diff options
Diffstat (limited to 'src/MinFunctions.c')
-rw-r--r-- | src/MinFunctions.c | 252 |
1 files changed, 126 insertions, 126 deletions
diff --git a/src/MinFunctions.c b/src/MinFunctions.c index 231fe81..752f810 100644 --- a/src/MinFunctions.c +++ b/src/MinFunctions.c @@ -36,7 +36,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -109,7 +109,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_BYTE, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -122,7 +122,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -149,7 +149,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_BYTE, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -162,7 +162,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -190,7 +190,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -204,7 +204,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -232,7 +232,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -246,7 +246,7 @@ int LocalReduce_Min_BYTE(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -276,7 +276,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -348,7 +348,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -361,7 +361,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -388,7 +388,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -401,7 +401,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -429,7 +429,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT, input_arrays[i], CCTK_COMPLEX16, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -442,7 +442,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -470,7 +470,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT, input_arrays[i], CCTK_COMPLEX32, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -483,7 +483,7 @@ int LocalReduce_Min_INT(int i, int weight_on, const void * const weight, CCTK_IN #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -512,7 +512,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -584,7 +584,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT1, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -597,7 +597,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -624,7 +624,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT1, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -637,7 +637,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -665,7 +665,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -679,7 +679,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -707,7 +707,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -721,7 +721,7 @@ int LocalReduce_Min_INT1(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -751,7 +751,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -823,7 +823,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT2, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -836,7 +836,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -863,7 +863,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT2, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -876,7 +876,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -904,7 +904,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -918,7 +918,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -946,7 +946,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -960,7 +960,7 @@ int LocalReduce_Min_INT2(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -990,7 +990,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1062,7 +1062,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT4, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1075,7 +1075,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1102,7 +1102,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT4, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1115,7 +1115,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1143,7 +1143,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1157,7 +1157,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1185,7 +1185,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1199,7 +1199,7 @@ int LocalReduce_Min_INT4(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -1229,7 +1229,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1301,7 +1301,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT8, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1314,7 +1314,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1341,7 +1341,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_INT8, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1354,7 +1354,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1382,7 +1382,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1396,7 +1396,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1424,7 +1424,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1438,7 +1438,7 @@ int LocalReduce_Min_INT8(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -1467,7 +1467,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1539,7 +1539,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1552,7 +1552,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1579,7 +1579,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1592,7 +1592,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1620,7 +1620,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1634,7 +1634,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1662,7 +1662,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1676,7 +1676,7 @@ int LocalReduce_Min_REAL(int i, int weight_on, const void * const weight, CCTK_I #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -1705,7 +1705,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1777,7 +1777,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL4, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1790,7 +1790,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1817,7 +1817,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL4, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -1830,7 +1830,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1858,7 +1858,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1872,7 +1872,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -1900,7 +1900,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -1914,7 +1914,7 @@ int LocalReduce_Min_REAL4(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -1944,7 +1944,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2016,7 +2016,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL8, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2029,7 +2029,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2056,7 +2056,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL8, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2069,7 +2069,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2097,7 +2097,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -2111,7 +2111,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2139,7 +2139,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -2154,7 +2154,7 @@ int LocalReduce_Min_REAL8(int i, int weight_on, const void * const weight, CCTK_ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -2184,7 +2184,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2256,7 +2256,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL16, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2269,7 +2269,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2296,7 +2296,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_REAL16, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2309,7 +2309,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2337,7 +2337,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -2351,7 +2351,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -2379,7 +2379,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK inval.Re = (CCTK_REAL16) typed_vdata[sum_indices]; #endif #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0]; (num).Im = 0; #define EXTRA_STEP(a, b) @@ -2393,7 +2393,7 @@ int LocalReduce_Min_REAL16(int i, int weight_on, const void * const weight, CCTK #define REDUCTION_PREOP_CAST(inval, typed_vdata,sum_indices, out_type) \ inval = (out_type) typed_vdata[sum_indices]; #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) break; @@ -2433,7 +2433,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2495,7 +2495,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT (inval).Re = (CCTK_REAL) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2519,7 +2519,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2536,7 +2536,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT (inval).Re = (CCTK_REAL4) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL4) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2560,7 +2560,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2578,7 +2578,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT (inval).Re = (CCTK_REAL8) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL8) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -2603,7 +2603,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2621,7 +2621,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT (inval).Re = (CCTK_REAL16) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL16) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -2646,7 +2646,7 @@ int LocalReduce_Min_COMPLEX(int i, int weight_on, const void * const weight, CCT #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) break; @@ -2687,7 +2687,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2749,7 +2749,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC (inval).Re = (CCTK_REAL) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX8, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2773,7 +2773,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2790,7 +2790,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC (inval).Re = (CCTK_REAL4) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL4) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX8, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -2814,7 +2814,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2832,7 +2832,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC (inval).Re = (CCTK_REAL8) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL8) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -2857,7 +2857,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -2875,7 +2875,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC (inval).Re = (CCTK_REAL16) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL16) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -2900,7 +2900,7 @@ int LocalReduce_Min_COMPLEX8(int i, int weight_on, const void * const weight, CC #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) break; @@ -2941,7 +2941,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3003,7 +3003,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX16, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -3027,7 +3027,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3044,7 +3044,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL4) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL4) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX16, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -3068,7 +3068,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3086,7 +3086,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL8) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL8) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -3111,7 +3111,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3129,7 +3129,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL16) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL16) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -3154,7 +3154,7 @@ int LocalReduce_Min_COMPLEX16(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) break; @@ -3195,7 +3195,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3257,7 +3257,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX32, input_arrays[i], CCTK_COMPLEX, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -3281,7 +3281,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0]; #define EXTRA_STEP(a, b) @@ -3298,7 +3298,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL4) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL4) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) ITERATE_ON_ARRAY(i,CCTK_COMPLEX32, input_arrays[i], CCTK_COMPLEX8, output_numbers[i], weight_on, weight, input_array_offsets[i], indices, sum_indices, max_iter, iter, flag, actual_indices,input_array_strides, input_array_min_subscripts,input_array_dims,product) @@ -3322,7 +3322,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3340,7 +3340,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL8) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL8) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -3365,7 +3365,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) @@ -3383,7 +3383,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C (inval).Re = (CCTK_REAL16) (typed_vdata[sum_indices]).Re; (inval).Im = (CCTK_REAL16) (typed_vdata[sum_indices]).Im; #define REDUCTION_OPERATION(Min, scalar) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re*weight) (Min).Re = (scalar).Re*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if ((Min).Re > (scalar).Re) (Min).Re = (scalar).Re; #define REDUCTION_INITIAL(num) (num).Re = typed_vdata[0].Re; (num).Im = typed_vdata[0].Im; #define EXTRA_STEP(a, b) @@ -3408,7 +3408,7 @@ int LocalReduce_Min_COMPLEX32(int i, int weight_on, const void * const weight, C #endif #define REDUCTION_OPERATION(Min, scalar) if (Min > scalar) Min = scalar; -#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar*weight) Min = scalar*weight; +#define WEIGHTED_REDUCTION_OPERATION(Min, scalar, weight) if (Min > scalar) Min = scalar; #define REDUCTION_INITIAL(num) num = typed_vdata[0].Re; #define EXTRA_STEP(a, b) break; |