/
Types.py
1655 lines (1551 loc) · 66.4 KB
/
Types.py
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from __future__ import absolute_import
from .Mixins import PrintOptions, _SimpleParameterTypeBase, _ParameterTypeBase, _Parameterizable, _ConfigureComponent, _Labelable, _TypedParameterizable, _Unlabelable, _modifyParametersFromDict
from .Mixins import _ValidatingParameterListBase, specialImportRegistry
from .Mixins import saveOrigin
from .ExceptionHandling import format_typename, format_outerframe
from past.builtins import long
import codecs
import copy
import math
import six
from six.moves import builtins
class _Untracked(object):
"""Class type for 'untracked' to allow nice syntax"""
__name__ = "untracked"
@staticmethod
def __call__(param):
"""used to set a 'param' parameter to be 'untracked'"""
param.setIsTracked(False)
return param
def __getattr__(self,name):
"""A factory which allows syntax untracked.name(value) to construct an
instance of 'name' class which is set to be untracked"""
if name == "__bases__": raise AttributeError # isclass uses __bases__ to recognize class objects
class Factory(object):
def __init__(self,name):
self.name = name
def __call__(self,*value,**params):
param = globals()[self.name](*value,**params)
return _Untracked.__call__(param)
return Factory(name)
untracked = _Untracked()
class int32(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return isinstance(value,int)
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
if len(value) >1 and '0x' == value[:2]:
return int32(int(value,16))
return int32(int(value))
def insertInto(self, parameterSet, myname):
parameterSet.addInt32(self.isTracked(), myname, self.value())
def __nonzero__(self):
return self.value()!=0
class uint32(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return ((isinstance(value,int) and value >= 0) or
(isinstance(value,long) and value >= 0) and value <= 0xFFFFFFFF)
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
if len(value) >1 and '0x' == value[:2]:
return uint32(long(value,16))
return uint32(long(value))
def insertInto(self, parameterSet, myname):
parameterSet.addUInt32(self.isTracked(), myname, self.value())
def __nonzero__(self):
return self.value()!=0
class int64(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return isinstance(value,int) or (
isinstance(value,long) and
(-0x7FFFFFFFFFFFFFFF < value <= 0x7FFFFFFFFFFFFFFF) )
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
if len(value) >1 and '0x' == value[:2]:
return uint32(long(value,16))
return int64(long(value))
def insertInto(self, parameterSet, myname):
parameterSet.addInt64(self.isTracked(), myname, self.value())
def __nonzero__(self):
return self.value()!=0
class uint64(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return ((isinstance(value,int) and value >= 0) or
(isinstance(value,long) and value >= 0) and value <= 0xFFFFFFFFFFFFFFFF)
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
if len(value) >1 and '0x' == value[:2]:
return uint32(long(value,16))
return uint64(long(value))
def insertInto(self, parameterSet, myname):
parameterSet.addUInt64(self.isTracked(), myname, self.value())
def __nonzero__(self):
return self.value()!=0
class double(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return isinstance(value, (int, long, float))
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
return double(float(value))
def insertInto(self, parameterSet, myname):
parameterSet.addDouble(self.isTracked(), myname, float(self.value()))
def __nonzero__(self):
return self.value()!=0.
def configValue(self, options=PrintOptions()):
return double._pythonValue(self._value)
@staticmethod
def _pythonValue(value):
if math.isinf(value):
if value > 0:
return "float('inf')"
else:
return "-float('inf')"
if math.isnan(value):
return "float('nan')"
return str(value)
class bool(_SimpleParameterTypeBase):
@staticmethod
def _isValid(value):
return (isinstance(value,type(False)) or isinstance(value,type(True)))
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
if value.lower() in ('true', 't', 'on', 'yes', '1'):
return bool(True)
if value.lower() in ('false','f','off','no', '0'):
return bool(False)
try:
return bool(builtins.bool(eval(value)))
except:
pass
raise RuntimeError('can not make bool from string '+value)
def insertInto(self, parameterSet, myname):
parameterSet.addBool(self.isTracked(), myname, self.value())
def __nonzero__(self):
return self.value()
def __bool__(self):
return self.__nonzero__()
class string(_SimpleParameterTypeBase):
def __init__(self,value):
super(string,self).__init__(value)
@staticmethod
def _isValid(value):
return isinstance(value,type(''))
def configValue(self, options=PrintOptions()):
return self.formatValueForConfig(self.value())
def pythonValue(self, options=PrintOptions()):
return self.configValue(options)
@staticmethod
def formatValueForConfig(value):
l = len(value)
import sys
if sys.version_info >= (3, 0): #python2 and python3 are different due to byptes vs strings
import codecs
t=codecs.escape_encode(value.encode('utf-8'))
value = t[0].decode('utf-8')
else: #be conservative and don't change the python2 version
value = value.encode("string-escape")
newL = len(value)
if l != newL:
#get rid of the hex encoding
value=value.replace('\\x0','\\')
if "'" in value:
return '"'+value+'"'
return "'"+value+"'"
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
return string(value)
def insertInto(self, parameterSet, myname):
value = self.value()
# doesn't seem to handle \0 correctly
#if value == '\0':
# value = ''
parameterSet.addString(self.isTracked(), myname, value)
def __nonzero__(self):
return len(self.value()) !=0
class EventID(_ParameterTypeBase):
def __init__(self, run, *args):
super(EventID,self).__init__()
if isinstance(run, str):
self.__run = self._valueFromString(run).__run
self.__luminosityBlock = self._valueFromString(run).__luminosityBlock
self.__event = self._valueFromString(run).__event
else:
self.__run = run
if len(args) == 1:
self.__luminosityBlock = 0
self.__event = args[0]
elif len(args) == 2:
self.__luminosityBlock = args[0]
self.__event = args[1]
else:
raise RuntimeError('EventID ctor must have 2 or 3 arguments')
def run(self):
return self.__run
def luminosityBlock(self):
return self.__luminosityBlock
def event(self):
return self.__event
@staticmethod
def _isValid(value):
return True
@staticmethod
def _valueFromString(value):
parts = value.split(":")
run = parts[0]
try:
lumi = parts[1]
event = parts[2]
except IndexError:
lumi = 0
event = parts[1]
return EventID(int(run), int(lumi), int(event))
def pythonValue(self, options=PrintOptions()):
return str(self.__run)+ ', '+str(self.__luminosityBlock)+ ', '+str(self.__event)
def cppID(self, parameterSet):
return parameterSet.newEventID(self.run(), self.luminosityBlock(), self.event())
def insertInto(self, parameterSet, myname):
parameterSet.addEventID(self.isTracked(), myname, self.cppID(parameterSet))
class LuminosityBlockID(_ParameterTypeBase):
def __init__(self, run, block=None):
super(LuminosityBlockID,self).__init__()
if isinstance(run, str):
self.__run = self._valueFromString(run).__run
self.__block = self._valueFromString(run).__block
else:
self.__run = run
self.__block = block
def run(self):
return self.__run
def luminosityBlock(self):
return self.__block
@staticmethod
def _isValid(value):
return True
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
parts = value.split(":")
return LuminosityBlockID(int(parts[0]), int(parts[1]))
def pythonValue(self, options=PrintOptions()):
return str(self.__run)+ ', '+str(self.__block)
def cppID(self, parameterSet):
return parameterSet.newLuminosityBlockID(self.run(), self.luminosityBlock())
def insertInto(self, parameterSet, myname):
parameterSet.addLuminosityBlockID(self.isTracked(), myname, self.cppID(parameterSet))
class LuminosityBlockRange(_ParameterTypeBase):
def __init__(self, start, startSub=None, end=None, endSub=None):
super(LuminosityBlockRange,self).__init__()
if isinstance(start, str):
parsed = self._valueFromString(start)
self.__start = parsed.__start
self.__startSub = parsed.__startSub
self.__end = parsed.__end
self.__endSub = parsed.__endSub
else:
self.__start = start
self.__startSub = startSub
self.__end = end
self.__endSub = endSub
if self.__end < self.__start:
raise RuntimeError('LuminosityBlockRange '+str(self.__start)+':'+str(self.__startSub)+'-'+str(self.__end)+':'+str(self.__endSub)+' out of order')
# 0 luminosity block number is a special case that means no limit
if self.__end == self.__start and (self.__endSub != 0 and self.__endSub < self.__startSub):
raise RuntimeError('LuminosityBlockRange '+str(self.__start)+':'+str(self.__startSub)+'-'+str(self.__end)+':'+str(self.__endSub)+' out of order')
def start(self):
return self.__start
def startSub(self):
return self.__startSub
def end(self):
return self.__end
def endSub(self):
return self.__endSub
@staticmethod
def _isValid(value):
return True
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
value = value.replace(' ','')
parts = value.split("-")
startParts = parts[0].split(":")
try:
endParts = parts[1].split(":")
except IndexError:
endParts = parts[0].split(":") # If just "1:2" turn into "1:2-1:2"
if startParts[1].lower() == "0":
startParts[1] = "1"
elif startParts[1].lower() == "max":
startParts[1] = "0"
elif startParts[1].lower() == "min":
startParts[1] = "1"
if endParts[1].lower() == "max":
endParts[1] = "0"
elif endParts[1].lower() == "min":
endParts[1] = "1"
return LuminosityBlockRange(int(startParts[0]), int(startParts[1]),
int(endParts[0]), int(endParts[1]))
def pythonValue(self, options=PrintOptions()):
return str(self.__start) + ', ' + str(self.__startSub) + ', ' \
+ str(self.__end) + ', ' + str(self.__endSub)
def cppID(self, parameterSet):
return parameterSet.newLuminosityBlockRange(self.start(), self.startSub(),self.end(), self.endSub())
def insertInto(self, parameterSet, myname):
parameterSet.addLuminosityBlockRange(self.isTracked(), myname, self.cppID(parameterSet))
class EventRange(_ParameterTypeBase):
def __init__(self, start, *args):
super(EventRange,self).__init__()
if isinstance(start, str):
parsed = self._valueFromString(start)
self.__start = parsed.__start
self.__startLumi = parsed.__startLumi
self.__startSub = parsed.__startSub
self.__end = parsed.__end
self.__endLumi = parsed.__endLumi
self.__endSub = parsed.__endSub
else:
self.__start = start
if len(args) == 3:
self.__startLumi = 0
self.__startSub = args[0]
self.__end = args[1]
self.__endLumi = 0
self.__endSub = args[2]
elif len(args) == 5:
self.__startLumi = args[0]
self.__startSub = args[1]
self.__end = args[2]
self.__endLumi = args[3]
self.__endSub = args[4]
else:
raise RuntimeError('EventRange ctor must have 4 or 6 arguments')
if self.__end < self.__start or (self.__end == self.__start and self.__endLumi < self.__startLumi):
raise RuntimeError('EventRange '+str(self.__start)+':'+str(self.__startLumi)+':'+str(self.__startSub)+'-'+str(self.__end)+':'+str(self.__endLumi)+':'+str(self.__endSub)+' out of order')
# 0 event number is a special case that means no limit
if self.__end == self.__start and self.__endLumi == self.__startLumi and (self.__endSub != 0 and self.__endSub < self.__startSub):
raise RuntimeError('EventRange '+str(self.__start)+':'+str(self.__startLumi)+':'+str(self.__startSub)+'-'+str(self.__end)+':'+str(self.__endLumi)+':'+str(self.__endSub)+' out of order')
def start(self):
return self.__start
def startLumi(self):
return self.__startLumi
def startSub(self):
return self.__startSub
def end(self):
return self.__end
def endLumi(self):
return self.__endLumi
def endSub(self):
return self.__endSub
@staticmethod
def _isValid(value):
return True
@staticmethod
def _valueFromString(value):
"""only used for cfg-parsing"""
value = value.replace(' ','')
parts = value.split("-")
startParts = parts[0].split(":")
try:
endParts = parts[1].split(":")
except IndexError:
endParts = parts[0].split(":") # If just "1:2" turn into "1:2-1:2"
brun = startParts[0]
erun = endParts[0]
s = len(startParts)
e = len(endParts)
if s != e or s < 2 or s > 3:
raise RuntimeError('EventRange ctor must have 4 or 6 arguments')
i = s - 1
if startParts[i].lower() == "0":
startParts[i] = "1"
elif startParts[i].lower() == "max":
startParts[i] = "0"
elif startParts[i].lower() == "min":
startParts[i] = "1"
if endParts[i].lower() == "max":
endParts[i] = "0"
elif endParts[i].lower() == "min":
endParts[i] = "1"
if s == 3:
blumi = startParts[1]
elumi = endParts[1]
bevent = startParts[2]
eevent = endParts[2]
elif s == 2:
blumi = 0
elumi = 0
bevent = startParts[1]
eevent = endParts[1]
else:
raise RuntimeError('EventRange ctor must have 4 or 6 arguments')
# note int will return a long if the value is too large to fit in
# a smaller type
return EventRange(int(brun), int(blumi), int(bevent),
int(erun), int(elumi), int(eevent))
def pythonValue(self, options=PrintOptions()):
return str(self.__start) + ', ' + str(self.__startLumi) + ', ' + str(self.__startSub) + ', ' \
+ str(self.__end) + ', ' + str(self.__endLumi) + ', ' + str(self.__endSub)
def cppID(self, parameterSet):
return parameterSet.newEventRange(self.start(), self.startLumi(), self.startSub(), self.end(), self.endLumi(), self.endSub())
def insertInto(self, parameterSet, myname):
parameterSet.addEventRange(self.isTracked(), myname, self.cppID(parameterSet))
class InputTag(_ParameterTypeBase):
def __init__(self,moduleLabel,productInstanceLabel='',processName=''):
super(InputTag,self).__init__()
self._setValues(moduleLabel, productInstanceLabel, processName)
def getModuleLabel(self):
return self.__moduleLabel
def setModuleLabel(self,label):
if self.__moduleLabel != label:
self.__moduleLabel = label
self._isModified=True
moduleLabel = property(getModuleLabel,setModuleLabel,"module label for the product")
def getProductInstanceLabel(self):
return self.__productInstance
def setProductInstanceLabel(self,label):
if self.__productInstance != label:
self.__productInstance = label
self._isModified=True
productInstanceLabel = property(getProductInstanceLabel,setProductInstanceLabel,"product instance label for the product")
def getProcessName(self):
return self.__processName
def setProcessName(self,label):
if self.__processName != label:
self.__processName = label
self._isModified=True
processName = property(getProcessName,setProcessName,"process name for the product")
@staticmethod
def skipCurrentProcess():
"""When used as the process name this value will make the framework skip the current process
when looking backwards in time for the data product.
"""
return "@skipCurrentProcess"
@staticmethod
def currentProcess():
"""When used as the process name this value will make the framework use the current process
as the process when looking for the data product.
"""
return "@currentProcess"
def configValue(self, options=PrintOptions()):
result = self.__moduleLabel
if self.__productInstance != "" or self.__processName != "":
result += ':' + self.__productInstance
if self.__processName != "":
result += ':' + self.__processName
if result == "":
result = '\"\"'
return result;
def pythonValue(self, options=PrintOptions()):
cfgValue = self.configValue(options)
# empty strings already have quotes
if cfgValue == '\"\"':
return cfgValue
colonedValue = "\""+cfgValue+"\""
# change label:instance:process to "label","instance","process"
return colonedValue.replace(":","\",\"")
@staticmethod
def _isValid(value):
return True
def __eq__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) ==
(other.__moduleLabel,other.__productInstance,other.__processName))
def __ne__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) !=
(other.__moduleLabel,other.__productInstance,other.__processName))
def __lt__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) <
(other.__moduleLabel,other.__productInstance,other.__processName))
def __gt__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) >
(other.__moduleLabel,other.__productInstance,other.__processName))
def __le__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) <=
(other.__moduleLabel,other.__productInstance,other.__processName))
def __ge__(self,other):
return ((self.__moduleLabel,self.__productInstance,self.__processName) >=
(other.__moduleLabel,other.__productInstance,other.__processName))
def value(self):
"Return the string rep"
return self.configValue()
@staticmethod
def formatValueForConfig(value):
return value.configValue()
@staticmethod
def _valueFromString(string):
parts = string.split(":")
return InputTag(*parts)
def setValue(self,v):
self._setValues(v)
self._isModified=True
def _setValues(self,moduleLabel,productInstanceLabel='',processName=''):
self.__moduleLabel = moduleLabel
self.__productInstance = productInstanceLabel
self.__processName=processName
if -1 != moduleLabel.find(":"):
toks = moduleLabel.split(":")
self.__moduleLabel = toks[0]
if len(toks) > 1:
self.__productInstance = toks[1]
if len(toks) > 2:
self.__processName=toks[2]
# convert to the wrapper class for C++ InputTags
def cppTag(self, parameterSet):
return parameterSet.newInputTag(self.getModuleLabel(),
self.getProductInstanceLabel(),
self.getProcessName())
def insertInto(self, parameterSet, myname):
parameterSet.addInputTag(self.isTracked(), myname, self.cppTag(parameterSet))
class ESInputTag(_ParameterTypeBase):
def __init__(self,module='',data=''):
super(ESInputTag,self).__init__()
self._setValues(module, data)
def getModuleLabel(self):
return self.__moduleLabel
def setModuleLabel(self,label):
if self.__moduleLabel != label:
self.__moduleLabel = label
self._isModified=True
moduleLabel = property(getModuleLabel,setModuleLabel,"module label for the product")
def getDataLabel(self):
return self.__data
def setDataLabel(self,label):
if self.__data != label:
self.__data = label
self._isModified=True
dataLabel = property(getDataLabel,setDataLabel,"data label for the product")
def configValue(self, options=PrintOptions()):
result = self.__moduleLabel
if self.__data != "":
result += ':' + self.__data
if result == "":
result = '\"\"'
return result;
def pythonValue(self, options=PrintOptions()):
cfgValue = self.configValue(options)
# empty strings already have quotes
if cfgValue == '\"\"':
return cfgValue
colonedValue = "\""+cfgValue+"\""
# change label:instance:process to "label","instance","process"
return colonedValue.replace(":","\",\"")
@staticmethod
def _isValid(value):
return True
def __eq__(self,other):
return ((self.__moduleLabel,self.__data) == (other.__moduleLabel,other.__data))
def __ne__(self,other):
return ((self.__moduleLabel,self.__data) != (other.__moduleLabel,other.__data))
def __lt__(self,other):
return ((self.__moduleLabel,self.__data) < (other.__moduleLabel,other.__data))
def __gt__(self,other):
return ((self.__moduleLabel,self.__data) > (other.__moduleLabel,other.__data))
def __le__(self,other):
return ((self.__moduleLabel,self.__data) <= (other.__moduleLabel,other.__data))
def __ge__(self,other):
return ((self.__moduleLabel,self.__data) >= (other.__moduleLabel,other.__data))
def value(self):
"Return the string rep"
return self.configValue()
@staticmethod
def formatValueForConfig(value):
return value.configValue()
@staticmethod
def _valueFromString(string):
parts = string.split(":")
return ESInputTag(*parts)
def setValue(self,v):
self._setValues(v)
self._isModified=True
def _setValues(self,moduleLabel='',dataLabel=''):
self.__moduleLabel = moduleLabel
self.__data = dataLabel
if -1 != moduleLabel.find(":"):
# raise RuntimeError("the module label '"+str(moduleLabel)+"' contains a ':'. If you want to specify more than one label, please pass them as separate arguments.")
# tolerate it, at least for the translation phase
toks = moduleLabel.split(":")
self.__moduleLabel = toks[0]
if len(toks) > 1:
self.__data = toks[1]
if len(toks) > 2:
raise RuntimeError("an ESInputTag was passed the value'"+moduleLabel+"' which contains more than one ':'")
# convert to the wrapper class for C++ ESInputTags
def cppTag(self, parameterSet):
return parameterSet.newESInputTag(self.getModuleLabel(),
self.getDataLabel())
def insertInto(self, parameterSet, myname):
parameterSet.addESInputTag(self.isTracked(), myname, self.cppTag(parameterSet))
class FileInPath(_SimpleParameterTypeBase):
def __init__(self,value):
super(FileInPath,self).__init__(value)
@staticmethod
def _isValid(value):
return True
def configValue(self, options=PrintOptions()):
return string.formatValueForConfig(self.value())
@staticmethod
def formatValueForConfig(value):
return string.formatValueForConfig(value)
@staticmethod
def _valueFromString(value):
return FileInPath(value)
def insertInto(self, parameterSet, myname):
parameterSet.addNewFileInPath( self.isTracked(), myname, self.value() )
class SecSource(_ParameterTypeBase,_TypedParameterizable,_ConfigureComponent,_Labelable):
def __init__(self,type_,*arg,**args):
_ParameterTypeBase.__init__(self)
_TypedParameterizable.__init__(self,type_,*arg,**args)
def value(self):
return self
@staticmethod
def _isValid(value):
return True
def configTypeName(self):
return "secsource"
def configValue(self, options=PrintOptions()):
return self.dumpConfig(options)
def dumpPython(self, options=PrintOptions()):
return _TypedParameterizable.dumpPython(self, options)
def copy(self):
# TODO is the one in TypedParameterizable better?
return copy.copy(self)
def _place(self,name,proc):
proc._placePSet(name,self)
def __str__(self):
return object.__str__(self)
class PSet(_ParameterTypeBase,_Parameterizable,_ConfigureComponent,_Labelable):
def __init__(self,*arg,**args):
#need to call the inits separately
_ParameterTypeBase.__init__(self)
_Parameterizable.__init__(self,*arg,**args)
def value(self):
return self
def isRef_(self):
"""Returns true if this PSet is actually a reference to a different PSet
"""
return hasattr(self,"refToPSet_")
@staticmethod
def _isValid(value):
return True
def configValue(self, options=PrintOptions()):
config = '{ \n'
for name in self.parameterNames_():
param = getattr(self,name)
options.indent()
config+=options.indentation()+param.configTypeName()+' '+name+' = '+param.configValue(options)+'\n'
options.unindent()
config += options.indentation()+'}\n'
return config
def dumpPython(self, options=PrintOptions()):
return self.pythonTypeName()+"(\n"+_Parameterizable.dumpPython(self, options)+options.indentation()+")"
def clone(self, **params):
myparams = self.parameters_()
_modifyParametersFromDict(myparams, params, self._Parameterizable__raiseBadSetAttr)
returnValue = PSet(**myparams)
returnValue.setIsTracked(self.isTracked())
returnValue._isModified = False
returnValue._isFrozen = False
return returnValue
def copy(self):
return copy.copy(self)
def _place(self,name,proc):
proc._placePSet(name,self)
def __str__(self):
return object.__str__(self)
def insertInto(self, parameterSet, myname):
newpset = parameterSet.newPSet()
self.insertContentsInto(newpset)
parameterSet.addPSet(self.isTracked(), myname, newpset)
def insertContentsInto(self, parameterSet):
if self.isRef_():
ref = parameterSet.getTopPSet_(self.refToPSet_.value())
ref.insertContentsInto(parameterSet)
else:
super(PSet, self).insertContentsInto(parameterSet)
class vint32(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vint32,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return int32._isValid(item)
@staticmethod
def _valueFromString(value):
return vint32(*_ValidatingParameterListBase._itemsFromStrings(value,int32._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVInt32(self.isTracked(), myname, self.value())
class vuint32(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vuint32,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return uint32._isValid(item)
@staticmethod
def _valueFromString(value):
return vuint32(*_ValidatingParameterListBase._itemsFromStrings(value,uint32._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVUInt32(self.isTracked(), myname, self.value())
class vint64(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vint64,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return int64._isValid(item)
@staticmethod
def _valueFromString(value):
return vint64(*_ValidatingParameterListBase._itemsFromStrings(value,int64._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVInt64(self.isTracked(), myname, self.value())
class vuint64(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vuint64,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return uint64._isValid(item)
@staticmethod
def _valueFromString(value):
return vuint64(*_ValidatingParameterListBase._itemsFromStrings(value,vuint64._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVUInt64(self.isTracked(), myname, self.value())
class vdouble(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vdouble,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return double._isValid(item)
@staticmethod
def _valueFromString(value):
return vdouble(*_ValidatingParameterListBase._itemsFromStrings(value,double._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVDouble(self.isTracked(), myname, self.value())
def pythonValueForItem(self,item, options):
return double._pythonValue(item)
class vbool(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vbool,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return bool._isValid(item)
@staticmethod
def _valueFromString(value):
return vbool(*_ValidatingParameterListBase._itemsFromStrings(value,bool._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVBool(self.isTracked(), myname, self.value())
class vstring(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(vstring,self).__init__(*arg,**args)
self._nPerLine = 1
@staticmethod
def _itemIsValid(item):
return string._isValid(item)
def configValueForItem(self,item,options):
return string.formatValueForConfig(item)
@staticmethod
def _valueFromString(value):
return vstring(*_ValidatingParameterListBase._itemsFromStrings(value,string._valueFromString))
def insertInto(self, parameterSet, myname):
parameterSet.addVString(self.isTracked(), myname, self.value())
class VLuminosityBlockID(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VLuminosityBlockID,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return LuminosityBlockID._isValid(item)
def configValueForItem(self,item,options):
return LuminosityBlockID.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VLuminosityBlockID(*_ValidatingParameterListBase._itemsFromStrings(value,LuminosityBlockID._valueFromString))
def insertInto(self, parameterSet, myname):
cppIDs = list()
for i in self:
item = i
if isinstance(item, str):
item = LuminosityBlockID._valueFromString(item)
cppIDs.append(item.cppID(parameterSet))
parameterSet.addVLuminosityBlockID(self.isTracked(), myname, cppIDs)
class VInputTag(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VInputTag,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return InputTag._isValid(item)
def configValueForItem(self,item,options):
# we tolerate strings as members
if isinstance(item, str):
return '"'+item+'"'
else:
return InputTag.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
# we tolerate strings as members
if isinstance(item, str):
return '"'+item+'"'
else:
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VInputTag(*_ValidatingParameterListBase._itemsFromStrings(value,InputTag._valueFromString))
def insertInto(self, parameterSet, myname):
cppTags = list()
for i in self:
item = i
if isinstance(item, str):
item = InputTag(i)
cppTags.append(item.cppTag(parameterSet))
parameterSet.addVInputTag(self.isTracked(), myname, cppTags)
class VESInputTag(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VESInputTag,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return ESInputTag._isValid(item)
def configValueForItem(self,item,options):
# we tolerate strings as members
if isinstance(item, str):
return '"'+item+'"'
else:
return ESInputTag.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
# we tolerate strings as members
if isinstance(item, str):
return '"'+item+'"'
else:
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VESInputTag(*_ValidatingParameterListBase._itemsFromStrings(value,ESInputTag._valueFromString))
def insertInto(self, parameterSet, myname):
cppTags = list()
for i in self:
item = i
if isinstance(item, str):
item = ESInputTag(i)
cppTags.append(item.cppTag(parameterSet))
parameterSet.addVESInputTag(self.isTracked(), myname, cppTags)
class VEventID(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VEventID,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return EventID._isValid(item)
def configValueForItem(self,item,options):
return EventID.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
# we tolerate strings as members
if isinstance(item, str):
return '"'+item+'"'
else:
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VEventID(*_ValidatingParameterListBase._itemsFromStrings(value,EventID._valueFromString))
def insertInto(self, parameterSet, myname):
cppIDs = list()
for i in self:
item = i
if isinstance(item, str):
item = EventID._valueFromString(item)
cppIDs.append(item.cppID(parameterSet))
parameterSet.addVEventID(self.isTracked(), myname, cppIDs)
class VLuminosityBlockRange(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VLuminosityBlockRange,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return LuminosityBlockRange._isValid(item)
def configValueForItem(self,item,options):
return LuminosityBlockRange.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
if isinstance(item, str):
return '"'+item+'"'
else:
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VLuminosityBlockRange(*_ValidatingParameterListBase._itemsFromStrings(value,VLuminosityBlockRange._valueFromString))
def insertInto(self, parameterSet, myname):
cppIDs = list()
for i in self:
item = i
if isinstance(item, str):
item = LuminosityBlockRange._valueFromString(item)
cppIDs.append(item.cppID(parameterSet))
parameterSet.addVLuminosityBlockRange(self.isTracked(), myname, cppIDs)
class VEventRange(_ValidatingParameterListBase):
def __init__(self,*arg,**args):
super(VEventRange,self).__init__(*arg,**args)
@staticmethod
def _itemIsValid(item):
return EventRange._isValid(item)
def configValueForItem(self,item,options):
return EventRange.formatValueForConfig(item)
def pythonValueForItem(self,item, options):
if isinstance(item, str):
return '"'+item+'"'
else:
return item.dumpPython(options)
@staticmethod
def _valueFromString(value):
return VEventRange(*_ValidatingParameterListBase._itemsFromStrings(value,VEventRange._valueFromString))
def insertInto(self, parameterSet, myname):
cppIDs = list()
for i in self:
item = i
if isinstance(item, str):
item = EventRange._valueFromString(item)
cppIDs.append(item.cppID(parameterSet))
parameterSet.addVEventRange(self.isTracked(), myname, cppIDs)
class VPSet(_ValidatingParameterListBase,_ConfigureComponent,_Labelable):
def __init__(self,*arg,**args):
super(VPSet,self).__init__(*arg,**args)
self._nPerLine = 1
@staticmethod
def _itemIsValid(item):
return isinstance(item, PSet) and PSet._isValid(item)
def configValueForItem(self,item, options):
return PSet.configValue(item, options)
def pythonValueForItem(self,item, options):
return PSet.dumpPython(item,options)
def copy(self):
return copy.copy(self)
def _place(self,name,proc):
proc._placeVPSet(name,self)
def insertInto(self, parameterSet, myname):
# translate the PSet members into C++ parameterSets
parametersets = list()
for pset in self:
newparameterset = parameterSet.newPSet()