Provide macros for array looping and indexing for GridData. More...
#include "generic.h"
Go to the source code of this file.
Defines | |
#define | for_3(i, j, k, r, s) |
#define | BeginFastIndex3(a, b, d, type) |
#define | FastIndex3(a, i, j, k) name2(a,_D)[name2(a,_B)+((i)/name2(a,_s0))+name2(a,_e0)*(((j)/name2(a,_s1))+name2(a,_e1)*((k)/name2(a,_s2)))] |
#define | EndFastIndex3(a) } |
Provide macros for array looping and indexing for GridData.
Adaptation from LPARX developed by Scott Kohn (skohn-at-cs.ucsd.edu)
#define BeginFastIndex3 | ( | a, | |||
b, | |||||
d, | |||||
type | ) |
{ \ const int name2(a,_B) = b.bottom(); \ type *const name2(a,_D) = d; \ const int name2(a,_e0) = b.extents(0); \ const int name2(a,_e1) = b.extents(1); \ const int name2(a,_s0) = b.stepsize(0); \ const int name2(a,_s1) = b.stepsize(1); \ const int name2(a,_s2) = b.stepsize(2)
Referenced by GridData< Type, 3 >::lin_interp(), GridData< Type, 3 >::maxabs(), GridData< Type, 3 >::maxval(), GridData< Type, 3 >::minval(), GridData< Type, 3 >::moment1(), GridData< Type, 3 >::PackRegion(), GridData< Type, 3 >::product(), GridData< Type, 3 >::sum(), GridData< Type, 3 >::sumabs(), GridData< Type, 3 >::sumsqrd(), and GridData< Type, 3 >::UnPackRegion().
#define EndFastIndex3 | ( | a | ) | } |
Referenced by GridData< Type, 3 >::lin_interp(), GridData< Type, 3 >::maxabs(), GridData< Type, 3 >::maxval(), GridData< Type, 3 >::minval(), GridData< Type, 3 >::moment1(), GridData< Type, 3 >::PackRegion(), GridData< Type, 3 >::product(), GridData< Type, 3 >::sum(), GridData< Type, 3 >::sumabs(), GridData< Type, 3 >::sumsqrd(), and GridData< Type, 3 >::UnPackRegion().
#define FastIndex3 | ( | a, | |||
i, | |||||
j, | |||||
k | ) | name2(a,_D)[name2(a,_B)+((i)/name2(a,_s0))+name2(a,_e0)*(((j)/name2(a,_s1))+name2(a,_e1)*((k)/name2(a,_s2)))] |
Referenced by GridData< Type, 3 >::lin_interp(), GridData< Type, 3 >::maxabs(), GridData< Type, 3 >::maxval(), GridData< Type, 3 >::minval(), GridData< Type, 3 >::moment1(), GridData< Type, 3 >::PackRegion(), GridData< Type, 3 >::product(), GridData< Type, 3 >::sum(), GridData< Type, 3 >::sumabs(), GridData< Type, 3 >::sumsqrd(), and GridData< Type, 3 >::UnPackRegion().
#define for_3 | ( | i, | |||
j, | |||||
k, | |||||
r, | |||||
s | ) |
{ \ const int name2(k,_L) = (((r).lower(2)+((r).lower(2)<0?-s(2)+1:s(2)-1))/s(2))*s(2); \ const int name2(k,_U) = (r).upper(2); \ const int name2(j,_L) = (((r).lower(1)+((r).lower(1)<0?-s(1)+1:s(1)-1))/s(1))*s(1); \ const int name2(j,_U) = (r).upper(1); \ const int name2(i,_L) = (((r).lower(0)+((r).lower(0)<0?-s(0)+1:s(0)-1))/s(0))*s(0); \ const int name2(i,_U) = (r).upper(0); \ const int name2(sk,_S) = (s(2)); \ const int name2(sj,_S) = (s(1)); \ const int name2(si,_S) = (s(0)); \ for (register int k = name2(k,_L); k <= name2(k,_U); k+=name2(sk,_S)) \ for (register int j = name2(j,_L); j <= name2(j,_U); j+=name2(sj,_S)) \ for (register int i = name2(i,_L); i <= name2(i,_U); i+=name2(si,_S)) {
Referenced by GridHierarchy::DAGH_CreateGridUnitList(), DAGHCluster(), GridData< Type, 3 >::lin_interp(), GridData< Type, 3 >::maxabs(), GridData< Type, 3 >::maxval(), GridData< Type, 3 >::minval(), GridData< Type, 3 >::moment1(), GridData< Type, 3 >::PackRegion(), GridData< Type, 3 >::product(), GridData< Type, 3 >::sum(), GridData< Type, 3 >::sumabs(), GridData< Type, 3 >::sumsqrd(), and GridData< Type, 3 >::UnPackRegion().