#!/usr/bin/env python ################################################## ## DEPENDENCIES import sys import os import os.path try: import builtins as builtin except ImportError: import __builtin__ as builtin from os.path import getmtime, exists import time import types from Cheetah.Version import MinCompatibleVersion as RequiredCheetahVersion from Cheetah.Version import MinCompatibleVersionTuple as RequiredCheetahVersionTuple from Cheetah.Template import Template from Cheetah.DummyTransaction import * from Cheetah.NameMapper import NotFound, valueForName, valueFromSearchList, valueFromFrameOrSearchList from Cheetah.CacheRegion import CacheRegion import Cheetah.Filters as Filters import Cheetah.ErrorCatchers as ErrorCatchers from xpdeint.Operators._SICDeltaAOperator import _SICDeltaAOperator ################################################## ## MODULE CONSTANTS VFFSL=valueFromFrameOrSearchList VFSL=valueFromSearchList VFN=valueForName currentTime=time.time __CHEETAH_version__ = '2.4.4' __CHEETAH_versionTuple__ = (2, 4, 4, 'development', 0) __CHEETAH_genTime__ = 1413234539.63372 __CHEETAH_genTimestamp__ = 'Tue Oct 14 08:08:59 2014' __CHEETAH_src__ = '/Users/graham/Library/XMDS/src/xmds2/admin/staging/xmds-2.2.2/xpdeint/Operators/SICDeltaAOperator.tmpl' __CHEETAH_srcLastModified__ = 'Mon Jul 23 09:42:26 2012' __CHEETAH_docstring__ = 'Autogenerated by Cheetah: The Python-Powered Template Engine' if __CHEETAH_versionTuple__ < RequiredCheetahVersionTuple: raise AssertionError( 'This template was compiled with Cheetah version' ' %s. Templates compiled before version %s must be recompiled.'%( __CHEETAH_version__, RequiredCheetahVersion)) ################################################## ## CLASSES class SICDeltaAOperator(_SICDeltaAOperator): ################################################## ## CHEETAH GENERATED METHODS def __init__(self, *args, **KWs): super(SICDeltaAOperator, self).__init__(*args, **KWs) if not self._CHEETAH__instanceInitialized: cheetahKWArgs = {} allowedKWs = 'searchList namespaces filter filtersLib errorCatcher'.split() for k,v in KWs.items(): if k in allowedKWs: cheetahKWArgs[k] = v self._initCheetahInstance(**cheetahKWArgs) def description(self, **KWS): ## Generated from @def description: Left/Right Delta A propagation operator for field $field.name at line 26, col 1. trans = KWS.get("trans") if (not trans and not self._CHEETAH__isBuffering and not callable(self.transaction)): trans = self.transaction # is None unless self.awake() was called if not trans: trans = DummyTransaction() _dummyTrans = True else: _dummyTrans = False write = trans.response().write SL = self._CHEETAH__searchList _filter = self._CHEETAH__currentFilter ######################################## ## START - generated method body write(u'''Left/Right Delta A propagation operator for field ''') _v = VFFSL(SL,"field.name",True) # u'$field.name' on line 26, col 69 if _v is not None: write(_filter(_v, rawExpr=u'$field.name')) # from line 26, col 69. ######################################## ## END - generated method body return _dummyTrans and trans.response().getvalue() or "" def callEvaluateLoop(self, **KWS): ## CHEETAH: generated from @def callEvaluateLoop at line 28, col 1. trans = KWS.get("trans") if (not trans and not self._CHEETAH__isBuffering and not callable(self.transaction)): trans = self.transaction # is None unless self.awake() was called if not trans: trans = DummyTransaction() _dummyTrans = True else: _dummyTrans = False write = trans.response().write SL = self._CHEETAH__searchList _filter = self._CHEETAH__currentFilter ######################################## ## START - generated method body # for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 30, col 3 for componentName in crossIntegrationVector.components: # generated from line 31, col 5 _v = VFFSL(SL,"crossIntegrationVector.type",True) # u'${crossIntegrationVector.type}' on line 32, col 1 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.type}')) # from line 32, col 1. write(u''' _old_d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 32, col 38 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 32, col 38. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 32, col 56 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 32, col 56. write(u'''; ''') # loopingOrder = { '+': SICDeltaAOperator.LoopingOrder.StrictlyAscendingOrder, '-': SICDeltaAOperator.LoopingOrder.StrictlyDescendingOrder }[self.crossPropagationDirection] _v = VFN(VFFSL(SL,"codeBlocks",True)['operatorDefinition'],"loop",False)(self.insideEvaluateOperatorLoops, loopingOrder = loopingOrder) # u"${codeBlocks['operatorDefinition'].loop(self.insideEvaluateOperatorLoops, loopingOrder = loopingOrder)}" on line 40, col 1 if _v is not None: write(_filter(_v, rawExpr=u"${codeBlocks['operatorDefinition'].loop(self.insideEvaluateOperatorLoops, loopingOrder = loopingOrder)}")) # from line 40, col 1. ######################################## ## END - generated method body return _dummyTrans and trans.response().getvalue() or "" def insideEvaluateOperatorLoops(self, codeString, **KWS): ## CHEETAH: generated from @def insideEvaluateOperatorLoops($codeString) at line 43, col 1. trans = KWS.get("trans") if (not trans and not self._CHEETAH__isBuffering and not callable(self.transaction)): trans = self.transaction # is None unless self.awake() was called if not trans: trans = DummyTransaction() _dummyTrans = True else: _dummyTrans = False write = trans.response().write SL = self._CHEETAH__searchList _filter = self._CHEETAH__currentFilter ######################################## ## START - generated method body # _v = VFFSL(SL,"insideEvaluateOperatorLoopsBegin",True) # u'${insideEvaluateOperatorLoopsBegin}' on line 45, col 1 if _v is not None: write(_filter(_v, rawExpr=u'${insideEvaluateOperatorLoopsBegin}')) # from line 45, col 1. # # The Operator class will have defined for us all of the dVariableName_dPropagationDimension variables. # Note that we assume that all of the integration vectors have an operotor component defined for them. write(u''' // UNVECTORISABLE ''') for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 51, col 3 for componentName in crossIntegrationVector.components: # generated from line 52, col 5 write(u'''d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 53, col 2 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 53, col 2. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 53, col 20 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 53, col 20. write(u''' = _old_d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 53, col 57 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 53, col 57. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 53, col 75 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 53, col 75. write(u'''; ''') write(u''' ''') crossDimRep = VFN(VFN(VFFSL(SL,"loopingField",True),"dimensionWithName",False)(VFFSL(SL,"crossPropagationDimension",True)),"inBasis",False)(VFFSL(SL,"operatorBasis",True)) if VFFSL(SL,"crossPropagationDirection",True) == '+': # generated from line 58, col 3 write(u'''if (''') _v = VFFSL(SL,"crossDimRep.loopIndex",True) # u'${crossDimRep.loopIndex}' on line 59, col 5 if _v is not None: write(_filter(_v, rawExpr=u'${crossDimRep.loopIndex}')) # from line 59, col 5. write(u''' == 0) { ''') else: # generated from line 60, col 3 write(u'''if (''') _v = VFFSL(SL,"crossDimRep.loopIndex",True) # u'${crossDimRep.loopIndex}' on line 61, col 5 if _v is not None: write(_filter(_v, rawExpr=u'${crossDimRep.loopIndex}')) # from line 61, col 5. write(u''' == ''') _v = VFFSL(SL,"crossDimRep.globalLattice",True) # u'${crossDimRep.globalLattice}' on line 61, col 33 if _v is not None: write(_filter(_v, rawExpr=u'${crossDimRep.globalLattice}')) # from line 61, col 33. write(u''' - 1) { ''') write(u''' // ********** Boundary condition code *********** ''') _v = VFN(VFFSL(SL,"codeBlocks",True)['boundaryCondition'],"loopCodeString",True) # u"${codeBlocks['boundaryCondition'].loopCodeString, autoIndent=True}" on line 64, col 3 if _v is not None: write(_filter(_v, autoIndent=True, rawExpr=u"${codeBlocks['boundaryCondition'].loopCodeString, autoIndent=True}")) # from line 64, col 3. write(u''' // ********************************************** ''') for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 67, col 3 write(u''' for (long _cmp = 0; _cmp < _''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 68, col 31 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 68, col 31. write(u'''_ncomponents; _cmp++) _old_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 69, col 10 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 69, col 10. write(u'''[_cmp] = _active_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 69, col 55 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 69, col 55. write(u'''[_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 69, col 85 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 69, col 85. write(u'''_index_pointer + _cmp]; ''') write(u''' ''') # This is where one (half-step) cross-IP step would go write(u'''} else { // Update the next guess for iteration. ''') for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 75, col 3 for componentNumber, componentName, in enumerate(crossIntegrationVector.components): # generated from line 76, col 5 write(u''' ''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 77, col 3 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 77, col 3. write(u''' = _old_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 77, col 27 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 77, col 27. write(u'''[''') _v = VFFSL(SL,"componentNumber",True) # u'${componentNumber}' on line 77, col 56 if _v is not None: write(_filter(_v, rawExpr=u'${componentNumber}')) # from line 77, col 56. write(u'''] + d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 77, col 79 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 77, col 79. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 77, col 97 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 77, col 97. write(u''' * (''') _v = VFFSL(SL,"crossPropagationDirection",True) # u'${crossPropagationDirection}' on line 77, col 129 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDirection}')) # from line 77, col 129. write(u'''0.5*d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 77, col 162 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 77, col 162. write(u'''); ''') write(u'''} for (long _iter = 0; _iter < ''') _v = VFFSL(SL,"iterations",True) # u'${iterations}' on line 82, col 30 if _v is not None: write(_filter(_v, rawExpr=u'${iterations}')) # from line 82, col 30. write(u'''; _iter++) { #define d''') _v = VFFSL(SL,"propagationDimension",True) # u'${propagationDimension}' on line 84, col 12 if _v is not None: write(_filter(_v, rawExpr=u'${propagationDimension}')) # from line 84, col 12. write(u''' _step { // ************* Propagation code *************** ''') _v = VFFSL(SL,"codeString",True) # u'${codeString, autoIndent=True}' on line 87, col 5 if _v is not None: write(_filter(_v, autoIndent=True, rawExpr=u'${codeString, autoIndent=True}')) # from line 87, col 5. write(u''' // ********************************************** } #undef d''') _v = VFFSL(SL,"propagationDimension",True) # u'${propagationDimension}' on line 90, col 11 if _v is not None: write(_filter(_v, rawExpr=u'${propagationDimension}')) # from line 90, col 11. write(u''' { // *********** Cross-propagation code *********** ''') _v = VFN(VFFSL(SL,"codeBlocks",True)['crossPropagation'],"loopCodeString",True) # u"${codeBlocks['crossPropagation'].loopCodeString, autoIndent=True}" on line 94, col 5 if _v is not None: write(_filter(_v, autoIndent=True, rawExpr=u"${codeBlocks['crossPropagation'].loopCodeString, autoIndent=True}")) # from line 94, col 5. write(u''' // ********************************************** } // Update propagation vectors (note that _step is actually half a step) ''') for integrationVector in VFFSL(SL,"integrationVectors",True): # generated from line 99, col 3 for componentNumber, componentName in enumerate(integrationVector.components): # generated from line 100, col 5 write(u''' ''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 101, col 3 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 101, col 3. write(u''' = _''') _v = VFFSL(SL,"integrator.name",True) # u'${integrator.name}' on line 101, col 23 if _v is not None: write(_filter(_v, rawExpr=u'${integrator.name}')) # from line 101, col 23. write(u'''_oldcopy_''') _v = VFFSL(SL,"integrationVector.id",True) # u'${integrationVector.id}' on line 101, col 50 if _v is not None: write(_filter(_v, rawExpr=u'${integrationVector.id}')) # from line 101, col 50. write(u'''[_''') _v = VFFSL(SL,"integrationVector.id",True) # u'${integrationVector.id}' on line 101, col 75 if _v is not None: write(_filter(_v, rawExpr=u'${integrationVector.id}')) # from line 101, col 75. write(u'''_index_pointer + ''') _v = VFFSL(SL,"componentNumber",True) # u'${componentNumber}' on line 101, col 115 if _v is not None: write(_filter(_v, rawExpr=u'${componentNumber}')) # from line 101, col 115. write(u'''] + d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 101, col 138 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 101, col 138. write(u'''_d''') _v = VFFSL(SL,"propagationDimension",True) # u'${propagationDimension}' on line 101, col 156 if _v is not None: write(_filter(_v, rawExpr=u'${propagationDimension}')) # from line 101, col 156. write(u''' * _step; ''') write(u''' // Update cross-propagation vectors ''') for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 106, col 3 for componentNumber, componentName in enumerate(VFFSL(SL,"crossIntegrationVector.components",True)): # generated from line 107, col 5 write(u''' ''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 108, col 3 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 108, col 3. write(u''' = _old_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 108, col 27 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 108, col 27. write(u'''[''') _v = VFFSL(SL,"componentNumber",True) # u'${componentNumber}' on line 108, col 56 if _v is not None: write(_filter(_v, rawExpr=u'${componentNumber}')) # from line 108, col 56. write(u'''] + d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 108, col 79 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 108, col 79. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 108, col 97 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 108, col 97. write(u''' * (''') _v = VFFSL(SL,"crossPropagationDirection",True) # u'${crossPropagationDirection}' on line 108, col 129 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDirection}')) # from line 108, col 129. write(u'''0.5*d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 108, col 162 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 108, col 162. write(u'''); ''') write(u"""} // Update the 'old' copy for the next half-step """) for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 114, col 1 for componentNumber, componentName in enumerate(crossIntegrationVector.components): # generated from line 115, col 3 write(u'''_old_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 116, col 6 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 116, col 6. write(u'''[''') _v = VFFSL(SL,"componentNumber",True) # u'${componentNumber}' on line 116, col 35 if _v is not None: write(_filter(_v, rawExpr=u'${componentNumber}')) # from line 116, col 35. write(u'''] += d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 116, col 59 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 116, col 59. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 116, col 77 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 116, col 77. write(u''' * (''') _v = VFFSL(SL,"crossPropagationDirection",True) # u'${crossPropagationDirection}' on line 116, col 109 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDirection}')) # from line 116, col 109. write(u'''d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 116, col 138 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 116, col 138. write(u'''); ''') write(u''' ''') # This is where one (full step) cross-IP step would go write(u''' ''') for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 122, col 3 for componentName in crossIntegrationVector.components: # generated from line 123, col 5 write(u'''_old_d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 124, col 7 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 124, col 7. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 124, col 25 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 124, col 25. write(u''' = d''') _v = VFFSL(SL,"componentName",True) # u'${componentName}' on line 124, col 57 if _v is not None: write(_filter(_v, rawExpr=u'${componentName}')) # from line 124, col 57. write(u'''_d''') _v = VFFSL(SL,"crossPropagationDimension",True) # u'${crossPropagationDimension}' on line 124, col 75 if _v is not None: write(_filter(_v, rawExpr=u'${crossPropagationDimension}')) # from line 124, col 75. write(u'''; ''') write(u''' ''') # ######################################## ## END - generated method body return _dummyTrans and trans.response().getvalue() or "" def evaluateOperatorFunctionContentsWithCodeBlock(self, function, **KWS): ## CHEETAH: generated from @def evaluateOperatorFunctionContentsWithCodeBlock($function) at line 131, col 1. trans = KWS.get("trans") if (not trans and not self._CHEETAH__isBuffering and not callable(self.transaction)): trans = self.transaction # is None unless self.awake() was called if not trans: trans = DummyTransaction() _dummyTrans = True else: _dummyTrans = False write = trans.response().write SL = self._CHEETAH__searchList _filter = self._CHEETAH__currentFilter ######################################## ## START - generated method body # # We shouldn't have a deltaAField. It doesn't work with cross-propagation. assert not VFFSL(SL,"deltaAField",True) # for crossIntegrationVector in VFFSL(SL,"crossIntegrationVectors",True): # generated from line 136, col 3 _v = VFFSL(SL,"crossIntegrationVector.type",True) # u'${crossIntegrationVector.type}' on line 137, col 1 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.type}')) # from line 137, col 1. write(u''' _old_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 137, col 37 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 137, col 37. write(u'''[_''') _v = VFFSL(SL,"crossIntegrationVector.id",True) # u'${crossIntegrationVector.id}' on line 137, col 67 if _v is not None: write(_filter(_v, rawExpr=u'${crossIntegrationVector.id}')) # from line 137, col 67. write(u'''_ncomponents]; ''') # _v = super(SICDeltaAOperator, self).evaluateOperatorFunctionContentsWithCodeBlock(function) if _v is not None: write(_filter(_v)) # ######################################## ## END - generated method body return _dummyTrans and trans.response().getvalue() or "" def writeBody(self, **KWS): ## CHEETAH: main method generated for this template trans = KWS.get("trans") if (not trans and not self._CHEETAH__isBuffering and not callable(self.transaction)): trans = self.transaction # is None unless self.awake() was called if not trans: trans = DummyTransaction() _dummyTrans = True else: _dummyTrans = False write = trans.response().write SL = self._CHEETAH__searchList _filter = self._CHEETAH__currentFilter ######################################## ## START - generated method body # # SICDeltaAOperator.tmpl # # delta-a operator for the left/right propagation in the SIC integrator. # # Created by Graham Dennis on 2008-08-07. # # Copyright (c) 2008-2012, Graham Dennis # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # write(u''' ''') ######################################## ## END - generated method body return _dummyTrans and trans.response().getvalue() or "" ################################################## ## CHEETAH GENERATED ATTRIBUTES _CHEETAH__instanceInitialized = False _CHEETAH_version = __CHEETAH_version__ _CHEETAH_versionTuple = __CHEETAH_versionTuple__ _CHEETAH_genTime = __CHEETAH_genTime__ _CHEETAH_genTimestamp = __CHEETAH_genTimestamp__ _CHEETAH_src = __CHEETAH_src__ _CHEETAH_srcLastModified = __CHEETAH_srcLastModified__ _mainCheetahMethod_for_SICDeltaAOperator= 'writeBody' ## END CLASS DEFINITION if not hasattr(SICDeltaAOperator, '_initCheetahAttributes'): templateAPIClass = getattr(SICDeltaAOperator, '_CHEETAH_templateClass', Template) templateAPIClass._addCheetahPlumbingCodeToClass(SICDeltaAOperator) # CHEETAH was developed by Tavis Rudd and Mike Orr # with code, advice and input from many other volunteers. # For more information visit http://www.CheetahTemplate.org/ ################################################## ## if run from command line: if __name__ == '__main__': from Cheetah.TemplateCmdLineIface import CmdLineIface CmdLineIface(templateObj=SICDeltaAOperator()).run()