def test_delete_activity_param(qtbot):
""" Remove activity parameters.
"""
project_db_tab = ParameterDefinitionTab()
qtbot.addWidget(project_db_tab)
project_db_tab.build_tables()
table = project_db_tab.activity_table
rect = table.visualRect(table.proxy_model.index(0, 0))
qtbot.mouseClick(table.viewport(), QtCore.Qt.LeftButton, pos=rect.center())
group = table.get_current_group()
# Now delete the parameter for the selected row.
table.delete_parameter(table.currentIndex())
assert table.rowCount() == 2
assert ActivityParameter.select().count() == 2
assert Group.get_or_none(name=group)
# And delete the other two parameters one by one.
table.delete_parameter(table.proxy_model.index(0, 0))
table.delete_parameter(table.proxy_model.index(0, 0))
assert table.rowCount() == 0
assert ActivityParameter.select().count() == 0
# Group is automatically removed with the last parameter gone
assert Group.get_or_none(name=group) is None
def get_usable_parameters(self):
""" Use the `key` set for the table to determine the database and
group of the activity, using that information to constrain the usable
parameters.
"""
project = ([k, v, "project"]
for k, v in ProjectParameter.static().items())
if self.key is None:
return project
database = ([k, v, "database"]
for k, v in DatabaseParameter.static(self.key[0]).items())
# Determine if the activity is already part of a parameter group.
query = (Group.select().join(
ActivityParameter,
on=(Group.name == ActivityParameter.group)).where(
ActivityParameter.database == self.key[0],
ActivityParameter.code == self.key[1]).distinct())
if query.exists():
group = query.get()
# First, build a list for parameters in the same group
activity = ([p.name, p.amount, "activity"]
for p in ActivityParameter.select().where(
ActivityParameter.group == group.name))
# Then extend the list with parameters from groups in the `order`
# field
additions = ([p.name, p.amount, "activity"]
for p in ActivityParameter.select().where(
ActivityParameter.group << group.order))
activity = itertools.chain(activity, additions)
else:
activity = []
return itertools.chain(project, database, activity)
def delete_parameter(self, proxy) -> None:
""" Override the base method to include additional logic.
If there are multiple `ActivityParameters` for a single activity, only
delete the selected instance, otherwise use `bw.parameters.remove_from_group`
to clear out the `ParameterizedExchanges` as well.
"""
key = self.get_key(proxy)
query = (ActivityParameter.select()
.where(ActivityParameter.database == key[0],
ActivityParameter.code == key[1]))
if query.count() > 1:
super().delete_parameter(proxy)
else:
act = bw.get_activity(key)
group = self.get_current_group(proxy)
bw.parameters.remove_from_group(group, act)
# Also clear the group if there are no more parameters in it
exists = (ActivityParameter.select()
.where(ActivityParameter.group == group).exists())
if not exists:
with bw.parameters.db.atomic():
Group.delete().where(Group.name == group).execute()
bw.parameters.recalculate()
signals.parameters_changed.emit()
def test_delete_parameterized_exchange():
db = DatabaseChooser("example")
db.register()
a = db.new_activity(code="A", name="An activity")
a.save()
b = db.new_activity(code="B", name="Another activity")
b.save()
exc = a.new_exchange(amount=0, input=b, type="technosphere", formula="foo * bar + 4")
exc.save()
activity_data = [{
'name': 'reference_me',
'formula': 'sqrt(25)',
'database': 'example',
'code': "B",
}, {
'name': 'bar',
'formula': 'reference_me + 2',
'database': 'example',
'code': "A",
}]
parameters.new_activity_parameters(activity_data, "my group")
parameters.add_exchanges_to_group("my group", a)
assert ActivityParameter.select().count() == 2
assert ParameterizedExchange.select().count() == 1
exc.delete()
assert ActivityParameter.select().count() == 2
assert not ParameterizedExchange.select().count()
def delete_parameter(self, parameter: ParameterBase) -> None:
""" Remove the given parameter from the project.
If there are multiple `ActivityParameters` for a single activity, only
delete the selected instance, otherwise use `bw.parameters.remove_from_group`
to clear out the `ParameterizedExchanges` as well.
"""
if isinstance(parameter, ActivityParameter):
db = parameter.database
code = parameter.code
amount = (ActivityParameter.select()
.where((ActivityParameter.database == db) &
(ActivityParameter.code == code))
.count())
if amount > 1:
with bw.parameters.db.atomic():
parameter.delete_instance()
else:
group = parameter.group
act = bw.get_activity((db, code))
bw.parameters.remove_from_group(group, act)
# Also clear the group if there are no more parameters in it
exists = (ActivityParameter.select()
.where(ActivityParameter.group == group).exists())
if not exists:
with bw.parameters.db.atomic():
Group.delete().where(Group.name == group).execute()
else:
with bw.parameters.db.atomic():
parameter.delete_instance()
# After deleting things, recalculate and signal changes
bw.parameters.recalculate()
signals.parameters_changed.emit()
def test_delete_activity_parameters():
db = DatabaseChooser("example")
db.register()
a = db.new_activity(code="A", name="An activity")
a.save()
b = db.new_activity(code="B", name="Another activity")
b.save()
a.new_exchange(
amount=0, input=b, type="technosphere", formula="foo * bar + 4"
).save()
activity_data = [
{
"name": "reference_me",
"formula": "sqrt(25)",
"database": "example",
"code": "B",
},
{
"name": "bar",
"formula": "reference_me + 2",
"database": "example",
"code": "A",
},
]
parameters.new_activity_parameters(activity_data, "my group")
parameters.add_exchanges_to_group("my group", a)
assert ActivityParameter.select().count() == 2
assert ParameterizedExchange.select().count() == 1
a.delete()
assert ActivityParameter.select().count() == 1
assert not ParameterizedExchange.select().count()
def _prepare_activity_parameters(self, data=None, delete_existing=True):
data = self.data if data is None else data
def supplement_activity_parameter(ds, dct):
dct.update({'database': self.db_name, 'code': ds['code']})
if 'group' not in dct:
dct['group'] = "{}:{}".format(dct['database'], dct['code'])
return dct
activity_parameters = [
supplement_activity_parameter(ds, dct)
for ds in data
for dct in ds.pop("parameters", [])
]
by_group = lambda x: x['group']
activity_parameters = sorted(activity_parameters, key=by_group)
# Delete all parameterized exchanges because
# all exchanges are re-written, even on
# update, which means ids are unreliable
# Must add exchanges again manually
bad_groups = tuple({o[0] for o in ActivityParameter.select(
ActivityParameter.group).where(
ActivityParameter.database == self.db_name
).tuples()})
ParameterizedExchange.delete().where(
ParameterizedExchange.group << bad_groups
).execute()
if delete_existing:
# Delete existing parameters and p. exchanges if necessary
ActivityParameter.delete().where(ActivityParameter.group << bad_groups
).execute()
else:
# Delete activity parameters
# where the group name changed
name_changed = tuple({o[0] for o in
ActivityParameter.select(
ActivityParameter.group).where(
ActivityParameter.database == self.db_name,
ActivityParameter.code << tuple(
[m['code'] for m in activity_parameters]
),
~(ActivityParameter.group << tuple(
[m['group'] for m in activity_parameters]
))
).tuples()})
ActivityParameter.delete().where(ActivityParameter.group << name_changed
).execute()
return activity_parameters
def delete_activity(self, key):
act = bw.get_activity(key)
nu = len(act.upstream())
if nu:
text = "activities consume" if nu > 1 else "activity consumes"
QtWidgets.QMessageBox.information(
None,
"Not possible.",
"""Can't delete {}. {} upstream {} its reference product.
Upstream exchanges must be modified or deleted.""".format(act, nu, text)
)
else:
# Check if the activity is parameterized:
query = ActivityParameter.select().where(
ActivityParameter.database == act[0],
ActivityParameter.code == act[1]
)
if query.exists():
# Remove all activity parameters
Controller.delete_activity_parameter(act.key)
act.delete()
bw.databases.set_modified(act["database"])
signals.metadata_changed.emit(act.key)
signals.database_changed.emit(act["database"])
signals.databases_changed.emit()
signals.calculation_setup_changed.emit()
def test_create_activity_param(qtbot):
""" Create several activity parameters.
TODO: Figure out some way of performing a drag action between tables.
Use method calls for now.
Until the above is implemented, take shortcuts and don't check db validity
"""
project_db_tab = ParameterDefinitionTab()
qtbot.addWidget(project_db_tab)
project_db_tab.build_tables()
table = project_db_tab.activity_table
# Open the order column just because we can
col = table.COLUMNS.index("order")
assert table.isColumnHidden(col)
with qtbot.waitSignal(project_db_tab.show_order.stateChanged, timeout=1000):
qtbot.mouseClick(project_db_tab.show_order, QtCore.Qt.LeftButton)
assert not table.isColumnHidden(col)
# Create multiple parameters for a single activity
act_key = ("testdb", "act1")
for _ in range(3):
table.add_parameter(act_key)
# Test created parameters
assert ActivityParameter.select().count() == 3
# First of the multiple parameters
assert table.proxy_model.index(0, 0).data() == "act_1"
# Second of the multiple parameters
assert table.proxy_model.index(1, 0).data() == "act_2"
# The group name for the `testdb` parameters is the same.
loc = table.visualRect(table.proxy_model.index(0, 0))
qtbot.mouseClick(table.viewport(), QtCore.Qt.LeftButton, pos=loc.center())
group = table.get_current_group()
assert table.proxy_model.index(2, table.COLUMNS.index("group")).data() == group
def process_brightway_parameters() -> Iterable[tuple]:
""" Converts brightway parameters of all types into a simple structure
in order of possible dependency.
"""
return itertools.chain(
((p.name, "project", p.amount) for p in ProjectParameter.select()),
((p.name, p.database, p.amount) for p in DatabaseParameter.select()),
((p.name, p.group, p.amount) for p in ActivityParameter.select()))
def recalculate_exchanges():
""" Will iterate through all activity parameters and rerun the
formula interpretation for all exchanges.
"""
for param in ActivityParameter.select().iterator():
act = bw.get_activity((param.database, param.code))
bw.parameters.add_exchanges_to_group(param.group, act)
ActivityParameter.recalculate_exchanges(param.group)
signals.parameters_changed.emit()
def __init__(self):
self._project_params = ProjectParameter.load()
self._db_params = {
p.database: DatabaseParameter.load(p.database)
for p in DatabaseParameter.select(
DatabaseParameter.database).distinct()
}
self._act_params = {
p.group: ActivityParameter.load(p.group)
for p in ActivityParameter.select(
ActivityParameter.group).distinct()
}
self._distinct_act_params = [
p for p in
(ActivityParameter.select(ActivityParameter.group,
ActivityParameter.database).distinct())
]
self._exc_params = [p for p in ParameterizedExchange.select()]
def __init__(self, seed: Optional[int] = None):
super().__init__()
parameters = itertools.chain(ProjectParameter.select(),
DatabaseParameter.select(),
ActivityParameter.select())
self.uncertainties = UncertaintyBase.from_dicts(
*[getattr(p, "data", {}) for p in parameters])
self.mc_generator = MCRandomNumberGenerator(self.uncertainties,
seed=seed)
def recalculate_scenario(
self,
scenario_values: Iterable[float]) -> (np.ndarray, np.ndarray):
""" Convenience function that takes new parameter values and returns
a fully-formed set of exchange amounts and indices.
All parameter types are recalculated in turn before interpreting the
ParameterizedExchange formulas into amounts.
"""
self.param_values = replace_amounts(self.param_values, scenario_values)
global_project = self.recalculate_project_parameters()
all_db = {}
for p in DatabaseParameter.select(
DatabaseParameter.database).distinct():
db = self.recalculate_database_parameters(p.database,
global_project)
all_db[p.database] = {x: y for x, y in db.items()} if db else {}
complete_data = []
complete_indices = []
for p in ActivityParameter.select(
ActivityParameter.group,
ActivityParameter.database).distinct():
combination = {x: y
for x, y in global_project.items()
} if global_project else {}
combination.update(all_db.get(p.database, {}))
act = self.recalculate_activity_parameters(p.group, combination)
combination.update(act)
recalculated = self.recalculate_exchanges(
p.group, global_params=combination)
# If the parameter group contains no ParameterizedExchanges, skip.
if not recalculated:
continue
# `data` contains the recalculated amounts for the exchanges.
ids, data = zip(*recalculated)
indices = []
for pk in ids:
exc = ExchangeDataset.get_by_id(pk)
input_key = (exc.input_database, exc.input_code)
output_key = (exc.output_database, exc.output_code)
if exc.input_database == bw.config.biosphere:
indices.append((input_key, output_key, "biosphere"))
else:
indices.append((input_key, output_key, "technosphere"))
complete_data.extend(data)
complete_indices.extend(indices)
# After recalculating all the exchanges and adding all samples and indices
# to lists, format them according to presamples requirements:
# eg: samples as a column of floats and indices as a row of tuples.
samples = np.array(complete_data)
samples = samples.reshape(1, -1).T
indices = np.array(complete_indices)
return samples, indices
def from_bw_parameters(cls) -> 'Parameters':
"""Construct a Parameters list from brightway2 parameters."""
return cls(chain(
(Parameter(p.name, "project", p.amount, "project")
for p in ProjectParameter.select()),
(Parameter(p.name, p.database, p.amount, "database")
for p in DatabaseParameter.select()),
(Parameter(p.name, p.group, p.amount, "activity")
for p in ActivityParameter.select()),
))
def get_activity_groups(self, proxy, ignore_groups: list = None):
""" Helper method to look into the Group and determine which if any
other groups the current activity can depend on
"""
db = self.get_key(proxy)[0]
ignore_groups = [] if ignore_groups is None else ignore_groups
return (param.group for param in (
ActivityParameter.select(ActivityParameter.group).where(
ActivityParameter.database == db).distinct())
if param.group not in ignore_groups)
def get_usable_parameters():
""" Include all types of parameters.
NOTE: This method does not take into account which formula is being
edited, and therefore does not restrict which database or activity
parameters are returned.
"""
database = DataBaseParameterTable.get_usable_parameters()
activity = ([p.name, p.amount, "activity ({})".format(p.group)]
for p in ActivityParameter.select())
return itertools.chain(database, activity)
def sync(self, *args, **kwargs) -> None:
self.beginResetModel()
self.root.clear()
self.endResetModel()
self._data.update({
"project": ProjectParameter.select().iterator(),
"database": DatabaseParameter.select().iterator(),
"activity": ActivityParameter.select().iterator(),
})
self.setup_model_data()
self.updated.emit()
def get_activity_parameters(self, act):
data = [
o.dict
for o in ActivityParameter.select().where(
ActivityParameter.database == act[0], ActivityParameter.code == act[1],
)
]
if not data:
return {}
dct = self.order_dicts(data, "parameter")
dct["group"] = ActivityParameter.get(database=act[0], code=act[1],).group
return dct
def delete_activity_parameter(key: tuple) -> None:
"""Remove all activity parameters and underlying exchange parameters
for the given key.
"""
query = ActivityParameter.select(ActivityParameter.group).where(
ActivityParameter.database == key[0],
ActivityParameter.code == key[1],
)
for p in query.iterator():
bw.parameters.remove_from_group(p.group, key)
bw.parameters.recalculate()
signals.parameters_changed.emit()
def build_df(cls):
""" Build a dataframe using the ActivityParameters set in brightway
"""
data = [
cls.parse_parameter(p)
for p in (ActivityParameter.select(ActivityParameter, Group.order).
join(Group, on=(ActivityParameter.group == Group.name
)).namedtuples())
]
df = pd.DataFrame(data, columns=cls.combine_columns())
# Convert the 'order' column from list into string
df["order"] = df["order"].apply(", ".join)
return df
def sync(self) -> None:
""" Build a dataframe using the ActivityParameters set in brightway
"""
generate = (self.parse_parameter(p) for p in (
ActivityParameter.select(ActivityParameter, Group.order).join(
Group, on=(
ActivityParameter.group == Group.name)).namedtuples()))
data = [x for x in generate if "key" in x]
self._dataframe = pd.DataFrame(data, columns=self.columns())
# Convert the 'order' column from list into string
self._dataframe["order"] = self._dataframe["order"].apply(", ".join)
self.group_col = self._dataframe.columns.get_loc("group")
self.param_col = self._dataframe.columns.get_loc("parameter")
self.key_col = self._dataframe.columns.get_loc("key")
self.order_col = self._dataframe.columns.get_loc("order")
self.updated.emit()
def parameterize_exchanges(self, key: tuple) -> None:
""" Used whenever a formula is set on an exchange in an activity.
If no `ActivityParameter` exists for the key, generate one immediately
"""
group = bc.build_activity_group_name(key)
if not (ActivityParameter.select()
.where(ActivityParameter.group == group).count()):
ActivityParameterTable.add_parameter(key)
act = bw.get_activity(key)
with bw.parameters.db.atomic():
bw.parameters.remove_exchanges_from_group(group, act)
bw.parameters.add_exchanges_to_group(group, act)
ActivityParameter.recalculate_exchanges(group)
signals.parameters_changed.emit()
def clear_broken_activity_parameter(database: str, code: str, group: str) -> None:
"""Take the given information and attempt to remove all of the
downstream parameter information.
"""
with bw.parameters.db.atomic() as txn:
bw.parameters.remove_exchanges_from_group(group, None, False)
ActivityParameter.delete().where(
ActivityParameter.database == database,
ActivityParameter.code == code
).execute()
# Do commit to ensure .exists() call does not include deleted params
txn.commit()
exists = (ActivityParameter.select()
.where(ActivityParameter.group == group)
.exists())
if not exists:
# Also clear Group if it is not in use anymore
Group.delete().where(Group.name == group).execute()
def add_parameter(self, key: tuple) -> None:
""" Given the activity key, generate a new row with data from
the activity and immediately call `new_activity_parameters`.
"""
act = bw.get_activity(key)
prep_name = bc.clean_activity_name(act.get("name"))
group = bc.build_activity_group_name(key, prep_name)
count = (ActivityParameter.select().where(
ActivityParameter.group == group).count())
row = {
"name": "{}_{}".format(prep_name, count + 1),
"amount": act.get("amount", 1.0),
"formula": act.get("formula", ""),
"database": key[0],
"code": key[1],
}
# Save the new parameter immediately.
bw.parameters.new_activity_parameters([row], group)
signals.parameters_changed.emit()
def test_database_delete_parameters():
db = DatabaseChooser("example")
db.register()
a = db.new_activity(code="A", name="An activity")
a.save()
b = db.new_activity(code="B", name="Another activity")
b.save()
a.new_exchange(amount=0, input=b, type="technosphere", formula="foo * bar + 4").save()
database_data = [{
'name': 'red',
'formula': '(blue ** 2) / 5',
}, {
'name': 'blue',
'amount': 12
}]
parameters.new_database_parameters(database_data, "example")
activity_data = [{
'name': 'reference_me',
'formula': 'sqrt(red - 20)',
'database': 'example',
'code': "B",
}, {
'name': 'bar',
'formula': 'reference_me + 2',
'database': 'example',
'code': "A",
}]
parameters.new_activity_parameters(activity_data, "my group")
parameters.add_exchanges_to_group("my group", a)
assert ActivityParameter.select().count() == 2
assert ParameterizedExchange.select().count() == 1
assert DatabaseParameter.select().count() == 2
assert len(parameters) == 4
del databases['example']
assert not len(parameters)
assert not ParameterizedExchange.select().count()
def delete_activity_parameter(key: tuple) -> None:
"""Remove all activity parameters and underlying exchange parameters
for the given activity key.
"""
query = (ActivityParameter
.select(ActivityParameter.group)
.where((ActivityParameter.database == key[0]) &
(ActivityParameter.code == key[1]))
.tuples())
if not query.exists():
return
groups = set(p[0] for p in query)
for group in groups:
bw.parameters.remove_from_group(group, key)
exists = (ActivityParameter.select()
.where(ActivityParameter.group == group)
.exists())
if not exists:
Group.delete().where(Group.name == group).execute()
bw.parameters.recalculate()
signals.parameters_changed.emit()
def sync(self) -> None:
self.data.update({
"project": ProjectParameter.select().iterator(),
"database": DatabaseParameter.select().iterator(),
"activity": ActivityParameter.select().iterator(),
})
