#include "source.h" #include "config.h" #include "filesystem.h" #include "terminal.h" #include "info.h" #include "directories.h" #include "menu.h" #include "selection_dialog.h" #include #include #include #include #include #include #include #include Glib::RefPtr Source::guess_language(const boost::filesystem::path &file_path) { auto language_manager=Gsv::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=="Makefile") language=language_manager->get_language("makefile"); else if(file_path.extension()==".tcc") language=language_manager->get_language("cpphdr"); } return language; } Source::FixIt::FixIt(const std::string &source, const std::pair &offsets) : source(source), offsets(offsets) { if(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(Glib::RefPtr 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 //// ////////////// const std::regex Source::View::bracket_regex("^.*\\{ *$", std::regex::extended); const std::regex Source::View::no_bracket_statement_regex("^(if|for|else if|while) *\\(.*[^;}] *$", std::regex::extended); const std::regex Source::View::no_bracket_no_para_statement_regex("^else *$"); Source::View::View(const boost::filesystem::path &file_path, Glib::RefPtr language): Gsv::View(), SpellCheckView(), DiffView(file_path), language(language), status_diagnostics(0, 0, 0) { load(); get_buffer()->place_cursor(get_buffer()->get_iter_at_offset(0)); search_settings = gtk_source_search_settings_new(); gtk_source_search_settings_set_wrap_around(search_settings, true); search_context = gtk_source_search_context_new(get_source_buffer()->gobj(), search_settings); gtk_source_search_context_set_highlight(search_context, true); //TODO: why does this not work?: Might be best to use the styles from sourceview. These has to be read from file, search-matches got style "search-match" //TODO: in header if trying again: GtkSourceStyle* search_match_style; //TODO: We can drop this, only work on newer versions of gtksourceview. //search_match_style=(GtkSourceStyle*)g_object_new(GTK_SOURCE_TYPE_STYLE, "background-set", 1, "background", "#00FF00", nullptr); //gtk_source_search_context_set_match_style(search_context, search_match_style); //TODO: either use lambda if possible or create a gtkmm wrapper around search_context (including search_settings): //TODO: (gtkmm's Gtk::Object has connect_property_changed, so subclassing this might be an idea) g_signal_connect(search_context, "notify::occurrences-count", G_CALLBACK(search_occurrences_updated), this); 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"); get_buffer()->create_tag("def:note_background"); get_buffer()->create_tag("def:note"); 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); get_buffer()->signal_changed().connect([this](){ if(update_status_location) update_status_location(this); }); signal_realize().connect([this] { auto gutter=get_gutter(Gtk::TextWindowType::TEXT_WINDOW_LEFT); auto renderer=gutter->get_renderer_at_pos(15, 0); if(renderer) { renderer_activate_connection.disconnect(); renderer_activate_connection=renderer->signal_activate().connect([this](const Gtk::TextIter& iter, const Gdk::Rectangle&, GdkEvent*) { if(toggle_breakpoint) toggle_breakpoint(iter.get_line()); }); } }); set_tooltip_and_dialog_events(); if(language && (language->get_id()=="chdr" || language->get_id()=="cpphdr" || language->get_id()=="c" || language->get_id()=="cpp" || language->get_id()=="objc" || language->get_id()=="java" || language->get_id()=="js" || language->get_id()=="ts" || language->get_id()=="proto" || language->get_id()=="c-sharp" || language->get_id()=="html" || language->get_id()=="cuda" || language->get_id()=="php" || language->get_id()=="rust" || language->get_id()=="swift" || language->get_id()=="go" || language->get_id()=="scala" || language->get_id()=="opencl")) { is_bracket_language=true; format_style=[this](bool continue_without_style_file) { auto command=Config::get().terminal.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(); while(true) { if(boost::filesystem::exists(style_file_search_path/".clang-format") || boost::filesystem::exists(style_file_search_path/"_clang-format")) { 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 bytes_in_lines; auto line_count=get_buffer()->get_line_count(); for(int line_nr=0;line_nrget_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(".offset"); auto length=it->second.get(".length"); auto replacement_str=it->second.get(""); size_t bytes=0; for(size_t c=0;c line_index(c, offset-previous_bytes); auto start=get_buffer()->get_iter_at_line_index(line_index.first, line_index.second); if(length>0) { auto offset_end=offset+length; size_t bytes=0; for(size_t c=0;cget_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; } } } 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=='-') 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(); 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; 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(2); continue; } } 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 && 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(-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()); get_buffer()->end_user_action(); }; } #ifndef __APPLE__ set_tab_width(4); //Visual size of a \t hardcoded to be equal to visual size of 4 spaces. Buggy on OS X #endif tab_char=Config::get().source.default_tab_char; tab_size=Config::get().source.default_tab_size; if(Config::get().source.auto_tab_char_and_size) { auto tab_char_and_size=find_tab_char_and_size(); if(tab_char_and_size.second!=0) { if(tab_char!=tab_char_and_size.first || tab_size!=tab_char_and_size.second) { std::string tab_str; if(tab_char_and_size.first==' ') tab_str=""; else tab_str=""; } tab_char=tab_char_and_size.first; tab_size=tab_char_and_size.second; } } set_tab_char_and_size(tab_char, tab_size); std::shared_ptr comment_characters; if(is_bracket_language) comment_characters=std::make_shared("//"); else if(language) { if(language->get_id()=="cmake" || language->get_id()=="makefile" || language->get_id()=="python" || language->get_id()=="python3" || language->get_id()=="sh" || language->get_id()=="perl" || language->get_id()=="ruby" || language->get_id()=="r" || language->get_id()=="asm" || language->get_id()=="automake") comment_characters=std::make_shared("#"); else if(language->get_id()=="latex" || language->get_id()=="matlab" || language->get_id()=="octave" || language->get_id()=="bibtex") comment_characters=std::make_shared("%"); else if(language->get_id()=="fortran") comment_characters=std::make_shared("!"); else if(language->get_id()=="pascal") comment_characters=std::make_shared("//"); else if(language->get_id()=="lua") comment_characters=std::make_shared("--"); } if(comment_characters) { toggle_comments=[this, comment_characters] { std::vector 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;csize();++c) { if(iter.ends_line()) { break; } else if(*iter==static_cast((*comment_characters)[c])) { if(csize()-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 || indentationbegin_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(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(); } }; } } bool Source::View::load() { disable_spellcheck=true; get_source_buffer()->begin_not_undoable_action(); get_buffer()->erase(get_buffer()->begin(), get_buffer()->end()); bool status=true; if(language) { if(filesystem::read_non_utf8(file_path, get_buffer())==-1) Terminal::get().print("Warning: "+file_path.string()+" is not a valid UTF-8 file. Saving might corrupt the file.\n"); } else { if(filesystem::read(file_path, get_buffer())==-1) { Terminal::get().print("Error: "+file_path.string()+" is not a valid UTF-8 file.\n", true); status=false; } } get_source_buffer()->end_not_undoable_action(); disable_spellcheck=false; boost::system::error_code ec; last_write_time=boost::filesystem::last_write_time(file_path, ec); if(ec) last_write_time=static_cast(-1); return status; } void Source::View::rename(const boost::filesystem::path &path) { { std::unique_lock lock(file_path_mutex); file_path=path; boost::system::error_code ec; canonical_file_path=boost::filesystem::canonical(file_path, ec); if(ec) canonical_file_path=file_path; } if(update_status_file_path) update_status_file_path(this); if(update_tab_label) update_tab_label(this); } void Source::View::set_tab_char_and_size(char tab_char, unsigned tab_size) { this->tab_char=tab_char; this->tab_size=tab_size; tab.clear(); for(unsigned c=0;cbegin_user_action(); for(int line=0;lineget_line_count();line++) { auto iter=buffer->get_iter_at_line(line); auto end_iter=get_iter_at_line_end(line); if(iter==end_iter) continue; iter=end_iter; while(!iter.starts_line() && (*iter==' ' || *iter=='\t' || iter.ends_line())) iter.backward_char(); if(*iter!=' ' && *iter!='\t') iter.forward_char(); if(iter==end_iter) continue; buffer->erase(iter, end_iter); } auto iter=buffer->end(); if(!iter.starts_line()) buffer->insert(buffer->end(), "\n"); buffer->end_user_action(); } Gsv::DrawSpacesFlags Source::View::parse_show_whitespace_characters(const std::string &text) { namespace qi = boost::spirit::qi; qi::symbols 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 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(std::accumulate(out.begin(), out.end(), 0)); } bool Source::View::save(const std::vector &views) { if(file_path.empty() || !get_buffer()->get_modified()) return false; if(Config::get().source.cleanup_whitespace_characters) cleanup_whitespace_characters(); if(format_style) { 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); } if(filesystem::write(file_path, get_buffer())) { boost::system::error_code ec; last_write_time=boost::filesystem::last_write_time(file_path, ec); if(ec) last_write_time=static_cast(-1); 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::replace_text(const std::string &text) { get_buffer()->begin_user_action(); auto iter=get_buffer()->get_insert()->get_iter(); auto cursor_line_nr=iter.get_line(); auto cursor_line_offset=iter.get_line_offset(); size_t start_line_index=0; int line_nr=0; for(size_t c=0;cget_line_count()) { auto start_iter=get_buffer()->get_iter_at_line(line_nr); auto end_iter=get_iter_at_line_end(line_nr); if(get_buffer()->get_text(start_iter, end_iter)!=line) { get_buffer()->erase(start_iter, end_iter); iter=get_buffer()->get_iter_at_line(line_nr); get_buffer()->insert(iter, line); } } else { iter=get_buffer()->end(); get_buffer()->insert(iter, '\n'+line); } ++line_nr; start_line_index=c+1; } } if(text[text.size()-1]=='\n') { Gtk::TextIter iter; get_buffer()->insert(get_iter_at_line_end(line_nr-1), "\n"); ++line_nr; } if(line_nrget_line_count()) { auto iter=get_iter_at_line_end(line_nr-1); get_buffer()->erase(iter, get_buffer()->end()); } get_buffer()->end_user_action(); place_cursor_at_line_offset(cursor_line_nr, cursor_line_offset); } void Source::View::configure() { SpellCheckView::configure(); DiffView::configure(); //TODO: Move this to notebook? Might take up too much memory doing this for every tab. auto style_scheme_manager=Gsv::StyleSchemeManager::get_default(); style_scheme_manager->prepend_search_path((Config::get().home_juci_path/"styles").string()); if(Config::get().source.style.size()>0) { auto scheme = style_scheme_manager->get_scheme(Config::get().source.style); if(scheme) get_source_buffer()->set_style_scheme(scheme); else Terminal::get().print("Error: Could not find gtksourceview style: "+Config::get().source.style+'\n', true); } 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; property_show_line_numbers() = Config::get().source.show_line_numbers; if(Config::get().source.font.size()>0) override_font(Pango::FontDescription(Config::get().source.font)); 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); //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? //Add tooltip foreground and background style = scheme->get_style("def:note"); auto note_tag=get_buffer()->get_tag_table()->lookup("def:note_background"); if(style->property_background_set()) { note_tag->property_background()=style->property_background(); } note_tag=get_buffer()->get_tag_table()->lookup("def:note"); if(style->property_foreground_set()) { note_tag->property_foreground()=style->property_foreground(); } 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::set_tooltip_and_dialog_events() { get_buffer()->signal_changed().connect([this] { hide_tooltips(); }); 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]() { Tooltips::init(); Gdk::Rectangle rectangle(x, y, 1, 1); if(parsed) { show_type_tooltips(rectangle); show_diagnostic_tooltips(rectangle); } return false; }, 100); } type_tooltips.hide(); diagnostic_tooltips.hide(); } 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& 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=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); if(SelectionDialog::get()) SelectionDialog::get()->hide(); if(CompletionDialog::get()) CompletionDialog::get()->hide(); if(update_status_location) update_status_location(this); } }); signal_scroll_event().connect([this](GdkEventScroll* event) { hide_tooltips(); hide_dialogs(); return false; }); signal_focus_out_event().connect([this](GdkEventFocus* event) { hide_tooltips(); return false; }); signal_leave_notify_event().connect([this](GdkEventCrossing*) { delayed_tooltips_connection.disconnect(); return false; }); } void Source::View::search_occurrences_updated(GtkWidget* widget, GParamSpec* property, gpointer data) { auto view=static_cast(data); if(view->update_search_occurrences) view->update_search_occurrences(gtk_source_search_context_get_occurrences_count(view->search_context)); } Source::View::~View() { g_clear_object(&search_context); g_clear_object(&search_settings); delayed_tooltips_connection.disconnect(); renderer_activate_connection.disconnect(); } void Source::View::search_highlight(const std::string &text, bool case_sensitive, bool regex) { gtk_source_search_settings_set_case_sensitive(search_settings, case_sensitive); gtk_source_search_settings_set_regex_enabled(search_settings, regex); gtk_source_search_settings_set_search_text(search_settings, text.c_str()); search_occurrences_updated(nullptr, nullptr, this); } void Source::View::search_forward() { Gtk::TextIter insert, selection_bound; get_buffer()->get_selection_bounds(insert, selection_bound); auto& start=selection_bound; Gtk::TextIter match_start, match_end; #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gboolean has_wrapped_around; if(gtk_source_search_context_forward2(search_context, start.gobj(), match_start.gobj(), match_end.gobj(), &has_wrapped_around)) { #else if(gtk_source_search_context_forward(search_context, start.gobj(), match_start.gobj(), match_end.gobj())) { #endif get_buffer()->select_range(match_start, match_end); scroll_to(get_buffer()->get_insert()); } } void Source::View::search_backward() { Gtk::TextIter insert, selection_bound; get_buffer()->get_selection_bounds(insert, selection_bound); auto &start=insert; Gtk::TextIter match_start, match_end; #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gboolean has_wrapped_around; if(gtk_source_search_context_backward2(search_context, start.gobj(), match_start.gobj(), match_end.gobj(), &has_wrapped_around)) { #else if(gtk_source_search_context_backward(search_context, start.gobj(), match_start.gobj(), match_end.gobj())) { #endif get_buffer()->select_range(match_start, match_end); scroll_to(get_buffer()->get_insert()); } } void Source::View::replace_forward(const std::string &replacement) { Gtk::TextIter insert, selection_bound; get_buffer()->get_selection_bounds(insert, selection_bound); auto &start=insert; Gtk::TextIter match_start, match_end; #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gboolean has_wrapped_around; if(gtk_source_search_context_forward2(search_context, start.gobj(), match_start.gobj(), match_end.gobj(), &has_wrapped_around)) { #else if(gtk_source_search_context_forward(search_context, start.gobj(), match_start.gobj(), match_end.gobj())) { #endif auto offset=match_start.get_offset(); #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gtk_source_search_context_replace2(search_context, match_start.gobj(), match_end.gobj(), replacement.c_str(), replacement.size(), nullptr); #else gtk_source_search_context_replace(search_context, match_start.gobj(), match_end.gobj(), replacement.c_str(), replacement.size(), nullptr); #endif Glib::ustring replacement_ustring=replacement; get_buffer()->select_range(get_buffer()->get_iter_at_offset(offset), get_buffer()->get_iter_at_offset(offset+replacement_ustring.size())); scroll_to(get_buffer()->get_insert()); } } void Source::View::replace_backward(const std::string &replacement) { Gtk::TextIter insert, selection_bound; get_buffer()->get_selection_bounds(insert, selection_bound); auto &start=selection_bound; Gtk::TextIter match_start, match_end; #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gboolean has_wrapped_around; if(gtk_source_search_context_backward2(search_context, start.gobj(), match_start.gobj(), match_end.gobj(), &has_wrapped_around)) { #else if(gtk_source_search_context_backward(search_context, start.gobj(), match_start.gobj(), match_end.gobj())) { #endif auto offset=match_start.get_offset(); #if defined(GTK_SOURCE_MAJOR_VERSION) && (GTK_SOURCE_MAJOR_VERSION > 3 || (GTK_SOURCE_MAJOR_VERSION == 3 && GTK_SOURCE_MINOR_VERSION >= 22)) gtk_source_search_context_replace2(search_context, match_start.gobj(), match_end.gobj(), replacement.c_str(), replacement.size(), nullptr); #else gtk_source_search_context_replace(search_context, match_start.gobj(), match_end.gobj(), replacement.c_str(), replacement.size(), nullptr); #endif get_buffer()->select_range(get_buffer()->get_iter_at_offset(offset), get_buffer()->get_iter_at_offset(offset+replacement.size())); scroll_to(get_buffer()->get_insert()); } } void Source::View::replace_all(const std::string &replacement) { gtk_source_search_context_replace_all(search_context, replacement.c_str(), replacement.size(), nullptr); } void Source::View::paste() { std::string text=Gtk::Clipboard::get()->wait_for_text(); //Replace carriage returns (which leads to crash) with newlines for(size_t c=0;cset_text(text); get_buffer()->paste_clipboard(Gtk::Clipboard::get()); scroll_to_cursor_delayed(this, false, false); return; } get_buffer()->begin_user_action(); if(get_buffer()->get_has_selection()) { Gtk::TextIter start, end; get_buffer()->get_selection_bounds(start, end); get_buffer()->erase(start, end); } auto iter=get_buffer()->get_insert()->get_iter(); auto tabs_end_iter=get_tabs_end_iter(); auto prefix_tabs=get_line_before(iter(-1)) paste_line_tabs=0; start_line=0; end_line=0; paste_line=false; first_paste_line=true; for(size_t c=0;cinsert_at_cursor(text.substr(start_line+tabs, end_line-start_line-tabs)); else get_buffer()->insert_at_cursor(text.substr(start_line, end_line-start_line)); first_paste_line=false; } else get_buffer()->insert_at_cursor('\n'+prefix_tabs+text.substr(start_line+tabs, end_line-start_line-tabs)); start_line=end_line+1; paste_line=false; } } // add final newline if present in text if(text.size()>0 && text.back()=='\n') get_buffer()->insert_at_cursor('\n'+prefix_tabs); get_buffer()->place_cursor(get_buffer()->get_insert()->get_iter()); get_buffer()->end_user_action(); scroll_to_cursor_delayed(this, false, false); } Gtk::TextIter Source::View::get_iter_for_dialog() { auto iter=get_buffer()->get_insert()->get_iter(); Gdk::Rectangle visible_rect; get_visible_rect(visible_rect); Gdk::Rectangle iter_rect; get_iter_location(iter, iter_rect); iter_rect.set_width(1); if(iter.get_line_offset()>=80) { get_iter_at_location(iter, visible_rect.get_x(), iter_rect.get_y()); get_iter_location(iter, iter_rect); } if(!visible_rect.intersects(iter_rect)) get_iter_at_location(iter, visible_rect.get_x(), visible_rect.get_y()+visible_rect.get_height()/3); return iter; } void Source::View::place_cursor_at_line_offset(int line, int offset) { line=std::min(line, get_buffer()->get_line_count()-1); if(line<0) line=0; auto iter=get_iter_at_line_end(line); offset=std::min(offset, iter.get_line_offset()); get_buffer()->place_cursor(get_buffer()->get_iter_at_line_offset(line, offset)); } void Source::View::place_cursor_at_line_index(int line, int index) { line=std::min(line, get_buffer()->get_line_count()-1); if(line<0) line=0; auto iter=get_iter_at_line_end(line); index=std::min(index, iter.get_line_index()); get_buffer()->place_cursor(get_buffer()->get_iter_at_line_index(line, index)); } 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(); } std::string Source::View::get_line(const Gtk::TextIter &iter) { auto line_start_it = get_buffer()->get_iter_at_line(iter.get_line()); auto line_end_it = get_iter_at_line_end(iter.get_line()); std::string line(get_buffer()->get_text(line_start_it, line_end_it)); return line; } std::string Source::View::get_line(Glib::RefPtr mark) { return get_line(mark->get_iter()); } std::string Source::View::get_line(int line_nr) { return get_line(get_buffer()->get_iter_at_line(line_nr)); } std::string Source::View::get_line() { return get_line(get_buffer()->get_insert()); } std::string Source::View::get_line_before(const Gtk::TextIter &iter) { auto line_it = get_buffer()->get_iter_at_line(iter.get_line()); std::string line(get_buffer()->get_text(line_it, iter)); return line; } std::string Source::View::get_line_before(Glib::RefPtr mark) { return get_line_before(mark->get_iter()); } std::string Source::View::get_line_before() { return get_line_before(get_buffer()->get_insert()); } Gtk::TextIter Source::View::get_tabs_end_iter(const Gtk::TextIter &iter) { return get_tabs_end_iter(iter.get_line()); } Gtk::TextIter Source::View::get_tabs_end_iter(Glib::RefPtr mark) { return get_tabs_end_iter(mark->get_iter()); } Gtk::TextIter Source::View::get_tabs_end_iter(int line_nr) { auto sentence_iter = get_buffer()->get_iter_at_line(line_nr); while((*sentence_iter==' ' || *sentence_iter=='\t') && !sentence_iter.ends_line() && sentence_iter.forward_char()) {} return sentence_iter; } Gtk::TextIter Source::View::get_tabs_end_iter() { return get_tabs_end_iter(get_buffer()->get_insert()); } bool Source::View::find_open_non_curly_bracket_backward(Gtk::TextIter iter, Gtk::TextIter &found_iter) { long para_count=0; long 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(curly_count>0) break; if(para_count>0 || square_count>0) { found_iter=iter; return true; } } while(iter.backward_char()); return false; } Gtk::TextIter Source::View::find_start_of_sentence(Gtk::TextIter iter) { if(iter.starts_line()) return iter; iter.backward_char(); bool stream_operator_test=false; bool colon_test=false; if(*iter==';') stream_operator_test=true; if(*iter=='{') { iter.backward_char(); colon_test=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(curly_count>0) break; if(iter.starts_line() && para_count==0 && square_count==0) { bool stream_operator_found=false; bool colon_found=false; // Handle << at the beginning of the sentence if iter initially started with ; if(stream_operator_test) { 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=='<') stream_operator_found=true; } // Handle : at the beginning of the sentence if iter initially started with { else if(colon_test) { auto test_iter=get_tabs_end_iter(iter); if(!test_iter.starts_line() && *test_iter==':' && is_code_iter(test_iter)) colon_found=true; } // Handle : and , on previous line if(!stream_operator_found && !colon_found) { auto previous_iter=iter; previous_iter.backward_char(); while(!previous_iter.starts_line() && (*previous_iter==' ' || previous_iter.ends_line()) && previous_iter.backward_char()) {} if(*previous_iter!=',' && *previous_iter!=':') return iter; else if(*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(get_buffer()->get_iter_at_line(previous_iter.get_line()))); if(token=="case") return iter; } else 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_curly_bracket_forward(Gtk::TextIter iter, Gtk::TextIter &found_iter) { long count=0; do { if(*iter=='}' && is_code_iter(iter)) { if(count==0) { found_iter=iter; return true; } count--; } else if(*iter=='{' && is_code_iter(iter)) 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; long curly_count=0; bool break_on_curly=true; if(positive_char=='{' || negative_char=='}') break_on_curly=false; bool check_if_next_iter_is_code_iter=false; if(positive_char=='\'' || negative_char=='\'' || positive_char=='"' || negative_char=='"') check_if_next_iter_is_code_iter=true; Gtk::TextIter previous_iter; 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)) curly_count--; else if(check_if_next_iter_is_code_iter) { auto next_iter=iter; next_iter.forward_char(); if(*iter==positive_char && is_code_iter(next_iter)) symbol_count++; else if(*iter==negative_char && is_code_iter(next_iter)) symbol_count--; } if(break_on_curly && curly_count>0) break; } 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)) curly_count--; else if(check_if_next_iter_is_code_iter) { auto next_iter=iter; next_iter.forward_char(); if(*iter==positive_char && is_code_iter(next_iter)) symbol_count++; else if(*iter==negative_char && is_code_iter(next_iter)) symbol_count--; } if(break_on_curly && curly_count<0) break; } 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; } std::string Source::View::get_token(Gtk::TextIter iter) { auto start=iter; auto end=iter; while((*iter>='A' && *iter<='Z') || (*iter>='a' && *iter<='z') || (*iter>='0' && *iter<='9') || *iter=='_') { start=iter; if(!iter.backward_char()) break; } while((*end>='A' && *end<='Z') || (*end>='a' && *end<='z') || (*end>='0' && *end<='9') || *end=='_') { if(!end.forward_char()) break; } return get_buffer()->get_text(start, end); } void Source::View::cleanup_whitespace_characters_on_return(const Gtk::TextIter &iter) { auto start_blank_iter=iter; auto end_blank_iter=iter; while((*end_blank_iter==' ' || *end_blank_iter=='\t') && !end_blank_iter.ends_line() && end_blank_iter.forward_char()) {} if(!start_blank_iter.starts_line()) { start_blank_iter.backward_char(); while((*start_blank_iter==' ' || *start_blank_iter=='\t') && !start_blank_iter.starts_line() && start_blank_iter.backward_char()) {} if(*start_blank_iter!=' ' && *start_blank_iter!='\t') start_blank_iter.forward_char(); } if(start_blank_iter.starts_line()) get_buffer()->erase(iter, end_blank_iter); else get_buffer()->erase(start_blank_iter, end_blank_iter); } bool Source::View::on_key_press_event(GdkEventKey* key) { 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_keyvalGDK_KEY_Hyper_R) previous_non_modifier_keyval=last_keyval; last_keyval=key->keyval; //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(); 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 next or previous line if((key->keyval==GDK_KEY_Return || key->keyval==GDK_KEY_KP_Enter) && !get_buffer()->get_has_selection() && !iter.starts_line()) { cleanup_whitespace_characters_on_return(iter); iter=get_buffer()->get_insert()->get_iter(); auto tabs=get_line_before(get_tabs_end_iter(iter)); int line_nr=iter.get_line(); if(iter.ends_line() && (line_nr+1)get_line_count()) { auto next_line_tabs=get_line_before(get_tabs_end_iter(line_nr+1)); if(next_line_tabs.size()>tabs.size()) { get_buffer()->insert_at_cursor("\n"+next_line_tabs); scroll_to(get_buffer()->get_insert()); return true; } } get_buffer()->insert_at_cursor("\n"+tabs); scroll_to(get_buffer()->get_insert()); return true; } else if(key->keyval==GDK_KEY_Tab && (key->state&GDK_SHIFT_MASK)==0) { 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. //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 prev_line_tabs_end_iter=get_tabs_end_iter(prev_line_iter); auto previous_line_tabs=get_line_before(prev_line_tabs_end_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); auto next_line_tabs=get_line_before(next_line_tabs_end_iter); std::string tabs; if(previous_line_tabs.size()=tab_size) { get_buffer()->insert_at_cursor(tabs); return true; } } 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++) { Gtk::TextIter 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 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(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(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(); 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; } } //Next two are smart home/end keys that works with wrapped lines //Note that smart end goes FIRST to end of line to avoid hiding empty chars after expressions else if((key->keyval==GDK_KEY_End || key->keyval==GDK_KEY_KP_End) && (key->state&GDK_CONTROL_MASK)==0) { auto end_line_iter=get_iter_at_line_end(iter.get_line()); auto end_sentence_iter=end_line_iter; while(!end_sentence_iter.starts_line() && (*end_sentence_iter==' ' || *end_sentence_iter=='\t' || end_sentence_iter.ends_line()) && end_sentence_iter.backward_char()) {} if(!end_sentence_iter.ends_line() && *end_sentence_iter!=' ' && *end_sentence_iter!='\t') end_sentence_iter.forward_char(); if(iter==end_line_iter) { if((key->state&GDK_SHIFT_MASK)>0) get_buffer()->move_mark_by_name("insert", end_sentence_iter); else get_buffer()->place_cursor(end_sentence_iter); } else { if((key->state&GDK_SHIFT_MASK)>0) get_buffer()->move_mark_by_name("insert", end_line_iter); else get_buffer()->place_cursor(end_line_iter); } scroll_to(get_buffer()->get_insert()); return true; } else if((key->keyval==GDK_KEY_Home || key->keyval==GDK_KEY_KP_Home) && (key->state&GDK_CONTROL_MASK)==0) { auto start_line_iter=get_buffer()->get_iter_at_line(iter.get_line()); auto start_sentence_iter=start_line_iter; while(!start_sentence_iter.ends_line() && (*start_sentence_iter==' ' || *start_sentence_iter=='\t') && start_sentence_iter.forward_char()) {} if(iter>start_sentence_iter || iter==start_line_iter) { if((key->state&GDK_SHIFT_MASK)>0) get_buffer()->move_mark_by_name("insert", start_sentence_iter); else get_buffer()->place_cursor(start_sentence_iter); } else { if((key->state&GDK_SHIFT_MASK)>0) get_buffer()->move_mark_by_name("insert", start_line_iter); else get_buffer()->place_cursor(start_line_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_keyvalGDK_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) { 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) && !iter.starts_line() && (!string_tag || (!iter.has_tag(string_tag) && !iter.ends_tag(string_tag)))) { cleanup_whitespace_characters_on_return(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; } } } 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_on_return(iter); iter=get_buffer()->get_insert()->get_iter(); auto previous_iter=iter; previous_iter.backward_char(); auto start_iter=previous_iter; if(*start_iter=='{') start_iter.backward_char(); Gtk::TextIter open_non_curly_bracket_iter; bool open_non_curly_bracket_iter_found=false; if(find_open_non_curly_bracket_backward(start_iter, open_non_curly_bracket_iter)) { open_non_curly_bracket_iter_found=true; start_iter=get_tabs_end_iter(get_buffer()->get_iter_at_line(open_non_curly_bracket_iter.get_line())); } else start_iter=get_tabs_end_iter(get_buffer()->get_iter_at_line(find_start_of_sentence(iter).get_line())); auto tabs=get_line_before(start_iter); /* * Change tabs after ending comment block with an extra space (as in this case) */ if(tabs.size()%tab_size==1) { iter=get_buffer()->get_insert()->get_iter(); auto tabs_end_iter=get_tabs_end_iter(iter); if(!tabs_end_iter.ends_line() && !is_code_iter(tabs_end_iter)) { auto end_of_line_iter=tabs_end_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.compare(0, 2, "*/")==0) tabs.pop_back(); } } if(*previous_iter=='{') { Gtk::TextIter found_iter; // Check if an '}' is needed bool has_right_curly_bracket=false; bool found_right_bracket=find_close_curly_bracket_forward(iter, found_iter); if(found_right_bracket) { auto tabs_end_iter=get_tabs_end_iter(found_iter); auto line_tabs=get_line_before(tabs_end_iter); if(tabs.size()==line_tabs.size()) has_right_curly_bracket=true; } // special case for functions and classes with no indentation after: namespace { if(tabs.empty() && has_right_curly_bracket) has_right_curly_bracket=symbol_count(iter, '{', '}')!=1; if(*get_buffer()->get_insert()->get_iter()=='}') { 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_curly_bracket) { //Insert new lines with bracket end bool add_semicolon=false; if(language && (language->get_id()=="chdr" || language->get_id()=="cpphdr" || language->get_id()=="c" || language->get_id()=="cpp")) { auto token=get_token(start_iter); if(token.empty()) { auto iter=start_iter; while(!iter.starts_line() && iter.backward_char()) {} if(iter.backward_char()) token=get_token(get_tabs_end_iter(get_buffer()->get_iter_at_line(iter.get_line()))); } //Add semicolon after class or struct if(token=="class" || token=="struct") add_semicolon=true; //Add semicolon after lambda unless it's a parameter else if(!open_non_curly_bracket_iter_found) { auto it=previous_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; } } } } 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(open_non_curly_bracket_iter_found) { auto tabs_end_iter=get_tabs_end_iter(open_non_curly_bracket_iter); auto tabs=get_line_before(get_tabs_end_iter(open_non_curly_bracket_iter)); auto iter=tabs_end_iter; while(iter<=open_non_curly_bracket_iter) { tabs+=' '; iter.forward_char(); } get_buffer()->insert_at_cursor("\n"+tabs); scroll_to(get_buffer()->get_insert()); return true; } std::string sentence=get_buffer()->get_text(start_iter, iter); std::smatch sm; 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; } else if(std::regex_match(sentence, sm, no_bracket_no_para_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(iter.backward_char() && *iter==';' && iter.get_line()>0) { auto previous_end_iter=start_iter; while(previous_end_iter.backward_char() && !previous_end_iter.ends_line()) {} auto previous_start_iter=get_tabs_end_iter(get_buffer()->get_iter_at_line(find_start_of_sentence(previous_end_iter).get_line())); auto previous_tabs=get_line_before(previous_start_iter); std::string previous_sentence=get_buffer()->get_text(previous_start_iter, previous_end_iter); std::smatch sm2; if(!std::regex_match(previous_sentence, sm2, bracket_regex)) { 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; } else if(std::regex_match(previous_sentence, sm2, no_bracket_no_para_statement_regex)) { get_buffer()->insert_at_cursor("\n"+previous_tabs); scroll_to(get_buffer()->get_insert()); return true; } } } //Indenting after ':' else if(*iter==':') { bool perform_indent=true; auto previous_iter=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(get_buffer()->get_iter_at_line(previous_iter.get_line()))); if(token!="case") 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;cerase(start_line_iter, start_line_plus_tab_size); } else { get_buffer()->insert_at_cursor("\n"+tabs+tab); 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 } on a new line else if(key->keyval==GDK_KEY_braceright) { 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) { Gtk::TextIter insert_it = get_buffer()->get_insert()->get_iter(); Gtk::TextIter line_it = get_buffer()->get_iter_at_line(insert_it.get_line()); Gtk::TextIter 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("}"); 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 previous_start_iter=get_tabs_end_iter(get_buffer()->get_iter_at_line(find_start_of_sentence(previous_end_iter).get_line())); auto previous_tabs=get_line_before(previous_start_iter); if((tabs.size()-tab_size)==previous_tabs.size()) { std::string previous_sentence=get_buffer()->get_text(previous_start_iter, previous_end_iter); std::smatch sm; if(!std::regex_match(previous_sentence, sm, bracket_regex)) { if(std::regex_match(previous_sentence, sm, no_bracket_statement_regex) || std::regex_match(previous_sentence, sm, no_bracket_no_para_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; } } } } } 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) { if(get_buffer()->get_has_selection()) { bool perform_insertion=false; char left_char, right_char; // Insert () around selection if(key->keyval==GDK_KEY_parenleft) { perform_insertion=true; left_char='('; right_char=')'; } // Insert [] around selection else if(key->keyval==GDK_KEY_bracketleft) { perform_insertion=true; left_char='['; right_char=']'; } // Insert {} around selection else if(key->keyval==GDK_KEY_braceleft) { perform_insertion=true; left_char='{'; right_char='}'; } // Insert <> around selection else if(key->keyval==GDK_KEY_less) { perform_insertion=true; left_char='<'; right_char='>'; } // Insert '' around selection else if(key->keyval==GDK_KEY_apostrophe) { perform_insertion=true; left_char='\''; right_char='\''; } // Insert "" around selection else if(key->keyval==GDK_KEY_quotedbl) { perform_insertion=true; left_char='"'; right_char='"'; } else if(language && language->get_id()=="markdown") { if(key->keyval==GDK_KEY_dead_grave) { perform_insertion=true; left_char='`'; right_char='`'; } if(key->keyval==GDK_KEY_asterisk) { perform_insertion=true; left_char='*'; right_char='*'; } if(key->keyval==GDK_KEY_underscore) { perform_insertion=true; left_char='_'; right_char='_'; } if(key->keyval==GDK_KEY_dead_tilde) { perform_insertion=true; left_char='~'; right_char='~'; } } if(perform_insertion) { 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, Glib::ustring()+left_char); get_buffer()->insert(end_mark->get_iter(), Glib::ustring()+right_char); auto start_mark_next_iter=start_mark->get_iter(); start_mark_next_iter.forward_char(); 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=='}') return true; return false; }; // Move right when clicking ' before a ' or when clicking " before a " if(((key->keyval==GDK_KEY_apostrophe && *iter=='\'') || (key->keyval==GDK_KEY_quotedbl && *iter=='\"')) && is_code_iter(next_iter)) { bool perform_move=false; if(*previous_iter!='\\') perform_move=true; else { auto it=previous_iter; long backslash_count=1; while(it.backward_char() && *it=='\\') { ++backslash_count; } if(backslash_count%2==0) perform_move=true; } if(perform_move) { get_buffer()->place_cursor(next_iter); scroll_to(get_buffer()->get_insert()); return true; } } // When to delete '' or "" else if(key->keyval==GDK_KEY_BackSpace) { if(((*previous_iter=='\'' && *iter=='\'') || (*previous_iter=='"' && *iter=='"')) && is_code_iter(previous_iter)) { get_buffer()->erase(previous_iter, next_iter); scroll_to(get_buffer()->get_insert()); return true; } } 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 true; } } // 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 true; } } // Move left 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_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; } // 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) { if(next_iter.ends_line()) { Gtk::TextIter open_non_curly_bracket_iter; if(find_open_non_curly_bracket_backward(previous_iter, open_non_curly_bracket_iter)) { open_non_curly_bracket_iter.backward_char(); if(*open_non_curly_bracket_iter==' ') open_non_curly_bracket_iter.backward_char(); if(get_token(open_non_curly_bracket_iter)!="for") { 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; } } } 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)){ #ifdef __APPLE__ GdkModifierType mask=GDK_MOD2_MASK; #else GdkModifierType mask=GDK_CONTROL_MASK; #endif if(event->state & 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); } std::pair Source::View::find_tab_char_and_size() { std::unordered_map tab_chars; std::unordered_map tab_sizes; auto iter=get_buffer()->begin(); long tab_count=-1; long last_tab_count=0; bool single_quoted=false; bool double_quoted=false; //For bracket languages, TODO: add more language ids if(is_bracket_language && !(language && language->get_id()=="html")) { bool line_comment=false; bool comment=false; bool bracket_last_line=false; char last_char=0; long last_tab_diff=-1; while(iter) { if(iter.starts_line()) { line_comment=false; single_quoted=false; double_quoted=false; tab_count=0; if(last_char=='{') bracket_last_line=true; else bracket_last_line=false; } if(bracket_last_line && tab_count!=-1) { if(*iter==' ') { tab_chars[' ']++; tab_count++; } else if(*iter=='\t') { tab_chars['\t']++; tab_count++; } else { auto line_iter=iter; char last_line_char=0; while(line_iter && !line_iter.ends_line()) { if(*line_iter!=' ' && *line_iter!='\t') last_line_char=*line_iter; if(*line_iter=='(') break; line_iter.forward_char(); } if(last_line_char==':' || *iter=='#') { tab_count=0; if((iter.get_line()+1) < get_buffer()->get_line_count()) { iter=get_buffer()->get_iter_at_line(iter.get_line()+1); continue; } } else if(!iter.ends_line()) { if(tab_count!=last_tab_count) tab_sizes[std::abs(tab_count-last_tab_count)]++; last_tab_diff=std::abs(tab_count-last_tab_count); last_tab_count=tab_count; last_char=0; } } } auto prev_iter=iter; prev_iter.backward_char(); auto prev_prev_iter=prev_iter; prev_prev_iter.backward_char(); if(!double_quoted && *iter=='\'' && !(*prev_iter=='\\' && *prev_prev_iter!='\\')) single_quoted=!single_quoted; else if(!single_quoted && *iter=='\"' && !(*prev_iter=='\\' && *prev_prev_iter!='\\')) double_quoted=!double_quoted; else if(!single_quoted && !double_quoted) { auto next_iter=iter; next_iter.forward_char(); if(*iter=='/' && *next_iter=='/') line_comment=true; else if(*iter=='/' && *next_iter=='*') comment=true; else if(*iter=='*' && *next_iter=='/') { iter.forward_char(); iter.forward_char(); comment=false; } } if(!single_quoted && !double_quoted && !comment && !line_comment && *iter!=' ' && *iter!='\t' && !iter.ends_line()) last_char=*iter; if(!single_quoted && !double_quoted && !comment && !line_comment && *iter=='}' && tab_count!=-1 && last_tab_diff!=-1) last_tab_count-=last_tab_diff; if(*iter!=' ' && *iter!='\t') tab_count=-1; iter.forward_char(); } } else { long para_count=0; while(iter) { if(iter.starts_line()) tab_count=0; if(tab_count!=-1 && para_count==0 && single_quoted==false && double_quoted==false) { if(*iter==' ') { tab_chars[' ']++; tab_count++; } else if(*iter=='\t') { tab_chars['\t']++; tab_count++; } else if(!iter.ends_line()) { if(tab_count!=last_tab_count) tab_sizes[std::abs(tab_count-last_tab_count)]++; last_tab_count=tab_count; } } auto prev_iter=iter; prev_iter.backward_char(); auto prev_prev_iter=prev_iter; prev_prev_iter.backward_char(); if(!double_quoted && *iter=='\'' && !(*prev_iter=='\\' && *prev_prev_iter!='\\')) single_quoted=!single_quoted; else if(!single_quoted && *iter=='\"' && !(*prev_iter=='\\' && *prev_prev_iter!='\\')) double_quoted=!double_quoted; else if(!single_quoted && !double_quoted) { if(*iter=='(') para_count++; else if(*iter==')') para_count--; } if(*iter!=' ' && *iter!='\t') tab_count=-1; iter.forward_char(); } } char found_tab_char=0; size_t occurences=0; for(auto &tab_char: tab_chars) { if(tab_char.second>occurences) { found_tab_char=tab_char.first; occurences=tab_char.second; } } unsigned found_tab_size=0; occurences=0; for(auto &tab_size: tab_sizes) { if(tab_size.second>occurences) { found_tab_size=tab_size.first; occurences=tab_size.second; } } return {found_tab_char, found_tab_size}; } ///////////////////// //// GenericView //// ///////////////////// Source::GenericView::GenericView(const boost::filesystem::path &file_path, Glib::RefPtr language) : View(file_path, language) { configure(); spellcheck_all=true; if(language) get_source_buffer()->set_language(language); auto completion=get_completion(); completion->property_show_headers()=false; completion->property_show_icons()=false; completion->property_accelerators()=0; auto completion_words=Gsv::CompletionWords::create("", Glib::RefPtr()); completion_words->register_provider(get_buffer()); completion->add_provider(completion_words); if(language) { auto language_manager=Gsv::LanguageManager::get_default(); auto search_paths=language_manager->get_search_path(); bool found_language_file=false; boost::filesystem::path language_file; for(auto &search_path: search_paths) { boost::filesystem::path p(static_cast(search_path)+'/'+static_cast(language->get_id())+".lang"); if(boost::filesystem::exists(p) && boost::filesystem::is_regular_file(p)) { language_file=p; found_language_file=true; break; } } if(found_language_file) { auto completion_buffer_keywords=CompletionBuffer::create(); boost::property_tree::ptree pt; try { boost::property_tree::xml_parser::read_xml(language_file.string(), pt); } catch(const std::exception &e) { Terminal::get().print("Error: error parsing language file "+language_file.string()+": "+e.what()+'\n', true); } bool has_context_class=false; parse_language_file(completion_buffer_keywords, has_context_class, pt); if(!has_context_class) spellcheck_all=false; completion_words->register_provider(completion_buffer_keywords); } } } void Source::GenericView::parse_language_file(Glib::RefPtr &completion_buffer, bool &has_context_class, const boost::property_tree::ptree &pt) { bool case_insensitive=false; for(auto &node: pt) { if(node.first=="") { auto data=static_cast(node.second.data()); std::transform(data.begin(), data.end(), data.begin(), ::tolower); if(data.find("case insensitive")!=std::string::npos) case_insensitive=true; } else if(node.first=="keyword") { auto data=static_cast(node.second.data()); completion_buffer->insert_at_cursor(data+'\n'); if(case_insensitive) { std::transform(data.begin(), data.end(), data.begin(), ::tolower); completion_buffer->insert_at_cursor(data+'\n'); } } else if(!has_context_class && node.first=="context") { auto class_attribute=node.second.get(".class", ""); auto class_disabled_attribute=node.second.get(".class-disabled", ""); if(class_attribute.size()>0 || class_disabled_attribute.size()>0) has_context_class=true; } try { parse_language_file(completion_buffer, has_context_class, node.second); } catch(const std::exception &e) { } } }