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@shBang #!/usr/bin/env python3
@*
NonUniformDimensionRepresentation.tmpl
Created by Graham Dennis on 2008-07-30.
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 <http://www.gnu.org/licenses/>.
*@
@extends xpdeint.Geometry._NonUniformDimensionRepresentation
@def defines
@#
@if $silent
@stop
@end if
@if $runtimeLattice
@super
#define ${minimum} (${arrayName}[0])
#define ${maximum} (${arrayName}[${globalLattice}-1])
@if not $stepSizeArray
#define ${stepSize} (${arrayName}[${loopIndex}+1]-${arrayName}[${loopIndex}])
@end if
@end if
@#
@end def
@def globals
@#
@if $silent
@stop
@end if
@#
@super
@#
@if $runtimeLattice
@if $stepSizeArray
${type}* ${stepSizeArrayName} = (${type}*) xmds_malloc(sizeof(${type}) * (${globalLattice}));
@else
unsigned long ${index} = 0;
@end if
@end if
@#
@end def
@def openLoopAscending
@#
#define ${name} ${arrayName}[${loopIndex} + ${localOffset}]
@if $stepSizeArray
#define d${name} (${stepSizeArrayName}[${loopIndex} + ${localOffset}] * (${volumePrefactor}))
@end if
for (long ${loopIndex} = 0; ${loopIndex} < ${localLattice}; ${loopIndex}++) {
@end def
@def closeLoopAscending
@#
}
#undef ${name}
@if $stepSizeArray
#undef d${name}
@end if
@#
@end def
@def localIndexFromIndexForDimensionRep($dimRep)
@#
(${dimRep.loopIndex} + ${dimRep.localOffset}) * (${globalLattice}/${dimRep.globalLattice}) - ${localOffset}@slurp
@#
@end def
@def strictlyAscendingGlobalIndex
@#
${loopIndex} + ${localOffset}@slurp
@#
@end def
@def initialiseArray
@#
@if $stepSizeArray
for (long ${loopIndex} = 0; ${loopIndex} < ${globalLattice}; ${loopIndex}++) {
${gridAndStepAtIndex(self.loopIndex), autoIndent=True}@slurp
}
@end if
@#
@end def
@def gridAndStepAtIndex($index)
@#
${arrayName}[$index] = ${gridAtIndex(index)};
${stepSizeArrayName}[$index] = ${stepWeightAtIndex(index)};
@#
@end def
|
