def run(self, input_source):
''' Executes a default predicton workflow '''
# path to endpoint
# path to endpoint
endpoint = utils.model_path(self.model, self.version)
if not os.path.isdir(endpoint):
self.conveyor.setError(f'Unable to find model {self.model}, version {self.version}')
#LOG.error(f'Unable to find model {self.model}')
if not self.conveyor.getError():
# uses the child classes within the 'model' folder,
# to allow customization of
# the processing applied to each model
modpath = utils.module_path(self.model, self.version)
idata_child = importlib.import_module(modpath+".idata_child")
apply_child = importlib.import_module(modpath+".apply_child")
odata_child = importlib.import_module(modpath+".odata_child")
# run idata object, in charge of generate model data from input
try:
idata = idata_child.IdataChild(self.param, self.conveyor, input_source)
except:
LOG.warning ('Idata child architecture mismatch, defaulting to Idata parent')
idata = Idata(self.param, self.conveyor, input_source)
idata.run()
LOG.debug(f'idata child {type(idata).__name__} completed `run()`')
if not self.conveyor.getError():
# make sure there is X data
if not self.conveyor.isKey('xmatrix'):
LOG.debug(f'Failed to compute MDs')
self.conveyor.setError(f'Failed to compute MDs')
if not self.conveyor.getError():
# run apply object, in charge of generate a prediction from idata
try:
apply = apply_child.ApplyChild(self.param, self.conveyor)
except:
LOG.warning ('Apply child architecture mismatch, defaulting to Apply parent')
apply = Apply(self.param, self.conveyor)
apply.run()
LOG.debug(f'apply child {type(apply).__name__} completed `run()`')
# run odata object, in charge of formatting the prediction results
# note that if any of the above steps failed, an error has been inserted in the
# conveyor and odata will take case of showing an error message
try:
odata = odata_child.OdataChild(self.param, self.conveyor)
except:
LOG.warning ('Odata child architecture mismatch, defaulting to Odata parent')
odata = Odata(self.param, self.conveyor)
return odata.run()
def run(self, param_dict):
''' Executes a default predicton workflow '''
metric = None
numsel = None
cutoff = None
# path to endpoint
epd = utils.space_path(self.space, self.version)
if not os.path.isdir(epd):
LOG.error(f'Unable to find space {self.space}')
self.conveyor.setError(f'Unable to find space {self.space}, version {self.version}')
if self.getVal(param_dict,'smarts') is not None:
input_source = param_dict['smarts']
self.param.setVal('input_type', 'smarts')
elif self.getVal(param_dict,'infile') is not None:
input_source = param_dict['infile']
else:
LOG.error(f'Unable to find input_file')
self.conveyor.setError('wrong format in the runtime similarity parameters')
if 'runtime_param' in param_dict:
runtime_param = self.getVal(param_dict, 'runtime_param')
if runtime_param is not None:
LOG.info (f'runtime parameters: {str(runtime_param)}')
try:
with open(runtime_param, 'r') as pfile:
rtparam = yaml.safe_load(pfile)
try:
metric = rtparam['similarity_metric']
numsel = rtparam['similarity_cutoff_num']
cutoff = rtparam['similarity_cutoff_distance']
except:
LOG.error('wrong format in the runtime similarity parameters')
self.conveyor.setError('wrong format in the runtime similarity parameters')
except:
LOG.error('runtime similarity parameter file not found')
self.conveyor.setError('runtime similarity parameter file not found')
else:
try:
metric = param_dict['metric']
numsel = param_dict['numsel']
cutoff = param_dict['cutoff']
except:
LOG.error('wrong format in the runtime similarity parameters')
self.conveyor.setError('wrong format in the runtime similarity parameters')
md = self.param.getVal('computeMD_method')
if utils.isFingerprint(md) and len(md) > 1:
LOG.warning(f'When using fingerprints, only a single type of MD can be used to build spaces. Selecting {md[0]}')
self.conveyor.setWarning(f'When using fingerprints, only a single type of MD can be used to build spaces. Selecting {md[0]}')
self.param.setVal('computeMD_method',[md[0]])
if not self.conveyor.getError():
# uses the child classes within the 'space' folder,
# to allow customization of
# the processing applied to each space
modpath = utils.smodule_path(self.space, self.version)
idata_child = importlib.import_module(modpath+".idata_child")
sapply_child = importlib.import_module(modpath+".sapply_child")
odata_child = importlib.import_module(modpath+".odata_child")
# run idata object, in charge of generate space data from input
try:
idata = idata_child.IdataChild(self.param, self.conveyor, input_source)
except:
LOG.warning ('Idata child architecture mismatch, defaulting to Idata parent')
idata = Idata(self.param, self.conveyor, input_source)
idata.run()
LOG.debug(f'idata child {type(idata).__name__} completed `run()`')
if not self.conveyor.getError():
# make sure there is X data
if not self.conveyor.isKey('xmatrix'):
if not self.conveyor.isKey ('SMARTS'):
LOG.debug(f'Failed to compute MDs')
self.conveyor.setError(f'Failed to compute MDs')
if not self.conveyor.getError():
# run apply object, in charge of generate a prediction from idata
try:
sapply = sapply_child.SapplyChild(self.param, self.conveyor)
except:
LOG.warning ('Sapply child architecture mismatch, defaulting to Sapply parent')
sapply = Sapply(self.param, self.conveyor)
sapply.run(cutoff, numsel, metric)
LOG.debug(f'sapply child {type(sapply).__name__} completed `run()`')
# run odata object, in charge of formatting the prediction results
# note that if any of the above steps failed, an error has been inserted in the
# conveyor and odata will take case of showing an error message
try:
odata = odata_child.OdataChild(self.param, self.conveyor)
except:
LOG.warning ('Odata child architecture mismatch, defaulting to Odata parent')
odata = Odata(self.param, self.conveyor)
return odata.run()
def run(self, input_source):
''' Executes a default predicton workflow '''
# path to endpoint
endpoint = utils.model_path(self.model, self.version)
# if not os.path.isdir(endpoint):
# self.conveyor.setError(f'Unable to find model {self.model}, version {self.version}')
# #LOG.error(f'Unable to find model {self.model}')
# if not self.conveyor.getError():
# uses the child classes within the 'model' folder,
# to allow customization of
# the processing applied to each model
modpath = utils.module_path(self.model, self.version)
idata_child = importlib.import_module(modpath+".idata_child")
apply_child = importlib.import_module(modpath+".apply_child")
odata_child = importlib.import_module(modpath+".odata_child")
# run idata object, in charge of generate model data from input
try:
idata = idata_child.IdataChild(self.param, self.conveyor, input_source)
except:
LOG.warning ('Idata child architecture mismatch, defaulting to Idata parent')
idata = Idata(self.param, self.conveyor, input_source)
idata.run()
LOG.debug(f'idata child {type(idata).__name__} completed `run()`')
if not self.conveyor.getError():
success, results = idata.preprocess_apply()
if not success:
self.conveyor.setError(results)
if not self.conveyor.getError():
# make sure there is X data
if not self.conveyor.isKey('xmatrix'):
LOG.debug(f'Failed to compute MDs')
self.conveyor.setError(f'Failed to compute MDs')
# for secret models avoid searching similar compounds
space_pkl = os.path.join(endpoint,'space.pkl')
if not os.path.isfile(space_pkl):
self.param.setVal('output_similar', False)
if not self.conveyor.getError():
if self.param.getVal('output_similar') is True:
from flame.sapply import Sapply
metric = self.param.getVal('similarity_metric')
numsel = self.param.getVal('similarity_cutoff_num')
cutoff = self.param.getVal('similarity_cutoff_distance')
# sapply = Sapply(self.param, self.conveyor)
sapply_child = importlib.import_module(modpath+".sapply_child")
# run apply object, in charge of generate a prediction from idata
try:
sapply = sapply_child.SapplyChild(self.param, self.conveyor)
except:
LOG.warning ('Sapply child architecture mismatch, defaulting to Sapply parent')
sapply = Sapply(self.param, self.conveyor)
sapply.run(cutoff, numsel, metric)
LOG.debug(f'sapply child {type(sapply).__name__} completed `run()`')
if not self.conveyor.getError():
# run apply object, in charge of generate a prediction from idata
try:
apply = apply_child.ApplyChild(self.param, self.conveyor)
except:
LOG.warning ('Apply child architecture mismatch, defaulting to Apply parent')
apply = Apply(self.param, self.conveyor)
apply.run()
LOG.debug(f'apply child {type(apply).__name__} completed `run()`')
# run odata object, in charge of formatting the prediction results
# note that if any of the above steps failed, an error has been inserted in the
# conveyor and odata will take case of showing an error message
try:
odata = odata_child.OdataChild(self.param, self.conveyor)
except:
LOG.warning ('Odata child architecture mismatch, defaulting to Odata parent')
odata = Odata(self.param, self.conveyor)
return odata.run()
def run(self, input_source):
''' Executes a default predicton workflow '''
# path to endpoint
epd = utils.model_path(self.model, 0)
if not os.path.isdir(epd):
self.conveyor.setError(f'Unable to find model {self.model}')
#LOG.error(f'Unable to find model {self.model}')
# import ichild classes
if not self.conveyor.getError():
# uses the child classes within the 'model' folder,
# to allow customization of the processing applied to each model
modpath = utils.module_path(self.model, 0)
idata_child = importlib.import_module(modpath + ".idata_child")
learn_child = importlib.import_module(modpath + ".learn_child")
odata_child = importlib.import_module(modpath + ".odata_child")
# run idata object, in charge of generate model data from input
try:
idata = idata_child.IdataChild(self.param, self.conveyor,
input_source)
except:
LOG.warning(
'Idata child architecture mismatch, defaulting to Idata parent'
)
idata = Idata(self.param, self.conveyor, input_source)
idata.run()
LOG.debug(f'idata child {type(idata).__name__} completed `run()`')
if not self.conveyor.getError():
# check there is a suitable X and Y
if not self.conveyor.isKey('xmatrix'):
self.conveyor.setError(f'Failed to compute MDs')
if not self.conveyor.isKey('ymatrix'):
self.conveyor.setError(
f'No activity data (Y) found in training series')
if not self.conveyor.getError():
# instantiate learn (build a model from idata) and run it
learn = learn_child.LearnChild(self.param, self.conveyor)
learn.run()
try:
learn = learn_child.LearnChild(self.param, self.conveyor)
except:
LOG.warning(
'Learn child architecture mismatch, defaulting to Learn parent'
)
learn = Learn(self.param, self.conveyor)
LOG.debug(f'learn child {type(learn).__name__} completed `run()`')
# run odata object, in charge of formatting the prediction results
# note that if any of the above steps failed, an error has been inserted in the
# conveyor and odata will take case of showing an error message
try:
odata = odata_child.OdataChild(self.param, self.conveyor)
except:
LOG.warning(
'Odata child architecture mismatch, defaulting to Odata parent'
)
odata = Odata(self.param, self.conveyor)
return odata.run()
def run(self, input_source):
''' Executes a default chemical space building workflow '''
# path to endpoint
epd = utils.space_path(self.space, 0)
if not os.path.isdir(epd):
self.conveyor.setError(f'Unable to find space {self.space}')
#LOG.error(f'Unable to find space {self.space}')
# import ichild classes
if not self.conveyor.getError():
# uses the child classes within the 'space' folder,
# to allow customization of the processing applied to each space
modpath = utils.smodule_path(self.space, 0)
idata_child = importlib.import_module(modpath + ".idata_child")
slearn_child = importlib.import_module(modpath + ".slearn_child")
odata_child = importlib.import_module(modpath + ".odata_child")
# run idata object, in charge of generate space data from input
try:
idata = idata_child.IdataChild(self.param, self.conveyor,
input_source)
except:
LOG.warning(
'Idata child architecture mismatch, defaulting to Idata parent'
)
idata = Idata(self.param, self.conveyor, input_source)
idata.run()
LOG.debug(f'idata child {type(idata).__name__} completed `run()`')
if not self.conveyor.getError():
success, results = idata.preprocess_create()
if not success:
self.conveyor.setError(results)
if not self.conveyor.getError():
# check there is a suitable X and Y
if not self.conveyor.isKey('xmatrix'):
self.conveyor.setError(f'Failed to compute MDs')
if not self.conveyor.getError():
# instantiate learn (build a space from idata) and run it
try:
slearn = slearn_child.SlearnChild(self.param, self.conveyor)
except:
LOG.warning(
'Slearn child architecture mismatch, defaulting to Learn parent'
)
slearn = Slearn(self.param, self.conveyor)
slearn.run()
LOG.debug(
f'slearn child {type(slearn).__name__} completed `run()`')
# run odata object, in charge of formatting the prediction results
# note that if any of the above steps failed, an error has been inserted in the
# conveyor and odata will take case of showing an error message
try:
odata = odata_child.OdataChild(self.param, self.conveyor)
except:
LOG.warning(
'Odata child architecture mismatch, defaulting to Odata parent'
)
odata = Odata(self.param, self.conveyor)
return odata.run()
def __init__(self, parameters, results):
Odata.__init__(self, parameters, results)
def __init__(self, parameters, conveyor):
Odata.__init__(self, parameters, conveyor)
def __init__(self, control, results):
Odata.__init__(self, control, results)
