Commit b76a6c1e authored by Julien Muchembled's avatar Julien Muchembled

XMLMatrix: stop preserving order of coordinates for each axis

Renaming cells caused too much trouble:
- updateRelatedContent was not used
- there were potential catalog (fatal) errors like
  "uid of ... changed from ... (property) to ... (catalog, by path) !!!" or
  "uid of ... is ... and is already assigned to deleted in catalog !!!"

So this new implementation never changes ids of cells, and there may be holes
in allocated "partial ids".

getCellRange is also fixed to make sure we don't rely on the order of dict
items, as implemented by CPython. If it changed, matrices would be entirely
deleted.
parent 28db3a9c
......@@ -37,6 +37,8 @@ from Products.ERP5Type.Accessor.Constant import PropertyGetter as ConstantGetter
from zLOG import LOG
INFINITE_SET = type('', (object,), {'__contains__': lambda *args: True})()
class XMLMatrix(Folder):
"""
A mix-in class which provides a matrix like
......@@ -143,142 +145,64 @@ class XMLMatrix(Folder):
security.declareProtected( Permissions.ModifyPortalContent,
'_setCellRange' )
def _setCellRange(self, *kw, **kwd):
"""
Set a new range for a matrix.
If needed, it will resize and/or reorder matrix content.
"""
movement = {} # Maps original cell id to its new id for each moved cell.
new_index = PersistentMapping()
base_id = kwd.get('base_id', 'cell')
if getattr(aq_base(self), 'index', None) is None:
self.index = PersistentMapping()
# Return if previous range is the same
current_range = self.getCellRange(base_id=base_id)
if current_range == list(kw): # kw is a tuple
return
def _setCellRange(self, *args, **kw):
"""Set a new range for a matrix
# Create the new index for the range given in *kw
# *kw practical example:
# kw = [ ['color/blue', 'color/red'], ['size/S', 'size/L']]
for i, index_ids in enumerate(kw):
temp = PersistentMapping()
for j, my_id in enumerate(index_ids):
temp[my_id] = j
new_index[i] = temp
if self.index.has_key(base_id):
# Compute cell movement from their position in previous range to their
# position in the new range.
for i, i_value in self.index[base_id].iteritems():
if new_index.has_key(i):
temp = {}
for my_id, my_value in i_value.iteritems():
temp[my_value] = new_index[i].get(my_id)
movement[i] = temp
# List all valid cell ids for current base_id.
object_id_list = []
for obj in self.objectValues():
object_id = obj.getId()
if object_id.find(base_id) == 0:
# Check that all '_'-separated fields are of int type.
if (object_id) > len(base_id):
Each value for each axis is assigned an integer id.
If the number of axis changes, everything is reset.
Otherwise, ids are never changed, so that cells never need to be renamed:
this means no sort is garanteed, and there can be holes.
"""
base_id = kw.get('base_id', 'cell')
# Get (initialize if necessary) index for considered matrix (base_id).
try:
int(object_id[len(base_id)+1:].split('_')[0])
test = self._getOb(object_id) # If the object was created
# during this transaction,
# then we do not need to
# work on it
object_id_list.append(object_id)
except (ValueError, KeyError):
pass
# Prepend 'temp_' to all cells, to avoid id conflicts while renaming.
for object_id in object_id_list:
new_name = 'temp_' + object_id
obj = self._getOb(object_id)
self._delObject(object_id)
obj.id = new_name
self._setObject(new_name, aq_base(obj))
# Rename all cells to their final name.
for object_id in object_id_list:
# Retrieve the place of the object, for movement_0_0 it is ['0','0']
object_place = object_id[len(base_id)+1:].split('_')
to_delete = 1
# We must have the same number of dimensions
if len(object_place) == len(new_index):
# Let us browse each dimension of the previous index
for i in range(len(object_place)):
# Build each part of the nex id by looking up int. values
old_place = int(object_place[i])
# We are looking inside the movement dictionnary where
# we should move the object, so for example
# 'qantity_2_5' is renamed as 'quantity_4_3'
if movement.has_key(i):
if movement[i].has_key(old_place):
# Replace the place of the cell only if there where a change
if (movement[i][old_place]) != None:
object_place[i] = str(movement[i][old_place])
to_delete = 0
else:
object_place[i] = None
# XXX In this case, we delete every cell wich are not in the
# movement dictionnary, may be this is very bad, so may be
# we need to add an extra check here, ie if
# if movement[i].has_key(old_place) returns None,
# We may want to keep the cell, but only if we are sure
# the movement dictionnary will not define a new cell with this id
new_object_id_list = []
temp_object_id = 'temp_' + object_id
o = self._getOb(temp_object_id)
if not to_delete and not (None in object_place):
self._delObject(temp_object_id) # In all cases, we have
# to remove the temp object
object_place.insert(0, base_id)
new_name = '_'.join(object_place)
o.id = new_name
new_object_id_list.extend(new_name)
self._setObject(new_name, aq_base(o))
if new_name != object_id:
# Theses two lines are very important, if the object is renamed
# then we must uncatalog the previous one
o.unindexObject(path='%s/%s' % (self.getUrl() , object_id))
# Force a new uid to be allocated, because unindexObject creates
# an activity which will later delete lines from catalog based
# on their uid, and it is not garanted that indexation will happen
# after this deletion.
# It is bad to waste uids, but this data structure offers no
# alternative because cell id gives its index in the matrix,
# so reordering axes requires the cell id to change.
# XXX: It can be improved, but requires most of this file to be
# rewritten, and compatibility code must be written as data
# structure would most probably change.
o.uid = None
o.reindexObject() # we reindex in case position has changed
# uid should be consistent
index = aq_base(self).index
except AttributeError:
index = self.index = PersistentMapping()
to_delete = []
try:
index = index[base_id]
if len(args) != len(index):
# The number of axis changes so we'll delete all existing cells and
# renumber everything from 1.
to_delete = INFINITE_SET,
index.clear()
except KeyError:
index[base_id] = index = PersistentMapping()
# For each axis ...
for i, axis in enumerate(args):
# ... collect old axis keys and allocate ids for new ones.
axis = set(axis)
last_id = -1
try:
id_dict = index[i]
except KeyError:
index[i] = id_dict = PersistentMapping()
else:
# In all cases, we have to remove the temp object
#WARNING -> if path is not good, it will not be able to uncatalog !!!
#o.immediateReindexObject() # STILL A PROBLEM -> getUidForPath XXX
if object_id not in new_object_id_list: # do not unindex a new object
o.isIndexable = ConstantGetter('isIndexable', value=True)
o.unindexObject(path='%s/%s' % (self.getUrl() , object_id))
# unindexed already forced
o.isIndexable = ConstantGetter('isIndexable', value=False)
self._delObject(temp_object_id) # object will be removed
# from catalog automaticaly
# We don't need the old index any more, we
# can set the new index
self.index[base_id] = new_index
delete = set()
to_delete.append(delete)
for k, v in id_dict.items():
try:
axis.remove(k)
if last_id < v:
last_id = v
except KeyError:
delete.add(v)
del id_dict[k]
# At this point, last_id contains the greatest id.
for k in sorted(axis):
last_id += 1
id_dict[k] = last_id
# Remove old cells if any.
if any(to_delete):
prefix = base_id + '_'
prefix_len = len(prefix)
for cell_id in list(self.objectIds()):
if cell_id.startswith(prefix):
for i, j in enumerate(cell_id[prefix_len:].split('_')):
if int(j) in to_delete[i]:
self._delObject(cell_id)
break
security.declareProtected( Permissions.ModifyPortalContent, 'setCellRange' )
def setCellRange(self, *kw, **kwd):
......@@ -427,17 +351,11 @@ class XMLMatrix(Folder):
"""
Returns the cell range as a list of index ids
"""
if getattr(aq_base(self), 'index', None) is None:
try:
cell_range = aq_base(self).index[base_id]
except (AttributeError, KeyError):
return []
cell_range = self.index.get(base_id, None)
if cell_range is None:
return None
result = []
for value in cell_range.itervalues():
result_items = sorted(value.iteritems(), key=lambda x:x[1])
result.append([x[0] for x in result_items])
return result
return [x.keys() for _, x in sorted(cell_range.iteritems())]
security.declareProtected( Permissions.ModifyPortalContent, 'newCell' )
def newCell(self, *kw, **kwd):
......
......@@ -89,7 +89,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2', '3'], ['a', 'b', 'c']]
kwd = {'base_id' : 'quantity'}
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
......@@ -100,7 +100,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['2', '3', '4'], ['b', 'c', 'd']]
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -111,7 +111,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2', '3', '4'], ['a', 'b', 'c', 'd']]
value_list = (0, 1, 2, None, 3, 4, 5, None, 6, 7, 8, None, None, None, None, None)
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -125,7 +125,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2'], ['a', 'b']]
value_list = (0, 1, 3, 4)
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -136,7 +136,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['3'], ['a', 'b', 'c'], ['A', 'B', 'C']]
value_list = (0, None, None, 1, None, None, None, None, None)
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -150,7 +150,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2'], ['A', 'B']]
value_list = (0, 1, None, None)
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -171,7 +171,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2'], ['A', 'B'], ['a', 'b']]
value_list = (0, None, 1, None, 2, None, 3, None)
matrix.renameCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
i = 0
for place in cartesianProduct(cell_range):
cell = matrix.getCell(*place, **kwd)
......@@ -200,7 +200,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2', '3'], ['a', 'b', 'c']]
kwd = {'base_id' : 'quantity'}
matrix.setCellRange(*cell_range, **kwd)
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
for place in cartesianProduct(cell_range):
cell = matrix.newCell(portal_type="Purchase Order Cell",
......@@ -215,7 +215,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
matrix.setCellRange(*cell_range, **kwd)
# We must commit transaction in order to put cell reindexing in activity queue
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
next_cell_id_list = list(matrix.objectIds())
# the cells on coordinates 2b, 3b, 3b and 3c are kept
self.assertEquals(4, len(next_cell_id_list))
......@@ -235,7 +235,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['0', '1'], ['a','b']]
matrix.setCellRange(*cell_range, **kwd)
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
next2_cell_id_list = list(matrix.objectIds())
removed_id_list = filter(lambda x: x not in next2_cell_id_list,next_cell_id_list)
self.tic()
......@@ -248,7 +248,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
kwd = {'base_id' : 'movement'}
matrix.setCellRange(*cell_range, **kwd)
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
self.tic()
for id in next2_cell_id_list:
self.assertFalse(catalog.hasPath(url + '/' + id))
......@@ -263,7 +263,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
# if we keep the same range, nothing happens
matrix.setCellRange(*cell_range, **kwd)
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
self.assertEqual(len(matrix.getCellValueList(**kwd)), 2)
self.tic()
......@@ -275,7 +275,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['0', '2'], ['a', ], ['Z']]
matrix.setCellRange(*cell_range, **kwd)
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
self.tic()
# in this case, cells has been removed
......@@ -295,7 +295,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
cell_range = [['1', '2'], ['a', ], ['X']]
matrix.setCellRange(*cell_range, **kwd)
transaction.commit()
self.assertEqual(matrix.getCellRange(**kwd), cell_range)
self.assertEqual(map(set, matrix.getCellRange(**kwd)), map(set, cell_range))
self.tic()
# in this case, cells has been removed
......@@ -438,8 +438,7 @@ class TestXMLMatrix(ERP5TypeTestCase, LogInterceptor):
self.assertFalse('quantity_0_1' in matrix.objectIds())
cell = matrix.getCell('2', 'b', **kwd)
# this is the same cell, but it just changed id
self.assertEquals('quantity_0_0', cell.getId())
self.assertEquals('quantity_1_1', cell.getId())
self.assertEquals('This one', cell.getTitle())
transaction.commit()
......
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