# 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 <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 <gtksourceview/gtksource.h>
# 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 = = " 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 ) , parsed ( true ) {
non_deleted_views . emplace ( this ) ;
views . emplace ( this ) ;
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 ) ;
similar_symbol_tag = get_buffer ( ) - > create_tag ( ) ;
similar_symbol_tag - > property_weight ( ) = Pango : : WEIGHT_ULTRAHEAVY ;
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 ) ;
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 ( ) ) ;
} ) ;
}
} ) ;
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;
// }
// }
// }
}
if ( language_id = = " chdr " | | language_id = = " cpphdr " | | language_id = = " c " | |
language_id = = " cpp " | | language_id = = " objc " | | language_id = = " java " | |
language_id = = " js " | | language_id = = " ts " | | language_id = = " proto " | |
language_id = = " c-sharp " | | language_id = = " html " | | language_id = = " cuda " | |
language_id = = " php " | | language_id = = " rust " | | language_id = = " swift " | |
language_id = = " go " | | language_id = = " scala " | | language_id = = " opencl " | |
language_id = = " json " | | language_id = = " css " )
is_bracket_language = true ;
}
setup_tooltip_and_dialog_events ( ) ;
setup_format_style ( is_generic_view ) ;
# 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 = " <space> " ;
else
tab_str = " <tab> " ;
}
tab_char = tab_char_and_size . first ;
tab_size = tab_char_and_size . second ;
}
}
set_tab_char_and_size ( tab_char , tab_size ) ;
std : : string comment_characters ;
if ( is_bracket_language )
comment_characters = " // " ;
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 = " # " ;
else if ( language - > get_id ( ) = = " latex " | | language - > get_id ( ) = = " matlab " | | language - > get_id ( ) = = " octave " | |
language - > get_id ( ) = = " bibtex " )
comment_characters = " % " ;
else if ( language - > get_id ( ) = = " fortran " )
comment_characters = " ! " ;
else if ( language - > get_id ( ) = = " pascal " )
comment_characters = " // " ;
else if ( language - > get_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 ( ) ;
}
} ;
}
}
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 ; c < tab_size ; c + + )
tab + = tab_char ;
}
void Source : : View : : cleanup_whitespace_characters ( ) {
auto buffer = get_buffer ( ) ;
buffer - > begin_user_action ( ) ;
for ( int line = 0 ; line < buffer - > get_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 < 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 ;
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 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?
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_tooltip_and_dialog_events ( ) {
type_tooltips . on_motion = [ this ] {
delayed_tooltips_connection . disconnect ( ) ;
} ;
diagnostic_tooltips . on_motion = [ this ] {
delayed_tooltips_connection . disconnect ( ) ;
} ;
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 ] ( ) {
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 ) ;
}
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 ) ;
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 : : 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 ) {
std : : stringstream stdin_stream , stdout_stream ;
auto exit_status = Terminal : : get ( ) . process ( stdin_stream , stdout_stream , command + " --find-config-path " + this - > file_path . string ( ) ) ;
if ( exit_status = = 0 ) {
if ( stdout_stream . tellp ( ) = = 0 )
return ;
}
else
return ;
}
command + = " --stdin-filepath " + 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 ;
if ( start . ends_line ( ) )
start . backward_char ( ) ;
auto end = start ;
end . forward_char ( ) ;
if ( start = = end )
start . forward_char ( ) ;
add_diagnostic_tooltip ( start , end , sm [ 1 ] . str ( ) , true ) ;
}
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 = = ' - ' )
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 ;
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 ;
}
}
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 < 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 ( ) ;
} ;
}
}
void Source : : View : : search_occurrences_updated ( GtkWidget * widget , GParamSpec * property , gpointer data ) {
auto view = static_cast < Source : : View * > ( 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 ( ) ;
delayed_tag_similar_symbols_connection . disconnect ( ) ;
renderer_activate_connection . disconnect ( ) ;
non_deleted_views . erase ( this ) ;
views . erase ( this ) ;
}
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 ) ) {
get_buffer ( ) - > select_range ( match_start , match_end ) ;
scroll_to ( get_buffer ( ) - > get_insert ( ) ) ;
}
# else
if ( gtk_source_search_context_forward ( search_context , start . gobj ( ) , match_start . gobj ( ) , match_end . gobj ( ) ) ) {
get_buffer ( ) - > select_range ( match_start , match_end ) ;
scroll_to ( get_buffer ( ) - > get_insert ( ) ) ;
}
# endif
}
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 ) ) {
get_buffer ( ) - > select_range ( match_start , match_end ) ;
scroll_to ( get_buffer ( ) - > get_insert ( ) ) ;
}
# else
if ( gtk_source_search_context_backward ( search_context , start . gobj ( ) , match_start . gobj ( ) , match_end . gobj ( ) ) ) {
get_buffer ( ) - > select_range ( match_start , match_end ) ;
scroll_to ( get_buffer ( ) - > get_insert ( ) ) ;
}
# endif
}
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 ) ) {
auto offset = match_start . get_offset ( ) ;
gtk_source_search_context_replace2 ( search_context , match_start . gobj ( ) , match_end . gobj ( ) , replacement . c_str ( ) , replacement . size ( ) , nullptr ) ;
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 ( ) ) ;
}
# else
if ( gtk_source_search_context_forward ( search_context , start . gobj ( ) , match_start . gobj ( ) , match_end . gobj ( ) ) ) {
auto offset = match_start . get_offset ( ) ;
gtk_source_search_context_replace ( search_context , match_start . gobj ( ) , match_end . gobj ( ) , replacement . c_str ( ) , replacement . size ( ) , nullptr ) ;
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 ( ) ) ;
}
# endif
}
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 ) ) {
auto offset = match_start . get_offset ( ) ;
gtk_source_search_context_replace2 ( search_context , match_start . gobj ( ) , match_end . gobj ( ) , replacement . c_str ( ) , replacement . size ( ) , nullptr ) ;
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 ( ) ) ;
}
# else
if ( gtk_source_search_context_backward ( search_context , start . gobj ( ) , match_start . gobj ( ) , match_end . gobj ( ) ) ) {
auto offset = match_start . get_offset ( ) ;
gtk_source_search_context_replace ( search_context , match_start . gobj ( ) , match_end . gobj ( ) , replacement . c_str ( ) , replacement . size ( ) , nullptr ) ;
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 ( ) ) ;
}
# endif
}
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 ( ) {
class Guard {
public :
bool & value ;
Guard ( bool & value_ ) : value ( value_ ) { value = true ; }
~ Guard ( ) { value = false ; }
} ;
Guard guard { multiple_cursors_use } ;
std : : string text = Gtk : : Clipboard : : get ( ) - > wait_for_text ( ) ;
//Replace carriage returns (which leads to crash) with newlines
for ( size_t c = 0 ; c < text . size ( ) ; c + + ) {
if ( text [ c ] = = ' \r ' ) {
if ( ( c + 1 ) < text . size ( ) & & text [ c + 1 ] = = ' \n ' )
text . replace ( c , 2 , " \n " ) ;
else
text . replace ( c , 1 , " \n " ) ;
}
}
//Exception for when pasted text is only whitespaces
bool only_whitespaces = true ;
for ( auto & chr : text ) {
if ( chr ! = ' \n ' & & chr ! = ' \r ' & & chr ! = ' ' & & chr ! = ' \t ' ) {
only_whitespaces = false ;
break ;
}
}
if ( only_whitespaces ) {
Gtk : : Clipboard : : get ( ) - > set_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 < tabs_end_iter ? iter : tabs_end_iter ) ;
size_t start_line = 0 ;
size_t end_line = 0 ;
bool paste_line = false ;
bool first_paste_line = true ;
size_t paste_line_tabs = - 1 ;
bool first_paste_line_has_tabs = false ;
for ( size_t c = 0 ; c < text . size ( ) ; c + + ) {
if ( text [ c ] = = ' \n ' ) {
end_line = c ;
paste_line = true ;
}
else if ( c = = text . size ( ) - 1 ) {
end_line = c + 1 ;
paste_line = true ;
}
if ( paste_line ) {
bool empty_line = true ;
std : : string line = text . substr ( start_line , end_line - start_line ) ;
size_t tabs = 0 ;
for ( auto chr : line ) {
if ( chr = = tab_char )
tabs + + ;
else {
empty_line = false ;
break ;
}
}
if ( first_paste_line ) {
if ( tabs ! = 0 ) {
first_paste_line_has_tabs = true ;
paste_line_tabs = tabs ;
}
first_paste_line = false ;
}
else if ( ! empty_line )
paste_line_tabs = std : : min ( paste_line_tabs , tabs ) ;
start_line = end_line + 1 ;
paste_line = false ;
}
}
if ( paste_line_tabs = = static_cast < size_t > ( - 1 ) )
paste_line_tabs = 0 ;
start_line = 0 ;
end_line = 0 ;
paste_line = false ;
first_paste_line = true ;
for ( size_t c = 0 ; c < text . size ( ) ; c + + ) {
if ( text [ c ] = = ' \n ' ) {
end_line = c ;
paste_line = true ;
}
else if ( c = = text . size ( ) - 1 ) {
end_line = c + 1 ;
paste_line = true ;
}
if ( paste_line ) {
std : : string line = text . substr ( start_line , end_line - start_line ) ;
size_t line_tabs = 0 ;
for ( auto chr : line ) {
if ( chr = = tab_char )
line_tabs + + ;
else
break ;
}
auto tabs = paste_line_tabs ;
if ( ! ( first_paste_line & & ! first_paste_line_has_tabs ) & & line_tabs < paste_line_tabs ) {
tabs = line_tabs ;
}
if ( first_paste_line ) {
if ( first_paste_line_has_tabs )
get_buffer ( ) - > insert_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 ) ;
}
void Source : : View : : hide_tooltips ( ) {
delayed_tooltips_connection . disconnect ( ) ;
type_tooltips . hide ( ) ;
diagnostic_tooltips . hide ( ) ;
}
void Source : : View : : add_diagnostic_tooltip ( const Gtk : : TextIter & start , const Gtk : : TextIter & end , std : : string spelling , bool error ) {
diagnostic_offsets . emplace ( start . get_offset ( ) ) ;
std : : string severity_tag_name = error ? " def:error " : " def:warning " ;
auto create_tooltip_buffer = [ this , spelling = std : : move ( spelling ) , error , severity_tag_name ] ( ) {
auto tooltip_buffer = Gtk : : TextBuffer : : create ( get_buffer ( ) - > get_tag_table ( ) ) ;
tooltip_buffer - > insert_with_tag ( tooltip_buffer - > get_insert ( ) - > get_iter ( ) , error ? " Error " : " Warning " , severity_tag_name ) ;
tooltip_buffer - > insert ( tooltip_buffer - > get_insert ( ) - > get_iter ( ) , " : \n " + spelling ) ;
return tooltip_buffer ;
} ;
diagnostic_tooltips . emplace_back ( create_tooltip_buffer , this , get_buffer ( ) - > create_mark ( start ) , get_buffer ( ) - > create_mark ( end ) ) ;
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 : : hide_dialogs ( ) {
SpellCheckView : : hide_dialogs ( ) ;
if ( SelectionDialog : : get ( ) )
SelectionDialog : : get ( ) - > hide ( ) ;
if ( CompletionDialog : : get ( ) )
CompletionDialog : : get ( ) - > hide ( ) ;
}
Gtk : : TextIter Source : : View : : find_non_whitespace_code_iter_backward ( Gtk : : TextIter iter ) {
if ( iter . starts_line ( ) )
return iter ;
if ( ! comment_tag )
return iter ;
while ( ! iter . starts_line ( ) & & ( iter . has_tag ( comment_tag ) | |
# if GTKMM_MAJOR_VERSION > 3 || (GTKMM_MAJOR_VERSION == 3 && GTKMM_MINOR_VERSION >= 20)
iter . starts_tag ( comment_tag ) | |
# else
* iter = = ' / ' | |
# endif
* 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 = = ' / ' ) & & iter . backward_char ( ) ) {
}
if ( iter . starts_line ( ) )
return iter ;
bool has_semicolon = false ;
bool colon_test = false ;
if ( is_bracket_language ) {
if ( * iter = = ' ; ' & & is_code_iter ( iter ) )
has_semicolon = true ;
if ( * iter = = ' { ' & & is_code_iter ( 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 ( 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 ) {
bool stream_operator_found = false ;
bool colon_found = false ;
// 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 = = ' < ' )
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 : , = & | 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 ! = ' : ' & & * previous_iter ! = ' = ' & & * previous_iter ! = ' & ' & & * previous_iter ! = ' | ' )
return iter ;
else if ( * previous_iter = = ' : ' & & is_code_iter ( 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 ;
}
// Handle for instance: int a =\n b;
else if ( ( * previous_iter = = ' = ' | | * previous_iter = = ' & ' | | * previous_iter = = ' | ' ) & & ! has_semicolon & & is_code_iter ( 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 ;
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 ;
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 - - ;
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 - - ;
}
} 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 - - ;
}
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 - - ;
}
} 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 ) {
class Guard {
public :
bool & value ;
Guard ( bool & value_ ) : value ( value_ ) { value = true ; }
~ Guard ( ) { value = false ; }
} ;
Guard guard { multiple_cursors_use } ;
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 ( Config : : get ( ) . source . enable_multiple_cursors & & on_key_press_event_multiple_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 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 ) ) ;
auto previous_iter = iter ;
if ( previous_iter . backward_char ( ) & & * previous_iter = = ' : ' & & language & & language - > get_id ( ) = = " python " ) // Python indenting after :
tabs + = tab ;
else {
int line_nr = iter . get_line ( ) ;
if ( iter . ends_line ( ) & & ( line_nr + 1 ) < get_buffer ( ) - > 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 ;
}
//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 ( ) ) {
}
prev_line_iter = get_start_of_expression ( prev_line_iter ) ;
auto prev_line_tabs_end_iter = get_tabs_end_iter ( prev_line_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_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 ;
}
}
}
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_on_return ( 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 ( get_buffer ( ) - > get_iter_at_line ( start_iter . get_line ( ) ) ) ) ;
auto tabs = get_line_before ( get_tabs_end_iter ( get_buffer ( ) - > get_iter_at_line ( start_iter . get_line ( ) ) ) ) ;
/*
* 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 . 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
if ( ( * start_iter = = ' [ ' & & * iter ! = ' ] ' ) | | ( * start_iter = = ' ( ' & & * iter ! = ' ) ' ) | | ( * start_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 ! = ' ( ' ) {
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 ;
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 " )
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 ) ;
}
else {
get_buffer ( ) - > insert_at_cursor ( ' \n ' + tabs + tab ) ;
scroll_to ( get_buffer ( ) - > get_insert ( ) ) ;
return true ;
}
}
}
}
if ( use_fixed_continuation_indenting )
return false ; // Use basic indentation since for instance JavaScript code can contain JSX
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 ;
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 ) {
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 = = ' { ' | | * 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 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 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_braceleft & & allow_insertion ( iter ) ) {
// Do not add } if next line has a higher indentation
auto start_iter = get_start_of_expression ( iter ) ;
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 left 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 ;
}
// 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 ;
}
}
}
return false ;
}
bool Source : : View : : on_key_press_event_multiple_cursors ( GdkEventKey * key ) {
if ( ! multiple_cursors_signals_set ) {
multiple_cursors_signals_set = true ;
multiple_cursors_last_insert = get_buffer ( ) - > create_mark ( get_buffer ( ) - > get_insert ( ) - > get_iter ( ) , false ) ;
get_buffer ( ) - > signal_mark_set ( ) . connect ( [ this ] ( const Gtk : : TextBuffer : : iterator & iter , const Glib : : RefPtr < Gtk : : TextBuffer : : Mark > & mark ) {
for ( auto & extra_cursor : multiple_cursors_extra_cursors ) {
if ( extra_cursor . first = = mark & & ( ! iter . ends_line ( ) | | iter . get_line_offset ( ) > extra_cursor . second ) ) {
extra_cursor . second = iter . get_line_offset ( ) ;
break ;
}
}
if ( mark - > get_name ( ) = = " insert " ) {
if ( multiple_cursors_use ) {
multiple_cursors_use = false ;
auto offset_diff = mark - > get_iter ( ) . get_offset ( ) - multiple_cursors_last_insert - > get_iter ( ) . get_offset ( ) ;
if ( offset_diff ! = 0 ) {
for ( auto & extra_cursor : multiple_cursors_extra_cursors ) {
auto iter = extra_cursor . first - > get_iter ( ) ;
iter . forward_chars ( offset_diff ) ;
get_buffer ( ) - > move_mark ( extra_cursor . first , iter ) ;
}
}
multiple_cursors_use = true ;
}
get_buffer ( ) - > delete_mark ( multiple_cursors_last_insert ) ;
multiple_cursors_last_insert = get_buffer ( ) - > create_mark ( mark - > get_iter ( ) , false ) ;
}
} ) ;
// TODO: this handler should run after signal_insert
get_buffer ( ) - > signal_insert ( ) . connect ( [ this ] ( const Gtk : : TextBuffer : : iterator & iter , const Glib : : ustring & text , int bytes ) {
if ( multiple_cursors_use ) {
multiple_cursors_use = false ;
auto offset = iter . get_offset ( ) - get_buffer ( ) - > get_insert ( ) - > get_iter ( ) . get_offset ( ) ;
for ( auto & extra_cursor : multiple_cursors_extra_cursors ) {
auto iter = extra_cursor . first - > get_iter ( ) ;
iter . forward_chars ( offset ) ;
get_buffer ( ) - > insert ( iter , text ) ;
}
multiple_cursors_use = true ;
}
} ) ;
get_buffer ( ) - > signal_erase ( ) . connect ( [ this ] ( const Gtk : : TextBuffer : : iterator & iter_start , const Gtk : : TextBuffer : : iterator & iter_end ) {
if ( multiple_cursors_use ) {
auto insert_offset = get_buffer ( ) - > get_insert ( ) - > get_iter ( ) . get_offset ( ) ;
multiple_cursors_erase_backward_length = insert_offset - iter_start . get_offset ( ) ;
multiple_cursors_erase_forward_length = iter_end . get_offset ( ) - insert_offset ;
}
} , false ) ;
get_buffer ( ) - > signal_erase ( ) . connect ( [ this ] ( const Gtk : : TextBuffer : : iterator & iter_start , const Gtk : : TextBuffer : : iterator & iter_end ) {
if ( multiple_cursors_use ) {
multiple_cursors_use = false ;
for ( auto & extra_cursor : multiple_cursors_extra_cursors ) {
auto start_iter = extra_cursor . first - > get_iter ( ) ;
auto end_iter = start_iter ;
start_iter . backward_chars ( multiple_cursors_erase_backward_length ) ;
end_iter . forward_chars ( multiple_cursors_erase_forward_length ) ;
get_buffer ( ) - > erase ( start_iter , end_iter ) ;
}
multiple_cursors_use = true ;
}
} ) ;
}
if ( key - > keyval = = GDK_KEY_Escape & & ! multiple_cursors_extra_cursors . empty ( ) ) {
for ( auto & extra_cursor : multiple_cursors_extra_cursors ) {
extra_cursor . first - > set_visible ( false ) ;
get_buffer ( ) - > delete_mark ( extra_cursor . first ) ;
}
multiple_cursors_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 ( multiple_cursors_extra_cursors . empty ( ) )
return false ;
auto & cursor = multiple_cursors_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 ( multiple_cursors_extra_cursors . empty ( ) )
return false ;
auto & cursor = multiple_cursors_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 ( multiple_cursors_extra_cursors . empty ( ) )
return false ;
auto & extra_cursor = multiple_cursors_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 ( multiple_cursors_extra_cursors . empty ( ) )
return false ;
auto & extra_cursor = multiple_cursors_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 : multiple_cursors_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 ( ) ) ) ;
multiple_cursors_extra_cursors . emplace_back ( get_buffer ( ) - > create_mark ( iter , false ) , insert_line_offset ) ;
multiple_cursors_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 : multiple_cursors_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 ( ) ) ) ;
multiple_cursors_extra_cursors . emplace_back ( get_buffer ( ) - > create_mark ( iter , false ) , insert_line_offset ) ;
multiple_cursors_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 ) {
multiple_cursors_use = false ;
for ( auto & extra_cursor : multiple_cursors_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 ) {
multiple_cursors_use = false ;
for ( auto & extra_cursor : multiple_cursors_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 ) ) {
multiple_cursors_use = false ;
for ( auto & extra_cursor : multiple_cursors_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 ) ) {
multiple_cursors_use = false ;
for ( auto & extra_cursor : multiple_cursors_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 : multiple_cursors_extra_cursors )
get_buffer ( ) - > move_mark ( extra_cursor . first , get_smart_home_iter ( extra_cursor . first - > get_iter ( ) ) ) ;
multiple_cursors_use = 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 : multiple_cursors_extra_cursors )
get_buffer ( ) - > move_mark ( extra_cursor . first , get_smart_end_iter ( extra_cursor . first - > get_iter ( ) ) ) ;
multiple_cursors_use = 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 ) ) {
# 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 ) ;
}
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
}
std : : pair < char , unsigned > Source : : View : : find_tab_char_and_size ( ) {
std : : map < char , size_t > tab_chars ;
std : : map < unsigned , size_t > 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 , const Glib : : RefPtr < Gsv : : Language > & language ) : BaseView ( file_path , language ) , View ( file_path , language , true ) {
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 < Gdk : : Pixbuf > ( ) ) ;
completion_words - > register_provider ( get_buffer ( ) ) ;
completion - > add_provider ( completion_words ) ;
if ( language ) {
auto language_manager = 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 < std : : string > ( search_path ) + ' / ' + static_cast < std : : string > ( 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 | | language - > get_id ( ) = = " cmake " ) // TODO: no longer use the spellcheck_all flag
spellcheck_all = false ;
completion_words - > register_provider ( completion_buffer_keywords ) ;
}
}
}
void Source : : GenericView : : parse_language_file ( Glib : : RefPtr < CompletionBuffer > & completion_buffer , bool & has_context_class , const boost : : property_tree : : ptree & pt ) {
bool case_insensitive = false ;
for ( auto & node : pt ) {
if ( node . first = = " <xmlcomment> " ) {
auto data = static_cast < std : : string > ( 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 < std : : string > ( 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 < std : : string > ( " <xmlattr>.class " , " " ) ;
auto class_disabled_attribute = node . second . get < std : : string > ( " <xmlattr>.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 ) {
}
}
}
