beg_it->end_coord());
if (end_it == matches.end_matches.end() or end_it->end_coord() >= range.second)
{
regions.push_back({ {beg_it->line, beg_it->begin},
range.second,
named_region.first });
break;
}
else
{
regions.push_back({ beg_it->begin_coord(),
end_it->end_coord(),
named_region.first });
auto end_coord = end_it->end_coord();
// With empty begin and end matches (for example if the regexes
// are /"\K/ and /(?=")/), that case can happen, and would
// result in an infinite loop.
if (end_coord == beg_it->begin_coord())
{
kak_assert(beg_it->begin_coord() == beg_it->end_coord() and
end_it->begin_coord() == end_it->end_coord());
++end_coord.column;
}
begin = find_next_begin(cache, end_coord);
}
}
cache.timestamp = buf_timestamp;
return regions;
}
};
template<typename Func>
HighlighterFactory simple_factory(const String id, Func func)
{
return [=](HighlighterParameters params)
{
return HighlighterAndId(id, make_simple_highlighter(func));
};
}
void register_highlighters()
{
HighlighterRegistry& registry = HighlighterRegistry::instance();
registry.append({ "number_lines", simple_factory("number_lines", show_line_numbers) });
registry.append({ "show_matching", simple_factory("show_matching", show_matching_char) });
registry.append({ "show_whitespaces", simple_factory("show_whitespaces", show_whitespaces) });
registry.append({ "fill", create_fill_highlighter });
registry.append({ "regex", RegexHighlighter::create });
registry.append({ "regex_option", create_regex_option_highlighter });
registry.append({ "search", create_search_highlighter });
registry.append({ "group", create_highlighter_group });
registry.append({ "flag_lines", create_flag_lines_highlighter });
registry.append({ "line_option", create_line_option_highlighter });
registry.append({ "ref", create_reference_highlighter });
registry.append({ "regions", RegionsHighlighter::create });
}
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}