def on_partition_list_new_activate(self, button):
# print("on_partition_list_new_activate : add a new partition")
selection = self.partition_list.get_selection()
if not selection:
return
model, tree_iter = selection.get_selected()
if tree_iter == None:
return
print("You selected %s" % model[tree_iter][0])
if model[tree_iter][0] == _("free space"):
parent_iter = model.iter_parent(tree_iter)
disk_path = model[parent_iter][0]
row = model[tree_iter]
size_available = row[6]
partition_path = row[8]
if self.disks == None:
self.disks = pm.get_devices()
disk = self.disks[disk_path]
dev = disk.device
partitions = pm.get_partitions(disk)
p = partitions[partition_path]
# Get the objects from the dialog
size_spin = self.ui.get_object("partition_size_spinbutton")
primary_radio = self.ui.get_object("partition_create_type_primary")
logical_radio = self.ui.get_object("partition_create_type_logical")
beginning_radio = self.ui.get_object("partition_create_place_beginning")
end_radio = self.ui.get_object("partition_create_place_end")
use_combo = self.ui.get_object("partition_use_combo")
format_checkbutton = self.ui.get_object("partition_edit_format_checkbutton")
mount_combo = self.ui.get_object("partition_mount_combo")
# prepare size spin
# aas# +1 as not to leave unusably small space behind
max_size_mb = int((p.geometry.length * dev.sectorSize) / 1000000) + 1
size_spin.set_digits(0)
# value, lower, upper, step_incr, page_incr, page_size
adjustment = Gtk.Adjustment(max_size_mb, 1, max_size_mb, 1, 10, 0)
size_spin.set_adjustment(adjustment)
# use_combo
use_combo.remove_all()
for fs_name in sorted(fs._names):
use_combo.append_text(fs_name)
use_combo.set_wrap_width(2)
# mount points
mount_combo.remove_all()
for mp in sorted(fs._common_mount_points):
mount_combo.append_text(mp)
# finally, show the create partition dialog
response = self.edit_partition_dialog.run()
if response == Gtk.ResponseType.OK:
size = int(size_spin.get_value())
# aas# pm does this already. Just pass it size
# size_in_sectors = int((size * 1000000) / dev.sectorSize)
print("size : %d" % size)
# print("size_in_sectors : %d" % size_in_sectors)
# aas# pm does this already. using variable instead
if beginning_radio.get_active():
beg_var = True
else:
beg_var = False
start_sector = p.geometry.start
end_sector = p.geometry.end
print("start sector : %d" % start_sector)
# part_type
if primary_radio.get_active():
part_type = pm.PARTITION_PRIMARY
else:
part_type = pm.PARTITION_LOGICAL
# if the partition is of type LOGICAL, we must search if an
# extended partition is already there. If it is, we must add
# our logical partition to it, if it's not, we must create
# an extended partition and then create our logical partition
# inside.
# Anaconda code follows. Must be adapted.
#
# part_type = None
# extended = disk.getExtendedPartition()
# supports_extended = disk.supportsFeature(parted.DISK_TYPE_EXTENDED)
# logical_count = len(disk.getLogicalPartitions())
# max_logicals = disk.getMaxLogicalPartitions()
# primary_count = disk.primaryPartitionCount
# if primary_count < disk.maxPrimaryPartitionCount:
# if primary_count == disk.maxPrimaryPartitionCount - 1:
## can we make an extended partition? now's our chance.
# if not extended and supports_extended:
# part_type = parted.PARTITION_EXTENDED
# elif not extended:
## extended partitions not supported. primary or nothing.
# if not no_primary:
# part_type = parted.PARTITION_NORMAL
# else:
## there is an extended and a free primary
# if not no_primary:
# part_type = parted.PARTITION_NORMAL
# elif logical_count < max_logicals:
## we have an extended with logical slots, so use one.
# part_type = parted.PARTITION_LOGICAL
# else:
# there are two or more primary slots left. use one unless we're
# not supposed to make primaries.
# if not no_primary:
# part_type = parted.PARTITION_NORMAL
# elif extended and logical_count < max_logicals:
# part_type = parted.PARTITION_LOGICAL
# elif extended and logical_count < max_logicals:
# part_type = parted.PARTITION_LOGICAL
# aas# pm does the below, no need to do here too
# if part_type == pm.PARTITION_LOGICAL:
# make room for logical partition's metadata
# start_sector += disklabel.alignment.grainSize
# print("start sector adjusted : %d" % start_sector)
# aas# fixed this call
geometry = pm.geom_builder(disk, start_sector, end_sector, size, beg_var)
pm.create_partition(disk, part_type, geometry)
# TODO: Don't forget these ones!
# use_as
# format
# mount_point
print("OK!")
self.fill_partition_list()
else:
print("Cancel or closed!")
self.edit_partition_dialog.hide()
