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gparted/src/Win_GParted.cc

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/* Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009 Bart Hakvoort
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Library General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "../include/Win_GParted.h"
#include "../include/Dialog_Progress.h"
#include "../include/DialogFeatures.h"
#include "../include/Dialog_Disklabel.h"
#include "../include/Dialog_Partition_Resize_Move.h"
#include "../include/Dialog_Partition_Copy.h"
#include "../include/Dialog_Partition_New.h"
#include "../include/Dialog_Partition_Info.h"
#include "../include/Dialog_Partition_Label.h"
#include "../include/DialogManageFlags.h"
#include "../include/OperationCopy.h"
#include "../include/OperationCheck.h"
#include "../include/OperationCreate.h"
#include "../include/OperationDelete.h"
#include "../include/OperationFormat.h"
#include "../include/OperationResizeMove.h"
#include "../include/OperationLabelPartition.h"
#include <gtkmm/aboutdialog.h>
#include <gtkmm/messagedialog.h>
#include <gtkmm/radiobuttongroup.h>
#include <gtkmm/main.h>
namespace GParted
{
Win_GParted::Win_GParted( const std::vector<Glib::ustring> & user_devices )
{
copied_partition .Reset() ;
selected_partition .Reset() ;
new_count = 1;
current_device = 0 ;
pulse = false ;
OPERATIONSLIST_OPEN = true ;
gparted_core .set_user_devices( user_devices ) ;
MENU_NEW = TOOLBAR_NEW =
MENU_DEL = TOOLBAR_DEL =
MENU_RESIZE_MOVE = TOOLBAR_RESIZE_MOVE =
MENU_COPY = TOOLBAR_COPY =
MENU_PASTE = TOOLBAR_PASTE =
MENU_FORMAT =
MENU_TOGGLE_MOUNT_SWAP =
MENU_MOUNT =
MENU_FLAGS =
MENU_INFO =
MENU_LABEL_PARTITION =
TOOLBAR_UNDO =
TOOLBAR_APPLY = -1 ;
//==== GUI =========================
this ->set_title( _("GParted") );
this ->set_default_size( 775, 500 );
try
{
this ->set_default_icon_name( "gparted" ) ;
}
catch ( Glib::Exception & e )
{
std::cout << e .what() << std::endl ;
}
//Pack the main box
this ->add( vbox_main );
//menubar....
init_menubar() ;
vbox_main .pack_start( menubar_main, Gtk::PACK_SHRINK );
//toolbar....
init_toolbar() ;
vbox_main.pack_start( hbox_toolbar, Gtk::PACK_SHRINK );
//drawingarea_visualdisk... ( contains the visual represenation of the disks )
drawingarea_visualdisk .signal_partition_selected .connect(
sigc::mem_fun( this, &Win_GParted::on_partition_selected ) ) ;
drawingarea_visualdisk .signal_partition_activated .connect(
sigc::mem_fun( this, &Win_GParted::on_partition_activated ) ) ;
drawingarea_visualdisk .signal_popup_menu .connect(
sigc::mem_fun( this, &Win_GParted::on_partition_popup_menu ) );
vbox_main .pack_start( drawingarea_visualdisk, Gtk::PACK_SHRINK ) ;
//hpaned_main (NOTE: added to vpaned_main)
init_hpaned_main() ;
vpaned_main .pack1( hpaned_main, true, true ) ;
//vpaned_main....
vbox_main .pack_start( vpaned_main );
//device info...
init_device_info() ;
//operationslist...
hbox_operations .signal_undo .connect( sigc::mem_fun( this, &Win_GParted::activate_undo ) ) ;
hbox_operations .signal_clear .connect( sigc::mem_fun( this, &Win_GParted::clear_operationslist ) ) ;
hbox_operations .signal_apply .connect( sigc::mem_fun( this, &Win_GParted::activate_apply ) ) ;
hbox_operations .signal_close .connect( sigc::mem_fun( this, &Win_GParted::close_operationslist ) ) ;
vpaned_main .pack2( hbox_operations, true, true ) ;
//statusbar...
pulsebar .set_pulse_step( 0.01 );
statusbar .add( pulsebar );
vbox_main .pack_start( statusbar, Gtk::PACK_SHRINK );
this ->show_all_children();
//make sure harddisk information is closed..
hpaned_main .get_child1() ->hide() ;
}
void Win_GParted::init_menubar()
{
//fill menubar_main and connect callbacks
//gparted
menu = manage( new Gtk::Menu() ) ;
image = manage( new Gtk::Image( Gtk::Stock::REFRESH, Gtk::ICON_SIZE_MENU ) );
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem(
_("_Refresh Devices"),
Gtk::AccelKey("<control>r"),
*image,
sigc::mem_fun(*this, &Win_GParted::menu_gparted_refresh_devices) ) );
image = manage( new Gtk::Image( Gtk::Stock::HARDDISK, Gtk::ICON_SIZE_MENU ) );
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem( _("_Devices"), *image ) ) ;
menu ->items() .push_back( Gtk::Menu_Helpers::SeparatorElem( ) );
menu ->items() .push_back( Gtk::Menu_Helpers::StockMenuElem(
Gtk::Stock::QUIT, sigc::mem_fun(*this, &Win_GParted::menu_gparted_quit) ) );
menubar_main .items() .push_back( Gtk::Menu_Helpers::MenuElem( _("_GParted"), *menu ) );
//edit
menu = manage( new Gtk::Menu() ) ;
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem(
_("_Undo Last Operation"),
Gtk::AccelKey("<control>z"),
* manage( new Gtk::Image( Gtk::Stock::UNDO, Gtk::ICON_SIZE_MENU ) ),
sigc::mem_fun(*this, &Win_GParted::activate_undo) ) );
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem(
_("_Clear All Operations"),
* manage( new Gtk::Image( Gtk::Stock::CLEAR, Gtk::ICON_SIZE_MENU ) ),
sigc::mem_fun(*this, &Win_GParted::clear_operationslist) ) );
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem(
_("_Apply All Operations"),
* manage( new Gtk::Image( Gtk::Stock::APPLY, Gtk::ICON_SIZE_MENU ) ),
sigc::mem_fun(*this, &Win_GParted::activate_apply) ) );
menubar_main .items() .push_back( Gtk::Menu_Helpers::MenuElem( _("_Edit"), *menu ) );
//view
menu = manage( new Gtk::Menu() ) ;
menu ->items() .push_back( Gtk::Menu_Helpers::CheckMenuElem(
_("Device _Information"), sigc::mem_fun(*this, &Win_GParted::menu_view_harddisk_info) ) );
menu ->items() .push_back( Gtk::Menu_Helpers::CheckMenuElem(
_("Pending _Operations"), sigc::mem_fun(*this, &Win_GParted::menu_view_operations) ) );
menubar_main .items() .push_back( Gtk::Menu_Helpers::MenuElem( _("_View"), *menu ) );
menu ->items() .push_back( Gtk::Menu_Helpers::SeparatorElem( ) );
menu ->items() .push_back( Gtk::Menu_Helpers::MenuElem(
_("_File System Support"), sigc::mem_fun( *this, &Win_GParted::menu_gparted_features ) ) );
//device
menu = manage( new Gtk::Menu() ) ;
menu ->items() .push_back( Gtk::Menu_Helpers::MenuElem( Glib::ustring( _("_Create Partition Table") ) + "...",
sigc::mem_fun(*this, &Win_GParted::activate_disklabel) ) );
menubar_main .items() .push_back( Gtk::Menu_Helpers::MenuElem( _("_Device"), *menu ) );
//partition
init_partition_menu() ;
menubar_main .items() .push_back( Gtk::Menu_Helpers::MenuElem( _("_Partition"), menu_partition ) );
//help
menu = manage( new Gtk::Menu() ) ;
menu ->items() .push_back( Gtk::Menu_Helpers::ImageMenuElem(
_("_Contents"),
Gtk::AccelKey("F1"),
* manage( new Gtk::Image( Gtk::Stock::HELP, Gtk::ICON_SIZE_MENU ) ),
sigc::mem_fun(*this, &Win_GParted::menu_help_contents) ) );
menu ->items() .push_back( Gtk::Menu_Helpers::SeparatorElem( ) );
menu ->items() .push_back( Gtk::Menu_Helpers::StockMenuElem(
Gtk::Stock::ABOUT, sigc::mem_fun(*this, &Win_GParted::menu_help_about) ) );
menubar_main.items() .push_back( Gtk::Menu_Helpers::MenuElem(_("_Help"), *menu ) );
}
void Win_GParted::init_toolbar()
{
int index = 0 ;
//initialize and pack toolbar_main
hbox_toolbar.pack_start( toolbar_main );
//NEW and DELETE
toolbutton = Gtk::manage( new Gtk::ToolButton( Gtk::Stock::NEW ) );
toolbutton ->signal_clicked() .connect( sigc::mem_fun( *this, &Win_GParted::activate_new ) );
toolbar_main .append( *toolbutton );
TOOLBAR_NEW = index++ ;
toolbutton ->set_tooltip(tooltips, _("Create a new partition in the selected unallocated space") );
toolbutton = Gtk::manage(new Gtk::ToolButton(Gtk::Stock::DELETE));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_delete) );
toolbar_main.append(*toolbutton);
TOOLBAR_DEL = index++ ;
toolbutton ->set_tooltip(tooltips, _("Delete the selected partition") );
toolbar_main.append( *(Gtk::manage(new Gtk::SeparatorToolItem)) );
index++ ;
//RESIZE/MOVE
image = manage( new Gtk::Image( Gtk::Stock::GOTO_LAST, Gtk::ICON_SIZE_BUTTON ) );
Glib::ustring str_temp = _("Resize/Move") ;
//Condition string split and Undo button.
// for longer translated string, split string in two and skip the Undo button to permit full toolbar to display
// FIXME: Is there a better way to do this, perhaps without the conditional? At the moment this seems to be the best compromise.
bool display_undo = true ;
if( str_temp .length() > 14 ) {
size_t index = str_temp .find( "/" ) ;
if ( index != Glib::ustring::npos ) {
str_temp .replace( index, 1, "\n/" ) ;
display_undo = false ;
}
}
toolbutton = Gtk::manage(new Gtk::ToolButton( *image, str_temp ));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_resize) );
toolbar_main.append(*toolbutton);
TOOLBAR_RESIZE_MOVE = index++ ;
toolbutton ->set_tooltip(tooltips, _("Resize/Move the selected partition") );
toolbar_main.append( *(Gtk::manage(new Gtk::SeparatorToolItem)) );
index++ ;
//COPY and PASTE
toolbutton = Gtk::manage(new Gtk::ToolButton(Gtk::Stock::COPY));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_copy) );
toolbar_main.append(*toolbutton);
TOOLBAR_COPY = index++ ;
toolbutton ->set_tooltip(tooltips, _("Copy the selected partition to the clipboard") );
toolbutton = Gtk::manage(new Gtk::ToolButton(Gtk::Stock::PASTE));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_paste) );
toolbar_main.append(*toolbutton);
TOOLBAR_PASTE = index++ ;
toolbutton ->set_tooltip(tooltips, _("Paste the partition from the clipboard") );
toolbar_main.append( *(Gtk::manage(new Gtk::SeparatorToolItem)) );
index++ ;
//UNDO and APPLY
if ( display_undo ) {
//Undo button is displayed only if translated language "Resize/Move" is not too long. See above setting of this condition.
toolbutton = Gtk::manage(new Gtk::ToolButton(Gtk::Stock::UNDO));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_undo) );
toolbar_main.append(*toolbutton);
TOOLBAR_UNDO = index++ ;
toolbutton ->set_sensitive( false );
toolbutton ->set_tooltip(tooltips, _("Undo Last Operation") );
}
toolbutton = Gtk::manage(new Gtk::ToolButton(Gtk::Stock::APPLY));
toolbutton ->signal_clicked().connect( sigc::mem_fun(*this, &Win_GParted::activate_apply) );
toolbar_main.append(*toolbutton);
TOOLBAR_APPLY = index++ ;
toolbutton ->set_sensitive( false );
toolbutton ->set_tooltip(tooltips, _("Apply All Operations") );
//initialize and pack combo_devices
liststore_devices = Gtk::ListStore::create( treeview_devices_columns ) ;
combo_devices .set_model( liststore_devices ) ;
combo_devices .pack_start( treeview_devices_columns .icon, false ) ;
combo_devices .pack_start( treeview_devices_columns .device ) ;
combo_devices .pack_start( treeview_devices_columns .size, false ) ;
combo_devices .signal_changed() .connect( sigc::mem_fun(*this, &Win_GParted::combo_devices_changed) );
hbox_toolbar .pack_start( combo_devices, Gtk::PACK_SHRINK ) ;
}
void Win_GParted::init_partition_menu()
{
int index = 0 ;
//fill menu_partition
menu_partition .items() .push_back(
Gtk::Menu_Helpers::StockMenuElem( Gtk::Stock::NEW,
sigc::mem_fun(*this, &Win_GParted::activate_new) ) );
MENU_NEW = index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::StockMenuElem( Gtk::Stock::DELETE,
Gtk::AccelKey( GDK_Delete, Gdk::BUTTON1_MASK ),
sigc::mem_fun(*this, &Win_GParted::activate_delete) ) );
MENU_DEL = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() );
index++ ;
image = manage( new Gtk::Image( Gtk::Stock::GOTO_LAST, Gtk::ICON_SIZE_MENU ) );
menu_partition .items() .push_back(
Gtk::Menu_Helpers::ImageMenuElem( _("_Resize/Move"),
*image,
sigc::mem_fun(*this, &Win_GParted::activate_resize) ) );
MENU_RESIZE_MOVE = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() );
index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::StockMenuElem( Gtk::Stock::COPY,
sigc::mem_fun(*this, &Win_GParted::activate_copy) ) );
MENU_COPY = index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::StockMenuElem( Gtk::Stock::PASTE,
sigc::mem_fun(*this, &Win_GParted::activate_paste) ) );
MENU_PASTE = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() );
index++ ;
image = manage( new Gtk::Image( Gtk::Stock::CONVERT, Gtk::ICON_SIZE_MENU ) );
/*TO TRANSLATORS: menuitem which holds a submenu with file systems.. */
menu_partition .items() .push_back(
Gtk::Menu_Helpers::ImageMenuElem( _("_Format to"),
*image,
* create_format_menu() ) ) ;
MENU_FORMAT = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() ) ;
index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::MenuElem( _("Unmount"),
sigc::mem_fun( *this, &Win_GParted::toggle_swap_mount_state ) ) );
MENU_TOGGLE_MOUNT_SWAP = index++ ;
/*TO TRANSLATORS: menuitem which holds a submenu with mount points.. */
menu_partition .items() .push_back(
Gtk::Menu_Helpers::MenuElem( _("_Mount on"), * manage( new Gtk::Menu() ) ) ) ;
MENU_MOUNT = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() ) ;
index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::MenuElem( _("M_anage Flags"),
sigc::mem_fun( *this, &Win_GParted::activate_manage_flags ) ) );
MENU_FLAGS = index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::MenuElem( _("C_heck"),
sigc::mem_fun( *this, &Win_GParted::activate_check ) ) );
MENU_CHECK = index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::MenuElem( _("_Label"),
sigc::mem_fun( *this, &Win_GParted::activate_label_partition ) ) );
MENU_LABEL_PARTITION = index++ ;
menu_partition .items() .push_back( Gtk::Menu_Helpers::SeparatorElem() ) ;
index++ ;
menu_partition .items() .push_back(
Gtk::Menu_Helpers::StockMenuElem( Gtk::Stock::DIALOG_INFO,
sigc::mem_fun(*this, &Win_GParted::activate_info) ) );
MENU_INFO = index++ ;
menu_partition .accelerate( *this ) ;
}
Gtk::Menu * Win_GParted::create_format_menu()
{
menu = manage( new Gtk::Menu() ) ;
for ( unsigned int t =0; t < gparted_core .get_filesystems() .size() ; t++ )
{
//Skip btrfs, luks, lvm2, and unknown because these are not file systems
if ( gparted_core .get_filesystems()[ t ] .filesystem == GParted::FS_BTRFS ||
gparted_core .get_filesystems()[ t ] .filesystem == GParted::FS_LUKS ||
gparted_core .get_filesystems()[ t ] .filesystem == GParted::FS_LVM2 ||
gparted_core .get_filesystems()[ t ] .filesystem == GParted::FS_UNKNOWN
)
continue ;
hbox = manage( new Gtk::HBox() );
//the colored square
hbox ->pack_start( * manage( new Gtk::Image(
Utils::get_color_as_pixbuf(
gparted_core .get_filesystems()[ t ] .filesystem, 16, 16 ) ) ),
Gtk::PACK_SHRINK ) ;
//the label...
hbox ->pack_start( * Utils::mk_label(
" " +
Utils::get_filesystem_string( gparted_core .get_filesystems()[ t ] .filesystem ) ),
Gtk::PACK_SHRINK );
menu ->items() .push_back( * manage( new Gtk::MenuItem( *hbox ) ) );
if ( gparted_core .get_filesystems()[ t ] .create )
menu ->items() .back() .signal_activate() .connect(
sigc::bind<GParted::FILESYSTEM>(sigc::mem_fun(*this, &Win_GParted::activate_format),
gparted_core .get_filesystems()[ t ] .filesystem ) ) ;
else
menu ->items() .back() .set_sensitive( false ) ;
}
return menu ;
}
void Win_GParted::init_device_info()
{
vbox_info.set_spacing( 5 );
int top = 0, bottom = 1;
//title
vbox_info .pack_start(
* Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Device Information") ) + ":</b>" ),
Gtk::PACK_SHRINK );
//GENERAL DEVICE INFO
table = manage( new Gtk::Table() ) ;
table ->set_col_spacings( 10 ) ;
//model
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Model:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
//size
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Size:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
//path
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Path:") ) + "</b>",
true,
Gtk::ALIGN_LEFT,
Gtk::ALIGN_TOP ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
vbox_info .pack_start( *table, Gtk::PACK_SHRINK );
//DETAILED DEVICE INFO
top = 0 ; bottom = 1;
table = manage( new Gtk::Table() ) ;
table ->set_col_spacings( 10 ) ;
//one blank line
table ->attach( * Utils::mk_label( "" ), 1, 2, top++, bottom++, Gtk::FILL );
//disktype
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("DiskLabelType:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL );
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
//heads
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Heads:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
//sectors/track
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Sectors/Track:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL );
//cylinders
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Cylinders:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL ) ;
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
//total sectors
table ->attach( * Utils::mk_label( " <b>" + static_cast<Glib::ustring>( _("Total Sectors:") ) + "</b>" ),
0, 1,
top, bottom,
Gtk::FILL );
device_info .push_back( Utils::mk_label( "", true, Gtk::ALIGN_LEFT, Gtk::ALIGN_CENTER, false, true ) ) ;
table ->attach( * device_info .back(), 1, 2, top++, bottom++, Gtk::FILL ) ;
vbox_info .pack_start( *table, Gtk::PACK_SHRINK );
}
void Win_GParted::init_hpaned_main()
{
//left scrollwindow (holds device info)
scrollwindow = manage( new Gtk::ScrolledWindow() ) ;
scrollwindow ->set_shadow_type( Gtk::SHADOW_ETCHED_IN );
scrollwindow ->set_policy( Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC );
hpaned_main .pack1( *scrollwindow, true, true );
scrollwindow ->add( vbox_info );
//right scrollwindow (holds treeview with partitions)
scrollwindow = manage( new Gtk::ScrolledWindow() ) ;
scrollwindow ->set_shadow_type( Gtk::SHADOW_ETCHED_IN );
scrollwindow ->set_policy( Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC );
//connect signals and add treeview_detail
treeview_detail .signal_partition_selected .connect( sigc::mem_fun( this, &Win_GParted::on_partition_selected ) );
treeview_detail .signal_partition_activated .connect( sigc::mem_fun( this, &Win_GParted::on_partition_activated ) );
treeview_detail .signal_popup_menu .connect( sigc::mem_fun( this, &Win_GParted::on_partition_popup_menu ) );
scrollwindow ->add( treeview_detail );
hpaned_main .pack2( *scrollwindow, true, true );
}
void Win_GParted::refresh_combo_devices()
{
liststore_devices ->clear() ;
menu = manage( new Gtk::Menu() ) ;
Gtk::RadioButtonGroup radio_group ;
for ( unsigned int i = 0 ; i < devices .size( ) ; i++ )
{
//combo...
treerow = *( liststore_devices ->append() ) ;
treerow[ treeview_devices_columns .icon ] =
render_icon( Gtk::Stock::HARDDISK, Gtk::ICON_SIZE_LARGE_TOOLBAR ) ;
treerow[ treeview_devices_columns .device ] = devices[ i ] .get_path() ;
treerow[ treeview_devices_columns .size ] = "(" + Utils::format_size( devices[ i ] .length ) + ")" ;
//devices submenu....
hbox = manage( new Gtk::HBox() ) ;
hbox ->pack_start( * Utils::mk_label( devices[ i ] .get_path() ), Gtk::PACK_SHRINK ) ;
hbox ->pack_start( * Utils::mk_label( " (" + Utils::format_size( devices[ i ] .length ) + ")",
true,
Gtk::ALIGN_RIGHT ),
Gtk::PACK_EXPAND_WIDGET ) ;
menu ->items() .push_back( * manage( new Gtk::RadioMenuItem( radio_group ) ) ) ;
menu ->items() .back() .add( *hbox ) ;
menu ->items() .back() .signal_activate() .connect(
sigc::bind<unsigned int>( sigc::mem_fun(*this, &Win_GParted::radio_devices_changed), i ) ) ;
}
menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .remove_submenu() ;
if ( menu ->items() .size() )
{
menu ->show_all() ;
menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .set_submenu( *menu ) ;
}
combo_devices .set_active( current_device ) ;
}
void Win_GParted::show_pulsebar( const Glib::ustring & status_message )
{
pulsebar .show();
statusbar .push( status_message) ;
//disable all input stuff
toolbar_main .set_sensitive( false ) ;
menubar_main .set_sensitive( false ) ;
combo_devices .set_sensitive( false ) ;
menu_partition .set_sensitive( false ) ;
treeview_detail .set_sensitive( false ) ;
drawingarea_visualdisk .set_sensitive( false ) ;
//the actual 'pulsing'
while ( pulse )
{
pulsebar .pulse();
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration();
usleep( 10000 );
Glib::ustring tmp_msg = gparted_core .get_thread_status_message() ;
if ( tmp_msg != "" )
statusbar .push( tmp_msg ) ;
}
thread ->join() ;
pulsebar .hide();
statusbar .pop() ;
//enable all disabled stuff
toolbar_main .set_sensitive( true ) ;
menubar_main .set_sensitive( true ) ;
combo_devices .set_sensitive( true ) ;
menu_partition .set_sensitive( true ) ;
treeview_detail .set_sensitive( true ) ;
drawingarea_visualdisk .set_sensitive( true ) ;
}
void Win_GParted::Fill_Label_Device_Info( bool clear )
{
if ( clear )
for ( unsigned int t = 0 ; t < device_info .size( ) ; t++ )
device_info[ t ] ->set_text( "" ) ;
else
{
short t = 0;
//global info...
device_info[ t++ ] ->set_text( devices[ current_device ] .model ) ;
device_info[ t++ ] ->set_text( Utils::format_size( devices[ current_device ] .length ) ) ;
device_info[ t++ ] ->set_text( Glib::build_path( "\n", devices[ current_device ] .get_paths() ) ) ;
//detailed info
device_info[ t++ ] ->set_text( devices[ current_device ] .disktype ) ;
device_info[ t++ ] ->set_text( Utils::num_to_str( devices[ current_device ] .heads ) );
device_info[ t++ ] ->set_text( Utils::num_to_str( devices[ current_device ] .sectors ) );
device_info[ t++ ] ->set_text( Utils::num_to_str( devices[ current_device ] .cylinders ) );
device_info[ t++ ] ->set_text( Utils::num_to_str( devices[ current_device ] .length ) );
}
}
bool Win_GParted::on_delete_event( GdkEventAny *event )
{
return ! Quit_Check_Operations();
}
void Win_GParted::Add_Operation( Operation * operation, int index )
{
if ( operation )
{
Glib::ustring error ;
//FIXME: this is becoming a mess.. maybe it's better to check if partition_new > 0
if ( operation ->type == OPERATION_DELETE ||
operation ->type == OPERATION_FORMAT ||
operation ->type == OPERATION_CHECK ||
gparted_core .snap_to_cylinder( operation ->device, operation ->partition_new, error ) )
{
operation ->create_description() ;
if ( index >= 0 && index < static_cast<int>( operations .size() ) )
operations .insert( operations .begin() + index, operation ) ;
else
operations .push_back( operation );
allow_undo_clear_apply( true ) ;
Refresh_Visual();
if ( operations .size() == 1 ) //first operation, open operationslist
open_operationslist() ;
}
else
{
Gtk::MessageDialog dialog( *this,
_("Could not add this operation to the list."),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true );
dialog .set_secondary_text( error ) ;
dialog .run() ;
}
}
}
void Win_GParted::Refresh_Visual()
{
std::vector<Partition> partitions = devices[ current_device ] .partitions ;
//make all operations visible
for ( unsigned int t = 0 ; t < operations .size(); t++ )
if ( operations[ t ] ->device == devices[ current_device ] )
operations[ t ] ->apply_to_visual( partitions ) ;
hbox_operations .load_operations( operations ) ;
//set new statusbartext
statusbar .pop() ;
statusbar .push( String::ucompose( ngettext( "%1 operation pending"
, "%1 operations pending"
, operations .size()
)
, operations .size()
)
);
if ( ! operations .size() )
allow_undo_clear_apply( false ) ;
//count primary's and check for extended
index_extended = -1 ;
primary_count = 0;
for ( unsigned int t = 0 ; t < partitions .size() ; t++ )
{
if ( partitions[ t ] .get_path() == copied_partition .get_path() )
copied_partition = partitions[ t ] ;
switch ( partitions[ t ] .type )
{
case GParted::TYPE_PRIMARY :
primary_count++;
break;
case GParted::TYPE_EXTENDED :
index_extended = t ;
primary_count++;
break;
default :
break;
}
}
//frame visualdisk
drawingarea_visualdisk .load_partitions( partitions, devices[ current_device ] .length ) ;
//treeview details
treeview_detail .load_partitions( partitions ) ;
//no partition can be selected after a refresh..
selected_partition .Reset() ;
set_valid_operations() ;
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration() ;
}
bool Win_GParted::Quit_Check_Operations()
{
if ( operations .size() )
{
Gtk::MessageDialog dialog( *this,
_("Quit GParted?"),
false,
Gtk::MESSAGE_QUESTION,
Gtk::BUTTONS_NONE,
true );
dialog .set_secondary_text( String::ucompose( ngettext( "%1 operation is currently pending."
, "%1 operations are currently pending."
, operations .size()
)
, operations .size()
)
) ;
dialog .add_button( Gtk::Stock::QUIT, Gtk::RESPONSE_CLOSE );
dialog .add_button( Gtk::Stock::CANCEL,Gtk::RESPONSE_CANCEL );
if ( dialog .run() == Gtk::RESPONSE_CANCEL )
return false;//don't close GParted
}
return true; //close GParted
}
void Win_GParted::set_valid_operations()
{
allow_new( false ); allow_delete( false ); allow_resize( false ); allow_copy( false );
allow_paste( false ); allow_format( false ); allow_toggle_swap_mount_state( false ) ;
allow_manage_flags( false ) ; allow_check( false ) ; allow_label_partition( false ) ;
allow_info( false ) ;
dynamic_cast<Gtk::Label*>( menu_partition .items()[ MENU_TOGGLE_MOUNT_SWAP ] .get_child() )
->set_label( _("_Unmount") ) ;
menu_partition .items()[ MENU_TOGGLE_MOUNT_SWAP ] .show() ;
menu_partition .items()[ MENU_MOUNT ] .hide() ;
//no partition selected...
if ( ! selected_partition .get_paths() .size() )
return ;
//if there's something, there's some info ;)
allow_info( true ) ;
//flag managing..
if ( selected_partition .type != GParted::TYPE_UNALLOCATED && selected_partition .status == GParted::STAT_REAL )
allow_manage_flags( true ) ;
//deal with swap...
if ( selected_partition .filesystem == GParted::FS_LINUX_SWAP )
{
if ( selected_partition .status == GParted::STAT_REAL )
allow_toggle_swap_mount_state( true ) ;
if ( selected_partition .busy )
{
dynamic_cast<Gtk::Label*>(menu_partition .items()[ MENU_TOGGLE_MOUNT_SWAP ] .get_child() )
->set_label( _("_Swapoff") ) ;
return ;
}
else
dynamic_cast<Gtk::Label*>(menu_partition .items()[ MENU_TOGGLE_MOUNT_SWAP ] .get_child() )
->set_label( _("_Swapon") ) ;
}
//only unmount is allowed (if ! extended)
if ( selected_partition .busy )
{
if ( selected_partition .type != GParted::TYPE_EXTENDED )
allow_toggle_swap_mount_state( true ) ;
return ;
}
//UNALLOCATED
if ( selected_partition .type == GParted::TYPE_UNALLOCATED )
{
allow_new( true );
//find out if there is a copied partition and if it fits inside this unallocated space
if ( ! copied_partition .get_path() .empty() && ! devices[ current_device ] .readonly )
{
Sector required_size ;
if ( copied_partition .filesystem == GParted::FS_XFS )
required_size = copied_partition .sectors_used ;
else
required_size = copied_partition .get_length() ;
// /* Copy Primary not at start of disk to within Extended partition */
// Adjust when a primary partition is copied and pasted
// into an unallocated space in an extended partition
// of an MSDOS partition table.
// Since the Extended Boot Record requires an additional track,
// this must be considered in the required space for the
// destination (selected) partition.
// NOTE: This problem does not occur for a primary partition
// at the the start of the disk because the size of the EBR and
// Master Boot Record are the same.
//
// /* Copy Primary not at start of disk to Primary at start of disk */
// Also Adjust when a primary partition that does not start at the
// beginning of the disk is copied and pasted
// into an unallocated space at the start of the disk device.
// Since the Master Boot Record requires an additional track,
// this must be considered in the required space for the
// destination (selected) partition.
//
// Because the largest unit used in the GUI is one
// cylinder size (round to cylinders), the space
// needed in the destination partition needs to be increased
// by one cylinder size.
if ( (/* Copy Primary not at start of disk to within Extended partition */
copied_partition .type == TYPE_PRIMARY
&& copied_partition .sector_start > devices[ current_device ] .sectors /* 63 for MSDOS Partition Table */
&& devices[ current_device ] .disktype == "msdos"
&& selected_partition .type == TYPE_UNALLOCATED
&& selected_partition .inside_extended
)
|| ( /* Copy Primary not at start of disk to Primary at start of disk */
copied_partition .type == TYPE_PRIMARY
&& copied_partition .sector_start > devices[ current_device ] .sectors /* 63 for MSDOS Partition Table */
&& devices[ current_device ] .disktype == "msdos"
&& selected_partition .type == TYPE_UNALLOCATED
&& selected_partition .sector_start <= devices[ current_device ] .sectors /* Beginning of disk device */
&& ! selected_partition .inside_extended
)
)
required_size += devices[ current_device ] .cylsize ;
if ( required_size <= selected_partition .get_length() )
allow_paste( true ) ;
}
return ;
}
//EXTENDED
if ( selected_partition .type == GParted::TYPE_EXTENDED )
{
//deletion is only allowed when there are no logical partitions inside.
if ( selected_partition .logicals .size() == 1 &&
selected_partition .logicals .back() .type == GParted::TYPE_UNALLOCATED )
allow_delete( true ) ;
if ( ! devices[ current_device ] .readonly )
allow_resize( true ) ;
return ;
}
//PRIMARY and LOGICAL
if ( selected_partition .type == GParted::TYPE_PRIMARY || selected_partition .type == GParted::TYPE_LOGICAL )
{
fs = gparted_core .get_fs( selected_partition .filesystem ) ;
allow_delete( true ) ;
allow_format( true ) ;
//find out if resizing/moving is possible
if ( (fs .grow || fs .shrink || fs .move ) && ! devices[ current_device ] .readonly )
allow_resize( true ) ;
//only allow copying of real partitions
if ( selected_partition .status == GParted::STAT_REAL && fs .copy )
allow_copy( true ) ;
//only allow labelling of real partitions that support labelling
if ( selected_partition .status == GParted::STAT_REAL && fs .write_label )
allow_label_partition( true ) ;
if ( selected_partition .get_mountpoints() .size() )
{
allow_toggle_swap_mount_state( true ) ;
menu = menu_partition .items()[ MENU_MOUNT ] .get_submenu() ;
menu ->items() .clear() ;
for ( unsigned int t = 0 ; t < selected_partition .get_mountpoints() .size() ; t++ )
{
menu ->items() .push_back(
Gtk::Menu_Helpers::MenuElem(
selected_partition .get_mountpoints()[ t ],
sigc::bind<unsigned int>( sigc::mem_fun(*this, &Win_GParted::activate_mount_partition), t ) ) );
dynamic_cast<Gtk::Label*>( menu ->items() .back() .get_child() ) ->set_use_underline( false ) ;
}
menu_partition .items()[ MENU_TOGGLE_MOUNT_SWAP ] .hide() ;
menu_partition .items()[ MENU_MOUNT ] .show() ;
}
//see if there is an copied partition and if it passes all tests
if ( ! copied_partition .get_path() .empty() &&
copied_partition .get_length() <= selected_partition .get_length() &&
selected_partition .status == GParted::STAT_REAL &&
copied_partition != selected_partition &&
selected_partition .type == GParted::TYPE_UNALLOCATED )
allow_paste( true ) ;
//see if we can somehow check/repair this file system....
if ( fs .check && selected_partition .status == GParted::STAT_REAL )
allow_check( true ) ;
}
}
void Win_GParted::open_operationslist()
{
if ( ! OPERATIONSLIST_OPEN )
{
OPERATIONSLIST_OPEN = true ;
hbox_operations .show() ;
for ( int t = vpaned_main .get_height() ; t > ( vpaned_main .get_height() - 100 ) ; t -= 5 )
{
vpaned_main .set_position( t );
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration() ;
}
static_cast<Gtk::CheckMenuItem *>( & menubar_main .items()[ 2 ] .get_submenu() ->items()[ 1 ] )
->set_active( true ) ;
}
}
void Win_GParted::close_operationslist()
{
if ( OPERATIONSLIST_OPEN )
{
OPERATIONSLIST_OPEN = false ;
for ( int t = vpaned_main .get_position() ; t < vpaned_main .get_height() ; t += 5 )
{
vpaned_main .set_position( t ) ;
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration();
}
hbox_operations .hide() ;
static_cast<Gtk::CheckMenuItem *>( & menubar_main .items()[ 2 ] .get_submenu() ->items()[ 1 ] )
->set_active( false ) ;
}
}
void Win_GParted::clear_operationslist()
{
remove_operation( -1, true ) ;
close_operationslist() ;
Refresh_Visual() ;
}
void Win_GParted::combo_devices_changed()
{
unsigned int old_current_device = current_device;
//set new current device
current_device = combo_devices .get_active_row_number() ;
if ( current_device == (unsigned int) -1 )
current_device = old_current_device;
if ( current_device >= devices .size() )
current_device = 0 ;
set_title( String::ucompose( _("%1 - GParted"), devices[ current_device ] .get_path() ) );
//refresh label_device_info
Fill_Label_Device_Info();
//rebuild visualdisk and treeview
Refresh_Visual();
//uodate radiobuttons..
if ( menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .get_submenu() )
static_cast<Gtk::RadioMenuItem *>(
& menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .get_submenu() ->
items()[ current_device ] ) ->set_active( true ) ;
}
void Win_GParted::radio_devices_changed( unsigned int item )
{
if ( static_cast<Gtk::RadioMenuItem *>(
& menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .get_submenu() ->
items()[ item ] ) ->get_active() )
{
combo_devices .set_active( item ) ;
}
}
void Win_GParted::on_show()
{
Gtk::Window::on_show() ;
vpaned_main .set_position( vpaned_main .get_height() ) ;
close_operationslist() ;
menu_gparted_refresh_devices() ;
}
void Win_GParted::thread_refresh_devices()
{
gparted_core .set_devices( devices ) ;
pulse = false ;
}
void Win_GParted::menu_gparted_refresh_devices()
{
pulse = true ;
thread = Glib::Thread::create( sigc::mem_fun( *this, &Win_GParted::thread_refresh_devices ), true ) ;
show_pulsebar( _("Scanning all devices...") ) ;
//check if current_device is still available (think about hotpluggable stuff like usbdevices)
if ( current_device >= devices .size() )
current_device = 0 ;
//show read-only warning if necessary
std::vector<Glib::ustring> readonly_paths ;
for ( unsigned int t = 0 ; t < devices .size() ; t++ )
if ( devices[ t ] .readonly )
readonly_paths .push_back( "\n- " + devices[ t ] .get_path() ) ;
if ( readonly_paths .size() > 0 )
{
Gtk::MessageDialog dialog(
*this,
_("The kernel is unable to re-read the partition tables on the following devices:") +
Glib::build_path( "", readonly_paths ),
false,
Gtk::MESSAGE_WARNING,
Gtk::BUTTONS_OK,
true ) ;
dialog .set_secondary_text( _("Because of this you will only have limited access to these devices. Unmount all mounted partitions on a device to get full access.") ) ;
dialog .run() ;
}
//see if there are any pending operations on non-existent devices
//NOTE that this isn't 100% foolproof since some stuff (e.g. sourcedevice of copy) may slip through.
//but anyone who removes the sourcedevice before applying the operations gets what he/she deserves :-)
//FIXME: this actually sucks ;) see if we can use STL predicates here..
unsigned int i ;
for ( unsigned int t = 0 ; t < operations .size() ; t++ )
{
for ( i = 0 ; i < devices .size() && devices[ i ] != operations[ t ] ->device ; i++ ) {}
if ( i >= devices .size() )
remove_operation( t-- ) ;
}
//if no devices were detected we disable some stuff and show a message in the statusbar
if ( devices .empty() )
{
this ->set_title( _("GParted") );
combo_devices .hide() ;
menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .set_sensitive( false ) ;
menubar_main .items()[ 1 ] .set_sensitive( false ) ;
menubar_main .items()[ 2 ] .set_sensitive( false ) ;
menubar_main .items()[ 3 ] .set_sensitive( false ) ;
menubar_main .items()[ 4 ] .set_sensitive( false ) ;
toolbar_main .set_sensitive( false ) ;
drawingarea_visualdisk .set_sensitive( false ) ;
treeview_detail .set_sensitive( false ) ;
Fill_Label_Device_Info( true ) ;
drawingarea_visualdisk .clear() ;
treeview_detail .clear() ;
//hmzz, this is really paranoid, but i think it's the right thing to do ;)
hbox_operations .clear() ;
close_operationslist() ;
remove_operation( -1, true ) ;
statusbar .pop() ;
statusbar .push( _( "No devices detected" ) );
}
else //at least one device detected
{
combo_devices .show() ;
menubar_main .items()[ 0 ] .get_submenu() ->items()[ 1 ] .set_sensitive( true ) ;
menubar_main .items()[ 1 ] .set_sensitive( true ) ;
menubar_main .items()[ 2 ] .set_sensitive( true ) ;
menubar_main .items()[ 3 ] .set_sensitive( true ) ;
menubar_main .items()[ 4 ] .set_sensitive( true ) ;
toolbar_main .set_sensitive( true ) ;
drawingarea_visualdisk .set_sensitive( true ) ;
treeview_detail .set_sensitive( true ) ;
refresh_combo_devices() ;
}
}
void Win_GParted::menu_gparted_features()
{
DialogFeatures dialog ;
dialog .set_transient_for( *this ) ;
dialog .load_filesystems( gparted_core .get_filesystems() ) ;
while ( dialog .run() == Gtk::RESPONSE_OK )
{
gparted_core .find_supported_filesystems() ;
dialog .load_filesystems( gparted_core .get_filesystems() ) ;
//recreate format menu...
menu_partition .items()[ MENU_FORMAT ] .remove_submenu() ;
menu_partition .items()[ MENU_FORMAT ] .set_submenu( * create_format_menu() ) ;
menu_partition .items()[ MENU_FORMAT ] .get_submenu() ->show_all_children() ;
}
}
void Win_GParted::menu_gparted_quit()
{
if ( Quit_Check_Operations() )
this ->hide();
}
void Win_GParted::menu_view_harddisk_info()
{
if ( static_cast<Gtk::CheckMenuItem *>( & menubar_main .items()[ 2 ] .get_submenu() ->items()[ 0 ] ) ->get_active() )
{ //open harddisk information
hpaned_main .get_child1() ->show() ;
for ( int t = hpaned_main .get_position() ; t < 250 ; t += 15 )
{
hpaned_main .set_position( t );
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration();
}
}
else
{ //close harddisk information
for ( int t = hpaned_main .get_position() ; t > 0 ; t -= 15 )
{
hpaned_main .set_position( t );
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration();
}
hpaned_main .get_child1() ->hide() ;
}
}
void Win_GParted::menu_view_operations()
{
if ( static_cast<Gtk::CheckMenuItem *>( & menubar_main .items()[ 2 ] .get_submenu() ->items()[ 1 ] ) ->get_active() )
open_operationslist() ;
else
close_operationslist() ;
}
void Win_GParted::show_help_dialog (const char *link_id /* For context sensitive help */)
{
/* Original concept for show_help_dialog is from file-roller project
* gtk-utils.c revision 1967, Tue Aug 7 06:18:42 2007 UTC
* See http://fileroller.sourceforge.net/
*
* Modified to work with GParted by Curtis Gedak :-)
*/
GError *err = NULL;
char *command;
const char *lang;
char *uri = NULL;
int i;
GdkScreen *gscreen;
const char * const * langs = g_get_language_names ();
for (i = 0; langs[i]; i++) {
lang = langs[i];
if (strchr (lang, '.')) {
continue;
}
uri = g_build_filename( GPARTED_DATADIR,
"/gnome/help/gparted/",
lang,
"/gparted.xml",
NULL );
if (g_file_test (uri, G_FILE_TEST_EXISTS)) {
break;
}
}
if (link_id) {
command = g_strconcat ("gnome-open ghelp://", uri, "?", link_id, NULL);
} else {
command = g_strconcat ("gnome-open ghelp://", uri, NULL);
}
gscreen = gdk_screen_get_default();
gdk_spawn_command_line_on_screen (gscreen, command, &err);
}
void Win_GParted::menu_help_contents()
{
show_help_dialog( NULL);
}
void Win_GParted::menu_help_about()
{
std::vector<Glib::ustring> strings ;
Gtk::AboutDialog dialog ;
dialog .set_transient_for( *this ) ;
dialog .set_name( _("GParted") ) ;
dialog .set_logo_icon_name( "gparted" ) ;
dialog .set_version( VERSION ) ;
dialog .set_comments( _( "GNOME Partition Editor" ) ) ;
dialog .set_copyright( "Copyright © 2004-2009 Bart Hakvoort" ) ;
//authors
strings .push_back( "Bart Hakvoort <gparted@users.sf.net>" ) ;
strings .push_back( "Curtis Gedak <gedakc@users.sf.net>" ) ;
dialog .set_authors( strings ) ;
strings .clear() ;
//artists
strings .push_back( "http://gparted.sourceforge.net/artwork.php" ) ;
dialog .set_artists( strings ) ;
strings .clear() ;
/*TO TRANSLATORS: your name(s) here please, if there are more translators put newlines (\n) between the names.
It's a good idea to provide the url of your translation team as well. Thanks! */
Glib::ustring str_credits = _("translator-credits") ;
if ( str_credits != "translator-credits" )
dialog .set_translator_credits( str_credits ) ;
//the url is not clickable because this would introduce an new dep (gnome-vfsmm)
dialog .set_website( "http://gparted.sourceforge.net" ) ;
dialog .run() ;
}
void Win_GParted::on_partition_selected( const Partition & partition, bool src_is_treeview )
{
selected_partition = partition;
set_valid_operations() ;
if ( src_is_treeview )
drawingarea_visualdisk .set_selected( partition ) ;
else
treeview_detail .set_selected( partition ) ;
}
void Win_GParted::on_partition_activated()
{
activate_info() ;
}
void Win_GParted::on_partition_popup_menu( unsigned int button, unsigned int time )
{
menu_partition .popup( button, time );
}
bool Win_GParted::max_amount_prim_reached()
{
//FIXME: this is the only place where primary_count is used... instead of counting the primaries on each
//refresh, we could just count them here.
//Display error if user tries to create more primary partitions than the partition table can hold.
if ( ! selected_partition .inside_extended && primary_count >= devices[ current_device ] .max_prims )
{
Gtk::MessageDialog dialog(
*this,
String::ucompose( _("It is not possible to create more than %1 primary partitions"),
devices[ current_device ] .max_prims ),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true ) ;
dialog .set_secondary_text(
_( "If you want more partitions you should first create an extended partition. Such a partition can contain other partitions. Because an extended partition is also a primary partition it might be necessary to remove a primary partition first.") ) ;
dialog .run() ;
return true ;
}
return false ;
}
void Win_GParted::activate_resize()
{
std::vector<Partition> partitions = devices[ current_device ] .partitions ;
if ( operations .size() )
for (unsigned int t = 0 ; t < operations .size() ; t++ )
if ( operations[ t ] ->device == devices[ current_device ] )
operations[ t ] ->apply_to_visual( partitions ) ;
Dialog_Partition_Resize_Move dialog( gparted_core .get_fs( selected_partition .filesystem ),
devices[ current_device ] .cylsize ) ;
if ( selected_partition .type == GParted::TYPE_LOGICAL )
{
unsigned int ext = 0 ;
while ( ext < partitions .size() && partitions[ ext ] .type != GParted::TYPE_EXTENDED ) ext++ ;
dialog .Set_Data( selected_partition, partitions[ ext ] .logicals );
}
else
dialog .Set_Data( selected_partition, partitions );
dialog .set_transient_for( *this ) ;
if ( dialog .run() == Gtk::RESPONSE_OK )
{
dialog .hide() ;
//if selected_partition is NEW we simply remove the NEW operation from the list and add
//it again with the new size and position ( unless it's an EXTENDED )
if ( selected_partition .status == GParted::STAT_NEW && selected_partition .type != GParted::TYPE_EXTENDED )
{
//remove operation which creates this partition
for ( unsigned int t = 0 ; t < operations .size() ; t++ )
{
if ( operations[ t ] ->partition_new == selected_partition )
{
remove_operation( t ) ;
//And add the new partition to the end of the operations list
//change 'selected_partition' into a suitable 'partition_original')
selected_partition .Set_Unallocated( devices[ current_device ] .get_path(),
selected_partition .sector_start,
selected_partition .sector_end,
selected_partition .inside_extended ) ;
Operation * operation = new OperationCreate( devices[ current_device ],
selected_partition,
dialog .Get_New_Partition() ) ;
operation ->icon = render_icon( Gtk::Stock::NEW, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
break;
}
}
}
else//normal move/resize on existing partition
{
Operation * operation = new OperationResizeMove( devices[ current_device ],
selected_partition,
dialog .Get_New_Partition() );
operation ->icon = render_icon( Gtk::Stock::GOTO_LAST, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
}
}
void Win_GParted::activate_copy()
{
copied_partition = selected_partition ;
}
void Win_GParted::activate_paste()
{
//if max_prims == -1 the current device has an unrecognised disklabel (see also GParted_Core::get_devices)
if ( devices [ current_device ] .max_prims == -1 )
{
//FIXME: actually we should proceed with pasting after the new disklabel is set.
//(the same goes when creating a new partition on a disk without disklabel)
activate_disklabel() ;
return ;
}
if ( selected_partition .type == GParted::TYPE_UNALLOCATED )
{
if ( ! max_amount_prim_reached() )
{
Dialog_Partition_Copy dialog( gparted_core .get_fs( copied_partition .filesystem ),
devices[ current_device ] .cylsize ) ;
//we don't need the messages/mount points of the source partition.
copied_partition .messages .clear() ;
copied_partition .clear_mountpoints() ;
dialog .Set_Data( selected_partition, copied_partition ) ;
dialog .set_transient_for( *this );
if ( dialog .run() == Gtk::RESPONSE_OK )
{
dialog .hide() ;
Operation * operation = new OperationCopy( devices[ current_device ],
selected_partition,
dialog .Get_New_Partition(),
copied_partition ) ;
operation ->icon = render_icon( Gtk::Stock::COPY, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
}
}
else
{
Partition partition_new = selected_partition ;
partition_new .filesystem = copied_partition .filesystem ;
partition_new .label = copied_partition .label ;
partition_new .color = copied_partition .color ;
partition_new .set_used( copied_partition .sectors_used ) ;
partition_new .messages .clear() ;
Operation * operation = new OperationCopy( devices[ current_device ],
selected_partition,
partition_new,
copied_partition ) ;
operation ->icon = render_icon( Gtk::Stock::COPY, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
}
void Win_GParted::activate_new()
{
//if max_prims == -1 the current device has an unrecognised disklabel (see also GParted_Core::get_devices)
if ( devices [ current_device ] .max_prims == -1 )
activate_disklabel() ;
else if ( ! max_amount_prim_reached() )
{
Dialog_Partition_New dialog;
dialog .Set_Data( selected_partition,
index_extended > -1,
new_count,
gparted_core .get_filesystems(),
devices[ current_device ] .readonly,
devices[ current_device ] .cylsize ) ;
dialog .set_transient_for( *this );
if ( dialog .run() == Gtk::RESPONSE_OK )
{
dialog .hide() ;
new_count++ ;
Operation *operation = new OperationCreate( devices[ current_device ],
selected_partition,
dialog .Get_New_Partition() ) ;
operation ->icon = render_icon( Gtk::Stock::NEW, Gtk::ICON_SIZE_MENU );
Add_Operation( operation );
}
}
}
void Win_GParted::activate_delete()
{
/* since logicals are *always* numbered from 5 to <last logical> there can be a shift
* in numbers after deletion.
* e.g. consider /dev/hda5 /dev/hda6 /dev/hda7. Now after removal of /dev/hda6,
* /dev/hda7 is renumbered to /dev/hda6
* the new situation is now /dev/hda5 /dev/hda6. If /dev/hda7 was mounted
* the OS cannot find /dev/hda7 anymore and the results aren't that pretty.
* It seems best to check for this and prohibit deletion with some explanation to the user.*/
if ( selected_partition .type == GParted::TYPE_LOGICAL &&
selected_partition .status != GParted::STAT_NEW &&
selected_partition .partition_number < devices[ current_device ] .highest_busy )
{
Gtk::MessageDialog dialog( *this,
String::ucompose( _( "Unable to delete %1!"), selected_partition .get_path() ),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true ) ;
dialog .set_secondary_text(
String::ucompose( _("Please unmount any logical partitions having a number higher than %1"),
selected_partition .partition_number ) ) ;
dialog .run() ;
return;
}
//if partition is on the clipboard...(NOTE: we can't use Partition::== here..)
if ( selected_partition .get_path() == copied_partition .get_path() )
{
Gtk::MessageDialog dialog( *this,
String::ucompose( _( "Are you sure you want to delete %1?"),
selected_partition .get_path() ),
false,
Gtk::MESSAGE_QUESTION,
Gtk::BUTTONS_NONE,
true ) ;
dialog .set_secondary_text( _("After deletion this partition is no longer available for copying.") ) ;
/*TO TRANSLATORS: dialogtitle, looks like Delete /dev/hda2 (ntfs, 2345 MiB) */
dialog .set_title( String::ucompose( _("Delete %1 (%2, %3)"),
selected_partition .get_path(),
Utils::get_filesystem_string( selected_partition .filesystem ),
Utils::format_size( selected_partition .get_length() ) ) );
dialog .add_button( Gtk::Stock::CANCEL, Gtk::RESPONSE_CANCEL );
dialog .add_button( Gtk::Stock::DELETE, Gtk::RESPONSE_OK );
dialog .show_all_children() ;
if ( dialog .run() != Gtk::RESPONSE_OK )
return ;
}
//if deleted partition was on the clipboard we erase it...
if ( selected_partition .get_path() == copied_partition .get_path() )
copied_partition .Reset() ;
/* if deleted one is NEW, it doesn't make sense to add it to the operationslist,
* we erase its creation and possible modifications like resize etc.. from the operationslist.
* Calling Refresh_Visual will wipe every memory of its existence ;-)*/
if ( selected_partition .status == GParted::STAT_NEW )
{
//remove all operations done on this new partition (this includes creation)
for ( int t = 0 ; t < static_cast<int>( operations .size() ) ; t++ )
if ( operations[ t ] ->partition_new .get_path() == selected_partition .get_path() )
remove_operation( t-- ) ;
//determine lowest possible new_count
new_count = 0 ;
for ( unsigned int t = 0 ; t < operations .size() ; t++ )
if ( operations[ t ] ->partition_new .status == GParted::STAT_NEW &&
operations[ t ] ->partition_new .partition_number > new_count )
new_count = operations[ t ] ->partition_new .partition_number ;
new_count += 1 ;
Refresh_Visual();
if ( ! operations .size() )
close_operationslist() ;
}
else //deletion of a real partition...
{
Operation * operation = new OperationDelete( devices[ current_device ], selected_partition ) ;
operation ->icon = render_icon( Gtk::Stock::DELETE, Gtk::ICON_SIZE_MENU ) ;
Add_Operation( operation ) ;
}
}
void Win_GParted::activate_info()
{
Dialog_Partition_Info dialog( selected_partition );
dialog .set_transient_for( *this );
dialog .run();
}
void Win_GParted::activate_format( GParted::FILESYSTEM new_fs )
{
//check for some limits...
fs = gparted_core .get_fs( new_fs ) ;
if ( ( selected_partition .get_length() < fs .MIN ) ||
( fs .MAX && selected_partition .get_length() > fs .MAX ) )
{
Gtk::MessageDialog dialog( *this,
String::ucompose( _("Cannot format this file system to %1."),
Utils::get_filesystem_string( new_fs ) ) ,
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true );
if ( selected_partition .get_length() < fs .MIN )
dialog .set_secondary_text( String::ucompose(
_( "A %1 file system requires a partition of at least %2."),
Utils::get_filesystem_string( new_fs ),
Utils::format_size( fs .MIN ) ) );
else
dialog .set_secondary_text( String::ucompose(
_( "A partition with a %1 file system has a maximum size of %2."),
Utils::get_filesystem_string( new_fs ),
Utils::format_size( fs .MAX ) ) );
dialog .run() ;
return ;
}
//ok we made it. lets create an fitting partition object
Partition part_temp ;
part_temp .Set( devices[ current_device ] .get_path(),
selected_partition .get_path(),
selected_partition .partition_number,
selected_partition .type,
new_fs,
selected_partition .sector_start,
selected_partition .sector_end,
selected_partition .inside_extended,
false ) ;
part_temp .status = GParted::STAT_FORMATTED ;
//if selected_partition is NEW we simply remove the NEW operation from the list and
//add it again with the new file system
if ( selected_partition .status == GParted::STAT_NEW )
{
//remove operation which creates this partition
for ( unsigned int t = 0 ; t < operations .size() ; t++ )
{
if ( operations[ t ] ->partition_new == selected_partition )
{
remove_operation( t ) ;
//And insert the new partition at the old position in the operations list
//(NOTE: in this case we set status to STAT_NEW)
part_temp .status = STAT_NEW ;
Operation * operation = new OperationCreate( devices[ current_device ],
selected_partition,
part_temp ) ;
operation ->icon = render_icon( Gtk::Stock::NEW, Gtk::ICON_SIZE_MENU );
Add_Operation( operation, t ) ;
break;
}
}
}
else//normal formatting of an existing partition
{
Operation *operation = new OperationFormat( devices[ current_device ],
selected_partition,
part_temp );
operation ->icon = render_icon( Gtk::Stock::CONVERT, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
}
void Win_GParted::thread_unmount_partition( bool * succes, Glib::ustring * error )
{
std::vector<Glib::ustring> errors, failed_mountpoints, mountpoints = gparted_core .get_all_mountpoints() ;
Glib::ustring dummy ;
*succes = true ;
for ( unsigned int t = 0 ; t < selected_partition .get_mountpoints() .size() ; t++ )
if ( std::count( mountpoints .begin(),
mountpoints .end(),
selected_partition .get_mountpoints()[ t ] ) <= 1 )
{
if ( Utils::execute_command( "umount -v \"" + selected_partition .get_mountpoints()[ t ] + "\"",
dummy,
*error ) )
{
*succes = false ;
errors .push_back( *error ) ;
}
}
else
failed_mountpoints .push_back( selected_partition .get_mountpoints()[ t ] ) ;
if ( *succes && failed_mountpoints .size() )
{
*succes = false ;
*error = _("The partition could not be unmounted from the following mount points:") ;
*error += "\n\n<i>" + Glib::build_path( "\n", failed_mountpoints ) + "</i>\n\n" ;
*error += _("Most likely other partitions are also mounted on these mount points. You are advised to unmount them manually.") ;
}
else
*error = "<i>" + Glib::build_path( "\n", errors ) + "</i>" ;
pulse = false ;
}
void Win_GParted::thread_mount_partition( Glib::ustring mountpoint, bool * succes, Glib::ustring * error )
{
Glib::ustring dummy ;
std::vector<Glib::ustring> errors ;
*succes = ! Utils::execute_command( "mount -v " + selected_partition .get_path() + " \"" + mountpoint + "\"",
dummy,
*error ) ;
pulse = false ;
}
void Win_GParted::thread_toggle_swap( bool * succes, Glib::ustring * error )
{
Glib::ustring dummy ;
if ( selected_partition .busy )
*succes = ! Utils::execute_command( "swapoff -v " + selected_partition .get_path() + " && sync",
dummy,
*error ) ;
else
*succes = ! Utils::execute_command( "swapon -v " + selected_partition .get_path() + " && sync",
dummy,
*error ) ;
pulse = false ;
}
void Win_GParted::toggle_swap_mount_state()
{
bool succes = false ;
Glib::ustring error ;
pulse = true ;
if ( selected_partition .filesystem == GParted::FS_LINUX_SWAP )
{
thread = Glib::Thread::create( sigc::bind<bool *, Glib::ustring *>(
sigc::mem_fun( *this, &Win_GParted::thread_toggle_swap ), &succes, &error ), true ) ;
show_pulsebar(
String::ucompose(
selected_partition .busy ? _("Deactivating swap on %1") : _("Activating swap on %1"),
selected_partition .get_path() ) ) ;
if ( ! succes )
{
Gtk::MessageDialog dialog(
*this,
selected_partition .busy ? _("Could not deactivate swap") : _("Could not activate swap"),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true ) ;
dialog .set_secondary_text( error ) ;
dialog.run() ;
}
}
else if ( selected_partition .busy )
{
thread = Glib::Thread::create( sigc::bind<bool *, Glib::ustring *>(
sigc::mem_fun( *this, &Win_GParted::thread_unmount_partition ), &succes, &error ), true ) ;
show_pulsebar( String::ucompose( _("Unmounting %1"), selected_partition .get_path() ) ) ;
if ( ! succes )
{
Gtk::MessageDialog dialog( *this,
String::ucompose( _("Could not unmount %1"), selected_partition .get_path() ),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true );
dialog .set_secondary_text( error, true ) ;
dialog.run() ;
}
}
menu_gparted_refresh_devices() ;
}
void Win_GParted::activate_mount_partition( unsigned int index )
{
bool succes = false ;
Glib::ustring error ;
pulse = true ;
thread = Glib::Thread::create( sigc::bind<Glib::ustring, bool *, Glib::ustring *>(
sigc::mem_fun( *this, &Win_GParted::thread_mount_partition ),
selected_partition .get_mountpoints()[ index ],
&succes,
&error ),
true ) ;
show_pulsebar( String::ucompose( _("mounting %1 on %2"),
selected_partition .get_path(),
selected_partition .get_mountpoints()[ index ] ) ) ;
if ( ! succes )
{
Gtk::MessageDialog dialog( *this,
String::ucompose( _("Could not mount %1 on %2"),
selected_partition .get_path(),
selected_partition .get_mountpoints()[ index ] ),
false,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true );
dialog .set_secondary_text( error, true ) ;
dialog.run() ;
}
menu_gparted_refresh_devices() ;
}
void Win_GParted::activate_disklabel()
{
Dialog_Disklabel dialog( devices[ current_device ] .get_path(), gparted_core .get_disklabeltypes() ) ;
dialog .set_transient_for( *this );
if ( dialog .run() == Gtk::RESPONSE_OK )
{
if ( ! gparted_core .set_disklabel( devices[ current_device ] .get_path(), dialog .Get_Disklabel() ) )
{
Gtk::MessageDialog dialog( *this,
_("Error while creating partition table."),
true,
Gtk::MESSAGE_ERROR,
Gtk::BUTTONS_OK,
true ) ;
dialog .run() ;
}
dialog .hide() ;
menu_gparted_refresh_devices() ;
}
}
void Win_GParted::activate_manage_flags()
{
get_window() ->set_cursor( Gdk::Cursor( Gdk::WATCH ) ) ;
while ( Gtk::Main::events_pending() )
Gtk::Main::iteration() ;
DialogManageFlags dialog( selected_partition, gparted_core .get_available_flags( selected_partition ) ) ;
dialog .set_transient_for( *this ) ;
dialog .signal_get_flags .connect(
sigc::mem_fun( &gparted_core, &GParted_Core::get_available_flags ) ) ;
dialog .signal_toggle_flag .connect(
sigc::mem_fun( &gparted_core, &GParted_Core::toggle_flag ) ) ;
get_window() ->set_cursor() ;
dialog .run() ;
dialog .hide() ;
if ( dialog .any_change )
menu_gparted_refresh_devices() ;
}
void Win_GParted::activate_check()
{
Operation *operation = new OperationCheck( devices[ current_device ], selected_partition ) ;
operation ->icon = render_icon( Gtk::Stock::EXECUTE, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
void Win_GParted::activate_label_partition()
{
Dialog_Partition_Label dialog( selected_partition );
dialog .set_transient_for( *this );
if ( ( dialog .run() == Gtk::RESPONSE_OK )
&& ( dialog .get_new_label() != selected_partition .label ) )
{
dialog .hide() ;
//Make a duplicate of the selected partition (used in UNDO)
Partition part_temp ;
part_temp .Set( devices[ current_device ] .get_path(),
selected_partition .get_path(),
selected_partition .partition_number,
selected_partition .type,
selected_partition .filesystem,
selected_partition .sector_start,
selected_partition .sector_end,
selected_partition .inside_extended,
false ) ;
part_temp .label = dialog .get_new_label();
Operation * operation = new OperationLabelPartition( devices[ current_device ],
selected_partition, part_temp ) ;
operation ->icon = render_icon( Gtk::Stock::EXECUTE, Gtk::ICON_SIZE_MENU );
Add_Operation( operation ) ;
}
}
void Win_GParted::activate_undo()
{
//when undoing a creation it's safe to decrease the newcount by one
if ( operations .back() ->type == OPERATION_CREATE )
new_count-- ;
remove_operation() ;
Refresh_Visual();
if ( ! operations .size() )
close_operationslist() ;
}
void Win_GParted::remove_operation( int index, bool remove_all )
{
if ( remove_all )
{
for ( unsigned int t = 0 ; t < operations .size() ; t++ )
delete operations[ t ] ;
operations .clear() ;
}
else if ( index == -1 && operations .size() > 0 )
{
delete operations .back() ;
operations .pop_back() ;
}
else if ( index > -1 && index < static_cast<int>( operations .size() ) )
{
delete operations[ index ] ;
operations .erase( operations .begin() + index ) ;
}
}
void Win_GParted::activate_apply()
{
Gtk::MessageDialog dialog( *this,
_("Are you sure you want to apply the pending operations?"),
false,
Gtk::MESSAGE_WARNING,
Gtk::BUTTONS_NONE,
true );
Glib::ustring temp;
temp = _( "Editing partitions has the potential to cause LOSS of DATA.") ;
temp += "\n" ;
temp += _( "You are advised to backup your data before proceeding." ) ;
dialog .set_secondary_text( temp ) ;
dialog .set_title( _( "Apply operations to device" ) );
dialog .add_button( Gtk::Stock::CANCEL, Gtk::RESPONSE_CANCEL );
dialog .add_button( Gtk::Stock::APPLY, Gtk::RESPONSE_OK );
dialog .show_all_children() ;
if ( dialog.run() == Gtk::RESPONSE_OK )
{
dialog .hide() ; //hide confirmationdialog
Dialog_Progress dialog_progress( operations ) ;
dialog_progress .set_transient_for( *this ) ;
dialog_progress .signal_apply_operation .connect(
sigc::mem_fun(gparted_core, &GParted_Core::apply_operation_to_disk) ) ;
dialog_progress .signal_get_libparted_version .connect(
sigc::mem_fun(gparted_core, &GParted_Core::get_libparted_version) ) ;
int response ;
do
{
response = dialog_progress .run() ;
}
while ( response == Gtk::RESPONSE_CANCEL || response == Gtk::RESPONSE_OK ) ;
dialog_progress .hide() ;
//wipe operations...
remove_operation( -1, true ) ;
hbox_operations .clear() ;
close_operationslist() ;
//reset new_count to 1
new_count = 1 ;
//reread devices and their layouts...
menu_gparted_refresh_devices() ;
}
}
} // GParted
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