#define MAX_OP(a, b) (b) = (a) < (b) ? (b) : (a)
#define MIN_OP(a, b) (b) = (a) < (b) ? (a) : (b)
#define SUM_OP(a, b) (b) += (a)
+#define SUM_OP_COMPLEX(a, b) {(b.value) += (a.value);(b.index) += (a.index);}
#define PROD_OP(a, b) (b) *= (a)
+#define PROD_OP_COMPLEX(a, b) {(b.value) *= (a.value);(b.index) *= (a.index);}
#define LAND_OP(a, b) (b) = (a) && (b)
#define LOR_OP(a, b) (b) = (a) || (b)
#define LXOR_OP(a, b) (b) = (not(a) && (b)) || ((a) && not(b))
APPLY_OP_LOOP(MPI_2FLOAT, float_float,op)\
APPLY_OP_LOOP(MPI_2DOUBLE, double_double,op)\
APPLY_OP_LOOP(MPI_LONG_DOUBLE_INT, long_double_int,op)\
-APPLY_OP_LOOP(MPI_2LONG, long_long,op)
-
-#define APPLY_END_OP_LOOP(op)\
- {\
- xbt_die("Failed to apply " #op " to type %s", (*datatype)->name());\
+APPLY_OP_LOOP(MPI_2LONG, long_long,op)\
+APPLY_OP_LOOP(MPI_COMPLEX8, float_float,op)\
+APPLY_OP_LOOP(MPI_COMPLEX16, double_double,op)\
+APPLY_OP_LOOP(MPI_COMPLEX32, double_double,op)
+
+#define APPLY_END_OP_LOOP(op) \
+ { \
+ xbt_die("Failed to apply " _XBT_STRINGIFY(op) " to type %s", (*datatype)->name()); \
}
static void max_func(void *a, void *b, int *length, MPI_Datatype * datatype)
APPLY_BASIC_OP_LOOP(SUM_OP)
APPLY_FLOAT_OP_LOOP(SUM_OP)
APPLY_COMPLEX_OP_LOOP(SUM_OP)
+ APPLY_PAIR_OP_LOOP(SUM_OP_COMPLEX)
APPLY_END_OP_LOOP(SUM_OP)
}
APPLY_BASIC_OP_LOOP(PROD_OP)
APPLY_FLOAT_OP_LOOP(PROD_OP)
APPLY_COMPLEX_OP_LOOP(PROD_OP)
+ APPLY_PAIR_OP_LOOP(PROD_OP_COMPLEX)
APPLY_END_OP_LOOP(PROD_OP)
}
static void land_func(void *a, void *b, int *length, MPI_Datatype * datatype)
{
APPLY_BASIC_OP_LOOP(LAND_OP)
+ APPLY_FLOAT_OP_LOOP(LAND_OP)
APPLY_BOOL_OP_LOOP(LAND_OP)
APPLY_END_OP_LOOP(LAND_OP)
}
static void lor_func(void *a, void *b, int *length, MPI_Datatype * datatype)
{
APPLY_BASIC_OP_LOOP(LOR_OP)
+ APPLY_FLOAT_OP_LOOP(LOR_OP)
APPLY_BOOL_OP_LOOP(LOR_OP)
APPLY_END_OP_LOOP(LOR_OP)
}
static void lxor_func(void *a, void *b, int *length, MPI_Datatype * datatype)
{
APPLY_BASIC_OP_LOOP(LXOR_OP)
+ APPLY_FLOAT_OP_LOOP(LXOR_OP)
APPLY_BOOL_OP_LOOP(LXOR_OP)
APPLY_END_OP_LOOP(LXOR_OP)
}
/* obviously a no-op */
}
-#define CREATE_MPI_OP(name, func) \
- static SMPI_Op mpi_##name (&(func) /* func */, true, true ); \
-MPI_Op name = &mpi_##name;
+#define CREATE_MPI_OP(name, func) \
+ static SMPI_Op _XBT_CONCAT(mpi_, name)(&(func) /* func */, true, true); \
+ MPI_Op name = &_XBT_CONCAT(mpi_, name);
CREATE_MPI_OP(MPI_MAX, max_func);
CREATE_MPI_OP(MPI_MIN, min_func);
namespace simgrid{
namespace smpi{
-void Op::apply(const void *invec, void *inoutvec, int *len, MPI_Datatype datatype)
+void Op::apply(const void* invec, void* inoutvec, const int* len, MPI_Datatype datatype)
{
if (smpi_privatize_global_variables == SmpiPrivStrategies::MMAP) {
// we need to switch as the called function may silently touch global variables
if (not smpi_process()->replaying() && *len > 0) {
if (not is_fortran_op_)
- this->func_(const_cast<void*>(invec), inoutvec, len, &datatype);
+ this->func_(const_cast<void*>(invec), inoutvec, const_cast<int*>(len), &datatype);
else{
XBT_DEBUG("Applying operation of length %d from %p and from/to %p", *len, invec, inoutvec);
int tmp = datatype->c2f();
/* Unfortunately, the C and Fortran version of the MPI standard do not agree on the type here,
thus the reinterpret_cast. */
- this->func_(const_cast<void*>(invec), inoutvec, len, reinterpret_cast<MPI_Datatype*>(&tmp) );
+ this->func_(const_cast<void*>(invec), inoutvec, const_cast<int*>(len), reinterpret_cast<MPI_Datatype*>(&tmp));
}
}
}