instead of listing all partition in one list, logical partitions are now

* instead of listing all partition in one list, logical partitions are now stored in a sublist in extended partition object.
This makes partitionhandling in gparted more natural and transparant. It also allowed me to clean up this ugly Operation class ;)
This commit is contained in:
Bart Hakvoort 2004-11-06 11:55:03 +00:00
parent 4caae3dc85
commit 24dccdd8f3
15 changed files with 411 additions and 469 deletions

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@ -1,3 +1,8 @@
2004-11-06 Bart Hakvoort <gparted@users.sf.net>
* instead of listing all partition in one list, logical partitions are now stored in a sublist in extended partition object.
This makes partitionhandling in gparted more natural and transparant. It also allowed me to clean up this ugly Operation class ;)
2004-10-31 Bart Hakvoort <gparted@users.sf.net>
* include/Partition.h,

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@ -39,7 +39,6 @@
#include <fstream>
namespace GParted
{
@ -54,7 +53,7 @@ public:
void Read_Disk_Layout( bool deep_scan = true ) ;
bool Delete_Partition( const Partition & partition ) ;
bool Create_Partition_With_Filesystem( Partition & new_part, PedTimer *timer) ;
bool Move_Resize_Partition( const Partition & partition_original, const Partition & partition_new , PedTimer *timer) ;
bool Move_Resize_Partition( const Partition & partition_original, const Partition & partition_new, PedTimer *timer) ;
bool Set_Partition_Filesystem( const Partition & new_partition, PedTimer * timer);
bool Copy_Partition( Device *source_device, const Partition & source_partition, PedTimer * timer ) ;
int Create_Empty_Partition( const Partition & new_partition, PedConstraint * constraint = NULL ) ;
@ -73,6 +72,7 @@ public:
Glib::ustring Get_DiskType() ;
bool Get_any_busy() ;
int Get_Max_Amount_Of_Primary_Partitions() ;
int Get_Highest_Logical_Busy( ) ;
private:
//make a try to get the amount of used sectors on a filesystem ( see comments in implementation )

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@ -55,11 +55,13 @@ public:
Glib::ustring str_operation ;
private:
std::vector<Partition> Apply_Delete_To_Visual( std::vector<Partition> & partitions );
std::vector<Partition> Apply_Create_To_Visual( std::vector<Partition> & partitions );
std::vector<Partition> Apply_Resize_Move_To_Visual( std::vector<Partition> & partitions );
std::vector<Partition> Apply_Resize_Move_Extended_To_Visual( std::vector<Partition> & partitions );
std::vector<Partition> Apply_Convert_To_Visual( std::vector<Partition> & partitions );
void Insert_Unallocated( std::vector<Partition> & partitions, Sector start, Sector end );
int Get_Index_Original( std::vector<Partition> & partitions ) ;
void Apply_Delete_To_Visual( std::vector<Partition> & partitions );
void Apply_Create_To_Visual( std::vector<Partition> & partitions );
void Apply_Resize_Move_To_Visual( std::vector<Partition> & partitions );
void Apply_Resize_Move_Extended_To_Visual( std::vector<Partition> & partitions );
Glib::ustring Get_String(); //only used during in c'tor
void Show_Error( Glib::ustring message ) ;

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@ -93,6 +93,8 @@ public:
Glib::ustring error;
Glib::ustring flags;
std::vector<Partition> logicals ;
private:

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@ -127,12 +127,11 @@ inline Glib::ustring Get_Color( const Glib::ustring & filesystem )
else if ( filesystem == "unallocated" ) return "darkgrey";
else if ( filesystem == "extended" ) return "#7DFCFE" ;
//unknown filesystem ( damaged, unknown or simply no filesystem )
//unknown filesystem ( damaged, unknown or simply no filesystem )
else return "black";
}
}//GParted
#endif //UTILS

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@ -63,13 +63,14 @@ public:
private:
void Build_Visual_Disk( int ) ; //i still dream of some fully resizeable visualdisk....
void Build_Visual_Disk( ) ; //i still dream of some fully resizeable visualdisk....
void Create_Visual_Partition( Partition & partition ) ;
void Build_Legend( ) ;
//signal handlers
void drawingarea_on_realize( Visual_Partition * );
void drawingarea_on_realize( Visual_Partition * );
bool drawingarea_on_expose( GdkEventExpose *, Visual_Partition* );
bool on_drawingarea_button_press( GdkEventButton *, const Partition & );
bool on_drawingarea_button_press( GdkEventButton *, const Partition & );
std::vector<Partition> partitions;
Sector device_length;
@ -86,7 +87,7 @@ private:
Glib::ustring str_temp ;
int temp,selected_partition;
int temp, selected_partition, SCREEN_WIDTH;
};
} //GParted

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@ -105,6 +105,7 @@ private:
void menu_help_about();
void mouse_click( GdkEventButton*, const Partition & );
bool max_amount_prim_reached() ;
void activate_resize();
void activate_copy();
@ -168,7 +169,6 @@ private:
//usefull variables which are used by many different functions...
bool any_logic,any_extended;//used in some checks (e.g. see optionmenu_devices_changed()
unsigned short highest_logic_busy ;//highest_logic_busy contains the number of the highest logical which is busy ( 0 if none is busy)
unsigned short primary_count ;//primary_count checks for max. of 4 pimary partitions
unsigned short new_count;//new_count keeps track of the new created partitions
Glib::ustring str_temp ; //mostly used for constructing dialogmessages

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@ -98,9 +98,10 @@ Device::Device( const Glib::ustring & device_path, std::vector<FS> *filesystems
void Device::Read_Disk_Layout( bool deep_scan )
{
Glib::ustring part_path ;
int EXT_INDEX = -1 ;
//clear partitions
this ->device_partitions .clear() ;
this ->device_partitions .clear( ) ;
c_partition = ped_disk_next_partition( disk, NULL ) ;
while ( c_partition )
@ -131,7 +132,7 @@ void Device::Read_Disk_Layout( bool deep_scan )
c_partition ->type == 0 ? GParted::PRIMARY : GParted::LOGICAL ,
temp, c_partition ->geom .start,
c_partition ->geom .end,
c_partition ->type ,
c_partition ->type,
ped_partition_is_busy( c_partition ) );
if ( deep_scan )
@ -139,6 +140,7 @@ void Device::Read_Disk_Layout( bool deep_scan )
partition_temp .flags = Get_Flags( c_partition ) ;
partition_temp .error = this ->error ;//most likely useless, but paranoia me leaves it here.. =)
break ;
@ -153,6 +155,7 @@ void Device::Read_Disk_Layout( bool deep_scan )
ped_partition_is_busy( c_partition ) );
partition_temp .flags = Get_Flags( c_partition ) ;
EXT_INDEX = device_partitions .size ( ) ;
break ;
@ -161,12 +164,28 @@ void Device::Read_Disk_Layout( bool deep_scan )
partition_temp.Set_Unallocated( c_partition ->geom .start, c_partition ->geom .end, c_partition ->type == 4 ? false : true );
break ;
case PED_PARTITION_METADATA:
if ( device_partitions .size( ) && device_partitions .back( ) .type == GParted::UNALLOCATED )
device_partitions .back( ) .sector_end = c_partition ->geom .end ;
break ;
case 9: //metadata inside extended (there's no enumvalue for that..)
if ( device_partitions[ EXT_INDEX ] .logicals .size( ) && device_partitions[ EXT_INDEX ] .logicals .back( ) .type == GParted::UNALLOCATED )
device_partitions[ EXT_INDEX ] .logicals .back( ) .sector_end = c_partition ->geom .end ;
break ;
default: break;
}
if ( partition_temp .Get_Length_MB( ) >= 1 ) //paranoia check for unallocated < 1MB
device_partitions.push_back( partition_temp );
if ( partition_temp .Get_Length_MB( ) >= 1 ) // check for unallocated < 1MB, and metadatasituations (see PED_PARTITION_METADATA and 9 )
{
if ( ! partition_temp .inside_extended )
device_partitions.push_back( partition_temp );
else
device_partitions[ EXT_INDEX ] .logicals .push_back( partition_temp ) ;
}
//reset stuff..
this ->error = error_message = "" ;
@ -449,6 +468,23 @@ int Device::Get_Max_Amount_Of_Primary_Partitions()
return ped_disk_get_max_primary_partition_count( disk ) ;
}
int Device::Get_Highest_Logical_Busy( )
{
int highest_logic_busy = -1 ;
for ( unsigned int t = 0 ; t < device_partitions .size( ) ; t++ )
if ( device_partitions [ t ] .type == GParted::EXTENDED )
{
for ( unsigned int i = 0 ; i < device_partitions[ t ] .logicals .size( ) ; i++ )
if ( device_partitions[ t ] .logicals[ i ] .busy && device_partitions[ t ] .logicals[ i ] .partition_number > highest_logic_busy )
highest_logic_busy = device_partitions[ t ] .logicals[ i ] .partition_number ;
break ;
}
return highest_logic_busy ;
}
Sector Device::Get_Used_Sectors( PedPartition *c_partition, const Glib::ustring & sym_path)
{
/* This is quite an unreliable process, atm i try two different methods, but since both are far from perfect the results are

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@ -144,6 +144,14 @@ Partition Dialog_Partition_New::Get_New_Partition()
if ( (selected_partition.sector_end - part_temp.sector_end) < MEGABYTE )
part_temp.sector_end = selected_partition.sector_end ;
//if new is extended...
if ( part_temp .type == GParted::EXTENDED )
{
Partition UNALLOCATED ;
UNALLOCATED .Set_Unallocated( part_temp .sector_start, part_temp .sector_end, true ) ;
part_temp .logicals .push_back( UNALLOCATED ) ;
}
return part_temp;
}

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@ -62,7 +62,6 @@ void Dialog_Partition_Resize_Move::Set_Data( const Partition & selected_partitio
void Dialog_Partition_Resize_Move::Resize_Move_Normal( const std::vector <Partition> & partitions )
{
//see if we need a fixed_start
if ( selected_partition.filesystem == "ext2" || selected_partition.filesystem == "ext3" || selected_partition.filesystem == "reiserfs" )
{
@ -81,13 +80,16 @@ void Dialog_Partition_Resize_Move::Resize_Move_Normal( const std::vector <Partit
//first find index of partition
unsigned int t;
for ( t=0;t< partitions.size(); t++ )
if ( partitions[t].sector_start == selected_partition.sector_start && partitions[t].type != GParted::EXTENDED )
if ( partitions[t].sector_start == selected_partition.sector_start )
break;
Sector previous, next ;
previous = next = 0 ;
//also check the partitions filesystem ( if this is ext2/3 or reiserfs then previous should be 0 )
if ( t >= 1 && partitions[t -1].type == GParted::UNALLOCATED && selected_partition.filesystem != "ext2" && selected_partition.filesystem != "ext3" && selected_partition.filesystem != "reiserfs" && partitions[t -1] .inside_extended == selected_partition.inside_extended )
if ( t >= 1 && partitions[t -1].type == GParted::UNALLOCATED &&
selected_partition.filesystem != "ext2" &&
selected_partition.filesystem != "ext3" &&
selected_partition.filesystem != "reiserfs" )
{
previous = partitions[t -1] .sector_end - partitions[t -1] .sector_start ;
START = partitions[t -1] .sector_start ;
@ -95,7 +97,7 @@ void Dialog_Partition_Resize_Move::Resize_Move_Normal( const std::vector <Partit
else
START = selected_partition .sector_start ;
if ( t +1 < partitions .size() && partitions[t +1] .type == GParted::UNALLOCATED && partitions[t +1] .inside_extended == selected_partition .inside_extended )
if ( t +1 < partitions .size() && partitions[t +1] .type == GParted::UNALLOCATED )
next = partitions[t +1].sector_end - partitions[t +1].sector_start ;
total_length = previous + (selected_partition.sector_end - selected_partition.sector_start) + next;
@ -154,10 +156,8 @@ void Dialog_Partition_Resize_Move::Resize_Move_Extended( const std::vector <Part
{
//calculate total size in MB's of previous, current and next partition
//first find index of partition
unsigned int t;
for ( t=0;t< partitions.size(); t++ )
if ( partitions[t].type == GParted::EXTENDED )
break;
unsigned int t = 0;
while ( t < partitions .size( ) && partitions[ t ] .type != GParted::EXTENDED ) t++ ;
Sector previous, next ;
previous = next = 0 ;
@ -168,19 +168,11 @@ void Dialog_Partition_Resize_Move::Resize_Move_Extended( const std::vector <Part
START = partitions[t -1].sector_start ;
}
else
START = selected_partition.sector_start ;
START = selected_partition .sector_start ;
//calculate length of next (in this case next should be the first partition OUTSIDE the extended .. )
for ( t+=1;t<partitions.size() ; t++ )
{
if ( ! partitions[t].inside_extended )
{
if ( partitions[t].type == GParted::UNALLOCATED )
next = partitions[t].sector_end - partitions[t].sector_start ;
break ;
}
}
//calculate length of next
if ( t +1 < partitions .size( ) && partitions[ t +1 ] .type == GParted::UNALLOCATED )
next = partitions[ t +1 ] .sector_end - partitions[ t +1 ] .sector_start ;
//now we have enough data to calculate some important values..
total_length = previous + (selected_partition.sector_end - selected_partition.sector_start) + next;
@ -193,14 +185,14 @@ void Dialog_Partition_Resize_Move::Resize_Move_Extended( const std::vector <Part
//used is a bit different here... we consider start of first logical to end last logical as used space
Sector first =0, used =0 ;
for ( t=0;t< partitions.size(); t++ )
for ( unsigned int i = 0 ; i < partitions[ t ] .logicals .size( ) ; i++ )
{
if ( partitions[t].type == GParted::LOGICAL )
if ( partitions[ t ] .logicals[ i ] .type == GParted::LOGICAL )
{
if ( first == 0 )
first = partitions[t] .sector_start ;
first = partitions[ t ] .logicals[ i ] .sector_start ;
used = partitions[t] .sector_end - first;
used = partitions[ t ] .logicals[ i ] .sector_end - first;
}
}

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@ -19,29 +19,29 @@
namespace GParted
{
Operation::Operation( Device *device, Device *source_device, const Partition & partition_original , const Partition & partition_new , OperationType operationtype)
Operation::Operation( Device *device, Device *source_device, const Partition & partition_original, const Partition & partition_new, OperationType operationtype )
{
this->device = device;
this->device_path = device ->Get_Path() ;
this ->device = device;
this ->device_path = device ->Get_Path( ) ;
//this is only used when operationtype == COPY
this->source_device = source_device;
this->source_device_path = source_device ->Get_Path() ;
this ->source_device = source_device;
this ->source_device_path = source_device ->Get_Path( ) ;
this->partition_original = partition_original;
this->partition_new = partition_new;
this->operationtype = operationtype;
this ->partition_original = partition_original;
this ->partition_new = partition_new;
this ->operationtype = operationtype;
str_operation = Get_String() ;
str_operation = Get_String( ) ;
//not the nicest place to put this, but definetly the most efficient :)
if ( operationtype == COPY )
this->partition_new .partition = String::ucompose( _("copy of %1"), this->partition_new .partition );
this ->partition_new .partition = String::ucompose( _("copy of %1"), this ->partition_new .partition );
}
Glib::ustring Operation::Get_String()
Glib::ustring Operation::Get_String( )
{
Glib::ustring temp ;
Sector diff ;
@ -80,19 +80,19 @@ Glib::ustring Operation::Get_String()
if ( diff >= MEGABYTE )
{
if ( temp .empty() )
if ( temp .empty( ) )
temp = String::ucompose( _("Resize %1 from %2 MB to %3 MB"), partition_new.partition, partition_original .Get_Length_MB(), partition_new .Get_Length_MB() ) ;
else
temp += " " + String::ucompose( _("and Resize %1 from %2 MB to %3 MB"), partition_new.partition, partition_original .Get_Length_MB(), partition_new .Get_Length_MB() ) ;
}
if ( temp .empty() )
if ( temp .empty( ) )
temp = _("Sorry, changes are too small to make sense");
return temp;
case CONVERT : /*TO TRANSLATORS: looks like Convert /dev/hda4 from ntfs to linux-swap */
return String::ucompose( _( "Convert %1 from %2 to %3"), partition_original .partition, partition_original .filesystem, partition_new .filesystem ) ;
case COPY : /*TO TRANSLATORS: looks like Copy /dev/hda4 to /dev/hdd (start at 2500 MB) */
return String::ucompose( _("Copy %1 to %2 (start at %3 MB)"), partition_new .partition, device ->Get_Path(), Sector_To_MB( partition_new .sector_start ) ) ;
return String::ucompose( _("Copy %1 to %2 (start at %3 MB)"), partition_new .partition, device ->Get_Path( ), Sector_To_MB( partition_new .sector_start ) ) ;
default : return "";
}
@ -103,11 +103,11 @@ std::vector<Partition> Operation::Apply_Operation_To_Visual( std::vector<Partiti
{
switch ( operationtype )
{
case DELETE : return Apply_Delete_To_Visual( partitions );
case CREATE : return Apply_Create_To_Visual( partitions );
case RESIZE_MOVE: return Apply_Resize_Move_To_Visual( partitions );
case CONVERT : return Apply_Convert_To_Visual( partitions ) ;
case COPY : return Apply_Create_To_Visual( partitions );
case DELETE : Apply_Delete_To_Visual( partitions ) ; break ;
case RESIZE_MOVE: Apply_Resize_Move_To_Visual( partitions ); break ;
case CREATE :
case CONVERT :
case COPY : Apply_Create_To_Visual( partitions ); break ;
}
return partitions;
@ -149,272 +149,140 @@ void Operation::Apply_To_Disk( PedTimer * timer )
}
std::vector<Partition> Operation::Apply_Delete_To_Visual( std::vector<Partition> & partitions )
void Operation::Insert_Unallocated( std::vector<Partition> & partitions, Sector start, Sector end )
{
unsigned int t ;
Partition UNALLOCATED ;
UNALLOCATED .Set_Unallocated( 0, 0, partitions .front( ) .inside_extended ) ;
for ( t=0;t<partitions.size();t++)
//if there are no partitions at all..
if ( partitions .empty( ) )
{
//since extended can only be deleted if there are no logicals left, we know for sure the next element in partitions is unallocated space
//we simply remove the extended one and set the inside_extended flag from the unallocated space to false
if (this ->partition_original.type == GParted::EXTENDED && partitions[t].type == GParted::EXTENDED )
{
partitions[t+1].inside_extended = false;
partitions.erase( partitions.begin() + t );
break;//we're done here ;-)
}
UNALLOCATED .sector_start = start ;
UNALLOCATED .sector_end = end ;
else if ( partitions[t].sector_start == this-> partition_original.sector_start )
{
partitions[t].Set_Unallocated( partition_original.sector_start , partition_original.sector_end, partition_original.inside_extended );
break;//we're done here ;-)
}
partitions .push_back( UNALLOCATED );
return ;
}
//if deleted partition was logical we have to decrease the partitionnumbers of the logicals with higher numbers by one (only if its a real partition)
if ( partition_original.type == GParted::LOGICAL && partition_original .status != GParted::STAT_NEW )
for ( t=0;t<partitions.size() ;t++)
if ( partitions[t].type == GParted::LOGICAL && partitions[t].partition_number > partition_original.partition_number )
partitions[t].Update_Number( partitions[t].partition_number -1 );
//now we merge separate unallocated spaces next to each other together FIXME: more performance if we only check t -1 and t +1
for ( t=0;t<partitions.size() -1;t++)
//start <---> first partition start
if ( (partitions .front( ) .sector_start - start) >= MEGABYTE )
{
if ( partitions[t].type == GParted::UNALLOCATED && partitions[t +1].type == GParted::UNALLOCATED && partitions[t].inside_extended == partitions[t +1].inside_extended )
{
partitions[t].sector_end = partitions[t+1].sector_end;
partitions.erase( partitions.begin() + t + 1 );
t--;
}
UNALLOCATED .sector_start = start ;
UNALLOCATED .sector_end = partitions .front( ) .sector_start -1 ;
partitions .insert( partitions .begin( ), UNALLOCATED );
}
return partitions;
//look for gaps in between
for ( unsigned int t =0 ; t < partitions .size( ) -1 ; t++ )
if ( ( partitions[ t +1 ] .sector_start - partitions[ t ] .sector_end ) >= MEGABYTE )
{
UNALLOCATED .sector_start = partitions[ t ] .sector_end +1 ;
UNALLOCATED .sector_end = partitions[ t +1 ] .sector_start -1 ;
partitions .insert( partitions .begin( ) + ++t, UNALLOCATED );
}
//last partition end <---> end
if ( (end - partitions .back( ) .sector_end ) >= MEGABYTE )
{
UNALLOCATED .sector_start = partitions .back( ) .sector_end +1 ;
UNALLOCATED .sector_end = end ;
partitions .push_back( UNALLOCATED );
}
}
std::vector<Partition> Operation::Apply_Create_To_Visual( std::vector<Partition> & partitions )
int Operation::Get_Index_Original( std::vector<Partition> & partitions )
{
Partition partition_temp;
//find the original partition and replace it with the new one (original "partition" is unallocated space of course)
unsigned int t;
for ( t=0;t<partitions.size() ;t++)
{
//since the stored partition_original might have been changed (e.g. deletion of virtual partition) we look for the partition which contains the
//startsector of te new one and set this partition as the original one.
if ( partition_new.sector_start >= partitions[t].sector_start && partition_new.sector_start <= partitions[t].sector_end && partitions[t].type != GParted::EXTENDED )
for ( int t = 0 ; t < (int)partitions .size( ) ; t++ )
if ( partition_original .sector_start >= partitions[ t ] .sector_start && partition_original .sector_end <= partitions[ t ] .sector_end )
{
partition_original = partitions[t] ;
partitions.erase( partitions.begin() + t );
partitions.insert( partitions.begin() + t, partition_new );
break;
//remove unallocated space preceding the original partition
if ( t -1 >= 0 && partitions[ t -1 ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin( ) + --t );
//remove unallocated space following the original partition
if ( t +1 < (int)partitions .size( ) && partitions[ t +1 ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin( ) + t +1 );
return t ;
}
}
//check borders and create new elements if necessary
//BEFORE new partition
if ( (partition_new.sector_start - partition_original.sector_start) >= MEGABYTE ) //at least 1 MB between begin new partition and begin original one
{
partition_temp.Set_Unallocated( partition_original.sector_start, partition_new.sector_start -1 , partition_new.inside_extended );
partitions.insert( partitions.begin() + t, partition_temp );
t++;
}
//AFTER new partition
if ( ( partition_original.sector_end - partition_new.sector_end) >= MEGABYTE ) //at least 1 MB between end new partition and end original one
{
partition_temp.Set_Unallocated( partition_new.sector_end +1, partition_original.sector_end ,partition_new.inside_extended );
partitions.insert( partitions.begin() + t +1, partition_temp );
}
//if new created partition is an extended partition, we need to add unallocated space of the same size to the list
if ( partition_new.type == GParted::EXTENDED )
{
partition_temp.Set_Unallocated( partition_new.sector_start, partition_new.sector_end , true );
partitions.insert( partitions.begin() + t +1, partition_temp );
}
return partitions;
return -1 ;
}
std::vector<Partition> Operation::Apply_Resize_Move_To_Visual( std::vector<Partition> & partitions)
void Operation::Apply_Delete_To_Visual( std::vector<Partition> & partitions )
{
//extended handling is so different i decided to take it apart from normal handling
if ( partition_original.type == GParted::EXTENDED )
return Apply_Resize_Move_Extended_To_Visual( partitions ) ;
//normal partitions ( Primary and Logical )
Partition partition_temp;
unsigned int t;
for ( t=0;t<partitions.size() ;t++)
if ( ! partition_original .inside_extended )
{
//since the stored partition_original might have been changed (e.g. deletion of virtual partition) we look for the partition which contains the
//startsector of the original one
if ( partition_original.sector_start >= partitions[t].sector_start && partition_original.sector_start <= partitions[t].sector_end && partitions[t].type != GParted::EXTENDED )
{
partition_original = partitions[t] ;
partitions[t].sector_start = partition_new.sector_start ;
partitions[t].sector_end = partition_new.sector_end ;
partitions[t].sectors_unused = partition_new.sectors_unused ;
break;
}
partitions .erase( partitions .begin( ) + Get_Index_Original( partitions ) );
Insert_Unallocated( partitions, 0, device ->Get_Length( ) -1 ) ;
}
//determine correct perimeters of moving/resizing space
Sector START = partition_original.sector_start ;
Sector END = partition_original.sector_end ;
//now we have the index of the original partition we can remove the surrounding partitions ( if UNALLOCATED and inside_extended is the same )
if ( t > 0 && partitions[t -1].type == GParted::UNALLOCATED && partitions[t -1].inside_extended == partition_new.inside_extended )
{
START = partitions[t -1] .sector_start ;
partitions.erase( partitions.begin() + t -1 );
t-- ;
}
if ( t +1 < partitions.size() && partitions[t +1].type == GParted::UNALLOCATED && partitions[t +1].inside_extended == partition_new.inside_extended)
{
END = partitions[t +1] .sector_end ;
partitions.erase( partitions.begin() + t +1 );
}
//now look for unallocated space > 1 MB and add to the list
if ( (partition_new.sector_start - START) >= MEGABYTE )
{
partition_temp.Set_Unallocated( START, partition_new.sector_start -1 , partition_new.inside_extended );
partitions.insert( partitions.begin() + t , partition_temp );
t++;
}
if ( (END - partition_new.sector_end) >= MEGABYTE )
{
partition_temp.Set_Unallocated( partition_new.sector_end +1, END , partition_new.inside_extended );
partitions.insert( partitions.begin() + t +1, partition_temp );
}
return partitions;
}
std::vector<Partition> Operation::Apply_Resize_Move_Extended_To_Visual( std::vector<Partition> & partitions )
{
unsigned int t, INDEX =0;
//look for index of partition and set the extended partition's new size.
for ( t=0;t<partitions.size() ;t++)
{
if ( partitions[t].type == GParted::EXTENDED )
{
partition_original = partitions[t] ;
partitions[t].sector_start = partition_new.sector_start ;
partitions[t].sector_end = partition_new.sector_end ;
INDEX = t ;
break;
}
}
/* remove all relevant unallocated spaces...
* E.G. partitions looks like: P-P-U-E-U-L-L-U-U <--- last U is OUTSIDE extended!!
* 1-2 - 3- 4- 5 -6-7- 8 - 9
* now we check 3, 5, 8 and 9 . If any of them is unallocated we remove it. In this case all of them.. :)
*/
//check 3
if ( partitions[ INDEX -1 ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin() + --INDEX ) ;
//check 5
if ( partitions[ INDEX +1 ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin() + INDEX +1 ) ;
//find index of last logic
for ( t = partitions.size() -1 ; ! partitions[ t ] .inside_extended && t > INDEX ; t-- ) {}
//check 8
if ( t > INDEX && partitions[ t ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin() + t ) ;
else
t++ ;
//check 9
if ( t < partitions .size( ) && partitions[ t ] .type == GParted::UNALLOCATED )
partitions .erase( partitions .begin() + t ) ;
//and insert new unallocated spaces at fitting places
Sector TEMP ;
Partition partition_temp ;
//check 3
TEMP = INDEX > 0 ? partitions[ INDEX -1 ] .sector_end +1 : 0 ;
if ( ( partitions[ INDEX ] .sector_start - TEMP ) > MEGABYTE )
{
partition_temp.Set_Unallocated( TEMP, partitions[ INDEX ] .sector_start -1, false ) ;
partitions.insert( partitions.begin() + INDEX, partition_temp );
INDEX++;
//unsigned int ext = Get_Index_Extended( partitions ) ;
unsigned int ext = 0 ;
while ( ext < partitions .size( ) && partitions[ ext ] .type != GParted::EXTENDED ) ext++ ;
partitions[ ext ] .logicals .erase( partitions[ ext ] .logicals .begin( ) + Get_Index_Original( partitions[ ext ] .logicals ) );
//if deleted partition was logical we have to decrease the partitionnumbers of the logicals with higher numbers by one (only if its a real partition)
if ( partition_original .status != GParted::STAT_NEW )
for ( unsigned int t = 0 ; t < partitions[ ext ] .logicals .size( ) ; t++ )
if ( partitions[ ext ] .logicals[ t ] .partition_number > partition_original .partition_number )
partitions[ ext ] .logicals[ t ] .Update_Number( partitions[ ext ] .logicals[ t ] .partition_number -1 );
Insert_Unallocated( partitions[ ext ] .logicals, partitions[ ext ] .sector_start, partitions[ ext ] .sector_end ) ;
}
//check 5
if ( (INDEX +1) < partitions .size() && partitions[ INDEX +1 ] .type == GParted::LOGICAL )
TEMP = partitions[ INDEX +1 ] .sector_start -1 ;
else
TEMP = partition_new .sector_end ;
if ( ( TEMP - partitions[ INDEX ] .sector_start ) > MEGABYTE )
{
partition_temp.Set_Unallocated( partitions[ INDEX ] .sector_start, TEMP, true ) ;
partitions.insert( partitions.begin() +INDEX +1, partition_temp );
}
//find index of last logic
for ( t = partitions .size( ) -1 ; ! partitions[ t ] .inside_extended && t > INDEX ; t-- ) { }
//check 8
if ( partitions[ t ] .type != GParted::UNALLOCATED && ( partition_new .sector_end - partitions[ t ] .sector_end ) > MEGABYTE )
{
partition_temp.Set_Unallocated( partitions[ t ] .sector_end +1, partition_new .sector_end, true ) ;
partitions.insert( partitions.begin() +t +1, partition_temp );
t++ ;
}
//check 9
t++ ;
TEMP = t < partitions .size() ? partitions[ t ] .sector_start -1 : device ->Get_Length() -1;
if ( ( TEMP - partition_new .sector_end ) > MEGABYTE )
{
partition_temp.Set_Unallocated( partition_new .sector_end +1, TEMP -1, false ) ;
partitions.insert( partitions.begin() +t, partition_temp );
}
return partitions ;
}
std::vector<Partition> Operation::Apply_Convert_To_Visual( std::vector<Partition> & partitions )
void Operation::Apply_Create_To_Visual( std::vector<Partition> & partitions )
{
for ( unsigned int t=0;t<partitions.size() ;t++)
if ( ! partition_original .inside_extended )
{
//since the stored partition_original might have been changed (e.g. deletion of virtual partition) we look for the partition which contains the
//startsector of the original one
if ( partition_original.sector_start >= partitions[t].sector_start && partition_original.sector_start <= partitions[t].sector_end && partitions[t].type != GParted::EXTENDED )
{
partitions[ t ] = partition_new ;
break;
}
partitions[ Get_Index_Original( partitions ) ] = partition_new ;
Insert_Unallocated( partitions, 0, device ->Get_Length( ) -1 ) ;
}
else
{
unsigned int ext = 0 ;
while ( ext < partitions .size( ) && partitions[ ext ] .type != GParted::EXTENDED ) ext++ ;
partitions[ ext ] .logicals[ Get_Index_Original( partitions[ ext ] .logicals ) ] = partition_new ;
return partitions;
Insert_Unallocated( partitions[ ext ] .logicals, partitions[ ext ] .sector_start, partitions[ ext ] .sector_end ) ;
}
}
void Operation::Apply_Resize_Move_To_Visual( std::vector<Partition> & partitions)
{
if ( partition_original .type == GParted::EXTENDED )
Apply_Resize_Move_Extended_To_Visual( partitions ) ;
else
Apply_Create_To_Visual( partitions ) ;
}
void Operation::Apply_Resize_Move_Extended_To_Visual( std::vector<Partition> & partitions )
{
//stuff OUTSIDE extended partition
partitions[ Get_Index_Original( partitions ) ] = partition_new ;
Insert_Unallocated( partitions, 0, device ->Get_Length( ) -1 ) ;
//stuff INSIDE extended partition
unsigned int ext = 0 ;
while ( ext < partitions .size( ) && partitions[ ext ] .type != GParted::EXTENDED ) ext++ ;
if ( partitions[ ext ] .logicals .size( ) && partitions[ ext ] .logicals .front( ) .type == GParted::UNALLOCATED )
partitions[ ext ] .logicals .erase( partitions[ ext ] .logicals .begin( ) ) ;
if ( partitions[ ext ] .logicals .size( ) && partitions[ ext ] .logicals .back( ) .type == GParted::UNALLOCATED )
partitions[ ext ] .logicals .erase( partitions[ ext ] .logicals .end( ) -1 ) ;
Insert_Unallocated( partitions[ ext ] .logicals, partitions[ ext ] .sector_start, partitions[ ext ] .sector_end ) ;
}
void Operation::Show_Error( Glib::ustring message )

View File

@ -33,6 +33,7 @@ void Partition::Reset( )
partition_number = sector_start = sector_end = sectors_used = sectors_unused = -1;
color.set( "black" ) ;
inside_extended = busy = false ;
logicals .clear( ) ;
}
void Partition::Set( const Glib::ustring & partition,

View File

@ -51,7 +51,7 @@ TreeView_Detail::TreeView_Detail( )
this->get_column( 1 ) ->pack_start( treeview_detail_columns .type, false );
//this sucks :) get_cell_renderers doesn't return them in some order, so i have to check manually...
std::vector <Gtk::CellRenderer *> renderers = this->get_column( 1 ) ->get_cell_renderers() ;
std::vector <Gtk::CellRenderer *> renderers = this->get_column( 1 ) ->get_cell_renderers( ) ;
if ( renderers .front() != this->get_column( 1 ) ->get_first_cell_renderer() )
cell_renderer_text = dynamic_cast<Gtk::CellRendererText*>( renderers .front() ) ;
@ -74,7 +74,7 @@ void TreeView_Detail::Load_Partitions( std::vector<Partition> & partitions )
{
treestore_detail ->clear() ;
for ( unsigned int i=0;i<partitions.size();i++ )
/* for ( unsigned int i=0;i<partitions.size();i++ )
{
if ( ! partitions[ i ] .inside_extended )
{
@ -87,6 +87,23 @@ void TreeView_Detail::Load_Partitions( std::vector<Partition> & partitions )
Create_Row( childrow, partitions[i] );
}
}
*/
for ( unsigned int i=0;i<partitions.size();i++ )
{
row = *(treestore_detail->append());
Create_Row( row, partitions[i] );
if ( partitions[i] .type == GParted::EXTENDED )
{
for ( unsigned int t=0;t<partitions[i] .logicals .size();t++ )
{
childrow = *(treestore_detail->append( row.children() ));
Create_Row( childrow, partitions[i] .logicals[ t ] );
}
}
}
//show logical partitions ( if any )
this->expand_all();

View File

@ -62,103 +62,114 @@ VBox_VisualDisk::VBox_VisualDisk( const std::vector<Partition> & partitions, con
}
//draw visual disk and its legend
Build_Visual_Disk( 750 - Round( extra_pixels ) ) ;
this ->SCREEN_WIDTH = 750 - Round( extra_pixels ) ;
Build_Visual_Disk( ) ;
Build_Legend( ) ;
}
void VBox_VisualDisk::Build_Visual_Disk( int SCREEN_WIDTH )
void VBox_VisualDisk::Build_Visual_Disk( )
{
//since there is a 5 pixel space between every partition.... ( extended adds 2 *5 more, but that doesn't matter that much.
//NOTE that a part < 20 will also grow to 20, so length in pixels may vary across different devices..
SCREEN_WIDTH -= ( (partitions .size() -1) *5 ) ;
this ->SCREEN_WIDTH -= ( (partitions .size() -1) *5 ) ;
//create hbox_disk and add to frame
hbox_disk = manage( new Gtk::HBox() ) ;
hbox_disk ->set_spacing( 5 );
frame_disk_legend ->add ( *hbox_disk );
frame_disk_legend ->add( *hbox_disk );
//walk through all partitions....
int x,y;//for pango_layout check
for ( unsigned int i=0;i<partitions.size();i++ )
{
visual_partition = new Visual_Partition() ;
visual_partitions.push_back( visual_partition ) ;
visual_partitions.back() ->index = i ;
visual_partitions.back() ->sector_start = partitions[i].sector_start ;
if ( partitions[i].type == GParted::EXTENDED )
{
visual_partitions.back() ->drawingarea = NULL ;//it's just a dummy ;-) ( see Set_Selected() )
visual_partitions.back() ->length = 0 ; //keeps total_length clean
eventbox_extended = manage( new Gtk::EventBox() ) ;
eventbox_extended ->set_size_request( -1, 60 );
eventbox_extended ->modify_bg( eventbox_extended ->get_state(), partitions[i].color );
hbox_disk ->pack_start( *eventbox_extended, Gtk::PACK_SHRINK ) ;
hbox_extended = manage( new Gtk::HBox() ) ;
hbox_extended ->set_border_width( 5 );
hbox_extended ->set_spacing( 5 );
eventbox_extended ->add( *hbox_extended ) ;
continue;
}
visual_partitions.back() ->length = (int) (SCREEN_WIDTH / (double) ( device_length / (double) ( partitions[i].sector_end - partitions[i].sector_start) ) );
if ( visual_partitions.back() ->length < 20 )//we need a min. size. Otherwise some small partitions wouldn't be visible
partitions[i] .type == GParted::UNALLOCATED ? visual_partitions.back() ->length = 15 : visual_partitions.back() ->length = 20 ;
if ( partitions[i].inside_extended )
{ visual_partitions.back() ->height = 34 ; visual_partitions.back() ->text_y = 9 ; }
else
{ visual_partitions.back() ->height = 44 ;visual_partitions.back() ->text_y = 15 ; }
if ( partitions[i].type == GParted::UNALLOCATED )
visual_partitions.back() ->used = -1;
else
visual_partitions.back() ->used = (int) ( (visual_partitions.back() ->length - (BORDER *2)) / (double) ( ( partitions[i].sector_end - partitions[i].sector_start) / (double)partitions[i].sectors_used ) ) ;
visual_partitions.back() ->color_fs = partitions[i] .color;
this ->get_colormap() ->alloc_color(visual_partitions.back() ->color_fs);
visual_partitions.back() ->drawingarea = manage( new Gtk::DrawingArea() ) ;
visual_partitions.back() ->drawingarea ->set_size_request( visual_partitions.back() ->length +1, 60 );
visual_partitions.back() ->drawingarea ->set_events(Gdk::BUTTON_PRESS_MASK);
//connect signal handlers
visual_partitions.back() ->drawingarea ->signal_button_press_event().connect( sigc::bind<Partition>(sigc::mem_fun(*this, &VBox_VisualDisk::on_drawingarea_button_press), partitions[i] ) );
visual_partitions.back() ->drawingarea ->signal_realize().connect( sigc::bind<Visual_Partition *>(sigc::mem_fun(*this, &VBox_VisualDisk::drawingarea_on_realize), visual_partitions.back() ) );
visual_partitions.back() ->drawingarea ->signal_expose_event().connect( sigc::bind<Visual_Partition *>(sigc::mem_fun(*this, &VBox_VisualDisk::drawingarea_on_expose), visual_partitions.back() ));
//create pangolayout and see if it fits in the visual partition
str_temp = partitions[i] .partition + "\n" + String::ucompose( _("%1 MB"), partitions[i] .Get_Length_MB() ) ;
visual_partitions.back() ->pango_layout = visual_partitions.back() ->drawingarea ->create_pango_layout ( str_temp ) ;
visual_partitions.back() ->pango_layout ->get_pixel_size( x, y ) ;
if ( visual_partitions.back() ->length - BORDER * 2 -2 < x )
visual_partitions.back() ->pango_layout ->set_text( "" ) ;
//tooltip
str_temp = "" ;
if ( partitions[i].type != GParted::UNALLOCATED )
str_temp = partitions[i] .filesystem + "\n" ;
str_temp += partitions[i] .partition + "\n" + String::ucompose( _("%1 MB"), partitions[i] .Get_Length_MB() ) ;
tooltips.set_tip( *(visual_partitions.back() ->drawingarea), str_temp ) ;
if ( partitions[i] .inside_extended )
hbox_extended ->pack_start( *(visual_partitions.back() ->drawingarea), Gtk::PACK_SHRINK ) ;
else
hbox_disk ->pack_start( *(visual_partitions.back() ->drawingarea), Gtk::PACK_SHRINK ) ;
Create_Visual_Partition( partitions[i] ) ;
if ( partitions[i].type != GParted::EXTENDED )
hbox_disk ->pack_start( *( visual_partitions.back() ->drawingarea), Gtk::PACK_SHRINK ) ;
}
this ->show_all_children() ;
}
void VBox_VisualDisk::Create_Visual_Partition( Partition & partition )
{
int x,y;//for pango_layout check
visual_partition = new Visual_Partition() ;
visual_partitions.push_back( visual_partition ) ;
visual_partitions.back() ->index = visual_partitions .size() -1 ; // <---- BELACHELIJK!! DOE DAAR IETS AAN!!!
visual_partitions.back() ->sector_start = partition .sector_start ;
if ( partition .type == GParted::EXTENDED )
{
visual_partitions.back() ->drawingarea = NULL ;//it's just a dummy ;-) ( see Set_Selected() )
visual_partitions.back() ->length = 0 ; //keeps total_length clean
eventbox_extended = manage( new Gtk::EventBox() ) ;
eventbox_extended ->set_size_request( -1, 60 );
eventbox_extended ->modify_bg( eventbox_extended ->get_state(), partition .color );
hbox_disk ->pack_start( *eventbox_extended, Gtk::PACK_SHRINK ) ;
hbox_extended = manage( new Gtk::HBox() ) ;
hbox_extended ->set_border_width( 5 );
hbox_extended ->set_spacing( 5 );
eventbox_extended ->add( *hbox_extended ) ;
for ( unsigned int t=0;t<partition .logicals .size();t++ )
{
Create_Visual_Partition( partition .logicals[ t ] ) ;
hbox_extended ->pack_start( *( visual_partitions.back() ->drawingarea), Gtk::PACK_SHRINK ) ;
}
return ;
}
visual_partitions.back() ->length = (int) (SCREEN_WIDTH / (double) ( device_length / (double) ( partition .sector_end - partition .sector_start) ) );
if ( visual_partitions.back() ->length < 20 )//we need a min. size. Otherwise some small partitions wouldn't be visible
partition .type == GParted::UNALLOCATED ? visual_partitions.back() ->length = 15 : visual_partitions.back() ->length = 20 ;
if ( partition .inside_extended )
{ visual_partitions.back() ->height = 34 ; visual_partitions.back() ->text_y = 9 ; }
else
{ visual_partitions.back() ->height = 44 ;visual_partitions.back() ->text_y = 15 ; }
if ( partition .type == GParted::UNALLOCATED )
visual_partitions.back() ->used = -1;
else
visual_partitions.back() ->used = (int) ( (visual_partitions.back() ->length - (BORDER *2)) / (double) ( ( partition .sector_end - partition .sector_start) / (double)partition .sectors_used ) ) ;
visual_partitions.back() ->color_fs = partition .color;
this ->get_colormap() ->alloc_color(visual_partitions.back() ->color_fs);
visual_partitions.back() ->drawingarea = manage( new Gtk::DrawingArea() ) ;
visual_partitions.back() ->drawingarea ->set_size_request( visual_partitions.back() ->length +1, 60 );
visual_partitions.back() ->drawingarea ->set_events(Gdk::BUTTON_PRESS_MASK);
//connect signal handlers
visual_partitions.back() ->drawingarea ->signal_button_press_event().connect( sigc::bind<Partition>(sigc::mem_fun(*this, &VBox_VisualDisk::on_drawingarea_button_press), partition ) );
visual_partitions.back() ->drawingarea ->signal_realize().connect( sigc::bind<Visual_Partition *>(sigc::mem_fun(*this, &VBox_VisualDisk::drawingarea_on_realize), visual_partitions.back() ) );
visual_partitions.back() ->drawingarea ->signal_expose_event().connect( sigc::bind<Visual_Partition *>(sigc::mem_fun(*this, &VBox_VisualDisk::drawingarea_on_expose), visual_partitions.back() ));
//create pangolayout and see if it fits in the visual partition
str_temp = partition .partition + "\n" + String::ucompose( _("%1 MB"), partition .Get_Length_MB() ) ;
visual_partitions.back() ->pango_layout = visual_partitions.back() ->drawingarea ->create_pango_layout ( str_temp ) ;
visual_partitions.back() ->pango_layout ->get_pixel_size( x, y ) ;
if ( visual_partitions.back() ->length - BORDER * 2 -2 < x )
visual_partitions.back() ->pango_layout ->set_text( "" ) ;
//tooltip
str_temp = "" ;
if ( partition .type != GParted::UNALLOCATED )
str_temp = partition .filesystem + "\n" ;
str_temp += partition .partition + "\n" + String::ucompose( _("%1 MB"), partition .Get_Length_MB() ) ;
tooltips.set_tip( *(visual_partitions.back() ->drawingarea), str_temp ) ;
}
void VBox_VisualDisk::Build_Legend( )
{
@ -234,11 +245,10 @@ void VBox_VisualDisk::Set_Selected( const Partition & partition )
}
}
}
void VBox_VisualDisk::drawingarea_on_realize( Visual_Partition* vp )
void VBox_VisualDisk::drawingarea_on_realize( Visual_Partition* vp )
{
vp ->gc = Gdk::GC::create( vp ->drawingarea ->get_window() );
@ -249,7 +259,7 @@ void VBox_VisualDisk::drawingarea_on_realize( Visual_Partition* vp )
}
bool VBox_VisualDisk::drawingarea_on_expose( GdkEventExpose * ev, Visual_Partition* vp )
bool VBox_VisualDisk::drawingarea_on_expose( GdkEventExpose * ev, Visual_Partition* vp )
{
vp ->drawingarea ->get_window() ->clear() ;

View File

@ -504,15 +504,15 @@ void Win_GParted::Refresh_Visual( )
liststore_operations ->clear();
//make all operations visible
for (unsigned int t=0;t<operations.size();t++ )
for ( unsigned int t = 0 ; t < operations .size( ); t++ )
{
if ( operations[t]. device ->Get_Path() == devices[ current_device ] ->Get_Path() )
partitions = operations[t].Apply_Operation_To_Visual( partitions ) ;
if ( operations[ t ] .device ->Get_Path( ) == devices[ current_device ] ->Get_Path( ) )
partitions = operations[ t ] .Apply_Operation_To_Visual( partitions ) ;
treerow = *(liststore_operations->append());
treerow[ treeview_operations_columns.operation_number ] = t +1;
treerow[ treeview_operations_columns.operation_description ] = operations[t] .str_operation ;
switch ( operations[t].operationtype )
treerow = *(liststore_operations ->append( ));
treerow[ treeview_operations_columns .operation_number ] = t +1;
treerow[ treeview_operations_columns .operation_description ] = operations[ t ] .str_operation ;
switch ( operations[ t ] .operationtype )
{
case GParted::DELETE : treerow[ treeview_operations_columns.operation_icon ] =render_icon(Gtk::Stock::DELETE, Gtk::ICON_SIZE_MENU);
break;
@ -529,13 +529,13 @@ void Win_GParted::Refresh_Visual( )
}
//set new statusbartext
statusbar .pop() ;
if ( operations.size() != 1 )
statusbar .push( String::ucompose( _("%1 operations pending"), operations.size() ) .c_str() );
statusbar .pop( ) ;
if ( operations .size( ) != 1 )
statusbar .push( String::ucompose( _("%1 operations pending"), operations .size( ) ) .c_str( ) );
else
statusbar .push( _( "1 operation pending" ) );
if ( ! operations.size() )
if ( ! operations .size( ) )
{
allow_undo( false );
allow_apply( false );
@ -543,22 +543,19 @@ void Win_GParted::Refresh_Visual( )
//count primary's, check for extended and logic and see if any logical is busy
any_logic = any_extended = false;
primary_count = highest_logic_busy = 0;
for (unsigned int t=0;t<partitions.size();t++ )
primary_count = 0;
for ( unsigned int t = 0 ; t < partitions .size( ) ; t++ )
{
if ( partitions[ t ] .partition == copied_partition .partition )
copied_partition = partitions[ t ] ;
switch ( partitions[t].type )
switch ( partitions[ t ] .type )
{
case GParted::PRIMARY : primary_count++;
break;
case GParted::EXTENDED : any_extended = true;
primary_count++;
break;
case GParted::LOGICAL : any_logic = true;
if ( partitions[t].busy && partitions[t].partition_number > highest_logic_busy )
highest_logic_busy = partitions[t].partition_number ;
any_logic = partitions[ t ] .logicals .size( ) -1 ;
break;
default : break;
}
@ -608,11 +605,11 @@ void Win_GParted::Set_Valid_Operations()
allow_new( false ); allow_delete( false ); allow_resize( false ); allow_copy( false ); allow_paste( false ); allow_convert( false );
//we can't perform any operation on a busy (mounted) filesystem
if ( selected_partition.busy )
if ( selected_partition .busy )
return;
//UNALLOCATED
if ( selected_partition.type == GParted::UNALLOCATED )
if ( selected_partition .type == GParted::UNALLOCATED )
{
allow_new( true );
@ -632,7 +629,7 @@ void Win_GParted::Set_Valid_Operations()
}
//PRIMARY and LOGICAL
if ( selected_partition.type != GParted::EXTENDED )
if ( selected_partition .type != GParted::EXTENDED )
{
allow_delete( true ) ;
allow_convert( true ) ;
@ -652,7 +649,7 @@ void Win_GParted::Set_Valid_Operations()
//EXTENDED
else if ( selected_partition.type == GParted::EXTENDED )
else if ( selected_partition .type == GParted::EXTENDED )
{
if ( ! any_logic ) //deletion is only allowed when there are nog logical partitions inside.
allow_delete( true ) ;
@ -826,6 +823,23 @@ void Win_GParted::mouse_click( GdkEventButton *event, const Partition & partitio
}
}
bool Win_GParted::max_amount_prim_reached( )
{
//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 ] ->Get_Max_Amount_Of_Primary_Partitions( ) )
{
str_temp = "<span weight=\"bold\" size=\"larger\">" ;
str_temp += String::ucompose( _("It is not possible to create more than %1 primary partitions"), devices[ current_device ] ->Get_Max_Amount_Of_Primary_Partitions( ) ) ;
str_temp += "</span>\n\n" ;
str_temp += _( "If you want more partitions you should first create an extended partition. Such a partition can contain other partitions.") ;
Gtk::MessageDialog dialog( *this, str_temp, true, Gtk::MESSAGE_ERROR, Gtk::BUTTONS_OK, true ) ;
dialog.run( ) ;
return true ;
}
return false ;
}
void Win_GParted::activate_resize()
{
@ -848,24 +862,33 @@ void Win_GParted::activate_resize()
hbox_resize_move .pack_start( * mk_label( _("Resize/Move") ), Gtk::PACK_SHRINK ) ;
button_resize_move .add( hbox_resize_move ) ;
dialog .add_action_widget ( button_resize_move,Gtk::RESPONSE_OK ) ;
dialog .show_all_children() ;
dialog .add_action_widget ( button_resize_move, Gtk::RESPONSE_OK ) ;
dialog .show_all_children( ) ;
if ( dialog.run() == Gtk::RESPONSE_CANCEL )
if ( dialog.run( ) == Gtk::RESPONSE_CANCEL )
return ;
}
std::vector <Partition> partitions = devices[ current_device ] -> Get_Partitions() ;
std::vector <Partition> partitions = devices[ current_device ] ->Get_Partitions( ) ;
if ( operations.size() )
for (unsigned int t=0;t<operations.size();t++ )
if ( operations[t]. device ->Get_Path() == devices[ current_device ] ->Get_Path() )
if ( operations[t]. device ->Get_Path( ) == devices[ current_device ] ->Get_Path( ) )
partitions = operations[t].Apply_Operation_To_Visual( partitions ) ;
Dialog_Partition_Resize_Move dialog;
dialog.Set_Data( selected_partition, partitions);
if ( selected_partition .type == GParted::LOGICAL )
{
unsigned int ext = 0 ;
while ( ext < partitions .size( ) && partitions[ ext ] .type != GParted::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 )
@ -903,57 +926,35 @@ void Win_GParted::activate_copy()
void Win_GParted::activate_paste()
{
//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 ] ->Get_Max_Amount_Of_Primary_Partitions() )
if ( ! max_amount_prim_reached( ) )
{
str_temp = "<span weight=\"bold\" size=\"larger\">" ;
str_temp += String::ucompose( _("It is not possible to create more than %1 primary partitions"), devices[ current_device ] ->Get_Max_Amount_Of_Primary_Partitions() ) ;
str_temp += "</span>\n\n" ;
str_temp += _( "If you want more partitions you should first create an extended partition. Such a partition can contain other partitions.") ;
Dialog_Partition_Copy dialog ;
dialog .Set_Data( selected_partition, copied_partition ) ;
dialog .set_transient_for( *this );
Gtk::MessageDialog dialog( *this, str_temp, true, Gtk::MESSAGE_ERROR, Gtk::BUTTONS_OK, true);
dialog.run();
return;
if ( dialog.run() == Gtk::RESPONSE_OK )
{
dialog .hide( ) ;//i want to be sure the dialog is gone _before_ operationslist shows up (only matters if first operation)
Add_Operation( GParted::COPY, dialog .Get_New_Partition( ) );
}
}
Dialog_Partition_Copy dialog ;
dialog .Set_Data( selected_partition, copied_partition ) ;
dialog.set_transient_for( *this );
if ( dialog.run() == Gtk::RESPONSE_OK )
{
dialog.hide() ;//i want to be sure the dialog is gone _before_ operationslist shows up (only matters if first operation)
Add_Operation( GParted::COPY, dialog.Get_New_Partition() );
}
}
void Win_GParted::activate_new()
{
//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 ] ->Get_Max_Amount_Of_Primary_Partitions() )
if ( ! max_amount_prim_reached( ) )
{
str_temp = "<span weight=\"bold\" size=\"larger\">" ;
str_temp += String::ucompose( _("It is not possible to create more than %1 primary partitions"), devices[ current_device ] ->Get_Max_Amount_Of_Primary_Partitions() ) ;
str_temp += "</span>\n\n" ;
str_temp += _( "If you want more partitions you should first create an extended partition. Such a partition can contain other partitions.") ;
Dialog_Partition_New dialog;
dialog .Set_Data( selected_partition, any_extended, new_count, FILESYSTEMS ) ;
dialog .set_transient_for( *this );
Gtk::MessageDialog dialog( *this, str_temp, true, Gtk::MESSAGE_ERROR, Gtk::BUTTONS_OK, true);
dialog.run();
return;
if ( dialog.run() == Gtk::RESPONSE_OK )
{
dialog .hide( ) ;//make sure the dialog is gone _before_ operationslist shows up (only matters if first operation)
new_count++ ;
Add_Operation( GParted::CREATE, dialog .Get_New_Partition( ) );
}
}
Dialog_Partition_New dialog;
dialog.Set_Data( selected_partition, any_extended, new_count, FILESYSTEMS ) ;
dialog.set_transient_for( *this );
if ( dialog.run() == Gtk::RESPONSE_OK )
{
dialog.hide() ;//make sure the dialog is gone _before_ operationslist shows up (only matters if first operation)
new_count++;
Add_Operation( GParted::CREATE, dialog.Get_New_Partition() );
}
}
void Win_GParted::activate_delete()
@ -962,19 +963,21 @@ void Win_GParted::activate_delete()
//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::LOGICAL && selected_partition .status != GParted::STAT_NEW && selected_partition.partition_number < highest_logic_busy )
if ( selected_partition .type == GParted::LOGICAL &&
selected_partition .status != GParted::STAT_NEW &&
selected_partition .partition_number < devices [ current_device ] -> Get_Highest_Logical_Busy( ) )
{
str_temp = "<span weight=\"bold\" size=\"larger\">" ;
str_temp += _( "Unable to delete partition!") ;
str_temp += "</span>\n\n" ;
str_temp += String::ucompose( _("Please unmount any logical partitions having a number higher than %1"), selected_partition.partition_number ) ;
Gtk::MessageDialog dialog( *this, str_temp, true, Gtk::MESSAGE_ERROR, Gtk::BUTTONS_OK, true);
dialog.run() ;
Gtk::MessageDialog dialog( *this, str_temp, true, Gtk::MESSAGE_ERROR, Gtk::BUTTONS_OK, true ) ;
dialog .run( ) ;
return;
}
str_temp = "<span weight=\"bold\" size=\"larger\">" ;
str_temp += String::ucompose( _( "Are you sure you want to delete %1?"), selected_partition.partition ) + "</span>" ;
str_temp += String::ucompose( _( "Are you sure you want to delete %1?"), selected_partition .partition ) + "</span>" ;
if ( selected_partition .partition == copied_partition .partition )
{
str_temp += "\n\n" ;
@ -1008,7 +1011,7 @@ void Win_GParted::activate_delete()
{
if ( operations[t] .partition_new .partition == selected_partition .partition )
{
operations.erase( operations .begin() + t ) ;
operations.erase( operations .begin( ) + t ) ;
t-- ;
}
}
@ -1029,8 +1032,6 @@ void Win_GParted::activate_delete()
}
else //deletion of a real partition...
Add_Operation( GParted::DELETE, selected_partition ); //in this case selected_partition is just a "dummy"
}
}