Commit f6fa876a authored by Jérome Perrin's avatar Jérome Perrin

inventory_api: Interpolation method + group by time sequence backported

jerome/erp5!6
(cherry picked from commit 7a4b9c454c0f87ac19adb7f1d455af44aeaef6f8)
parent 2c54e0f5
...@@ -627,6 +627,8 @@ class SimulationTool(BaseTool): ...@@ -627,6 +627,8 @@ class SimulationTool(BaseTool):
omit_output=0, omit_output=0,
omit_asset_increase=0, omit_asset_increase=0,
omit_asset_decrease=0, omit_asset_decrease=0,
# interpolation_method
interpolation_method='default',
# group by # group by
group_by_node=0, group_by_node=0,
group_by_node_category=0, group_by_node_category=0,
...@@ -660,6 +662,7 @@ class SimulationTool(BaseTool): ...@@ -660,6 +662,7 @@ class SimulationTool(BaseTool):
group_by_function_category=0, group_by_function_category=0,
group_by_function_category_strict_membership=0, group_by_function_category_strict_membership=0,
group_by_date=0, group_by_date=0,
group_by_time_sequence_list=None,
# sort_on # sort_on
sort_on=None, sort_on=None,
group_by=None, group_by=None,
...@@ -713,6 +716,43 @@ class SimulationTool(BaseTool): ...@@ -713,6 +716,43 @@ class SimulationTool(BaseTool):
date_dict['range'] = 'ngt' date_dict['range'] = 'ngt'
if date_dict: if date_dict:
column_value_dict['date'] = date_dict column_value_dict['date'] = date_dict
if interpolation_method != 'default':
if not group_by_time_sequence_list:
if not (from_date and (to_date or at_date)):
raise ValueError("date_range is required to use interpolation_method")
# if we consider flow, we also select movement whose mirror date is
# in the from_date/to_date range and movement whose
# start_date/stop_date contains the report range.
# The selected range is wider, but the selected movements will have an
# "interpolation_ratio" applied to their quantity and prices.
if to_date:
column_value_dict['date'] = ComplexQuery(
Query(date=(from_date, to_date), range='minmax'),
Query(mirror_date=(from_date, to_date), range='minmax'),
ComplexQuery(
Query(mirror_date=from_date, range='min'),
Query(date=to_date, range='max'),
operator="AND"),
ComplexQuery(
Query(date=from_date, range='min'),
Query(mirror_date=to_date, range='max'),
operator="AND"),
operator="OR"
)
else:
column_value_dict['date'] = ComplexQuery(
Query(date=(from_date, at_date), range='minngt'),
Query(mirror_date=(from_date, at_date), range='minngt'),
ComplexQuery(
Query(mirror_date=from_date, range='min'),
Query(date=at_date, range='ngt'),
operator="AND"),
ComplexQuery(
Query(date=from_date, range='min'),
Query(mirror_date=at_date, range='ngt'),
operator="AND"),
operator="OR"
)
else: else:
column_value_dict['date'] = {'query': [to_date], 'range': 'ngt'} column_value_dict['date'] = {'query': [to_date], 'range': 'ngt'}
column_value_dict['mirror_date'] = {'query': [from_date], 'range': 'nlt'} column_value_dict['mirror_date'] = {'query': [from_date], 'range': 'nlt'}
...@@ -998,6 +1038,8 @@ class SimulationTool(BaseTool): ...@@ -998,6 +1038,8 @@ class SimulationTool(BaseTool):
new_kw['related_key_select_expression_list'] =\ new_kw['related_key_select_expression_list'] =\
related_key_select_expression_list related_key_select_expression_list
# XXX
sql_kw['group_by_time_sequence_list'] = group_by_time_sequence_list
return sql_kw, new_kw return sql_kw, new_kw
####################################################### #######################################################
...@@ -1082,6 +1124,17 @@ class SimulationTool(BaseTool): ...@@ -1082,6 +1124,17 @@ class SimulationTool(BaseTool):
output_simulation_state - only take rows with specified simulation_state output_simulation_state - only take rows with specified simulation_state
and quantity < 0 and quantity < 0
interpolation_method - Method to consider movements when calculating flows.
* (default): Consider the movement decreases 100% of source stock on
start date and increase 100% of the destination node stock on stop
date.
* linear: consider the movement decreases source stock and increase
destination stock linearly between start date and stop date.
* all_or_nothing: consider only movement who starts after the beginning of
the query period and finishes after the end of the query period.
* one_for_all: consider the movement fully as long as it is partially
contained in the query period.
ignore_variation - do not take into account variation in inventory ignore_variation - do not take into account variation in inventory
calculation (useless on getInventory, but useful on calculation (useless on getInventory, but useful on
getInventoryList) getInventoryList)
...@@ -1208,6 +1261,7 @@ class SimulationTool(BaseTool): ...@@ -1208,6 +1261,7 @@ class SimulationTool(BaseTool):
group_by_section_category=0, group_by_section_category=0,
group_by_section_category_strict_membership=0, group_by_section_category_strict_membership=0,
group_by_resource=None, group_by_resource=None,
group_by_time_sequence_list=(),
movement_list_mode=0, movement_list_mode=0,
group_by=None, group_by=None,
**ignored): **ignored):
...@@ -1233,7 +1287,8 @@ class SimulationTool(BaseTool): ...@@ -1233,7 +1287,8 @@ class SimulationTool(BaseTool):
group_by_mirror_section or group_by_payment or \ group_by_mirror_section or group_by_payment or \
group_by_sub_variation or group_by_variation or \ group_by_sub_variation or group_by_variation or \
group_by_movement or group_by_date or group_by_section_category or\ group_by_movement or group_by_date or group_by_section_category or\
group_by_section_category_strict_membership: group_by_section_category_strict_membership or \
group_by_time_sequence_list:
if group_by_resource is None: if group_by_resource is None:
group_by_resource = 1 group_by_resource = 1
new_group_by_dict['group_by_resource'] = group_by_resource new_group_by_dict['group_by_resource'] = group_by_resource
...@@ -1256,6 +1311,7 @@ class SimulationTool(BaseTool): ...@@ -1256,6 +1311,7 @@ class SimulationTool(BaseTool):
omit_simulation=0, omit_simulation=0,
only_accountable=True, only_accountable=True,
default_stock_table='stock', default_stock_table='stock',
interpolation_method='default',
selection_domain=None, selection_report=None, selection_domain=None, selection_report=None,
statistic=0, inventory_list=1, statistic=0, inventory_list=1,
precision=None, connection_id=None, precision=None, connection_id=None,
...@@ -1334,6 +1390,7 @@ class SimulationTool(BaseTool): ...@@ -1334,6 +1390,7 @@ class SimulationTool(BaseTool):
'stock_table_id': default_stock_table, 'stock_table_id': default_stock_table,
'src__': src__, 'src__': src__,
'ignore_variation': ignore_variation, 'ignore_variation': ignore_variation,
'interpolation_method': interpolation_method,
'standardise': standardise, 'standardise': standardise,
'omit_simulation': omit_simulation, 'omit_simulation': omit_simulation,
'only_accountable': only_accountable, 'only_accountable': only_accountable,
...@@ -1349,7 +1406,9 @@ class SimulationTool(BaseTool): ...@@ -1349,7 +1406,9 @@ class SimulationTool(BaseTool):
# Get cached data # Get cached data
if getattr(self, "Resource_zGetInventoryCacheResult", None) is not None and \ if getattr(self, "Resource_zGetInventoryCacheResult", None) is not None and \
optimisation__ and (not kw.get('from_date')) and \ optimisation__ and (not kw.get('from_date')) and \
'transformed_resource' not in kw: 'transformed_resource' not in kw \
and "category" not in str(kw) \
and "group_by_time_sequence_list" not in kw:
# Here is the different kind of date # Here is the different kind of date
# from_date : >= # from_date : >=
# to_date : < # to_date : <
...@@ -1379,7 +1438,7 @@ class SimulationTool(BaseTool): ...@@ -1379,7 +1438,7 @@ class SimulationTool(BaseTool):
kw['from_date'] = cached_date kw['from_date'] = cached_date
else: else:
cached_result = [] cached_result = []
sql_kw, new_kw = self._generateKeywordDict(**kw) sql_kw, new_kw = self._generateKeywordDict(interpolation_method=interpolation_method, **kw)
# Copy kw content as _generateSQLKeywordDictFromKeywordDict # Copy kw content as _generateSQLKeywordDictFromKeywordDict
# remove some values from it # remove some values from it
try: try:
...@@ -1392,6 +1451,25 @@ class SimulationTool(BaseTool): ...@@ -1392,6 +1451,25 @@ class SimulationTool(BaseTool):
stock_sql_kw = self._generateSQLKeywordDictFromKeywordDict( stock_sql_kw = self._generateSQLKeywordDictFromKeywordDict(
table=default_stock_table, sql_kw=sql_kw, new_kw=new_kw_copy) table=default_stock_table, sql_kw=sql_kw, new_kw=new_kw_copy)
stock_sql_kw.update(base_inventory_kw) stock_sql_kw.update(base_inventory_kw)
# TODO: move in _generateSQLKeywordDictFromKeywordDict
if interpolation_method in ('linear', 'all_or_nothing', 'one_for_all'):
# XXX only DateTime instance are supported
from_date = kw.get('from_date')
if from_date:
from_date = from_date.toZone("UTC")
to_date = kw.get('to_date')
if to_date:
to_date = to_date.toZone("UTC")
at_date = kw.get('at_date')
if at_date:
at_date = at_date.toZone("UTC")
stock_sql_kw['interpolation_method_from_date'] = from_date
stock_sql_kw['interpolation_method_to_date'] = to_date
stock_sql_kw['interpolation_method_at_date'] = at_date
elif interpolation_method != 'default':
raise ValueError("Unsupported interpolation_method %r" % (interpolation_method,))
delta_result = self.Resource_zGetInventoryList( delta_result = self.Resource_zGetInventoryList(
**stock_sql_kw) **stock_sql_kw)
if src__: if src__:
......
...@@ -45,7 +45,12 @@ convert_quantity_result\r\n ...@@ -45,7 +45,12 @@ convert_quantity_result\r\n
quantity_unit_uid\r\n quantity_unit_uid\r\n
stock_table_id=stock\r\n stock_table_id=stock\r\n
transformed_uid\r\n transformed_uid\r\n
transformed_variation_text</string> </value> transformed_variation_text\r\n
group_by_time_sequence_list:list\r\n
interpolation_method\r\n
interpolation_method_from_date=not_applicable\r\n
interpolation_method_to_date=not_applicable\r\n
interpolation_method_at_date=not_applicable</string> </value>
</item> </item>
<item> <item>
<key> <string>cache_time_</string> </key> <key> <string>cache_time_</string> </key>
...@@ -83,29 +88,50 @@ transformed_variation_text</string> </value> ...@@ -83,29 +88,50 @@ transformed_variation_text</string> </value>
<key> <string>src</string> </key> <key> <string>src</string> </key>
<value> <string encoding="cdata"><![CDATA[ <value> <string encoding="cdata"><![CDATA[
<dtml-let interpolation_ratio="SimulationTool_zGetInterpolationMethod(\n
stock_table_id=stock_table_id,\n
interpolation_method=interpolation_method,\n
interpolation_method_from_date=interpolation_method_from_date,\n
interpolation_method_to_date=interpolation_method_to_date,\n
interpolation_method_at_date=interpolation_method_at_date,\n
group_by_time_sequence_list=group_by_time_sequence_list,\n
src__=1)">\n
\n
SELECT\n SELECT\n
<dtml-if expr="precision is not None">\n <dtml-if expr="precision is not None">\n
SUM(ROUND(<dtml-var stock_table_id>.quantity\n SUM(ROUND(\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>, <dtml-var precision>)) AS inventory,\n <dtml-var stock_table_id>.quantity\n
SUM(ROUND(<dtml-var stock_table_id>.quantity\n <dtml-if transformed_uid> * transformation.quantity</dtml-if>\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>, <dtml-var precision>)) AS total_quantity,\n * <dtml-var interpolation_ratio>, <dtml-var precision>)) AS inventory,\n
SUM(ROUND(\n
<dtml-var stock_table_id>.quantity\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>\n
* <dtml-var interpolation_ratio>, <dtml-var precision>)) AS total_quantity,\n
<dtml-if convert_quantity_result>\n <dtml-if convert_quantity_result>\n
SUM(ROUND(<dtml-var stock_table_id>.quantity * measure.quantity\n SUM(ROUND(<dtml-var stock_table_id>.quantity * measure.quantity\n
<dtml-if quantity_unit_uid> / quantity_unit_conversion.quantity</dtml-if>\n <dtml-if quantity_unit_uid> / quantity_unit_conversion.quantity</dtml-if>\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>, <dtml-var precision>))\n * <dtml-var interpolation_ratio>, <dtml-var precision>))\n
AS converted_quantity,\n AS converted_quantity,\n
</dtml-if>\n </dtml-if>\n
IFNULL(SUM(ROUND(<dtml-var stock_table_id>.total_price, <dtml-var precision>)), 0) AS total_price\n \n
IFNULL(SUM(ROUND(\n
<dtml-var stock_table_id>.total_price * <dtml-var interpolation_ratio>, <dtml-var precision>)), 0) AS total_price\n
<dtml-else>\n <dtml-else>\n
SUM(<dtml-var stock_table_id>.quantity <dtml-if transformed_uid> * transformation.quantity</dtml-if>) AS inventory,\n SUM(<dtml-var stock_table_id>.quantity\n
SUM(<dtml-var stock_table_id>.quantity <dtml-if transformed_uid> * transformation.quantity</dtml-if>) AS total_quantity,\n <dtml-if transformed_uid> * transformation.quantity</dtml-if>\n
* <dtml-var interpolation_ratio>\n
) AS inventory,\n
SUM(<dtml-var stock_table_id>.quantity\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>\n
* <dtml-var interpolation_ratio>\n
) AS total_quantity,\n
<dtml-if convert_quantity_result>\n <dtml-if convert_quantity_result>\n
ROUND(SUM(<dtml-var stock_table_id>.quantity * measure.quantity\n ROUND(SUM(<dtml-var stock_table_id>.quantity * measure.quantity\n
<dtml-if quantity_unit_uid> / quantity_unit_conversion.quantity</dtml-if>\n <dtml-if quantity_unit_uid> / quantity_unit_conversion.quantity</dtml-if>\n
<dtml-if transformed_uid> * transformation.quantity</dtml-if>), 12)\n <dtml-if transformed_uid> * transformation.quantity</dtml-if> * <dtml-var interpolation_ratio>), 12)\n
AS converted_quantity,\n AS converted_quantity,\n
</dtml-if>\n </dtml-if>\n
IFNULL(SUM(<dtml-var stock_table_id>.total_price), 0) AS total_price\n IFNULL(SUM(<dtml-var stock_table_id>.total_price * <dtml-var interpolation_ratio>), 0) AS total_price\n
</dtml-if>\n </dtml-if>\n
<dtml-if inventory_list>\n <dtml-if inventory_list>\n
,\n ,\n
...@@ -140,6 +166,8 @@ SELECT\n ...@@ -140,6 +166,8 @@ SELECT\n
COUNT(DISTINCT <dtml-var stock_table_id>.uid) AS stock_uid,\n COUNT(DISTINCT <dtml-var stock_table_id>.uid) AS stock_uid,\n
MAX(<dtml-var stock_table_id>.date) AS date\n MAX(<dtml-var stock_table_id>.date) AS date\n
</dtml-if>\n </dtml-if>\n
<dtml-if group_by_time_sequence_list>, slot_index </dtml-if> <dtml-comment>XXX is this really needed?</dtml-comment>\n
\n
<dtml-if select_expression>, <dtml-var select_expression></dtml-if>\n <dtml-if select_expression>, <dtml-var select_expression></dtml-if>\n
\n \n
FROM\n FROM\n
...@@ -153,6 +181,55 @@ FROM\n ...@@ -153,6 +181,55 @@ FROM\n
</dtml-if>\n </dtml-if>\n
</dtml-in>\n </dtml-in>\n
, <dtml-var stock_table_id>\n , <dtml-var stock_table_id>\n
\n
<dtml-if group_by_time_sequence_list>\n
RIGHT JOIN\n
( <dtml-in prefix="time_slot" expr="_.list(_.enumerate(group_by_time_sequence_list))">\n
SELECT\n
<dtml-sqlvar expr="time_slot_key" type="int"> slot_index,\n
<dtml-sqlvar expr="time_slot_item.get(\'from_date\')" type="datetime" optional> slot_from_date,\n
<dtml-sqlvar expr="time_slot_item.get(\'at_date\')" type="datetime" optional> slot_at_date,\n
<dtml-sqlvar expr="time_slot_item.get(\'to_date\')" type="datetime" optional> slot_to_date\n
\n
<dtml-unless time_slot_end>UNION ALL</dtml-unless>\n
</dtml-in> ) slots\n
ON\n
<dtml-if group_by_time_sequence_list>\n
(\n
( slot_from_date is not null AND\n
( slot_at_date is not null AND\n
GREATEST(`stock`.`date`, `stock`.`mirror_date`) >= slot_from_date AND\n
LEAST(`stock`.`date`, `stock`.`mirror_date`) <= slot_at_date\n
) OR (\n
(\n
slot_to_date is not null AND\n
GREATEST(`stock`.`date`, `stock`.`mirror_date`) >= slot_from_date AND\n
LEAST(`stock`.`date`, `stock`.`mirror_date`) < slot_to_date\n
) OR (\n
GREATEST(`stock`.`date`, `stock`.`mirror_date`) >= slot_from_date AND\n
slot_at_date is null AND slot_to_date is null\n
)\n
)\n
) OR (\n
slot_from_date is null AND (\n
( slot_at_date is not null AND\n
( LEAST(`stock`.`date`, `stock`.`mirror_date`) <= slot_at_date )\n
) OR LEAST(`stock`.`date`, `stock`.`mirror_date`) < slot_to_date\n
)\n
)\n
)\n
<dtml-else>\n
(\n
( slot_from_date is null OR stock.date >= slot_from_date )\n
AND ( slot_at_date is null OR stock.date <= slot_at_date )\n
AND ( slot_to_date is null OR stock.date < slot_to_date )\n
)\n
</dtml-if>\n
</dtml-if>\n
\n
\n
\n
\n
</dtml-if>\n </dtml-if>\n
<dtml-if quantity_unit_uid> <dtml-comment>XXX quantity unit conversion will not work when using implict_join=False</dtml-comment>\n <dtml-if quantity_unit_uid> <dtml-comment>XXX quantity unit conversion will not work when using implict_join=False</dtml-comment>\n
LEFT JOIN quantity_unit_conversion ON \n LEFT JOIN quantity_unit_conversion ON \n
...@@ -200,13 +277,19 @@ WHERE\n ...@@ -200,13 +277,19 @@ WHERE\n
<dtml-if group_by_expression>\n <dtml-if group_by_expression>\n
GROUP BY\n GROUP BY\n
<dtml-if transformed_uid>transformation.transformed_uid,</dtml-if>\n <dtml-if transformed_uid>transformation.transformed_uid,</dtml-if>\n
<dtml-if group_by_time_sequence_list>slot_index,</dtml-if>\n
<dtml-var group_by_expression>\n <dtml-var group_by_expression>\n
\n
</dtml-if>\n </dtml-if>\n
<dtml-if order_by_expression>\n <dtml-if order_by_expression>\n
ORDER BY\n ORDER BY\n
<dtml-var order_by_expression>\n <dtml-var order_by_expression>\n
<dtml-else>\n
<dtml-if group_by_time_sequence_list>\n
ORDER BY slot_index\n
</dtml-if>\n
</dtml-if>\n </dtml-if>\n
</dtml-let>
]]></string> </value> ]]></string> </value>
</item> </item>
......
<?xml version="1.0"?>
<ZopeData>
<record id="1" aka="AAAAAAAAAAE=">
<pickle>
<global name="SQL" module="Products.ZSQLMethods.SQL"/>
</pickle>
<pickle>
<dictionary>
<item>
<key> <string>_Use_Database_Methods_Permission</string> </key>
<value>
<list>
<string>Anonymous</string>
</list>
</value>
</item>
<item>
<key> <string>arguments_src</string> </key>
<value> <string>stock_table_id\r\n
interpolation_method\r\n
interpolation_method_from_date\r\n
interpolation_method_to_date\r\n
interpolation_method_at_date\r\n
group_by_time_sequence_list:list</string> </value>
</item>
<item>
<key> <string>connection_id</string> </key>
<value> <string>cmf_activity_sql_connection</string> </value>
</item>
<item>
<key> <string>id</string> </key>
<value> <string>SimulationTool_zGetInterpolationMethod</string> </value>
</item>
<item>
<key> <string>src</string> </key>
<value> <string encoding="cdata"><![CDATA[
<dtml-if expr="interpolation_method == \'linear\'">\n
<dtml-if group_by_time_sequence_list>\n
CASE\n
WHEN <dtml-var stock_table_id>.mirror_date = <dtml-var stock_table_id>.date THEN 1\n
ELSE (\n
UNIX_TIMESTAMP(\n
IFNULL(\n
LEAST(\n
IFNULL(slot_at_date, slot_to_date),\n
GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
),\n
GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
)\n
)\n
- UNIX_TIMESTAMP(\n
GREATEST(\n
IFNULL(\n
slot_from_date, TIMESTAMP(0)\n
),\n
LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
)\n
)\n
)\n
/ (\n
UNIX_TIMESTAMP(GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)) -\n
UNIX_TIMESTAMP(LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)) ) END\n
<dtml-else>\n
CASE\n
WHEN <dtml-var stock_table_id>.mirror_date = <dtml-var stock_table_id>.date THEN 1\n
ELSE (\n
UNIX_TIMESTAMP(LEAST(\n
<dtml-if interpolation_method_at_date>\n
<dtml-sqlvar interpolation_method_at_date type="datetime">\n
<dtml-else>\n
<dtml-sqlvar interpolation_method_to_date type="datetime">\n
</dtml-if>,\n
GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date) ))\n
- UNIX_TIMESTAMP(GREATEST(<dtml-sqlvar interpolation_method_from_date type="datetime">,\n
LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date))))\n
/ ( UNIX_TIMESTAMP(GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)) -\n
UNIX_TIMESTAMP(LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)) ) END\n
</dtml-if>\n
<dtml-elif expr="interpolation_method == \'all_or_nothing\'">\n
CASE\n
WHEN (\n
-- movement contained in time frame\n
LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
>= <dtml-sqlvar interpolation_method_from_date type="datetime"> AND\n
GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
<dtml-if interpolation_method_at_date>\n
<= <dtml-sqlvar interpolation_method_at_date type="datetime">\n
<dtml-else>\n
< <dtml-sqlvar interpolation_method_to_date type="datetime">\n
</dtml-if>\n
) THEN 1\n
ELSE 0\n
END\n
<dtml-elif expr="interpolation_method == \'one_for_all\'">\n
CASE\n
WHEN (\n
-- movement overlaps with time frame\n
GREATEST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
<= <dtml-sqlvar interpolation_method_from_date type="datetime"> OR\n
LEAST(<dtml-var stock_table_id>.date, <dtml-var stock_table_id>.mirror_date)\n
<dtml-if interpolation_method_at_date>\n
>= <dtml-sqlvar interpolation_method_at_date type="datetime">\n
<dtml-else>\n
> <dtml-sqlvar interpolation_method_to_date type="datetime">\n
</dtml-if>\n
) THEN 0\n
ELSE 1\n
END\n
<dtml-else>\n
1\n
</dtml-if>\n
]]></string> </value>
</item>
<item>
<key> <string>title</string> </key>
<value> <string></string> </value>
</item>
</dictionary>
</pickle>
</record>
</ZopeData>
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