def _format_selector(self, selector):
"""Programable get_type_ret.
Parameters
----------
selector: tuple, np.ndarray, None or others
the selector information to choose retriever.
"""
if selector is None:
self.get_type_ret = self._general_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_general
elif type(selector) == tuple:
self.selector = selector
self.get_type_ret = self._static_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_constant
else:
self.selector = Spatial_RetrieverSelector(selector)
self.get_type_ret = self._selector_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_variable
self.selector.assert_correctness(self)
class RetrieverManager:
"""Retreiver of elements given other elements and only considering the
information of the non-retrivable elements.
There are different retriavables objects and different inputs.
See also
--------
pst.FeaturesManagement.FeaturesManager
"""
__name__ = 'pySpatialTools.RetrieverManager'
typeret = 'manager'
def _initialization(self):
"""Mutable globals reset."""
## Elements information
self.k_perturb = 0
self.retrievers = []
self.n_inputs = 0
self.staticneighs = True
self.selector = (0, 0)
self._preferent_ret = 0
def __init__(self, retrievers, selector_retriever=None):
self._initialization()
self._format_retrievers(retrievers)
self._format_selector(selector_retriever)
def __len__(self):
"""Number of retrievers which are in this manager."""
return len(self.retrievers)
def __getitem__(self, i_ret):
"""Get the `i_ret` retriever."""
if i_ret < 0 or i_ret >= len(self.retrievers):
raise IndexError("Not correct index for features.")
return self.retrievers[i_ret]
def set_iter(self, ret_pre):
"""Set preferent retriever."""
self._preferent_ret = ret_pre
def __iter__(self):
"""It assumes preferent retriever 0."""
## If constant selected retriever
if type(self._preferent_ret) == int:
for neighs_info in self[self._preferent_ret]:
yield neighs_info
else:
pass
############################ Retriever functions ##########################
###########################################################################
def _retrieve_neighs_constant(self, i, typeret_i=None):
"""Retrieve neighbourhood under conditions of ifdistance or others
interior parameters. Constant typeret_i assumption.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
neighs_info: pst.Neighs_Info
the neighborhood information.
"""
typeret_i, out_ret = self.get_type_ret(i, typeret_i)
neighs_info =\
self.retrievers[typeret_i].retrieve_neighs(i, output=out_ret)
return neighs_info
def _retrieve_neighs_variable(self, i, typeret_i=None):
"""Retrieve neighbourhood under conditions of ifdistance or others
interior parameters. Variable typeret_i assumption.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
neighs_info: pst.Neighs_Info
the neighborhood information.
"""
typeret_i, out_ret = self.get_type_ret(i, typeret_i)
i = [i] if type(i) in inttypes else i
typeret_i = [typeret_i] if type(typeret_i) != list else typeret_i
out_ret = [out_ret] if type(out_ret) != list else out_ret
neighs = []
for j in range(len(typeret_i)):
neighs_info = self.retrievers[typeret_i[j]].\
retrieve_neighs(i[j], output=out_ret[j])
neighs.append(neighs_info)
neighs_info = join_by_iss(neighs)
return neighs_info
def _retrieve_neighs_general(self, i, typeret_i=None):
"""Retrieve neighbourhood under conditions of ifdistance or others
interior parameters. No typeret_i assumption.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
neighs_info: pst.Neighs_Info
the neighborhood information.
"""
typeret_i, out_ret = self.get_type_ret(i, typeret_i)
if type(typeret_i) == list:
i = [i] if type(i) in inttypes else i
neighs = []
for j in range(len(typeret_i)):
neighs_info = self.retrievers[typeret_i[j]].\
retrieve_neighs(i[j], output=out_ret[j])
neighs.append(neighs_info)
neighs_info = join_by_iss(neighs)
else:
neighs_info =\
self.retrievers[typeret_i].retrieve_neighs(i, output=out_ret)
return neighs_info
def compute_nets(self, kret=None):
"""Compute all the possible relations if there is a common
(homogeneous) ouput.
Parameters
----------
kret: int, list or None (default)
the id of the retrievers we want to get their spatial networks
"""
## Check that match conditions (TODO)
## Format kret
kret = range(len(self.retrievers)) if kret is None else kret
kret = [kret] if type(kret) == int else kret
## Compute
nets = []
for r in kret:
nets.append(self.retrievers[r].compute_neighnets(self.selector))
return nets
######################### Auxiliar administrative #########################
###########################################################################
def add_retrievers(self, retrievers):
"""Add new retrievers.
Parameters
----------
retrievers: list, pst.BaseRetriever
the retrievers we want to input to that manager.
"""
self._format_retrievers(retrievers)
def set_neighs_info(self, bool_input_idx):
"""Setting the neighs info of the retrievers.
Parameters
----------
bool_input_idx: boolean or None
if the input is going to be indices or in the case of false,
the whole spatial information.
"""
for i in range(len(self)):
self.retrievers[i]._format_neighs_info(bool_input_idx)
def set_selector(self, selector):
"""Set a common selector in order to not depend on continous external
orders.
Parameters
----------
selector: tuple, np.ndarray, None or others
the selector information to choose retriever.
"""
self._format_selector(selector)
################################ Formatters ###############################
###########################################################################
def _format_retrievers(self, retrievers):
"""Format the retrievers.
Parameters
----------
retrievers: list, pst.BaseRetriever
the retrievers we want to input to that manager.
"""
if type(retrievers) == list:
self.retrievers += retrievers
elif retrievers.__name__ == 'pySpatialTools.BaseRetriever':
self.retrievers.append(retrievers)
elif not(type(retrievers) == list):
raise TypeError("Incorrect type. Not retrievers list.")
## WARNING: By default it is determined by the first retriever
ret_n_inputs = [len(self.retrievers[i]) for i in range(len(self))]
assert(all([len(self.retrievers[0]) == r for r in ret_n_inputs]))
assert(all([self.retrievers[0].k_perturb == r.k_perturb
for r in self.retrievers]))
self.k_perturb = self.retrievers[0].k_perturb
self.n_inputs = len(self.retrievers[0])
self._format_staticneighs()
def _format_staticneighs(self):
"""Format staticneighs."""
## Set staticneighs
n_ret = len(self.retrievers)
self.staticneighs = self[0].staticneighs
aux = [self[i].staticneighs == self.staticneighs for i in range(n_ret)]
assert(aux)
def _format_k_perturbs(self):
"""Format perturbations. Assert all have the same number of
perturbations.
"""
## 1. Format kperturb
kp = self[0].k_perturb
k_rei_bool = [self[i].k_perturb == kp for i in range(len(self))]
# Check k perturbations
if not all(k_rei_bool):
msg = "Not all the retriever objects have the same perturbations."
raise Exception(msg)
self.k_perturb = kp
def _format_selector(self, selector):
"""Programable get_type_ret.
Parameters
----------
selector: tuple, np.ndarray, None or others
the selector information to choose retriever.
"""
if selector is None:
self.get_type_ret = self._general_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_general
elif type(selector) == tuple:
self.selector = selector
self.get_type_ret = self._static_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_constant
else:
self.selector = Spatial_RetrieverSelector(selector)
self.get_type_ret = self._selector_get_type_ret
self.retrieve_neighs = self._retrieve_neighs_variable
self.selector.assert_correctness(self)
################################# Type_ret ################################
###########################################################################
## Formatting the selection of path from i information.
##
## See also:
## ---------
## pst.FeaturesManager
#########################
def _general_get_type_ret(self, i, typeret_i=None):
"""Interaction with the selector. Using upside information of selection
or the own selector the manager owns.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
typeret_i: int
the retriever we want to use.
out_ret: int
the out retriever we want to use.
"""
if typeret_i is None:
typeret_i, out_ret = self.selector
else:
if type(i) == list:
typeret_input = typeret_i
## TOMOVE to selectors
typeret_i, out_ret = [], []
for j in range(len(i)):
typeret_i.append(typeret_input[j][0])
out_ret.append(typeret_input[j][1])
else:
typeret_i, out_ret = typeret_i
return typeret_i, out_ret
def _static_get_type_ret(self, i, typeret_i=None):
"""Interaction with the selector. Using upside information of selection
or the own selector the manager owns.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
typeret_i: int
the retriever we want to use.
out_ret: int
the out retriever we want to use.
"""
typeret_i, out_ret = self.selector
return typeret_i, out_ret
def _selector_get_type_ret(self, i, typeret_i=None):
"""Get information only from selector.
Parameters
----------
i: int
the element id.
typeret_i: tuple, np.ndarray or None (default)
the selector of the retrievers we want to use.
Returns
-------
typeret_i: int
the retriever we want to use.
out_ret: int
the out retriever we want to use.
"""
selection = format_selection(self.selector[i])
typeret_i, out_ret = selection
return typeret_i, out_ret
######################## Perturbation management ##########################
###########################################################################
def add_perturbations(self, perturbations):
"""Adding perturbations to retrievers.
Parameters
----------
perturbations: pst.BasePerturbation
setting the perturbation information.
"""
for i_ret in range(len(self.retrievers)):
self.retrievers[i_ret].add_perturbations(perturbations)
## Update staticneighs
self._format_staticneighs()
self._format_k_perturbs()
######################### Aggregation management ##########################
###########################################################################
def add_aggregations(self, aggregation_info):
"""Add aggregations to retrievers. Only it is useful this function if
there is only one retriever previously and we are aggregating the first
one.
Parameters
----------
aggregation_info: tuple or pst.BaseRetriever
the information to create a retriever aggregation.
"""
if isinstance(aggregation_info, BaseRetriever):
self.retrievers.append(aggregation_info)
else:
retriever = create_aggretriever(aggregation_info)
self.retrievers.append(retriever)
