namespace simgrid{
namespace smpi{
+
+Datatype_contents::Datatype_contents(int combiner,
+ int number_of_integers, const int* integers,
+ int number_of_addresses, const MPI_Aint* addresses,
+ int number_of_datatypes, const MPI_Datatype* datatypes)
+: combiner_(combiner), number_of_integers_(number_of_integers),
+ number_of_addresses_(number_of_addresses),
+ number_of_datatypes_(number_of_datatypes)
+{
+ integers_=new int[number_of_integers_];
+ for(int i=0; i<number_of_integers_; i++){
+ integers_[i]=integers[i];
+ }
+ addresses_=new MPI_Aint[number_of_addresses_];
+ for(int i=0; i<number_of_addresses_; i++){
+ addresses_[i]=addresses[i];
+ }
+ datatypes_=new MPI_Datatype[number_of_datatypes_];
+ for(int i=0; i<number_of_datatypes_; i++){
+ datatypes_[i]=datatypes[i];
+ }
+};
+Datatype_contents::~Datatype_contents(){
+ delete[] integers_;
+ delete[] addresses_;
+ delete[] datatypes_;
+}
+
Type_Contiguous::Type_Contiguous(int size, MPI_Aint lb, MPI_Aint ub, int flags, int block_count, MPI_Datatype old_type)
: Datatype(size, lb, ub, flags), block_count_(block_count), old_type_(old_type)
{
+ contents_ = new Datatype_contents(MPI_COMBINER_CONTIGUOUS, 1, &block_count, 0, nullptr, 1, &old_type);
old_type_->ref();
}
Datatype::unref(old_type_);
}
+int Type_Contiguous::clone(MPI_Datatype* type)
+{
+ *type = new Type_Contiguous(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->old_type_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
+}
+
void Type_Contiguous::serialize(const void* noncontiguous_buf, void* contiguous_buf, int count)
{
char* contiguous_buf_char = static_cast<char*>(contiguous_buf);
}
Type_Hvector::Type_Hvector(int size,MPI_Aint lb, MPI_Aint ub, int flags, int count, int block_length, MPI_Aint stride, MPI_Datatype old_type): Datatype(size, lb, ub, flags), block_count_(count), block_length_(block_length), block_stride_(stride), old_type_(old_type){
+ int ints[2] = {count, block_length};
+ contents_ = new Datatype_contents(MPI_COMBINER_HVECTOR, 2, ints, 1, &stride, 1, &old_type);
old_type->ref();
}
Type_Hvector::~Type_Hvector(){
Datatype::unref(old_type_);
}
+int Type_Hvector::clone(MPI_Datatype* type)
+{
+ *type = new Type_Hvector(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->block_length_, this->block_stride_, this->old_type_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
+}
+
void Type_Hvector::serialize(const void* noncontiguous_buf, void *contiguous_buf,
int count){
char* contiguous_buf_char = static_cast<char*>(contiguous_buf);
MPI_Datatype old_type)
: Type_Hvector(size, lb, ub, flags, count, block_length, stride * old_type->get_extent(), old_type)
{
+ delete contents_;
+ int ints[3] = {count, block_length, stride};
+ contents_ = new Datatype_contents(MPI_COMBINER_VECTOR, 3, ints, 0, nullptr, 1, &old_type);
+}
+
+int Type_Vector::clone(MPI_Datatype* type)
+{
+ *type = new Type_Vector(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->block_length_, this->block_stride_, this->old_type_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
}
Type_Hindexed::Type_Hindexed(int size, MPI_Aint lb, MPI_Aint ub, int flags, int count, const int* block_lengths,
, block_indices_(new MPI_Aint[count])
, old_type_(old_type)
{
+ int* ints = new int[count+1];
+ ints[0]=count;
+ for(int i=1;i<=count;i++)
+ ints[i]=block_lengths[i-1];
+ contents_ = new Datatype_contents(MPI_COMBINER_HINDEXED, count+1, ints, count, block_indices, 1, &old_type);
+ delete[] ints;
old_type_->ref();
for (int i = 0; i < count; i++) {
block_lengths_[i] = block_lengths[i];
}
}
+int Type_Hindexed::clone(MPI_Datatype* type)
+{
+ *type = new Type_Hindexed(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->block_lengths_, this->block_indices_, this->old_type_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
+}
+
Type_Hindexed::~Type_Hindexed()
{
Datatype::unref(old_type_);
const int* block_indices, MPI_Datatype old_type)
: Type_Hindexed(size, lb, ub, flags, count, block_lengths, block_indices, old_type, old_type->get_extent())
{
+ delete contents_;
+ int* ints = new int[2*count+1];
+ ints[0]=count;
+ for(int i=1;i<=count;i++)
+ ints[i]=block_lengths[i-1];
+ for(int i=count+1;i<=2*count;i++)
+ ints[i]=block_indices[i-count-1];
+ contents_ = new Datatype_contents(MPI_COMBINER_INDEXED, 2*count+1, ints, 0, nullptr, 1, &old_type);
+ delete[] ints;
+}
+
+int Type_Indexed::clone(MPI_Datatype* type)
+{
+ *type = new Type_Indexed(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->block_lengths_, (int*)(this->block_indices_), this->old_type_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
}
Type_Struct::Type_Struct(int size, MPI_Aint lb, MPI_Aint ub, int flags, int count, const int* block_lengths,
, block_indices_(new MPI_Aint[count])
, old_types_(new MPI_Datatype[count])
{
+ int* ints = new int[count+1];
+ ints[0]=count;
+ for(int i=1;i<=count;i++)
+ ints[i]=block_lengths[i-1];
+ contents_ = new Datatype_contents(MPI_COMBINER_INDEXED, count+1, ints, count, block_indices, count, old_types);
+ delete[] ints;
for (int i = 0; i < count; i++) {
block_lengths_[i]=block_lengths[i];
block_indices_[i]=block_indices[i];
}
}
+int Type_Struct::clone(MPI_Datatype* type)
+{
+ *type = new Type_Struct(this->size(), this->lb(), this->ub(), this->flags(), this->block_count_, this->block_lengths_, this->block_indices_, this->old_types_);
+ (*type)->copy_attrs(this);
+ return MPI_SUCCESS;
+}
void Type_Struct::serialize(const void* noncontiguous_buf, void *contiguous_buf,
int count){