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jucipp
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jucipp/src/source.cc

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#include "source.h"
#include "config.h"
#include "directories.h"
#include "filesystem.h"
#include "git.h"
#include "info.h"
#include "menu.h"
#include "selection_dialog.h"
#include "terminal.h"
#include "utility.h"
#include <algorithm>
#include <boost/property_tree/json_parser.hpp>
#include <boost/spirit/home/qi/char.hpp>
#include <boost/spirit/home/qi/operator.hpp>
#include <boost/spirit/home/qi/string.hpp>
#include <iostream>
#include <limits>
#include <map>
#include <numeric>
#include <regex>
#include <set>
Glib::RefPtr<Gsv::LanguageManager> Source::LanguageManager::get_default() {
static auto instance = Gsv::LanguageManager::create();
return instance;
}
Glib::RefPtr<Gsv::StyleSchemeManager> Source::StyleSchemeManager::get_default() {
static auto instance = Gsv::StyleSchemeManager::create();
static bool first = true;
if(first) {
instance->prepend_search_path((Config::get().home_juci_path / "styles").string());
first = false;
}
return instance;
}
Glib::RefPtr<Gsv::Language> Source::guess_language(const boost::filesystem::path &file_path) {
auto language_manager = LanguageManager::get_default();
bool result_uncertain = false;
auto content_type = Gio::content_type_guess(file_path.string(), nullptr, 0, result_uncertain);
if(result_uncertain)
content_type.clear();
auto language = language_manager->guess_language(file_path.string(), content_type);
if(!language) {
auto filename = file_path.filename().string();
if(filename == "CMakeLists.txt")
language = language_manager->get_language("cmake");
else if(filename == "meson.build")
language = language_manager->get_language("meson");
else if(filename == "Makefile")
language = language_manager->get_language("makefile");
else if(file_path.extension() == ".tcc")
language = language_manager->get_language("cpphdr");
else if(file_path.extension() == ".ts" || file_path.extension() == ".jsx" || file_path.extension() == ".flow")
language = language_manager->get_language("js");
else if(!file_path.has_extension()) {
for(auto &part : file_path) {
if(part == "include") {
language = language_manager->get_language("cpphdr");
break;
}
}
}
}
else if(language->get_id() == "cuda") {
if(file_path.extension() == ".cuh")
language = language_manager->get_language("cpphdr");
else
language = language_manager->get_language("cpp");
}
else if(language->get_id() == "opencl") {
language = language_manager->get_language("cpp");
}
return language;
}
Source::FixIt::FixIt(std::string source_, std::pair<Offset, Offset> offsets_) : source(std::move(source_)), offsets(std::move(offsets_)) {
if(this->source.size() == 0)
type = Type::ERASE;
else {
if(this->offsets.first == this->offsets.second)
type = Type::INSERT;
else
type = Type::REPLACE;
}
}
std::string Source::FixIt::string(const Glib::RefPtr<Gtk::TextBuffer> &buffer) {
auto iter = buffer->get_iter_at_line_index(offsets.first.line, offsets.first.index);
unsigned first_line_offset = iter.get_line_offset() + 1;
iter = buffer->get_iter_at_line_index(offsets.second.line, offsets.second.index);
unsigned second_line_offset = iter.get_line_offset() + 1;
std::string text;
if(type == Type::INSERT) {
text += "Insert " + source + " at ";
text += std::to_string(offsets.first.line + 1) + ":" + std::to_string(first_line_offset);
}
else if(type == Type::REPLACE) {
text += "Replace ";
text += std::to_string(offsets.first.line + 1) + ":" + std::to_string(first_line_offset) + " - ";
text += std::to_string(offsets.second.line + 1) + ":" + std::to_string(second_line_offset);
text += " with " + source;
}
else {
text += "Erase ";
text += std::to_string(offsets.first.line + 1) + ":" + std::to_string(first_line_offset) + " - ";
text += std::to_string(offsets.second.line + 1) + ":" + std::to_string(second_line_offset);
}
return text;
}
//////////////
//// View ////
//////////////
std::set<Source::View *> Source::View::non_deleted_views;
std::set<Source::View *> Source::View::views;
Source::View::View(const boost::filesystem::path &file_path, const Glib::RefPtr<Gsv::Language> &language, bool is_generic_view) : BaseView(file_path, language), SpellCheckView(file_path, language), DiffView(file_path, language) {
non_deleted_views.emplace(this);
views.emplace(this);
similar_symbol_tag = get_buffer()->create_tag();
similar_symbol_tag->property_weight() = Pango::WEIGHT_ULTRAHEAVY;
clickable_tag = get_buffer()->create_tag();
clickable_tag->property_underline() = Pango::Underline::UNDERLINE_SINGLE;
clickable_tag->property_underline_set() = true;
get_buffer()->create_tag("def:warning");
get_buffer()->create_tag("def:warning_underline");
get_buffer()->create_tag("def:error");
get_buffer()->create_tag("def:error_underline");
auto mark_attr_debug_breakpoint = Gsv::MarkAttributes::create();
Gdk::RGBA rgba;
rgba.set_red(1.0);
rgba.set_green(0.5);
rgba.set_blue(0.5);
rgba.set_alpha(0.3);
mark_attr_debug_breakpoint->set_background(rgba);
set_mark_attributes("debug_breakpoint", mark_attr_debug_breakpoint, 100);
auto mark_attr_debug_stop = Gsv::MarkAttributes::create();
rgba.set_red(0.5);
rgba.set_green(0.5);
rgba.set_blue(1.0);
mark_attr_debug_stop->set_background(rgba);
set_mark_attributes("debug_stop", mark_attr_debug_stop, 101);
auto mark_attr_debug_breakpoint_and_stop = Gsv::MarkAttributes::create();
rgba.set_red(0.75);
rgba.set_green(0.5);
rgba.set_blue(0.75);
mark_attr_debug_breakpoint_and_stop->set_background(rgba);
set_mark_attributes("debug_breakpoint_and_stop", mark_attr_debug_breakpoint_and_stop, 102);
link_tag = get_buffer()->create_tag("link");
hide_tag = get_buffer()->create_tag();
hide_tag->property_scale() = 0.25;
if(language) {
auto language_id = language->get_id();
if(language_id == "chdr" || language_id == "cpphdr" || language_id == "c" || language_id == "cpp") {
is_cpp = true;
use_fixed_continuation_indenting = false;
// TODO 2019: check if clang-format has improved...
// boost::filesystem::path clang_format_file;
// auto search_path=file_path.parent_path();
// boost::system::error_code ec;
// while(true) {
// clang_format_file=search_path/".clang-format";
// if(boost::filesystem::exists(clang_format_file, ec))
// break;
// clang_format_file=search_path/"_clang-format";
// if(boost::filesystem::exists(clang_format_file, ec))
// break;
// clang_format_file.clear();
// if(search_path==search_path.root_directory())
// break;
// search_path=search_path.parent_path();
// }
// if(!clang_format_file.empty()) {
// auto lines=filesystem::read_lines(clang_format_file);
// for(auto &line: lines) {
// std::cout << "1" << std::endl;
// if(!line.empty() && line.compare(0, 23, "ContinuationIndentWidth")==0) {
// std::cout << "2" << std::endl;
// use_continuation_indenting=true;
// break;
// }
// }
// }
}
}
setup_signals();
setup_format_style(is_generic_view);
std::string comment_characters;
if(is_bracket_language)
comment_characters = "//";
else if(language) {
auto language_id = language->get_id();
if(language_id == "cmake" || language_id == "makefile" || language_id == "python" ||
language_id == "python3" || language_id == "sh" || language_id == "perl" ||
language_id == "ruby" || language_id == "r" || language_id == "asm" ||
language_id == "automake" || language_id == "yaml")
comment_characters = "#";
else if(language_id == "latex" || language_id == "matlab" || language_id == "octave" || language_id == "bibtex")
comment_characters = "%";
else if(language_id == "fortran")
comment_characters = "!";
else if(language_id == "pascal")
comment_characters = "//";
else if(language_id == "lua")
comment_characters = "--";
}
if(!comment_characters.empty()) {
toggle_comments = [this, comment_characters = std::move(comment_characters)] {
std::vector<int> lines;
Gtk::TextIter selection_start, selection_end;
get_buffer()->get_selection_bounds(selection_start, selection_end);
auto line_start = selection_start.get_line();
auto line_end = selection_end.get_line();
if(line_start != line_end && selection_end.starts_line())
--line_end;
bool lines_commented = true;
bool extra_spaces = true;
int min_indentation = -1;
for(auto line = line_start; line <= line_end; ++line) {
auto iter = get_buffer()->get_iter_at_line(line);
bool line_added = false;
bool line_commented = false;
bool extra_space = false;
int indentation = 0;
for(;;) {
if(iter.ends_line())
break;
else if(*iter == ' ' || *iter == '\t') {
++indentation;
iter.forward_char();
continue;
}
else {
lines.emplace_back(line);
line_added = true;
for(size_t c = 0; c < comment_characters.size(); ++c) {
if(iter.ends_line()) {
break;
}
else if(*iter == static_cast<unsigned int>(comment_characters[c])) {
if(c < comment_characters.size() - 1) {
iter.forward_char();
continue;
}
else {
line_commented = true;
if(!iter.ends_line()) {
iter.forward_char();
if(*iter == ' ')
extra_space = true;
}
break;
}
}
else
break;
}
break;
}
}
if(line_added) {
lines_commented &= line_commented;
extra_spaces &= extra_space;
if(min_indentation == -1 || indentation < min_indentation)
min_indentation = indentation;
}
}
if(lines.size()) {
auto comment_characters_and_space = comment_characters + ' ';
get_buffer()->begin_user_action();
for(auto &line : lines) {
auto iter = get_buffer()->get_iter_at_line(line);
iter.forward_chars(min_indentation);
if(lines_commented) {
auto end_iter = iter;
end_iter.forward_chars(comment_characters.size() + static_cast<int>(extra_spaces));
while(*iter == ' ' || *iter == '\t') {
iter.forward_char();
end_iter.forward_char();
}
get_buffer()->erase(iter, end_iter);
}
else
get_buffer()->insert(iter, comment_characters_and_space);
}
get_buffer()->end_user_action();
}
};
}
}
Gsv::DrawSpacesFlags Source::View::parse_show_whitespace_characters(const std::string &text) {
namespace qi = boost::spirit::qi;
qi::symbols<char, Gsv::DrawSpacesFlags> options;
options.add("space", Gsv::DRAW_SPACES_SPACE)("tab", Gsv::DRAW_SPACES_TAB)("newline", Gsv::DRAW_SPACES_NEWLINE)("nbsp", Gsv::DRAW_SPACES_NBSP)
("leading", Gsv::DRAW_SPACES_LEADING)("text", Gsv::DRAW_SPACES_TEXT)("trailing", Gsv::DRAW_SPACES_TRAILING)("all", Gsv::DRAW_SPACES_ALL);
std::set<Gsv::DrawSpacesFlags> out;
// parse comma-separated list of options
qi::phrase_parse(text.begin(), text.end(), options % ',', qi::space, out);
return out.count(Gsv::DRAW_SPACES_ALL) > 0 ? Gsv::DRAW_SPACES_ALL : static_cast<Gsv::DrawSpacesFlags>(std::accumulate(out.begin(), out.end(), 0));
}
bool Source::View::save() {
if(file_path.empty() || !get_buffer()->get_modified())
return false;
if(Config::get().source.cleanup_whitespace_characters)
cleanup_whitespace_characters();
if(format_style && file_path.filename() != "package.json") {
if(Config::get().source.format_style_on_save)
format_style(true);
else if(Config::get().source.format_style_on_save_if_style_file_found)
format_style(false);
hide_tooltips();
}
std::ofstream output(file_path.string(), std::ofstream::binary);
if(output) {
auto start_iter = get_buffer()->begin();
auto end_iter = start_iter;
bool end_reached = false;
while(!end_reached) {
for(size_t c = 0; c < 131072; c++) {
if(!end_iter.forward_char()) {
end_reached = true;
break;
}
}
output << get_buffer()->get_text(start_iter, end_iter).c_str();
start_iter = end_iter;
}
output.close();
boost::system::error_code ec;
last_write_time = boost::filesystem::last_write_time(file_path, ec);
if(ec)
last_write_time = static_cast<std::time_t>(-1);
// Remonitor file in case it did not exist before
monitor_file();
get_buffer()->set_modified(false);
Directories::get().on_save_file(file_path);
return true;
}
else {
Terminal::get().print("Error: could not save file " + file_path.string() + '\n', true);
return false;
}
}
void Source::View::configure() {
SpellCheckView::configure();
DiffView::configure();
if(Config::get().source.style.size() > 0) {
auto scheme = StyleSchemeManager::get_default()->get_scheme(Config::get().source.style);
if(scheme)
get_source_buffer()->set_style_scheme(scheme);
}
set_draw_spaces(parse_show_whitespace_characters(Config::get().source.show_whitespace_characters));
if(Config::get().source.wrap_lines)
set_wrap_mode(Gtk::WrapMode::WRAP_CHAR);
else
set_wrap_mode(Gtk::WrapMode::WRAP_NONE);
property_highlight_current_line() = Config::get().source.highlight_current_line;
line_renderer->set_visible(Config::get().source.show_line_numbers);
if(Config::get().source.font.size() > 0)
override_font(Pango::FontDescription(Config::get().source.font));
#if GTKMM_MAJOR_VERSION > 3 || (GTKMM_MAJOR_VERSION == 3 && GTKMM_MINOR_VERSION >= 20)
Gdk::Rectangle rectangle;
get_iter_location(get_buffer()->begin(), rectangle);
set_bottom_margin((rectangle.get_height() + get_pixels_above_lines() + get_pixels_below_lines()) * 10);
#endif
if(Config::get().source.show_background_pattern)
gtk_source_view_set_background_pattern(this->gobj(), GTK_SOURCE_BACKGROUND_PATTERN_TYPE_GRID);
else
gtk_source_view_set_background_pattern(this->gobj(), GTK_SOURCE_BACKGROUND_PATTERN_TYPE_NONE);
property_show_right_margin() = Config::get().source.show_right_margin;
property_right_margin_position() = Config::get().source.right_margin_position;
//Create tags for diagnostic warnings and errors:
auto scheme = get_source_buffer()->get_style_scheme();
auto tag_table = get_buffer()->get_tag_table();
auto style = scheme->get_style("def:warning");
auto diagnostic_tag = get_buffer()->get_tag_table()->lookup("def:warning");
auto diagnostic_tag_underline = get_buffer()->get_tag_table()->lookup("def:warning_underline");
if(style && (style->property_foreground_set() || style->property_background_set())) {
Glib::ustring warning_property;
if(style->property_foreground_set()) {
warning_property = style->property_foreground().get_value();
diagnostic_tag->property_foreground() = warning_property;
}
else if(style->property_background_set())
warning_property = style->property_background().get_value();
diagnostic_tag_underline->property_underline() = Pango::Underline::UNDERLINE_ERROR;
auto tag_class = G_OBJECT_GET_CLASS(diagnostic_tag_underline->gobj()); //For older GTK+ 3 versions:
auto param_spec = g_object_class_find_property(tag_class, "underline-rgba");
if(param_spec != nullptr) {
diagnostic_tag_underline->set_property("underline-rgba", Gdk::RGBA(warning_property));
}
}
style = scheme->get_style("def:error");
diagnostic_tag = get_buffer()->get_tag_table()->lookup("def:error");
diagnostic_tag_underline = get_buffer()->get_tag_table()->lookup("def:error_underline");
if(style && (style->property_foreground_set() || style->property_background_set())) {
Glib::ustring error_property;
if(style->property_foreground_set()) {
error_property = style->property_foreground().get_value();
diagnostic_tag->property_foreground() = error_property;
}
else if(style->property_background_set())
error_property = style->property_background().get_value();
diagnostic_tag_underline->property_underline() = Pango::Underline::UNDERLINE_ERROR;
diagnostic_tag_underline->set_property("underline-rgba", Gdk::RGBA(error_property));
}
//TODO: clear tag_class and param_spec?
link_tag->property_foreground_rgba() = get_style_context()->get_color(Gtk::StateFlags::STATE_FLAG_LINK);
link_tag->property_underline() = Pango::Underline::UNDERLINE_SINGLE;
if(Config::get().menu.keys["source_show_completion"].empty()) {
get_completion()->unblock_interactive();
interactive_completion = true;
}
else {
get_completion()->block_interactive();
interactive_completion = false;
}
}
void Source::View::setup_signals() {
get_buffer()->signal_changed().connect([this]() {
if(update_status_location)
update_status_location(this);
hide_tooltips();
if(similar_symbol_tag_applied) {
get_buffer()->remove_tag(similar_symbol_tag, get_buffer()->begin(), get_buffer()->end());
similar_symbol_tag_applied = false;
}
if(clickable_tag_applied) {
get_buffer()->remove_tag(clickable_tag, get_buffer()->begin(), get_buffer()->end());
clickable_tag_applied = false;
}
});
// Line numbers
line_renderer = Gtk::manage(new Gsv::GutterRendererText());
auto gutter = get_gutter(Gtk::TextWindowType::TEXT_WINDOW_LEFT);
line_renderer->set_alignment_mode(Gsv::GutterRendererAlignmentMode::GUTTER_RENDERER_ALIGNMENT_MODE_FIRST);
line_renderer->set_alignment(1.0, -1);
line_renderer->set_padding(3, -1);
gutter->insert(line_renderer, GTK_SOURCE_VIEW_GUTTER_POSITION_LINES);
auto set_line_renderer_width = [this] {
int width, height;
line_renderer->measure(std::to_string(get_buffer()->get_line_count()), width, height);
line_renderer->set_size(width);
};
set_line_renderer_width();
get_buffer()->signal_changed().connect([set_line_renderer_width] {
set_line_renderer_width();
});
signal_style_updated().connect([set_line_renderer_width] {
set_line_renderer_width();
});
line_renderer->signal_query_data().connect([this](const Gtk::TextIter &start, const Gtk::TextIter &end, Gsv::GutterRendererState state) {
if(!start.begins_tag(hide_tag) && !start.has_tag(hide_tag)) {
if(start.get_line() == get_buffer()->get_insert()->get_iter().get_line())
line_renderer->set_text(Gsv::Markup("<b>" + std::to_string(start.get_line() + 1) + "</b>"));
else
line_renderer->set_text(Gsv::Markup(std::to_string(start.get_line() + 1)));
}
});
line_renderer->signal_query_activatable().connect([](const Gtk::TextIter &, const Gdk::Rectangle &, GdkEvent *) {
return true;
});
line_renderer->signal_activate().connect([this](const Gtk::TextIter &iter, const Gdk::Rectangle &, GdkEvent *) {
if(toggle_breakpoint)
toggle_breakpoint(iter.get_line());
});
type_tooltips.on_motion = [this] {
delayed_tooltips_connection.disconnect();
};
diagnostic_tooltips.on_motion = [this] {
delayed_tooltips_connection.disconnect();
};
signal_motion_notify_event().connect([this](GdkEventMotion *event) {
if(on_motion_last_x != event->x || on_motion_last_y != event->y) {
delayed_tooltips_connection.disconnect();
if((event->state & GDK_BUTTON1_MASK) == 0) {
gdouble x = event->x;
gdouble y = event->y;
delayed_tooltips_connection = Glib::signal_timeout().connect([this, x, y]() {
type_tooltips.hide();
diagnostic_tooltips.hide();
Tooltips::init();
Gdk::Rectangle rectangle(x, y, 1, 1);
if(parsed) {
show_type_tooltips(rectangle);
show_diagnostic_tooltips(rectangle);
}
return false;
}, 100);
}
if(clickable_tag_applied) {
get_buffer()->remove_tag(clickable_tag, get_buffer()->begin(), get_buffer()->end());
clickable_tag_applied = false;
}
if((event->state & primary_modifier_mask) && !(event->state & GDK_SHIFT_MASK) && !(event->state & GDK_BUTTON1_MASK)) {
delayed_tag_clickable_connection.disconnect();
delayed_tag_clickable_connection = Glib::signal_timeout().connect([this, x = event->x, y = event->y]() {
int buffer_x, buffer_y;
window_to_buffer_coords(Gtk::TextWindowType::TEXT_WINDOW_TEXT, x, y, buffer_x, buffer_y);
Gtk::TextIter iter;
get_iter_at_location(iter, buffer_x, buffer_y);
apply_clickable_tag(iter);
clickable_tag_applied = true;
return false;
}, 100);
}
auto last_mouse_pos = std::make_pair(on_motion_last_x, on_motion_last_y);
auto mouse_pos = std::make_pair(event->x, event->y);
type_tooltips.hide(last_mouse_pos, mouse_pos);
diagnostic_tooltips.hide(last_mouse_pos, mouse_pos);
}
on_motion_last_x = event->x;
on_motion_last_y = event->y;
return false;
});
get_buffer()->signal_mark_set().connect([this](const Gtk::TextBuffer::iterator &iterator, const Glib::RefPtr<Gtk::TextBuffer::Mark> &mark) {
if(get_buffer()->get_has_selection() && mark->get_name() == "selection_bound")
delayed_tooltips_connection.disconnect();
if(mark->get_name() == "insert") {
hide_tooltips();
delayed_tooltips_connection.disconnect();
delayed_tooltips_connection = Glib::signal_timeout().connect([this]() {
Tooltips::init();
Gdk::Rectangle rectangle;
get_iter_location(get_buffer()->get_insert()->get_iter(), rectangle);
int location_window_x, location_window_y;
buffer_to_window_coords(Gtk::TextWindowType::TEXT_WINDOW_TEXT, rectangle.get_x(), rectangle.get_y(), location_window_x, location_window_y);
rectangle.set_x(location_window_x - 2);
rectangle.set_y(location_window_y);
rectangle.set_width(5);
if(parsed) {
show_type_tooltips(rectangle);
show_diagnostic_tooltips(rectangle);
}
return false;
}, 500);
delayed_tag_similar_symbols_connection.disconnect();
delayed_tag_similar_symbols_connection = Glib::signal_timeout().connect([this] {
apply_similar_symbol_tag();
similar_symbol_tag_applied = true;
return false;
}, 100);
if(SelectionDialog::get())
SelectionDialog::get()->hide();
if(CompletionDialog::get())
CompletionDialog::get()->hide();
if(update_status_location)
update_status_location(this);
}
});
signal_key_release_event().connect([this](GdkEventKey *event) {
if((event->state & primary_modifier_mask) && clickable_tag_applied) {
get_buffer()->remove_tag(clickable_tag, get_buffer()->begin(), get_buffer()->end());
clickable_tag_applied = false;
}
return false;
});
signal_scroll_event().connect([this](GdkEventScroll *event) {
hide_tooltips();
hide_dialogs();
return false;
});
signal_focus_out_event().connect([this](GdkEventFocus *event) {
hide_tooltips();
if(clickable_tag_applied) {
get_buffer()->remove_tag(clickable_tag, get_buffer()->begin(), get_buffer()->end());
clickable_tag_applied = false;
}
return false;
});
signal_leave_notify_event().connect([this](GdkEventCrossing *) {
delayed_tooltips_connection.disconnect();
return false;
});
}
void Source::View::setup_format_style(bool is_generic_view) {
static auto prettier = filesystem::find_executable("prettier");
if(!prettier.empty() && language &&
(language->get_id() == "js" || language->get_id() == "json" || language->get_id() == "css")) {
if(is_generic_view) {
goto_next_diagnostic = [this] {
place_cursor_at_next_diagnostic();
};
get_buffer()->signal_changed().connect([this] {
clear_diagnostic_tooltips();
status_diagnostics = std::make_tuple<size_t, size_t, size_t>(0, 0, 0);
if(update_status_diagnostics)
update_status_diagnostics(this);
});
}
format_style = [this, is_generic_view](bool continue_without_style_file) {
auto command = prettier.string();
if(!continue_without_style_file) {
auto search_path = file_path.parent_path();
while(true) {
static std::vector<boost::filesystem::path> files = {".prettierrc", ".prettierrc.yaml", ".prettierrc.yml", ".prettierrc.json", ".prettierrc.toml", ".prettierrc.js", "prettier.config.js"};
boost::system::error_code ec;
bool found = false;
for(auto &file : files) {
if(boost::filesystem::exists(search_path / file, ec)) {
found = true;
break;
}
}
if(found)
break;
auto package_json = search_path / "package.json";
if(boost::filesystem::exists(package_json, ec)) {
boost::property_tree::ptree pt;
try {
boost::property_tree::json_parser::read_json(package_json.string(), pt);
auto child = pt.get_child("prettier");
break;
}
catch(...) {
}
}
if(search_path == search_path.root_directory())
return;
search_path = search_path.parent_path();
}
}
command += " --stdin-filepath " + filesystem::escape_argument(this->file_path.string()) + " --print-width 120 --config-precedence prefer-file";
if(get_buffer()->get_has_selection()) { // Cannot be used together with --cursor-offset
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
command += " --range-start " + std::to_string(start.get_offset());
command += " --range-end " + std::to_string(end.get_offset());
}
else
command += " --cursor-offset " + std::to_string(get_buffer()->get_insert()->get_iter().get_offset());
size_t num_warnings = 0, num_errors = 0, num_fix_its = 0;
if(is_generic_view)
clear_diagnostic_tooltips();
std::stringstream stdin_stream(get_buffer()->get_text()), stdout_stream, stderr_stream;
auto exit_status = Terminal::get().process(stdin_stream, stdout_stream, command, this->file_path.parent_path(), &stderr_stream);
if(exit_status == 0) {
replace_text(stdout_stream.str());
std::string line;
std::getline(stderr_stream, line);
if(!line.empty() && line != "NaN") {
try {
auto offset = atoi(line.c_str());
if(offset < get_buffer()->size()) {
get_buffer()->place_cursor(get_buffer()->get_iter_at_offset(offset));
hide_tooltips();
}
}
catch(...) {
}
}
}
else if(is_generic_view) {
static std::regex regex(R"(^\[error\] stdin: (.*) \(([0-9]*):([0-9]*)\)$)");
std::string line;
std::getline(stderr_stream, line);
std::smatch sm;
if(std::regex_match(line, sm, regex)) {
try {
auto start = get_iter_at_line_offset(atoi(sm[2].str().c_str()) - 1, atoi(sm[3].str().c_str()) - 1);
++num_errors;
while(start.ends_line() && start.backward_char()) {
}
auto end = start;
end.forward_char();
if(start == end)
start.backward_char();
add_diagnostic_tooltip(start, end, true, [error_message = sm[1].str()](const Glib::RefPtr<Gtk::TextBuffer> &buffer) {
buffer->insert_at_cursor(error_message);
});
}
catch(...) {
}
}
}
if(is_generic_view) {
status_diagnostics = std::make_tuple(num_warnings, num_errors, num_fix_its);
if(update_status_diagnostics)
update_status_diagnostics(this);
}
};
}
else if(is_bracket_language) {
format_style = [this](bool continue_without_style_file) {
static auto clang_format_command = filesystem::get_executable("clang-format").string();
auto command = clang_format_command + " -output-replacements-xml -assume-filename=" + filesystem::escape_argument(this->file_path.string());
if(get_buffer()->get_has_selection()) {
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
command += " -lines=" + std::to_string(start.get_line() + 1) + ':' + std::to_string(end.get_line() + 1);
}
bool use_style_file = false;
auto style_file_search_path = this->file_path.parent_path();
boost::system::error_code ec;
while(true) {
if(boost::filesystem::exists(style_file_search_path / ".clang-format", ec) || boost::filesystem::exists(style_file_search_path / "_clang-format", ec)) {
use_style_file = true;
break;
}
if(style_file_search_path == style_file_search_path.root_directory())
break;
style_file_search_path = style_file_search_path.parent_path();
}
if(use_style_file)
command += " -style=file";
else {
if(!continue_without_style_file)
return;
unsigned indent_width;
std::string tab_style;
if(tab_char == '\t') {
indent_width = tab_size * 8;
tab_style = "UseTab: Always";
}
else {
indent_width = tab_size;
tab_style = "UseTab: Never";
}
command += " -style=\"{IndentWidth: " + std::to_string(indent_width);
command += ", " + tab_style;
command += ", " + std::string("AccessModifierOffset: -") + std::to_string(indent_width);
if(Config::get().source.clang_format_style != "")
command += ", " + Config::get().source.clang_format_style;
command += "}\"";
}
std::stringstream stdin_stream(get_buffer()->get_text()), stdout_stream;
auto exit_status = Terminal::get().process(stdin_stream, stdout_stream, command, this->file_path.parent_path());
if(exit_status == 0) {
// The following code is complex due to clang-format returning offsets in byte offsets instead of char offsets
// Create bytes_in_lines cache to significantly speed up the processing of finding iterators from byte offsets
std::vector<size_t> bytes_in_lines;
auto line_count = get_buffer()->get_line_count();
for(int line_nr = 0; line_nr < line_count; ++line_nr) {
auto iter = get_buffer()->get_iter_at_line(line_nr);
bytes_in_lines.emplace_back(iter.get_bytes_in_line());
}
get_buffer()->begin_user_action();
try {
boost::property_tree::ptree pt;
boost::property_tree::xml_parser::read_xml(stdout_stream, pt);
auto replacements_pt = pt.get_child("replacements");
for(auto it = replacements_pt.rbegin(); it != replacements_pt.rend(); ++it) {
if(it->first == "replacement") {
auto offset = it->second.get<size_t>("<xmlattr>.offset");
auto length = it->second.get<size_t>("<xmlattr>.length");
auto replacement_str = it->second.get<std::string>("");
size_t bytes = 0;
for(size_t c = 0; c < bytes_in_lines.size(); ++c) {
auto previous_bytes = bytes;
bytes += bytes_in_lines[c];
if(offset < bytes || (c == bytes_in_lines.size() - 1 && offset == bytes)) {
std::pair<size_t, size_t> line_index(c, offset - previous_bytes);
auto start = get_buffer()->get_iter_at_line_index(line_index.first, line_index.second);
// Use left gravity insert to avoid moving cursor from end of line
bool left_gravity_insert = false;
if(get_buffer()->get_insert()->get_iter() == start) {
auto iter = start;
do {
if(*iter != ' ' && *iter != '\t') {
left_gravity_insert = iter.ends_line();
break;
}
} while(iter.forward_char());
}
if(length > 0) {
auto offset_end = offset + length;
size_t bytes = 0;
for(size_t c = 0; c < bytes_in_lines.size(); ++c) {
auto previous_bytes = bytes;
bytes += bytes_in_lines[c];
if(offset_end < bytes || (c == bytes_in_lines.size() - 1 && offset_end == bytes)) {
auto end = get_buffer()->get_iter_at_line_index(c, offset_end - previous_bytes);
get_buffer()->erase(start, end);
start = get_buffer()->get_iter_at_line_index(line_index.first, line_index.second);
break;
}
}
}
if(left_gravity_insert) {
auto mark = get_buffer()->create_mark(start);
get_buffer()->insert(start, replacement_str);
get_buffer()->place_cursor(mark->get_iter());
get_buffer()->delete_mark(mark);
}
else
get_buffer()->insert(start, replacement_str);
break;
}
}
}
}
}
catch(const std::exception &e) {
Terminal::get().print(std::string("Error: error parsing clang-format output: ") + e.what() + '\n', true);
}
get_buffer()->end_user_action();
}
};
}
else if(language && language->get_id() == "markdown") {
// The style file currently has no options, but checking if it exists
format_style = [this](bool continue_without_style_file) {
bool has_style_file = false;
auto style_file_search_path = this->file_path.parent_path();
while(true) {
if(boost::filesystem::exists(style_file_search_path / ".markdown-format")) {
has_style_file = true;
break;
}
if(style_file_search_path == style_file_search_path.root_directory())
break;
style_file_search_path = style_file_search_path.parent_path();
}
if(!has_style_file && !continue_without_style_file)
return;
auto special_character = [](Gtk::TextIter iter) {
if(*iter == '*' || *iter == '#' || *iter == '<' || *iter == '>' || *iter == ' ' ||
*iter == '=' || *iter == '`' || *iter == '-' || *iter == '|')
return true;
// Tests if a line starts with for instance: 2.
if(*iter >= '0' && *iter <= '9' && iter.forward_char() &&
*iter == '.' && iter.forward_char() &&
*iter == ' ')
return true;
return false;
};
get_buffer()->begin_user_action();
disable_spellcheck = true;
cleanup_whitespace_characters();
auto iter = get_buffer()->begin();
size_t last_space_offset = -1;
bool headline = false;
bool monospace = false;
bool script = false;
bool html_tag = false;
bool table = false;
int square_brackets = 0;
do {
if(iter.starts_line()) {
last_space_offset = -1;
auto next_line_iter = iter;
if(*iter == '#' || (next_line_iter.forward_line() && *next_line_iter == '='))
headline = true;
else
headline = false;
auto test_iter = iter;
if(*test_iter == '`' && test_iter.forward_char() &&
*test_iter == '`' && test_iter.forward_char() &&
*test_iter == '`') {
script = !script;
iter.forward_chars(3);
continue;
}
table = *iter == '|';
}
if(!script && *iter == '`')
monospace = !monospace;
if(!script && !monospace) {
if(*iter == '<')
html_tag = true;
else if(*iter == '>')
html_tag = false;
else if(*iter == '[')
++square_brackets;
else if(*iter == ']')
--square_brackets;
}
if(!headline && !script && !monospace && !html_tag && !table && square_brackets == 0) {
if(*iter == ' ' && iter.get_line_offset() <= 80)
last_space_offset = iter.get_offset();
// Insert newline on long lines
else if((*iter == ' ' || iter.ends_line()) && iter.get_line_offset() > 80 && last_space_offset != static_cast<size_t>(-1)) {
auto stored_iter = iter;
iter = get_buffer()->get_iter_at_offset(last_space_offset);
auto next_iter = iter;
next_iter.forward_char();
// Do not add newline if the next iter is a special character
if(special_character(next_iter)) {
iter = stored_iter;
if(*iter == ' ')
last_space_offset = iter.get_offset();
continue;
}
iter = get_buffer()->erase(iter, next_iter);
iter = get_buffer()->insert(iter, "\n");
iter.backward_char();
}
// Remove newline on short lines
else if(iter.ends_line() && !iter.starts_line() && iter.get_line_offset() <= 80) {
auto next_line_iter = iter;
// Do not remove newline if the next line for instance is a header
if(next_line_iter.forward_char() && !next_line_iter.ends_line() && !special_character(next_line_iter)) {
auto end_word_iter = next_line_iter;
// Do not remove newline if the word on the next line is too long
size_t diff = 0;
while(*end_word_iter != ' ' && !end_word_iter.ends_line() && end_word_iter.forward_char())
++diff;
if(iter.get_line_offset() + diff + 1 <= 80) {
iter = get_buffer()->erase(iter, next_line_iter);
iter = get_buffer()->insert(iter, " ");
iter.backward_char();
if(iter.get_line_offset() <= 80)
last_space_offset = iter.get_offset();
}
}
}
}
} while(iter.forward_char());
disable_spellcheck = false;
get_buffer()->end_user_action();
};
}
}
Source::View::~View() {
delayed_tooltips_connection.disconnect();
delayed_tag_similar_symbols_connection.disconnect();
delayed_tag_clickable_connection.disconnect();
non_deleted_views.erase(this);
views.erase(this);
}
void Source::View::hide_tooltips() {
delayed_tooltips_connection.disconnect();
type_tooltips.hide();
diagnostic_tooltips.hide();
}
void Source::View::hide_dialogs() {
SpellCheckView::hide_dialogs();
if(SelectionDialog::get())
SelectionDialog::get()->hide();
if(CompletionDialog::get())
CompletionDialog::get()->hide();
}
void Source::View::show_or_hide() {
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
if(start == end && !(start.starts_line() && start.ends_line())) { // Select code block instead if no current selection
start = get_buffer()->get_iter_at_line(start.get_line());
auto tabs_end = get_tabs_end_iter(start);
auto start_tabs = tabs_end.get_line_offset() - start.get_line_offset();
if(!end.ends_line())
end.forward_to_line_end();
auto last_empty = get_buffer()->end();
auto last_tabs_end = get_buffer()->end();
while(true) {
if(end.ends_line()) {
auto line_start = get_buffer()->get_iter_at_line(end.get_line());
auto tabs_end = get_tabs_end_iter(line_start);
if(end.starts_line() || tabs_end.ends_line()) { // Empty line
if(!last_empty)
last_empty = end;
}
else {
auto tabs = tabs_end.get_line_offset() - line_start.get_line_offset();
if(is_cpp && tabs == 0 && *line_start == '#') { // C/C++ defines can be at the first line
if(end.get_line() == start.get_line()) // Do not try to find define blocks since these rarely are indented
break;
}
else if(tabs < start_tabs) {
end = get_buffer()->get_iter_at_line(end.get_line());
break;
}
else if(tabs == start_tabs) {
// Check for block continuation keywords
std::string text = get_buffer()->get_text(tabs_end, end);
if(end.get_line() != start.get_line()) {
if(text.empty()) {
end = get_buffer()->get_iter_at_line(end.get_line());
break;
}
static std::vector<std::string> exact = {"}", ")", "]", ">", "</", "else", "endif"};
static std::vector<std::string> followed_by_non_token_char = {"elseif", "elif", "case", "default", "private", "public", "protected"};
if(text == "{") { // C/C++ sometimes starts a block with a standalone {
if(!is_token_char(*last_tabs_end)) {
end = get_buffer()->get_iter_at_line(end.get_line());
break;
}
else { // Check for ; at the end of last line
auto iter = tabs_end;
while(iter.backward_char() && iter > last_tabs_end && (*iter == ' ' || *iter == '\t' || iter.ends_line() || !is_code_iter(iter))) {
}
if(*iter == ';') {
end = get_buffer()->get_iter_at_line(end.get_line());
break;
}
}
}
else if(std::none_of(exact.begin(), exact.end(), [&text](const std::string &e) {
return text.compare(0, e.size(), e) == 0;
}) &&
std::none_of(followed_by_non_token_char.begin(), followed_by_non_token_char.end(), [this, &text](const std::string &e) {
return text.compare(0, e.size(), e) == 0 && text.size() > e.size() && !is_token_char(text[e.size()]);
})) {
end = get_buffer()->get_iter_at_line(end.get_line());
break;
}
}
last_tabs_end = tabs_end;
}
last_empty = get_buffer()->end();
}
}
if(end.is_end())
break;
end.forward_char();
}
if(last_empty)
end = get_buffer()->get_iter_at_line(last_empty.get_line());
}
if(start == end)
end.forward_char(); // Select empty line
if(!start.starts_line())
start = get_buffer()->get_iter_at_line(start.get_line());
if(!end.ends_line() && !end.starts_line())
end.forward_to_line_end();
if((start.begins_tag(hide_tag) || start.has_tag(hide_tag)) && (end.ends_tag(hide_tag) || end.has_tag(hide_tag))) {
get_buffer()->remove_tag(hide_tag, start, end);
return;
}
auto iter = start;
if(iter.forward_to_tag_toggle(hide_tag) && iter < end) {
get_buffer()->remove_tag(hide_tag, start, end);
return;
}
get_buffer()->apply_tag(hide_tag, start, end);
}
void Source::View::insert_with_links_tagged(const Glib::RefPtr<Gtk::TextBuffer> &buffer, const std::string &text) {
static std::regex http_regex("(https?://[a-zA-Z0-9\\-._~:/?#\\[\\]@!$&'()*+,;=]+[a-zA-Z0-9\\-_~/@$*+;=])");
std::smatch sm;
std::sregex_iterator it(text.begin(), text.end(), http_regex);
std::sregex_iterator end;
size_t start_pos = 0;
for(; it != end; ++it) {
buffer->insert(buffer->get_insert()->get_iter(), &text[start_pos], &text[it->position()]);
buffer->insert_with_tag(buffer->get_insert()->get_iter(), &text[it->position()], &text[it->position() + it->length()], link_tag);
start_pos = it->position() + it->length();
}
buffer->insert(buffer->get_insert()->get_iter(), &text[start_pos], &text[text.size()]);
}
void Source::View::add_diagnostic_tooltip(const Gtk::TextIter &start, const Gtk::TextIter &end, bool error, std::function<void(const Glib::RefPtr<Gtk::TextBuffer> &)> &&set_buffer) {
diagnostic_offsets.emplace(start.get_offset());
std::string severity_tag_name = error ? "def:error" : "def:warning";
diagnostic_tooltips.emplace_back(this, get_buffer()->create_mark(start), get_buffer()->create_mark(end), [error, severity_tag_name, set_buffer = std::move(set_buffer)](const Glib::RefPtr<Gtk::TextBuffer> &buffer) {
buffer->insert_with_tag(buffer->get_insert()->get_iter(), error ? "Error" : "Warning", severity_tag_name);
buffer->insert(buffer->get_insert()->get_iter(), ":\n");
set_buffer(buffer);
});
get_buffer()->apply_tag_by_name(severity_tag_name + "_underline", start, end);
auto iter = get_buffer()->get_insert()->get_iter();
if(iter.ends_line()) {
auto next_iter = iter;
if(next_iter.forward_char())
get_buffer()->remove_tag_by_name(severity_tag_name + "_underline", iter, next_iter);
}
}
void Source::View::clear_diagnostic_tooltips() {
diagnostic_offsets.clear();
diagnostic_tooltips.clear();
get_buffer()->remove_tag_by_name("def:warning_underline", get_buffer()->begin(), get_buffer()->end());
get_buffer()->remove_tag_by_name("def:error_underline", get_buffer()->begin(), get_buffer()->end());
}
void Source::View::place_cursor_at_next_diagnostic() {
auto insert_offset = get_buffer()->get_insert()->get_iter().get_offset();
for(auto offset : diagnostic_offsets) {
if(offset > insert_offset) {
get_buffer()->place_cursor(get_buffer()->get_iter_at_offset(offset));
scroll_to(get_buffer()->get_insert(), 0.0, 1.0, 0.5);
return;
}
}
if(diagnostic_offsets.size() == 0)
Info::get().print("No diagnostics found in current buffer");
else {
auto iter = get_buffer()->get_iter_at_offset(*diagnostic_offsets.begin());
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert(), 0.0, 1.0, 0.5);
}
}
Gtk::TextIter Source::View::find_non_whitespace_code_iter_backward(Gtk::TextIter iter) {
if(iter.starts_line())
return iter;
while(!iter.starts_line() && (!is_code_iter(iter) || *iter == ' ' || *iter == '\t' || iter.ends_line()) && iter.backward_char()) {
}
return iter;
}
Gtk::TextIter Source::View::get_start_of_expression(Gtk::TextIter iter) {
while(!iter.starts_line() && (*iter == ' ' || *iter == '\t' || iter.ends_line() || !is_code_iter(iter)) && iter.backward_char()) {
}
if(iter.starts_line())
return iter;
bool has_semicolon = false;
bool has_open_curly = false;
if(is_bracket_language) {
if(*iter == ';' && is_code_iter(iter))
has_semicolon = true;
if(*iter == '{' && is_code_iter(iter)) {
iter.backward_char();
has_open_curly = true;
}
}
int para_count = 0;
int square_count = 0;
long curly_count = 0;
do {
if(*iter == '(' && is_code_iter(iter))
para_count++;
else if(*iter == ')' && is_code_iter(iter))
para_count--;
else if(*iter == '[' && is_code_iter(iter))
square_count++;
else if(*iter == ']' && is_code_iter(iter))
square_count--;
else if(*iter == '{' && is_code_iter(iter))
curly_count++;
else if(*iter == '}' && is_code_iter(iter)) {
curly_count--;
if(iter.starts_line())
break;
}
if(para_count > 0 || square_count > 0 || curly_count > 0)
break;
if(iter.starts_line() && para_count == 0 && square_count == 0) {
if(!is_bracket_language)
return iter;
// Handle << at the beginning of the sentence if iter initially started with ;
if(has_semicolon) {
auto test_iter = get_tabs_end_iter(iter);
if(!test_iter.starts_line() && *test_iter == '<' && is_code_iter(test_iter) &&
test_iter.forward_char() && *test_iter == '<')
continue;
}
// Handle for instance: test\n .test();
if(has_semicolon && use_fixed_continuation_indenting) {
auto test_iter = get_tabs_end_iter(iter);
if(!test_iter.starts_line() && *test_iter == '.' && is_code_iter(test_iter))
continue;
}
// Handle : at the beginning of the sentence if iter initially started with {
if(has_open_curly) {
auto test_iter = get_tabs_end_iter(iter);
if(!test_iter.starts_line() && *test_iter == ':' && is_code_iter(test_iter))
continue;
}
// Handle ',', ':', or operators that can be used between two lines, on previous line:
auto previous_iter = iter;
previous_iter.backward_char();
while(!previous_iter.starts_line() && (*previous_iter == ' ' || previous_iter.ends_line() || !is_code_iter(previous_iter)) && previous_iter.backward_char()) {
}
if(previous_iter.starts_line())
return iter;
// Handle for instance: Test::Test():\n test(2) {
if(has_open_curly && *previous_iter == ':') {
previous_iter.backward_char();
while(!previous_iter.starts_line() && *previous_iter == ' ' && previous_iter.backward_char()) {
}
if(*previous_iter == ')') {
auto token = get_token(get_tabs_end_iter(previous_iter));
if(token != "case")
continue;
}
return iter;
}
// Handle for instance: int a =\n b;
if(*previous_iter == '=' || *previous_iter == '+' || *previous_iter == '-' || *previous_iter == '*' || *previous_iter == '/' ||
*previous_iter == '%' || *previous_iter == '<' || *previous_iter == '>' || *previous_iter == '&' || *previous_iter == '|') {
if(has_semicolon)
continue;
return iter;
}
if(*previous_iter != ',')
return iter;
}
} while(iter.backward_char());
return iter;
}
bool Source::View::find_open_curly_bracket_backward(Gtk::TextIter iter, Gtk::TextIter &found_iter) {
long count = 0;
do {
if(*iter == '{') {
if(count == 0 && is_code_iter(iter)) {
found_iter = iter;
return true;
}
count++;
}
else if(*iter == '}' && is_code_iter(iter))
count--;
} while(iter.backward_char());
return false;
}
bool Source::View::find_close_symbol_forward(Gtk::TextIter iter, Gtk::TextIter &found_iter, unsigned int positive_char, unsigned int negative_char) {
long count = 0;
if(positive_char == '{' && negative_char == '}') {
do {
if(*iter == negative_char && is_code_iter(iter)) {
if(count == 0) {
found_iter = iter;
return true;
}
count--;
}
else if(*iter == positive_char && is_code_iter(iter))
count++;
} while(iter.forward_char());
return false;
}
else {
long curly_count = 0;
do {
if(*iter == positive_char && is_code_iter(iter))
count++;
else if(*iter == negative_char && is_code_iter(iter)) {
if(count == 0) {
found_iter = iter;
return true;
}
count--;
}
else if(*iter == '{' && is_code_iter(iter))
curly_count++;
else if(*iter == '}' && is_code_iter(iter)) {
if(curly_count == 0)
return false;
curly_count--;
}
} while(iter.forward_char());
return false;
}
}
long Source::View::symbol_count(Gtk::TextIter iter, unsigned int positive_char, unsigned int negative_char) {
auto iter_stored = iter;
long symbol_count = 0;
if(positive_char == '{' && negative_char == '}') {
// If checking top-level curly brackets, check whole buffer
auto previous_iter = iter;
if(iter.starts_line() || (previous_iter.backward_char() && previous_iter.starts_line() && *previous_iter == '{')) {
auto iter = get_buffer()->begin();
do {
if(*iter == '{' && is_code_iter(iter))
++symbol_count;
else if(*iter == '}' && is_code_iter(iter))
--symbol_count;
} while(iter.forward_char());
return symbol_count;
}
// Can stop when text is found at top-level indentation
else {
do {
if(*iter == '{' && is_code_iter(iter))
++symbol_count;
else if(*iter == '}' && is_code_iter(iter))
--symbol_count;
if(iter.starts_line() && !iter.ends_line() && *iter != '#' && *iter != ' ' && *iter != '\t')
break;
} while(iter.backward_char());
iter = iter_stored;
if(!iter.forward_char())
return symbol_count;
do {
if(*iter == '{' && is_code_iter(iter))
++symbol_count;
else if(*iter == '}' && is_code_iter(iter))
--symbol_count;
if(iter.starts_line() && !iter.ends_line() && *iter != '#' && *iter != ' ' && *iter != '\t') {
if(*iter == 'p') {
auto token = get_token(iter);
if(token == "public" || token == "protected" || token == "private")
continue;
}
break;
}
} while(iter.forward_char());
return symbol_count;
}
}
long curly_count = 0;
do {
if(*iter == positive_char && is_code_iter(iter))
symbol_count++;
else if(*iter == negative_char && is_code_iter(iter))
symbol_count--;
else if(*iter == '{' && is_code_iter(iter)) {
if(curly_count == 0)
break;
curly_count++;
}
else if(*iter == '}' && is_code_iter(iter))
curly_count--;
} while(iter.backward_char());
iter = iter_stored;
if(!iter.forward_char())
return symbol_count;
curly_count = 0;
do {
if(*iter == positive_char && is_code_iter(iter))
symbol_count++;
else if(*iter == negative_char && is_code_iter(iter))
symbol_count--;
else if(*iter == '{' && is_code_iter(iter))
curly_count++;
else if(*iter == '}' && is_code_iter(iter)) {
if(curly_count == 0)
break;
curly_count--;
}
} while(iter.forward_char());
return symbol_count;
}
bool Source::View::is_templated_function(Gtk::TextIter iter, Gtk::TextIter &parenthesis_end_iter) {
auto iter_stored = iter;
long bracket_count = 0;
long curly_count = 0;
if(!(iter.backward_char() && *iter == '>' && *iter_stored == '('))
return false;
do {
if(*iter == '<' && is_code_iter(iter))
bracket_count++;
else if(*iter == '>' && is_code_iter(iter))
bracket_count--;
else if(*iter == '{' && is_code_iter(iter))
curly_count++;
else if(*iter == '}' && is_code_iter(iter))
curly_count--;
if(bracket_count == 0)
break;
if(curly_count > 0)
break;
} while(iter.backward_char());
if(bracket_count != 0)
return false;
iter = iter_stored;
bracket_count = 0;
curly_count = 0;
do {
if(*iter == '(' && is_code_iter(iter))
bracket_count++;
else if(*iter == ')' && is_code_iter(iter))
bracket_count--;
else if(*iter == '{' && is_code_iter(iter))
curly_count++;
else if(*iter == '}' && is_code_iter(iter))
curly_count--;
if(bracket_count == 0) {
parenthesis_end_iter = iter;
return true;
}
if(curly_count < 0)
return false;
} while(iter.forward_char());
return false;
}
bool Source::View::is_possible_argument() {
auto iter = get_buffer()->get_insert()->get_iter();
if(iter.backward_char() && (!interactive_completion || last_keyval == '(' || last_keyval == ',' || last_keyval == ' ' ||
last_keyval == GDK_KEY_Return || last_keyval == GDK_KEY_KP_Enter)) {
while((*iter == ' ' || *iter == '\t' || *iter == '\n' || *iter == '\r') && iter.backward_char()) {
}
if(*iter == '(' || *iter == ',')
return true;
}
return false;
}
bool Source::View::on_key_press_event(GdkEventKey *key) {
enable_multiple_cursors = true;
ScopeGuard guard{[this] {
enable_multiple_cursors = false;
}};
if(SelectionDialog::get() && SelectionDialog::get()->is_visible()) {
if(SelectionDialog::get()->on_key_press(key))
return true;
}
if(CompletionDialog::get() && CompletionDialog::get()->is_visible()) {
if(CompletionDialog::get()->on_key_press(key))
return true;
}
if(last_keyval < GDK_KEY_Shift_L || last_keyval > GDK_KEY_Hyper_R)
previous_non_modifier_keyval = last_keyval;
last_keyval = key->keyval;
if((key->keyval == GDK_KEY_Tab || key->keyval == GDK_KEY_ISO_Left_Tab) && (key->state & GDK_SHIFT_MASK) == 0 && select_snippet_argument())
return true;
else if(key->keyval == GDK_KEY_Escape && clear_snippet_marks())
return true;
else if(Config::get().source.enable_multiple_cursors && on_key_press_event_extra_cursors(key))
return true;
//Move cursor one paragraph down
if((key->keyval == GDK_KEY_Down || key->keyval == GDK_KEY_KP_Down) && (key->state & GDK_CONTROL_MASK) > 0) {
auto selection_start_iter = get_buffer()->get_selection_bound()->get_iter();
auto iter = get_buffer()->get_iter_at_line(get_buffer()->get_insert()->get_iter().get_line());
bool empty_line = false;
bool text_found = false;
for(;;) {
if(!iter)
break;
if(iter.starts_line())
empty_line = true;
if(empty_line && !iter.ends_line() && *iter != '\n' && *iter != ' ' && *iter != '\t')
empty_line = false;
if(!text_found && !iter.ends_line() && *iter != '\n' && *iter != ' ' && *iter != '\t')
text_found = true;
if(empty_line && text_found && iter.ends_line())
break;
iter.forward_char();
}
iter = get_buffer()->get_iter_at_line(iter.get_line());
if((key->state & GDK_SHIFT_MASK) > 0)
get_buffer()->select_range(iter, selection_start_iter);
else
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
//Move cursor one paragraph up
else if((key->keyval == GDK_KEY_Up || key->keyval == GDK_KEY_KP_Up) && (key->state & GDK_CONTROL_MASK) > 0) {
auto selection_start_iter = get_buffer()->get_selection_bound()->get_iter();
auto iter = get_buffer()->get_iter_at_line(get_buffer()->get_insert()->get_iter().get_line());
iter.backward_char();
bool empty_line = false;
bool text_found = false;
bool move_to_start = false;
for(;;) {
if(!iter)
break;
if(iter.ends_line())
empty_line = true;
if(empty_line && !iter.ends_line() && *iter != '\n' && *iter != ' ' && *iter != '\t')
empty_line = false;
if(!text_found && !iter.ends_line() && *iter != '\n' && *iter != ' ' && *iter != '\t')
text_found = true;
if(empty_line && text_found && iter.starts_line())
break;
if(iter.is_start()) {
move_to_start = true;
break;
}
iter.backward_char();
}
if(empty_line && !move_to_start) {
iter = get_iter_at_line_end(iter.get_line());
iter.forward_char();
if(!iter.starts_line()) // For CR+LF
iter.forward_char();
}
if((key->state & GDK_SHIFT_MASK) > 0)
get_buffer()->select_range(iter, selection_start_iter);
else
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
get_buffer()->begin_user_action();
// Shift+enter: go to end of line and enter
if((key->keyval == GDK_KEY_Return || key->keyval == GDK_KEY_KP_Enter) && (key->state & GDK_SHIFT_MASK) > 0) {
auto iter = get_buffer()->get_insert()->get_iter();
if(!iter.ends_line()) {
iter.forward_to_line_end();
get_buffer()->place_cursor(iter);
}
}
if(Config::get().source.smart_brackets && on_key_press_event_smart_brackets(key)) {
get_buffer()->end_user_action();
return true;
}
if(Config::get().source.smart_inserts && on_key_press_event_smart_inserts(key)) {
get_buffer()->end_user_action();
return true;
}
if(is_bracket_language && on_key_press_event_bracket_language(key)) {
get_buffer()->end_user_action();
return true;
}
else if(on_key_press_event_basic(key)) {
get_buffer()->end_user_action();
return true;
}
else {
get_buffer()->end_user_action();
return Gsv::View::on_key_press_event(key);
}
}
// Basic indentation
bool Source::View::on_key_press_event_basic(GdkEventKey *key) {
auto iter = get_buffer()->get_insert()->get_iter();
// Indent as in current or next line
if((key->keyval == GDK_KEY_Return || key->keyval == GDK_KEY_KP_Enter) && !get_buffer()->get_has_selection() && !iter.starts_line()) {
cleanup_whitespace_characters(iter);
iter = get_buffer()->get_insert()->get_iter();
auto condition_iter = iter;
condition_iter.backward_char();
condition_iter = find_non_whitespace_code_iter_backward(condition_iter);
auto start_iter = get_start_of_expression(condition_iter);
auto tabs_end_iter = get_tabs_end_iter(start_iter);
auto tabs = get_line_before(tabs_end_iter);
// Python indenting after :
if(*condition_iter == ':' && language && language->get_id() == "python") {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
// Indent as in current or next line
int line_nr = iter.get_line();
if(iter.ends_line() && (line_nr + 1) < get_buffer()->get_line_count()) {
auto next_tabs_end_iter = get_tabs_end_iter(line_nr + 1);
if(next_tabs_end_iter.get_line_offset() > tabs_end_iter.get_line_offset()) {
get_buffer()->insert_at_cursor('\n' + get_line_before(next_tabs_end_iter));
scroll_to(get_buffer()->get_insert());
return true;
}
}
get_buffer()->insert_at_cursor('\n' + tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
// Indent as in next or previous line
else if(key->keyval == GDK_KEY_Tab && (key->state & GDK_SHIFT_MASK) == 0) {
// Special case if insert is at beginning of empty line:
if(iter.starts_line() && iter.ends_line() && !get_buffer()->get_has_selection()) {
auto prev_line_iter = iter;
while(prev_line_iter.starts_line() && prev_line_iter.backward_char()) {
}
auto start_iter = get_start_of_expression(prev_line_iter);
auto prev_line_tabs_end_iter = get_tabs_end_iter(start_iter);
auto next_line_iter = iter;
while(next_line_iter.starts_line() && next_line_iter.forward_char()) {
}
auto next_line_tabs_end_iter = get_tabs_end_iter(next_line_iter);
Gtk::TextIter tabs_end_iter;
if(next_line_tabs_end_iter.get_line_offset() > prev_line_tabs_end_iter.get_line_offset())
tabs_end_iter = next_line_tabs_end_iter;
else
tabs_end_iter = prev_line_tabs_end_iter;
auto tabs = get_line_before(tabs_end_iter);
get_buffer()->insert_at_cursor(tabs.size() >= tab_size ? tabs : tab);
return true;
}
if(!Config::get().source.tab_indents_line && !get_buffer()->get_has_selection()) {
get_buffer()->insert_at_cursor(tab);
return true;
}
// Indent right when clicking tab, no matter where in the line the cursor is. Also works on selected text.
Gtk::TextIter selection_start, selection_end;
get_buffer()->get_selection_bounds(selection_start, selection_end);
auto selection_end_mark = get_buffer()->create_mark(selection_end);
int line_start = selection_start.get_line();
int line_end = selection_end.get_line();
for(int line = line_start; line <= line_end; line++) {
auto line_it = get_buffer()->get_iter_at_line(line);
if(!get_buffer()->get_has_selection() || line_it != selection_end_mark->get_iter())
get_buffer()->insert(line_it, tab);
}
get_buffer()->delete_mark(selection_end_mark);
return true;
}
// Indent left when clicking shift-tab, no matter where in the line the cursor is. Also works on selected text.
else if((key->keyval == GDK_KEY_ISO_Left_Tab || key->keyval == GDK_KEY_Tab) && (key->state & GDK_SHIFT_MASK) > 0) {
Gtk::TextIter selection_start, selection_end;
get_buffer()->get_selection_bounds(selection_start, selection_end);
int line_start = selection_start.get_line();
int line_end = selection_end.get_line();
unsigned indent_left_steps = tab_size;
std::vector<bool> ignore_line;
for(int line_nr = line_start; line_nr <= line_end; line_nr++) {
auto line_it = get_buffer()->get_iter_at_line(line_nr);
if(!get_buffer()->get_has_selection() || line_it != selection_end) {
auto tabs_end_iter = get_tabs_end_iter(line_nr);
if(tabs_end_iter.starts_line() && tabs_end_iter.ends_line())
ignore_line.push_back(true);
else {
auto line_tabs = get_line_before(tabs_end_iter);
if(line_tabs.size() > 0) {
indent_left_steps = std::min(indent_left_steps, static_cast<unsigned>(line_tabs.size()));
ignore_line.push_back(false);
}
else
return true;
}
}
}
for(int line_nr = line_start; line_nr <= line_end; line_nr++) {
Gtk::TextIter line_it = get_buffer()->get_iter_at_line(line_nr);
Gtk::TextIter line_plus_it = line_it;
if(!get_buffer()->get_has_selection() || line_it != selection_end) {
line_plus_it.forward_chars(indent_left_steps);
if(!ignore_line.at(line_nr - line_start))
get_buffer()->erase(line_it, line_plus_it);
}
}
return true;
}
// "Smart" backspace key
else if(key->keyval == GDK_KEY_BackSpace && !get_buffer()->get_has_selection()) {
auto line = get_line_before();
bool do_smart_backspace = true;
for(auto &chr : line) {
if(chr != ' ' && chr != '\t') {
do_smart_backspace = false;
break;
}
}
if(iter.get_line() == 0) // Special case since there are no previous line
do_smart_backspace = false;
if(do_smart_backspace) {
auto previous_line_end_iter = iter;
if(previous_line_end_iter.backward_chars(line.size() + 1)) {
if(!previous_line_end_iter.ends_line()) // For CR+LF
previous_line_end_iter.backward_char();
if(previous_line_end_iter.starts_line()) // When previous line is empty, keep tabs in current line
get_buffer()->erase(previous_line_end_iter, get_buffer()->get_iter_at_line(iter.get_line()));
else
get_buffer()->erase(previous_line_end_iter, iter);
return true;
}
}
}
// "Smart" delete key
else if(key->keyval == GDK_KEY_Delete && !get_buffer()->get_has_selection()) {
auto insert_iter = iter;
bool do_smart_delete = true;
do {
if(*iter != ' ' && *iter != '\t' && !iter.ends_line()) {
do_smart_delete = false;
break;
}
if(iter.ends_line()) {
if(*iter == '\r') // For CR+LF
iter.forward_char();
if(!iter.forward_char())
do_smart_delete = false;
break;
}
} while(iter.forward_char());
if(do_smart_delete) {
if(!insert_iter.starts_line()) {
while((*iter == ' ' || *iter == '\t') && iter.forward_char()) {
}
}
get_buffer()->erase(insert_iter, iter);
return true;
}
}
// Smart Home/End-keys
else if((key->keyval == GDK_KEY_Home || key->keyval == GDK_KEY_KP_Home) && (key->state & GDK_CONTROL_MASK) == 0) {
if((key->state & GDK_SHIFT_MASK) > 0)
get_buffer()->move_mark_by_name("insert", get_smart_home_iter(iter));
else
get_buffer()->place_cursor(get_smart_home_iter(iter));
scroll_to(get_buffer()->get_insert());
return true;
}
else if((key->keyval == GDK_KEY_End || key->keyval == GDK_KEY_KP_End) && (key->state & GDK_CONTROL_MASK) == 0) {
if((key->state & GDK_SHIFT_MASK) > 0)
get_buffer()->move_mark_by_name("insert", get_smart_end_iter(iter));
else
get_buffer()->place_cursor(get_smart_end_iter(iter));
scroll_to(get_buffer()->get_insert());
return true;
}
// Workaround for TextView::on_key_press_event bug sometimes causing segmentation faults
// TODO: figure out the bug and create pull request to gtk
// Have only experienced this on OS X
// Note: valgrind reports issues on TextView::on_key_press_event as well
auto unicode = gdk_keyval_to_unicode(key->keyval);
if((key->state & (GDK_CONTROL_MASK | GDK_META_MASK)) == 0 && unicode >= 32 && unicode != 127 &&
(previous_non_modifier_keyval < GDK_KEY_dead_grave || previous_non_modifier_keyval > GDK_KEY_dead_greek)) {
if(get_buffer()->get_has_selection()) {
Gtk::TextIter selection_start, selection_end;
get_buffer()->get_selection_bounds(selection_start, selection_end);
get_buffer()->erase(selection_start, selection_end);
}
get_buffer()->insert_at_cursor(Glib::ustring(1, unicode));
scroll_to(get_buffer()->get_insert());
// Trick to make the cursor visible right after insertion:
set_cursor_visible(false);
set_cursor_visible();
return true;
}
return false;
}
//Bracket language indentation
bool Source::View::on_key_press_event_bracket_language(GdkEventKey *key) {
const static std::regex no_bracket_statement_regex("^[ \t]*(if( +constexpr)?|for|while) *\\(.*[^;}{] *$|"
"^[ \t]*[}]? *else if( +constexpr)? *\\(.*[^;}{] *$|"
"^[ \t]*[}]? *else *$", std::regex::extended);
auto iter = get_buffer()->get_insert()->get_iter();
if(get_buffer()->get_has_selection())
return false;
if(!is_code_iter(iter)) {
// Add * at start of line in comment blocks
if(key->keyval == GDK_KEY_Return || key->keyval == GDK_KEY_KP_Enter) {
if(!iter.starts_line() && (!string_tag || (!iter.has_tag(string_tag) && !iter.ends_tag(string_tag)))) {
cleanup_whitespace_characters(iter);
iter = get_buffer()->get_insert()->get_iter();
auto start_iter = get_tabs_end_iter(iter.get_line());
auto end_iter = start_iter;
end_iter.forward_chars(2);
auto start_of_sentence = get_buffer()->get_text(start_iter, end_iter);
if(!start_of_sentence.empty()) {
if(start_of_sentence == "/*" || start_of_sentence[0] == '*') {
auto tabs = get_line_before(start_iter);
auto insert_str = '\n' + tabs;
if(start_of_sentence[0] == '/')
insert_str += ' ';
insert_str += "* ";
get_buffer()->insert_at_cursor(insert_str);
return true;
}
}
}
else if(!comment_tag || !iter.ends_tag(comment_tag))
return false;
}
else
return false;
}
// Indent depending on if/else/etc and brackets
if((key->keyval == GDK_KEY_Return || key->keyval == GDK_KEY_KP_Enter) && !iter.starts_line()) {
cleanup_whitespace_characters(iter);
iter = get_buffer()->get_insert()->get_iter();
auto previous_iter = iter;
previous_iter.backward_char();
// Remove matching bracket highlights that get extended when inserting text in between the brackets
ScopeGuard guard;
if((*previous_iter == '{' && *iter == '}') || (*previous_iter == '(' && *iter == ')') ||
(*previous_iter == '[' && *iter == ']') || (*previous_iter == '<' && *iter == '>')) {
get_source_buffer()->set_highlight_matching_brackets(false);
guard.on_exit = [this] {
get_source_buffer()->set_highlight_matching_brackets(true);
};
}
auto condition_iter = previous_iter;
condition_iter = find_non_whitespace_code_iter_backward(condition_iter);
auto start_iter = get_start_of_expression(condition_iter);
auto tabs_end_iter = get_tabs_end_iter(start_iter);
auto tabs = get_line_before(tabs_end_iter);
/*
* Change tabs after ending comment block with an extra space (as in this case)
*/
if(tabs.size() % tab_size == 1 && !start_iter.ends_line() && !is_code_iter(start_iter)) {
auto end_of_line_iter = start_iter;
end_of_line_iter.forward_to_line_end();
auto line = get_buffer()->get_text(tabs_end_iter, end_of_line_iter);
if(!line.empty() && line.raw().compare(0, 2, "*/") == 0) {
tabs.pop_back();
get_buffer()->insert_at_cursor('\n' + tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Special indentation of {, [ and ( for for instance JavaScript, JSON, Rust
if(use_fixed_continuation_indenting) {
unsigned int open_symbol = 0, close_symbol = 0;
if(*condition_iter == '[') {
open_symbol = '[';
close_symbol = ']';
}
else if(*condition_iter == '(') {
open_symbol = '(';
close_symbol = ')';
}
else if(*condition_iter == '{') {
open_symbol = '{';
close_symbol = '}';
}
if(open_symbol != 0 && is_code_iter(condition_iter)) {
Gtk::TextIter found_iter;
// Check if an ), ] or } is needed
bool has_right_bracket = false;
if(find_close_symbol_forward(iter, found_iter, open_symbol, close_symbol)) {
auto found_tabs_end_iter = get_tabs_end_iter(found_iter);
if(found_tabs_end_iter.get_line_offset() == tabs_end_iter.get_line_offset())
has_right_bracket = true;
}
if(*iter == close_symbol) {
get_buffer()->insert_at_cursor('\n' + tabs + tab + '\n' + tabs);
auto insert_it = get_buffer()->get_insert()->get_iter();
if(insert_it.backward_chars(tabs.size() + 1)) {
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(insert_it);
}
return true;
}
else if(!has_right_bracket) {
// If line does not end with: (,[, or {, move contents after the left bracket to next line inside brackets
if(!iter.ends_line() && *iter != ')' && *iter != ']' && *iter != '}') {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
auto iter = get_buffer()->get_insert()->get_iter();
auto mark = get_buffer()->create_mark(iter);
iter.forward_to_line_end();
get_buffer()->insert(iter, '\n' + tabs + static_cast<char>(close_symbol));
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(mark->get_iter());
get_buffer()->delete_mark(mark);
return true;
}
else {
//Insert new lines with bracket end
get_buffer()->insert_at_cursor('\n' + tabs + tab + '\n' + tabs + static_cast<char>(close_symbol));
auto insert_it = get_buffer()->get_insert()->get_iter();
if(insert_it.backward_chars(tabs.size() + 2)) {
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(insert_it);
}
return true;
}
}
else {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// JavaScript: simplified indentations inside brackets, after for example:
// [\n 1, 2, 3,\n
// return (\n
// ReactDOM.render(\n <div>\n
Gtk::TextIter found_iter;
auto after_start_iter = start_iter;
after_start_iter.forward_char();
if((*start_iter == '[' && (!find_close_symbol_forward(after_start_iter, found_iter, '[', ']') || found_iter > iter)) ||
(*start_iter == '(' && (!find_close_symbol_forward(after_start_iter, found_iter, '(', ')') || found_iter > iter)) ||
(*start_iter == '{' && (!find_close_symbol_forward(after_start_iter, found_iter, '{', '}') || found_iter > iter))) {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
}
else {
if(*condition_iter == '{' && is_code_iter(condition_iter)) {
Gtk::TextIter close_iter;
// Check if an '}' is needed
bool has_right_curly_bracket = false;
if(find_close_symbol_forward(iter, close_iter, '{', '}')) {
auto found_tabs_end_iter = get_tabs_end_iter(close_iter);
if(found_tabs_end_iter.get_line_offset() == tabs_end_iter.get_line_offset()) {
has_right_curly_bracket = true;
// Special case for functions and classes with no indentation after: namespace {
if(is_cpp && tabs_end_iter.starts_line()) {
auto iter = condition_iter;
Gtk::TextIter open_iter;
if(iter.backward_char() && find_open_curly_bracket_backward(iter, open_iter)) {
if(open_iter.starts_line()) // in case of: namespace test\n{
open_iter.backward_char();
auto iter = get_buffer()->get_iter_at_line(open_iter.get_line());
if(get_token(iter) == "namespace")
has_right_curly_bracket = close_iter.forward_char() && find_close_symbol_forward(close_iter, close_iter, '{', '}');
}
}
}
}
// Check if one should add semicolon after '}'
bool add_semicolon = false;
if(is_cpp) {
// add semicolon after class or struct?
auto token = get_token(tabs_end_iter);
if(token == "class" || token == "struct")
add_semicolon = true;
// Add semicolon after lambda unless it's a parameter
else if(*start_iter != '(' && *start_iter != '{' && *start_iter != '[') {
auto it = condition_iter;
long para_count = 0;
long square_count = 0;
bool square_outside_para_found = false;
while(it.backward_char()) {
if(*it == ']' && is_code_iter(it)) {
--square_count;
if(para_count == 0)
square_outside_para_found = true;
}
else if(*it == '[' && is_code_iter(it))
++square_count;
else if(*it == ')' && is_code_iter(it))
--para_count;
else if(*it == '(' && is_code_iter(it))
++para_count;
if(square_outside_para_found && square_count == 0 && para_count == 0) {
add_semicolon = true;
break;
}
if(it == start_iter)
break;
if(!square_outside_para_found && square_count == 0 && para_count == 0) {
if((*it >= 'A' && *it <= 'Z') || (*it >= 'a' && *it <= 'z') || (*it >= '0' && *it <= '9') || *it == '_' ||
*it == '-' || *it == ' ' || *it == '\t' || *it == '<' || *it == '>' || *it == '(' || *it == ':' ||
*it == '*' || *it == '&' || *it == '/' || it.ends_line() || !is_code_iter(it)) {
continue;
}
else
break;
}
}
}
}
if(*iter == '}') {
get_buffer()->insert_at_cursor('\n' + tabs + tab + '\n' + tabs);
if(add_semicolon) {
// Check if semicolon exists
auto next_iter = get_buffer()->get_insert()->get_iter();
next_iter.forward_char();
if(*next_iter != ';')
get_buffer()->insert(next_iter, ";");
}
auto insert_it = get_buffer()->get_insert()->get_iter();
if(insert_it.backward_chars(tabs.size() + 1)) {
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(insert_it);
}
return true;
}
else if(!has_right_curly_bracket) {
// If line does not end with: {, move contents after { to next line inside brackets
if(!iter.ends_line() && *iter != ')' && *iter != ']') {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
auto iter = get_buffer()->get_insert()->get_iter();
auto mark = get_buffer()->create_mark(iter);
iter.forward_to_line_end();
get_buffer()->insert(iter, '\n' + tabs + '}');
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(mark->get_iter());
get_buffer()->delete_mark(mark);
return true;
}
else {
get_buffer()->insert_at_cursor('\n' + tabs + tab + '\n' + tabs + (add_semicolon ? "};" : "}"));
auto insert_it = get_buffer()->get_insert()->get_iter();
if(insert_it.backward_chars(tabs.size() + (add_semicolon ? 3 : 2))) {
scroll_to(get_buffer()->get_insert());
get_buffer()->place_cursor(insert_it);
}
return true;
}
}
else {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Indent multiline expressions
if(*start_iter == '(' || *start_iter == '[') {
auto iter = get_tabs_end_iter(start_iter);
auto tabs = get_line_before(iter);
while(iter <= start_iter) {
tabs += ' ';
iter.forward_char();
}
get_buffer()->insert_at_cursor('\n' + tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
}
auto after_condition_iter = condition_iter;
after_condition_iter.forward_char();
std::string sentence = get_buffer()->get_text(start_iter, after_condition_iter);
std::smatch sm;
// Indenting after for instance: if(...)\n
if(std::regex_match(sentence, sm, no_bracket_statement_regex)) {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
// Indenting after for instance: if(...)\n...;\n
else if(*condition_iter == ';' && condition_iter.get_line() > 0 && is_code_iter(condition_iter)) {
auto previous_end_iter = start_iter;
while(previous_end_iter.backward_char() && !previous_end_iter.ends_line()) {
}
previous_end_iter = find_non_whitespace_code_iter_backward(previous_end_iter);
auto previous_start_iter = get_tabs_end_iter(get_buffer()->get_iter_at_line(get_start_of_expression(previous_end_iter).get_line()));
auto previous_tabs = get_line_before(previous_start_iter);
if(!previous_end_iter.ends_line())
previous_end_iter.forward_char();
std::string previous_sentence = get_buffer()->get_text(previous_start_iter, previous_end_iter);
std::smatch sm2;
if(std::regex_match(previous_sentence, sm2, no_bracket_statement_regex)) {
get_buffer()->insert_at_cursor('\n' + previous_tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Indenting after ':'
else if(*condition_iter == ':' && is_code_iter(condition_iter)) {
bool perform_indent = true;
auto iter = condition_iter;
if(!iter.starts_line())
iter.backward_char();
while(!iter.starts_line() && *iter == ' ' && iter.backward_char()) {
}
if(*iter == ')') {
auto token = get_token(get_tabs_end_iter(get_buffer()->get_iter_at_line(iter.get_line())));
if(token != "case") // Do not move left for instance: void Test::Test():
perform_indent = false;
}
if(perform_indent) {
Gtk::TextIter found_curly_iter;
if(find_open_curly_bracket_backward(iter, found_curly_iter)) {
auto tabs_end_iter = get_tabs_end_iter(get_buffer()->get_iter_at_line(found_curly_iter.get_line()));
auto tabs_start_of_sentence = get_line_before(tabs_end_iter);
if(tabs.size() == (tabs_start_of_sentence.size() + tab_size)) {
auto start_line_iter = get_buffer()->get_iter_at_line(iter.get_line());
auto start_line_plus_tab_size = start_line_iter;
for(size_t c = 0; c < tab_size; c++)
start_line_plus_tab_size.forward_char();
get_buffer()->erase(start_line_iter, start_line_plus_tab_size);
get_buffer()->insert_at_cursor('\n' + tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
else {
get_buffer()->insert_at_cursor('\n' + tabs + tab);
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
}
// Indent as in current or next line
int line_nr = iter.get_line();
if(iter.ends_line() && (line_nr + 1) < get_buffer()->get_line_count()) {
auto next_tabs_end_iter = get_tabs_end_iter(line_nr + 1);
if(next_tabs_end_iter.get_line_offset() > tabs_end_iter.get_line_offset()) {
get_buffer()->insert_at_cursor('\n' + get_line_before(next_tabs_end_iter));
scroll_to(get_buffer()->get_insert());
return true;
}
}
get_buffer()->insert_at_cursor('\n' + tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
// Indent left when writing }, ) or ] on a new line
else if(key->keyval == GDK_KEY_braceright ||
(use_fixed_continuation_indenting && (key->keyval == GDK_KEY_bracketright || key->keyval == GDK_KEY_parenright))) {
std::string bracket;
if(key->keyval == GDK_KEY_braceright)
bracket = "}";
if(key->keyval == GDK_KEY_bracketright)
bracket = "]";
else if(key->keyval == GDK_KEY_parenright)
bracket = ")";
std::string line = get_line_before();
if(line.size() >= tab_size && iter.ends_line()) {
bool indent_left = true;
for(auto c : line) {
if(c != tab_char) {
indent_left = false;
break;
}
}
if(indent_left) {
auto line_it = get_buffer()->get_iter_at_line(iter.get_line());
auto line_plus_it = line_it;
line_plus_it.forward_chars(tab_size);
get_buffer()->erase(line_it, line_plus_it);
get_buffer()->insert_at_cursor(bracket);
return true;
}
}
}
// Indent left when writing { on a new line after for instance if(...)\n...
else if(key->keyval == GDK_KEY_braceleft) {
auto tabs_end_iter = get_tabs_end_iter();
auto tabs = get_line_before(tabs_end_iter);
size_t line_nr = iter.get_line();
if(line_nr > 0 && tabs.size() >= tab_size && iter == tabs_end_iter) {
auto previous_end_iter = iter;
while(previous_end_iter.backward_char() && !previous_end_iter.ends_line()) {
}
auto condition_iter = find_non_whitespace_code_iter_backward(previous_end_iter);
auto previous_start_iter = get_tabs_end_iter(get_buffer()->get_iter_at_line(get_start_of_expression(condition_iter).get_line()));
auto previous_tabs = get_line_before(previous_start_iter);
auto after_condition_iter = condition_iter;
after_condition_iter.forward_char();
if((tabs.size() - tab_size) == previous_tabs.size()) {
std::string previous_sentence = get_buffer()->get_text(previous_start_iter, after_condition_iter);
std::smatch sm;
if(std::regex_match(previous_sentence, sm, no_bracket_statement_regex)) {
auto start_iter = iter;
start_iter.backward_chars(tab_size);
get_buffer()->erase(start_iter, iter);
get_buffer()->insert_at_cursor("{");
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
}
// Mark parameters of templated functions after pressing tab and after writing template argument
else if(key->keyval == GDK_KEY_Tab && (key->state & GDK_SHIFT_MASK) == 0) {
if(*iter == '>') {
iter.forward_char();
Gtk::TextIter parenthesis_end_iter;
if(*iter == '(' && is_templated_function(iter, parenthesis_end_iter)) {
iter.forward_char();
get_buffer()->select_range(iter, parenthesis_end_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Special case if insert is at beginning of empty line:
else if(iter.starts_line() && iter.ends_line() && !get_buffer()->get_has_selection()) {
// Indenting after for instance: if(...)\n...;\n
auto condition_iter = iter;
while(condition_iter.starts_line() && condition_iter.backward_char()) {
}
condition_iter = find_non_whitespace_code_iter_backward(condition_iter);
if(*condition_iter == ';' && condition_iter.get_line() > 0 && is_code_iter(condition_iter)) {
auto start_iter = get_start_of_expression(condition_iter);
auto previous_end_iter = start_iter;
while(previous_end_iter.backward_char() && !previous_end_iter.ends_line()) {
}
previous_end_iter = find_non_whitespace_code_iter_backward(previous_end_iter);
auto previous_start_iter = get_tabs_end_iter(get_buffer()->get_iter_at_line(get_start_of_expression(previous_end_iter).get_line()));
auto previous_tabs = get_line_before(previous_start_iter);
if(!previous_end_iter.ends_line())
previous_end_iter.forward_char();
std::string previous_sentence = get_buffer()->get_text(previous_start_iter, previous_end_iter);
std::smatch sm2;
if(std::regex_match(previous_sentence, sm2, no_bracket_statement_regex)) {
get_buffer()->insert_at_cursor(previous_tabs);
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
}
return false;
}
bool Source::View::on_key_press_event_smart_brackets(GdkEventKey *key) {
if(get_buffer()->get_has_selection())
return false;
auto iter = get_buffer()->get_insert()->get_iter();
auto previous_iter = iter;
previous_iter.backward_char();
if(is_code_iter(iter)) {
//Move after ')' if closed expression
if(key->keyval == GDK_KEY_parenright) {
if(*iter == ')' && symbol_count(iter, '(', ')') <= 0) {
iter.forward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
//Move after '>' if >( and closed expression
else if(key->keyval == GDK_KEY_greater) {
if(*iter == '>') {
iter.forward_char();
Gtk::TextIter parenthesis_end_iter;
if(*iter == '(' && is_templated_function(iter, parenthesis_end_iter)) {
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
//Move after '(' if >( and select text inside parentheses
else if(key->keyval == GDK_KEY_parenleft) {
auto previous_iter = iter;
previous_iter.backward_char();
if(*previous_iter == '>') {
Gtk::TextIter parenthesis_end_iter;
if(*iter == '(' && is_templated_function(iter, parenthesis_end_iter)) {
iter.forward_char();
get_buffer()->select_range(iter, parenthesis_end_iter);
scroll_to(iter);
return true;
}
}
}
}
return false;
}
bool Source::View::on_key_press_event_smart_inserts(GdkEventKey *key) {
keep_snippet_marks = true;
ScopeGuard guard{[this] {
keep_snippet_marks = false;
}};
if(get_buffer()->get_has_selection()) {
if(is_bracket_language) {
// Remove /**/ around selection
if(key->keyval == GDK_KEY_slash) {
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
auto before_start = start;
auto after_end = end;
if(before_start.backward_char() && *before_start == '*' && before_start.backward_char() && *before_start == '/' &&
*after_end == '*' && after_end.forward_char() && *after_end == '/') {
auto start_mark = get_buffer()->create_mark(start);
auto end_mark = get_buffer()->create_mark(end);
get_buffer()->erase(before_start, start);
after_end = end_mark->get_iter();
after_end.forward_chars(2);
get_buffer()->erase(end_mark->get_iter(), after_end);
get_buffer()->select_range(start_mark->get_iter(), end_mark->get_iter());
get_buffer()->delete_mark(start_mark);
get_buffer()->delete_mark(end_mark);
return true;
}
}
}
Glib::ustring left, right;
// Insert () around selection
if(key->keyval == GDK_KEY_parenleft) {
left = '(';
right = ')';
}
// Insert [] around selection
else if(key->keyval == GDK_KEY_bracketleft) {
left = '[';
right = ']';
}
// Insert {} around selection
else if(key->keyval == GDK_KEY_braceleft) {
left = '{';
right = '}';
}
// Insert <> around selection
else if(key->keyval == GDK_KEY_less) {
left = '<';
right = '>';
}
// Insert '' around selection
else if(key->keyval == GDK_KEY_apostrophe) {
left = '\'';
right = '\'';
}
// Insert "" around selection
else if(key->keyval == GDK_KEY_quotedbl) {
left = '"';
right = '"';
}
else if(language && language->get_id() == "markdown") {
if(key->keyval == GDK_KEY_dead_grave) {
left = '`';
right = '`';
}
if(key->keyval == GDK_KEY_asterisk) {
left = '*';
right = '*';
}
if(key->keyval == GDK_KEY_underscore) {
left = '_';
right = '_';
}
if(key->keyval == GDK_KEY_dead_tilde) {
left = '~';
right = '~';
}
}
else if(is_bracket_language) {
// Insert /**/ around selection
if(key->keyval == GDK_KEY_slash) {
left = "/*";
right = "*/";
}
}
if(!left.empty() && !right.empty()) {
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
auto start_mark = get_buffer()->create_mark(start);
auto end_mark = get_buffer()->create_mark(end);
get_buffer()->insert(start, left);
get_buffer()->insert(end_mark->get_iter(), right);
auto start_mark_next_iter = start_mark->get_iter();
start_mark_next_iter.forward_chars(left.size());
get_buffer()->select_range(start_mark_next_iter, end_mark->get_iter());
get_buffer()->delete_mark(start_mark);
get_buffer()->delete_mark(end_mark);
return true;
}
return false;
}
auto iter = get_buffer()->get_insert()->get_iter();
auto previous_iter = iter;
previous_iter.backward_char();
auto next_iter = iter;
next_iter.forward_char();
auto allow_insertion = [](const Gtk::TextIter &iter) {
if(iter.ends_line() || *iter == ' ' || *iter == '\t' || *iter == ';' || *iter == ',' ||
*iter == ')' || *iter == '[' || *iter == ']' || *iter == '{' || *iter == '}' || *iter == '<' || *iter == '>' || *iter == '/')
return true;
return false;
};
if(is_code_iter(iter)) {
// Insert ()
if(key->keyval == GDK_KEY_parenleft && allow_insertion(iter)) {
if(symbol_count(iter, '(', ')') >= 0) {
get_buffer()->insert_at_cursor(")");
auto iter = get_buffer()->get_insert()->get_iter();
iter.backward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return false;
}
}
// Insert []
else if(key->keyval == GDK_KEY_bracketleft && allow_insertion(iter)) {
if(symbol_count(iter, '[', ']') >= 0) {
get_buffer()->insert_at_cursor("]");
auto iter = get_buffer()->get_insert()->get_iter();
iter.backward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return false;
}
}
// Move right on ] in []
else if(key->keyval == GDK_KEY_bracketright) {
if(*iter == ']' && symbol_count(iter, '[', ']') <= 0) {
iter.forward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Insert {}
else if(key->keyval == GDK_KEY_braceleft && allow_insertion(iter)) {
auto start_iter = get_start_of_expression(iter);
// Do not add } if { is at end of line and next line has a higher indentation
auto test_iter = iter;
while(!test_iter.ends_line() && (*test_iter == ' ' || *test_iter == '\t' || !is_code_iter(test_iter)) && test_iter.forward_char()) {
}
if(test_iter.ends_line()) {
if(iter.get_line() + 1 < get_buffer()->get_line_count() && *start_iter != '(' && *start_iter != '[' && *start_iter != '{') {
auto tabs_end_iter = (get_tabs_end_iter(get_buffer()->get_iter_at_line(start_iter.get_line())));
auto next_line_iter = get_buffer()->get_iter_at_line(iter.get_line() + 1);
auto next_line_tabs_end_iter = (get_tabs_end_iter(get_buffer()->get_iter_at_line(next_line_iter.get_line())));
if(next_line_tabs_end_iter.get_line_offset() > tabs_end_iter.get_line_offset())
return false;
}
}
Gtk::TextIter close_iter;
bool has_right_curly_bracket = false;
auto tabs_end_iter = get_tabs_end_iter(start_iter);
if(find_close_symbol_forward(iter, close_iter, '{', '}')) {
auto found_tabs_end_iter = get_tabs_end_iter(close_iter);
if(found_tabs_end_iter.get_line_offset() == tabs_end_iter.get_line_offset()) {
has_right_curly_bracket = true;
// Special case for functions and classes with no indentation after: namespace {:
if(is_cpp && tabs_end_iter.starts_line()) {
Gtk::TextIter open_iter;
if(find_open_curly_bracket_backward(iter, open_iter)) {
if(open_iter.starts_line()) // in case of: namespace test\n{
open_iter.backward_char();
auto iter = get_buffer()->get_iter_at_line(open_iter.get_line());
if(get_token(iter) == "namespace")
has_right_curly_bracket = close_iter.forward_char() && find_close_symbol_forward(close_iter, close_iter, '{', '}');
}
}
// Inside for example {}:
else if(found_tabs_end_iter.get_line() == tabs_end_iter.get_line())
has_right_curly_bracket = symbol_count(iter, '{', '}') < 0;
}
}
if(!has_right_curly_bracket) {
get_buffer()->insert_at_cursor("}");
auto iter = get_buffer()->get_insert()->get_iter();
iter.backward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
}
return false;
}
// Move right on } in {}
else if(key->keyval == GDK_KEY_braceright) {
if(*iter == '}' && symbol_count(iter, '{', '}') <= 0) {
iter.forward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
// Insert ''
else if(key->keyval == GDK_KEY_apostrophe && allow_insertion(iter) && symbol_count(iter, '\'', -1) % 2 == 0) {
get_buffer()->insert_at_cursor("''");
auto iter = get_buffer()->get_insert()->get_iter();
iter.backward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Insert ""
else if(key->keyval == GDK_KEY_quotedbl && allow_insertion(iter) && symbol_count(iter, '"', -1) % 2 == 0) {
get_buffer()->insert_at_cursor("\"\"");
auto iter = get_buffer()->get_insert()->get_iter();
iter.backward_char();
get_buffer()->place_cursor(iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Move right on last ' in '', or last " in ""
else if(((key->keyval == GDK_KEY_apostrophe && *iter == '\'') || (key->keyval == GDK_KEY_quotedbl && *iter == '\"')) && is_spellcheck_iter(iter)) {
get_buffer()->place_cursor(next_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Insert ; at the end of line, if iter is at the last )
else if(key->keyval == GDK_KEY_semicolon) {
if(*iter == ')' && symbol_count(iter, '(', ')') <= 0 && next_iter.ends_line()) {
auto start_iter = get_start_of_expression(previous_iter);
if(*start_iter == '(') {
start_iter.backward_char();
if(*start_iter == ' ')
start_iter.backward_char();
auto token = get_token(start_iter);
if(token != "for" && token != "if" && token != "while" && token != "else") {
iter.forward_char();
get_buffer()->place_cursor(iter);
get_buffer()->insert_at_cursor(";");
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
}
// Delete ()
else if(key->keyval == GDK_KEY_BackSpace) {
if(*previous_iter == '(' && *iter == ')' && symbol_count(iter, '(', ')') <= 0) {
auto next_iter = iter;
next_iter.forward_char();
get_buffer()->erase(previous_iter, next_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Delete []
else if(*previous_iter == '[' && *iter == ']' && symbol_count(iter, '[', ']') <= 0) {
auto next_iter = iter;
next_iter.forward_char();
get_buffer()->erase(previous_iter, next_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Delete {}
else if(*previous_iter == '{' && *iter == '}' && symbol_count(iter, '{', '}') <= 0) {
auto next_iter = iter;
next_iter.forward_char();
get_buffer()->erase(previous_iter, next_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
// Delete '' or ""
else if(key->keyval == GDK_KEY_BackSpace) {
if((*previous_iter == '\'' && *iter == '\'') || (*previous_iter == '"' && *iter == '"')) {
get_buffer()->erase(previous_iter, next_iter);
scroll_to(get_buffer()->get_insert());
return true;
}
}
}
}
return false;
}
bool Source::View::on_key_press_event_extra_cursors(GdkEventKey *key) {
setup_extra_cursor_signals();
if(key->keyval == GDK_KEY_Escape && !extra_cursors.empty()) {
for(auto &extra_cursor : extra_cursors) {
extra_cursor.first->set_visible(false);
get_buffer()->delete_mark(extra_cursor.first);
}
extra_cursors.clear();
return true;
}
unsigned create_cursor_mask = GDK_MOD1_MASK;
unsigned move_last_created_cursor_mask = GDK_SHIFT_MASK | GDK_MOD1_MASK;
// Move last created cursor
if((key->keyval == GDK_KEY_Left || key->keyval == GDK_KEY_KP_Left) && (key->state & move_last_created_cursor_mask) == move_last_created_cursor_mask) {
if(extra_cursors.empty())
return false;
auto &cursor = extra_cursors.back().first;
auto iter = cursor->get_iter();
iter.backward_char();
get_buffer()->move_mark(cursor, iter);
return true;
}
if((key->keyval == GDK_KEY_Right || key->keyval == GDK_KEY_KP_Right) && (key->state & move_last_created_cursor_mask) == move_last_created_cursor_mask) {
if(extra_cursors.empty())
return false;
auto &cursor = extra_cursors.back().first;
auto iter = cursor->get_iter();
iter.forward_char();
get_buffer()->move_mark(cursor, iter);
return true;
}
if((key->keyval == GDK_KEY_Up || key->keyval == GDK_KEY_KP_Up) && (key->state & move_last_created_cursor_mask) == move_last_created_cursor_mask) {
if(extra_cursors.empty())
return false;
auto &extra_cursor = extra_cursors.back();
auto iter = extra_cursor.first->get_iter();
auto line_offset = extra_cursor.second;
if(iter.backward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(line_offset, end_line_iter.get_line_offset()));
get_buffer()->move_mark(extra_cursor.first, iter);
}
return true;
}
if((key->keyval == GDK_KEY_Down || key->keyval == GDK_KEY_KP_Down) && (key->state & move_last_created_cursor_mask) == move_last_created_cursor_mask) {
if(extra_cursors.empty())
return false;
auto &extra_cursor = extra_cursors.back();
auto iter = extra_cursor.first->get_iter();
auto line_offset = extra_cursor.second;
if(iter.forward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(line_offset, end_line_iter.get_line_offset()));
get_buffer()->move_mark(extra_cursor.first, iter);
}
return true;
}
// Create extra cursor
if((key->keyval == GDK_KEY_Up || key->keyval == GDK_KEY_KP_Up) && (key->state & create_cursor_mask) == create_cursor_mask) {
auto insert_iter = get_buffer()->get_insert()->get_iter();
auto insert_line_offset = insert_iter.get_line_offset();
auto offset = insert_iter.get_offset();
for(auto &extra_cursor : extra_cursors)
offset = std::min(offset, extra_cursor.first->get_iter().get_offset());
auto iter = get_buffer()->get_iter_at_offset(offset);
if(iter.backward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(insert_line_offset, end_line_iter.get_line_offset()));
extra_cursors.emplace_back(get_buffer()->create_mark(iter, false), insert_line_offset);
extra_cursors.back().first->set_visible(true);
}
return true;
}
if((key->keyval == GDK_KEY_Down || key->keyval == GDK_KEY_KP_Down) && (key->state & create_cursor_mask) == create_cursor_mask) {
auto insert_iter = get_buffer()->get_insert()->get_iter();
auto insert_line_offset = insert_iter.get_line_offset();
auto offset = insert_iter.get_offset();
for(auto &extra_cursor : extra_cursors)
offset = std::max(offset, extra_cursor.first->get_iter().get_offset());
auto iter = get_buffer()->get_iter_at_offset(offset);
if(iter.forward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(insert_line_offset, end_line_iter.get_line_offset()));
extra_cursors.emplace_back(get_buffer()->create_mark(iter, false), insert_line_offset);
extra_cursors.back().first->set_visible(true);
}
return true;
}
// Move cursors left/right
if((key->keyval == GDK_KEY_Left || key->keyval == GDK_KEY_KP_Left) && (key->state & GDK_CONTROL_MASK) > 0) {
enable_multiple_cursors = false;
for(auto &extra_cursor : extra_cursors) {
auto iter = extra_cursor.first->get_iter();
iter.backward_word_start();
extra_cursor.second = iter.get_line_offset();
get_buffer()->move_mark(extra_cursor.first, iter);
}
auto insert = get_buffer()->get_insert();
auto iter = insert->get_iter();
iter.backward_word_start();
get_buffer()->move_mark(insert, iter);
if((key->state & GDK_SHIFT_MASK) == 0)
get_buffer()->move_mark_by_name("selection_bound", iter);
return true;
}
if((key->keyval == GDK_KEY_Right || key->keyval == GDK_KEY_KP_Right) && (key->state & GDK_CONTROL_MASK) > 0) {
enable_multiple_cursors = false;
for(auto &extra_cursor : extra_cursors) {
auto iter = extra_cursor.first->get_iter();
iter.forward_visible_word_end();
extra_cursor.second = iter.get_line_offset();
get_buffer()->move_mark(extra_cursor.first, iter);
}
auto insert = get_buffer()->get_insert();
auto iter = insert->get_iter();
iter.forward_visible_word_end();
get_buffer()->move_mark(insert, iter);
if((key->state & GDK_SHIFT_MASK) == 0)
get_buffer()->move_mark_by_name("selection_bound", iter);
return true;
}
// Move cursors up/down
if((key->keyval == GDK_KEY_Up || key->keyval == GDK_KEY_KP_Up)) {
enable_multiple_cursors = false;
for(auto &extra_cursor : extra_cursors) {
auto iter = extra_cursor.first->get_iter();
auto line_offset = extra_cursor.second;
if(iter.backward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(line_offset, end_line_iter.get_line_offset()));
get_buffer()->move_mark(extra_cursor.first, iter);
}
}
return false;
}
if((key->keyval == GDK_KEY_Down || key->keyval == GDK_KEY_KP_Down)) {
enable_multiple_cursors = false;
for(auto &extra_cursor : extra_cursors) {
auto iter = extra_cursor.first->get_iter();
auto line_offset = extra_cursor.second;
if(iter.forward_line()) {
auto end_line_iter = iter;
if(!end_line_iter.ends_line())
end_line_iter.forward_to_line_end();
iter.forward_chars(std::min(line_offset, end_line_iter.get_line_offset()));
get_buffer()->move_mark(extra_cursor.first, iter);
}
}
return false;
}
// Smart Home-key, start of line
if((key->keyval == GDK_KEY_Home || key->keyval == GDK_KEY_KP_Home) && (key->state & GDK_CONTROL_MASK) == 0) {
for(auto &extra_cursor : extra_cursors)
get_buffer()->move_mark(extra_cursor.first, get_smart_home_iter(extra_cursor.first->get_iter()));
enable_multiple_cursors = false;
return false;
}
// Smart End-key, end of line
if((key->keyval == GDK_KEY_End || key->keyval == GDK_KEY_KP_End) && (key->state & GDK_CONTROL_MASK) == 0) {
for(auto &extra_cursor : extra_cursors)
get_buffer()->move_mark(extra_cursor.first, get_smart_end_iter(extra_cursor.first->get_iter()));
enable_multiple_cursors = false;
return false;
}
return false;
}
bool Source::View::on_button_press_event(GdkEventButton *event) {
// Select range when double clicking
if(event->type == GDK_2BUTTON_PRESS) {
Gtk::TextIter start, end;
get_buffer()->get_selection_bounds(start, end);
auto iter = start;
while((*iter >= 48 && *iter <= 57) || (*iter >= 65 && *iter <= 90) || (*iter >= 97 && *iter <= 122) || *iter == 95) {
start = iter;
if(!iter.backward_char())
break;
}
while((*end >= 48 && *end <= 57) || (*end >= 65 && *end <= 90) || (*end >= 97 && *end <= 122) || *end == 95) {
if(!end.forward_char())
break;
}
get_buffer()->select_range(start, end);
return true;
}
// Go to implementation or declaration
if((event->type == GDK_BUTTON_PRESS) && (event->button == 1)) {
if(event->state & primary_modifier_mask) {
int x, y;
window_to_buffer_coords(Gtk::TextWindowType::TEXT_WINDOW_TEXT, event->x, event->y, x, y);
Gtk::TextIter iter;
get_iter_at_location(iter, x, y);
if(iter)
get_buffer()->place_cursor(iter);
Menu::get().actions["source_goto_declaration_or_implementation"]->activate();
return true;
}
}
// Open right click menu
if((event->type == GDK_BUTTON_PRESS) && (event->button == 3)) {
hide_tooltips();
if(!get_buffer()->get_has_selection()) {
int x, y;
window_to_buffer_coords(Gtk::TextWindowType::TEXT_WINDOW_TEXT, event->x, event->y, x, y);
Gtk::TextIter iter;
get_iter_at_location(iter, x, y);
if(iter)
get_buffer()->place_cursor(iter);
Menu::get().right_click_line_menu->popup(event->button, event->time);
}
else {
Menu::get().right_click_selected_menu->popup(event->button, event->time);
}
return true;
}
return Gsv::View::on_button_press_event(event);
}
bool Source::View::on_motion_notify_event(GdkEventMotion *event) {
// Workaround for drag-and-drop crash on MacOS
// TODO 2018: check if this bug has been fixed
#ifdef __APPLE__
if((event->state & GDK_BUTTON1_MASK) == 0 || (event->state & GDK_SHIFT_MASK) > 0)
return Gsv::View::on_motion_notify_event(event);
else {
int x, y;
window_to_buffer_coords(Gtk::TextWindowType::TEXT_WINDOW_TEXT, event->x, event->y, x, y);
Gtk::TextIter iter;
get_iter_at_location(iter, x, y);
get_buffer()->select_range(get_buffer()->get_insert()->get_iter(), iter);
return true;
}
#else
return Gsv::View::on_motion_notify_event(event);
#endif
}