/* smpi_datatype.cpp -- MPI primitives to handle datatypes */
-/* Copyright (c) 2009-2015. The SimGrid Team.
+/* Copyright (c) 2009-2017. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
#include "mc/mc.h"
#include "private.h"
#include "simgrid/modelchecker.h"
-#include "smpi_mpi_dt_private.h"
-#include "xbt/replay.h"
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <string>
+#include <unordered_map>
#include <xbt/ex.hpp>
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_mpi_dt, smpi, "Logging specific to SMPI (datatype)");
-
-xbt_dict_t smpi_type_keyvals = nullptr;
-int type_keyval_id=0;//avoid collisions
-
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_datatype, smpi, "Logging specific to SMPI (datatype)");
#define CREATE_MPI_DATATYPE(name, type) \
- static Datatype mpi_##name ( \
+ static simgrid::smpi::Datatype mpi_##name ( \
(char*) # name, \
sizeof(type), /* size */ \
0, /* lb */ \
const MPI_Datatype name = &mpi_##name;
#define CREATE_MPI_DATATYPE_NULL(name) \
- static Datatype mpi_##name ( \
+ static simgrid::smpi::Datatype mpi_##name ( \
(char*) # name, \
0, /* size */ \
0, /* lb */ \
namespace simgrid{
namespace smpi{
-Datatype::Datatype(int size,int lb, int ub, int flags) : name_(nullptr), lb_(lb), ub_(ub), flags_(flags), attributes_(nullptr), in_use_(1){
+std::unordered_map<int, smpi_key_elem> Datatype::keyvals_;
+int Datatype::keyval_id_=0;
+
+Datatype::Datatype(int size,MPI_Aint lb, MPI_Aint ub, int flags) : name_(nullptr), size_(size), lb_(lb), ub_(ub), flags_(flags), refcount_(1){
#if HAVE_MC
if(MC_is_active())
- MC_ignore(&(in_use_), sizeof(in_use_));
+ MC_ignore(&(refcount_), sizeof(refcount_));
#endif
}
//for predefined types, so in_use = 0.
-Datatype::Datatype(char* name, int size,int lb, int ub, int flags) : name_(name), lb_(lb), ub_(ub), flags_(flags), attributes_(nullptr), in_use_(0){
+Datatype::Datatype(char* name, int size,MPI_Aint lb, MPI_Aint ub, int flags) : name_(name), size_(size), lb_(lb), ub_(ub), flags_(flags), refcount_(0){
#if HAVE_MC
if(MC_is_active())
- MC_ignore(&(in_use_), sizeof(in_use_));
+ MC_ignore(&(refcount_), sizeof(refcount_));
#endif
}
-
-//TODO : subtypes ?
-Datatype::Datatype(Datatype &datatype) : lb_(datatype.lb_), ub_(datatype.ub_), flags_(datatype.flags_), in_use_(1)
+Datatype::Datatype(Datatype *datatype, int* ret) : name_(nullptr), lb_(datatype->lb_), ub_(datatype->ub_), flags_(datatype->flags_), refcount_(1)
{
flags_ &= ~DT_FLAG_PREDEFINED;
- if(datatype.name_)
- name_ = xbt_strdup(datatype.name_);
- if(datatype.attributes_ !=nullptr){
- attributes_ = xbt_dict_new_homogeneous(nullptr);
- xbt_dict_cursor_t cursor = nullptr;
- char* key;
+ *ret = MPI_SUCCESS;
+ if(datatype->name_)
+ name_ = xbt_strdup(datatype->name_);
+
+ if(!(datatype->attributes()->empty())){
int flag;
- void* value_in;
void* value_out;
- xbt_dict_foreach (datatype.attributes_, cursor, key, value_in) {
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, key, sizeof(int)));
- if (elem != nullptr && elem->copy_fn != MPI_NULL_COPY_FN) {
- int ret = elem->copy_fn(&datatype, atoi(key), nullptr, value_in, &value_out, &flag);
- if (ret != MPI_SUCCESS) {
-// smpi_datatype_unuse(*new_t);
-// *new_t = MPI_DATATYPE_NULL;
- xbt_dict_cursor_free(&cursor);
+ for(auto it = datatype->attributes()->begin(); it != datatype->attributes()->end(); it++){
+ smpi_key_elem elem = keyvals_.at((*it).first);
+
+ if (elem != nullptr && elem->copy_fn.type_copy_fn != MPI_NULL_COPY_FN) {
+ *ret = elem->copy_fn.type_copy_fn(datatype, (*it).first, nullptr, (*it).second, &value_out, &flag);
+ if (*ret != MPI_SUCCESS) {
+ break;
+ }
+ if (flag){
+ elem->refcount++;
+ attributes()->insert({(*it).first, value_out});
}
- if (flag)
- xbt_dict_set_ext(attributes_, key, sizeof(int), value_out, nullptr);
}
}
}
}
Datatype::~Datatype(){
- xbt_assert(in_use_ >= 0);
+ xbt_assert(refcount_ >= 0);
if(flags_ & DT_FLAG_PREDEFINED)
return;
//if still used, mark for deletion
- if(in_use_!=0){
+ if(refcount_!=0){
flags_ |=DT_FLAG_DESTROYED;
return;
}
- if(attributes_ !=nullptr){
- xbt_dict_cursor_t cursor = nullptr;
- char* key;
- void * value;
- int flag;
- xbt_dict_foreach(attributes_, cursor, key, value){
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, key, sizeof(int)));
- if(elem!=nullptr && elem->delete_fn!=nullptr)
- elem->delete_fn(this,*key, value, &flag);
- }
- xbt_dict_free(&attributes_);
- }
+ cleanup_attr<Datatype>();
xbt_free(name_);
}
-void Datatype::use(){
+void Datatype::ref(){
- in_use_++;
+ refcount_++;
#if HAVE_MC
if(MC_is_active())
- MC_ignore(&(in_use_), sizeof(in_use_));
+ MC_ignore(&(refcount_), sizeof(refcount_));
#endif
}
-void Datatype::unuse()
+void Datatype::unref(MPI_Datatype datatype)
{
- if (in_use_ > 0)
- in_use_--;
+ if (datatype->refcount_ > 0)
+ datatype->refcount_--;
- if (in_use_ == 0)
- this->~Datatype();
+ if (datatype->refcount_ == 0 && !(datatype->flags_ & DT_FLAG_PREDEFINED))
+ delete datatype;
#if HAVE_MC
if(MC_is_active())
- MC_ignore(&(in_use_), sizeof(in_use_));
+ MC_ignore(&(datatype->refcount_), sizeof(datatype->refcount_));
#endif
}
return flags_;
}
+int Datatype::refcount(){
+ return refcount_;
+}
+
void Datatype::addflag(int flag){
flags_ &= flag;
}
name_ = xbt_strdup(name);
}
-int Datatype::attr_delete(int keyval){
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, reinterpret_cast<const char*>(&keyval), sizeof(int)));
- if(elem==nullptr)
- return MPI_ERR_ARG;
- if(elem->delete_fn!=MPI_NULL_DELETE_FN){
- void * value = nullptr;
- int flag;
- if(smpi_type_attr_get(this, keyval, &value, &flag)==MPI_SUCCESS){
- int ret = elem->delete_fn(this, keyval, value, &flag);
- if(ret!=MPI_SUCCESS)
- return ret;
- }
- }
- if(attributes_==nullptr)
- return MPI_ERR_ARG;
-
- xbt_dict_remove_ext(attributes_, reinterpret_cast<const char*>(&keyval), sizeof(int));
- return MPI_SUCCESS;
-}
-
-
-int Datatype::attr_get(int keyval, void* attr_value, int* flag){
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, reinterpret_cast<const char*>(&keyval), sizeof(int)));
- if(elem==nullptr)
- return MPI_ERR_ARG;
- if(attributes_==nullptr){
- *flag=0;
- return MPI_SUCCESS;
- }
- try {
- *static_cast<void**>(attr_value) = xbt_dict_get_ext(attributes_, reinterpret_cast<const char*>(&keyval), sizeof(int));
- *flag=1;
- }
- catch (xbt_ex& ex) {
- *flag=0;
- }
- return MPI_SUCCESS;
-}
-
-int Datatype::attr_put(int keyval, void* attr_value){
- if(smpi_type_keyvals==nullptr)
- smpi_type_keyvals = xbt_dict_new_homogeneous(nullptr);
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, reinterpret_cast<const char*>(&keyval), sizeof(int)));
- if(elem==nullptr)
- return MPI_ERR_ARG;
- int flag;
- void* value = nullptr;
- smpi_type_attr_get(this, keyval, &value, &flag);
- if(flag!=0 && elem->delete_fn!=MPI_NULL_DELETE_FN){
- int ret = elem->delete_fn(this, keyval, value, &flag);
- if(ret!=MPI_SUCCESS)
- return ret;
- }
- if(attributes_==nullptr)
- attributes_ = xbt_dict_new_homogeneous(nullptr);
-
- xbt_dict_set_ext(attributes_, reinterpret_cast<const char*>(&keyval), sizeof(int), attr_value, nullptr);
- return MPI_SUCCESS;
-}
-
-int Datatype::keyval_create(MPI_Type_copy_attr_function* copy_fn, MPI_Type_delete_attr_function* delete_fn, int* keyval, void* extra_state){
- if(smpi_type_keyvals==nullptr)
- smpi_type_keyvals = xbt_dict_new_homogeneous(nullptr);
-
- smpi_type_key_elem value = (smpi_type_key_elem) xbt_new0(s_smpi_mpi_type_key_elem_t,1);
-
- value->copy_fn=copy_fn;
- value->delete_fn=delete_fn;
-
- *keyval = type_keyval_id;
- xbt_dict_set_ext(smpi_type_keyvals,reinterpret_cast<const char*>(keyval), sizeof(int),reinterpret_cast<void*>(value), nullptr);
- type_keyval_id++;
- return MPI_SUCCESS;
-}
-
-int Datatype::keyval_free(int* keyval){
- smpi_type_key_elem elem =
- static_cast<smpi_type_key_elem>(xbt_dict_get_or_null_ext(smpi_type_keyvals, reinterpret_cast<const char*>(keyval), sizeof(int)));
- if(elem==0){
- return MPI_ERR_ARG;
- }
- xbt_dict_remove_ext(smpi_type_keyvals, reinterpret_cast<const char*>(keyval), sizeof(int));
- xbt_free(elem);
- return MPI_SUCCESS;
-}
-
-
int Datatype::pack(void* inbuf, int incount, void* outbuf, int outcount, int* position,MPI_Comm comm){
if (outcount - *position < incount*static_cast<int>(size_))
return MPI_ERR_BUFFER;
}
int Datatype::unpack(void* inbuf, int insize, int* position, void* outbuf, int outcount,MPI_Comm comm){
- if (outcount*(int)size_> insize)
+ if (outcount*static_cast<int>(size_)> insize)
return MPI_ERR_BUFFER;
Datatype::copy(static_cast<char*>(inbuf) + *position, insize, MPI_CHAR, outbuf, outcount, this);
*position += outcount * size_;
int Datatype::copy(void *sendbuf, int sendcount, MPI_Datatype sendtype,
void *recvbuf, int recvcount, MPI_Datatype recvtype){
-// int count;
+ int count;
+
+ if(smpi_is_shared(sendbuf)){
+ XBT_DEBUG("Copy input buf %p is shared. Let's ignore it.", sendbuf);
+ }else if(smpi_is_shared(recvbuf)){
+ XBT_DEBUG("Copy output buf %p is shared. Let's ignore it.", recvbuf);
+ }
+
if(smpi_privatize_global_variables){
- smpi_switch_data_segment(smpi_process_index());
+ smpi_switch_data_segment(smpi_process()->index());
}
/* First check if we really have something to do */
if (recvcount > 0 && recvbuf != sendbuf) {
- /* FIXME: treat packed cases */
sendcount *= sendtype->size();
recvcount *= recvtype->size();
-// count = sendcount < recvcount ? sendcount : recvcount;
-
-// if(sendtype->sizeof_substruct == 0 && recvtype->sizeof_substruct == 0) {
-// if(!smpi_process_get_replaying())
-// memcpy(recvbuf, sendbuf, count);
-// }
-// else if (sendtype->sizeof_substruct == 0)
-// {
-// s_smpi_subtype_t *subtype = static_cast<s_smpi_subtype_t*>(recvtype->substruct);
-// subtype->unserialize( sendbuf, recvbuf, recvcount/smpi_datatype_size(recvtype), subtype, MPI_REPLACE);
-// }
-// else if (recvtype->sizeof_substruct == 0)
-// {
-// s_smpi_subtype_t *subtype = static_cast<s_smpi_subtype_t*>(sendtype->substruct);
-// subtype->serialize(sendbuf, recvbuf, sendcount/smpi_datatype_size(sendtype), subtype);
-// }else{
-// s_smpi_subtype_t *subtype = static_cast<s_smpi_subtype_t*>(sendtype->substruct);
-
-// void * buf_tmp = xbt_malloc(count);
-
-// subtype->serialize( sendbuf, buf_tmp,count/smpi_datatype_size(sendtype), subtype);
-// subtype = static_cast<s_smpi_subtype_t*>(recvtype->substruct);
-// subtype->unserialize( buf_tmp, recvbuf,count/smpi_datatype_size(recvtype), subtype, MPI_REPLACE);
-
-// xbt_free(buf_tmp);
-// }
+ count = sendcount < recvcount ? sendcount : recvcount;
+
+ if(!(sendtype->flags() & DT_FLAG_DERIVED) && !(recvtype->flags() & DT_FLAG_DERIVED)) {
+ if(!smpi_process()->replaying())
+ memcpy(recvbuf, sendbuf, count);
+ }
+ else if (!(sendtype->flags() & DT_FLAG_DERIVED))
+ {
+ recvtype->unserialize( sendbuf, recvbuf, recvcount/recvtype->size(), MPI_REPLACE);
+ }
+ else if (!(recvtype->flags() & DT_FLAG_DERIVED))
+ {
+ sendtype->serialize(sendbuf, recvbuf, sendcount/sendtype->size());
+ }else{
+
+ void * buf_tmp = xbt_malloc(count);
+
+ sendtype->serialize( sendbuf, buf_tmp,count/sendtype->size());
+ recvtype->unserialize( buf_tmp, recvbuf,count/recvtype->size(), MPI_REPLACE);
+
+ xbt_free(buf_tmp);
+ }
}
return sendcount > recvcount ? MPI_ERR_TRUNCATE : MPI_SUCCESS;
}
//Default serialization method : memcpy.
-void Datatype::serialize( void* noncontiguous, void *contiguous, int count, void *type){
- char* contiguous_char = static_cast<char*>(contiguous);
- char* noncontiguous_char = static_cast<char*>(noncontiguous)+lb_;
- memcpy(contiguous_char, noncontiguous_char, count*size_);
+void Datatype::serialize( void* noncontiguous_buf, void *contiguous_buf, int count){
+ char* contiguous_buf_char = static_cast<char*>(contiguous_buf);
+ char* noncontiguous_buf_char = static_cast<char*>(noncontiguous_buf)+lb_;
+ memcpy(contiguous_buf_char, noncontiguous_buf_char, count*size_);
}
-void Datatype::unserialize( void* contiguous, void *noncontiguous, int count, void *type, MPI_Op op){
- char* contiguous_char = static_cast<char*>(contiguous);
- char* noncontiguous_char = static_cast<char*>(noncontiguous)+lb_;
+void Datatype::unserialize( void* contiguous_buf, void *noncontiguous_buf, int count, MPI_Op op){
+ char* contiguous_buf_char = static_cast<char*>(contiguous_buf);
+ char* noncontiguous_buf_char = static_cast<char*>(noncontiguous_buf)+lb_;
int n=count;
if(op!=MPI_OP_NULL)
- op->apply( contiguous_char, noncontiguous_char, &n, this);
+ op->apply( contiguous_buf_char, noncontiguous_buf_char, &n, this);
+}
+
+int Datatype::create_contiguous(int count, MPI_Datatype old_type, MPI_Aint lb, MPI_Datatype* new_type){
+ if(old_type->flags_ & DT_FLAG_DERIVED){
+ //handle this case as a hvector with stride equals to the extent of the datatype
+ return create_hvector(count, 1, old_type->get_extent(), old_type, new_type);
+ }
+ if(count>0)
+ *new_type = new Type_Contiguous(count * old_type->size(), lb, lb + count * old_type->size(),
+ DT_FLAG_DERIVED, count, old_type);
+ else
+ *new_type = new Datatype(count * old_type->size(), lb, lb + count * old_type->size(),0);
+ return MPI_SUCCESS;
+}
+
+int Datatype::create_vector(int count, int block_length, int stride, MPI_Datatype old_type, MPI_Datatype* new_type)
+{
+ int retval;
+ if (block_length<0)
+ return MPI_ERR_ARG;
+ MPI_Aint lb = 0;
+ MPI_Aint ub = 0;
+ if(count>0){
+ lb=old_type->lb();
+ ub=((count-1)*stride+block_length-1)*old_type->get_extent()+old_type->ub();
+ }
+ if(old_type->flags() & DT_FLAG_DERIVED || stride != block_length){
+ *new_type = new Type_Vector(count * (block_length) * old_type->size(), lb, ub,
+ DT_FLAG_DERIVED, count, block_length, stride, old_type);
+ retval=MPI_SUCCESS;
+ }else{
+ /* in this situation the data are contiguous thus it's not required to serialize and unserialize it*/
+ *new_type = new Datatype(count * block_length * old_type->size(), 0, ((count -1) * stride + block_length)*
+ old_type->size(), DT_FLAG_CONTIGUOUS);
+ retval=MPI_SUCCESS;
+ }
+ return retval;
+}
+
+
+int Datatype::create_hvector(int count, int block_length, MPI_Aint stride, MPI_Datatype old_type, MPI_Datatype* new_type)
+{
+ int retval;
+ if (block_length<0)
+ return MPI_ERR_ARG;
+ MPI_Aint lb = 0;
+ MPI_Aint ub = 0;
+ if(count>0){
+ lb=old_type->lb();
+ ub=((count-1)*stride)+(block_length-1)*old_type->get_extent()+old_type->ub();
+ }
+ if(old_type->flags() & DT_FLAG_DERIVED || stride != block_length*old_type->get_extent()){
+ *new_type = new Type_Hvector(count * (block_length) * old_type->size(), lb, ub,
+ DT_FLAG_DERIVED, count, block_length, stride, old_type);
+ retval=MPI_SUCCESS;
+ }else{
+ /* in this situation the data are contiguous thus it's not required to serialize and unserialize it*/
+ *new_type = new Datatype(count * block_length * old_type->size(), 0, count * block_length * old_type->size(), DT_FLAG_CONTIGUOUS);
+ retval=MPI_SUCCESS;
+ }
+ return retval;
+}
+
+int Datatype::create_indexed(int count, int* block_lengths, int* indices, MPI_Datatype old_type, MPI_Datatype* new_type){
+ int size = 0;
+ bool contiguous=true;
+ MPI_Aint lb = 0;
+ MPI_Aint ub = 0;
+ if(count>0){
+ lb=indices[0]*old_type->get_extent();
+ ub=indices[0]*old_type->get_extent() + block_lengths[0]*old_type->ub();
+ }
+
+ for (int i = 0; i < count; i++) {
+ if (block_lengths[i] < 0)
+ return MPI_ERR_ARG;
+ size += block_lengths[i];
+
+ if(indices[i]*old_type->get_extent()+old_type->lb()<lb)
+ lb = indices[i]*old_type->get_extent()+old_type->lb();
+ if(indices[i]*old_type->get_extent()+block_lengths[i]*old_type->ub()>ub)
+ ub = indices[i]*old_type->get_extent()+block_lengths[i]*old_type->ub();
+
+ if ( (i< count -1) && (indices[i]+block_lengths[i] != indices[i+1]) )
+ contiguous=false;
+ }
+ if(old_type->flags_ & DT_FLAG_DERIVED)
+ contiguous=false;
+
+ if(!contiguous){
+ *new_type = new Type_Indexed(size * old_type->size(),lb,ub,
+ DT_FLAG_DERIVED|DT_FLAG_DATA, count, block_lengths, indices, old_type);
+ }else{
+ Datatype::create_contiguous(size, old_type, lb, new_type);
+ }
+ return MPI_SUCCESS;
+}
+
+int Datatype::create_hindexed(int count, int* block_lengths, MPI_Aint* indices, MPI_Datatype old_type, MPI_Datatype* new_type){
+ int size = 0;
+ bool contiguous=true;
+ MPI_Aint lb = 0;
+ MPI_Aint ub = 0;
+ if(count>0){
+ lb=indices[0] + old_type->lb();
+ ub=indices[0] + block_lengths[0]*old_type->ub();
+ }
+ for (int i = 0; i < count; i++) {
+ if (block_lengths[i] < 0)
+ return MPI_ERR_ARG;
+ size += block_lengths[i];
+
+ if(indices[i]+old_type->lb()<lb)
+ lb = indices[i]+old_type->lb();
+ if(indices[i]+block_lengths[i]*old_type->ub()>ub)
+ ub = indices[i]+block_lengths[i]*old_type->ub();
+
+ if ( (i< count -1) && (indices[i]+block_lengths[i]*(static_cast<int>(old_type->size())) != indices[i+1]) )
+ contiguous=false;
+ }
+ if (old_type->flags_ & DT_FLAG_DERIVED || lb!=0)
+ contiguous=false;
+
+ if(!contiguous){
+ *new_type = new Type_Hindexed(size * old_type->size(),lb,ub,
+ DT_FLAG_DERIVED|DT_FLAG_DATA, count, block_lengths, indices, old_type);
+ }else{
+ Datatype::create_contiguous(size, old_type, lb, new_type);
+ }
+ return MPI_SUCCESS;
+}
+
+int Datatype::create_struct(int count, int* block_lengths, MPI_Aint* indices, MPI_Datatype* old_types, MPI_Datatype* new_type){
+ size_t size = 0;
+ bool contiguous=true;
+ size = 0;
+ MPI_Aint lb = 0;
+ MPI_Aint ub = 0;
+ if(count>0){
+ lb=indices[0] + old_types[0]->lb();
+ ub=indices[0] + block_lengths[0]*old_types[0]->ub();
+ }
+ bool forced_lb=false;
+ bool forced_ub=false;
+ for (int i = 0; i < count; i++) {
+ if (block_lengths[i]<0)
+ return MPI_ERR_ARG;
+ if (old_types[i]->flags_ & DT_FLAG_DERIVED)
+ contiguous=false;
+
+ size += block_lengths[i]*old_types[i]->size();
+ if (old_types[i]==MPI_LB){
+ lb=indices[i];
+ forced_lb=true;
+ }
+ if (old_types[i]==MPI_UB){
+ ub=indices[i];
+ forced_ub=true;
+ }
+
+ if(!forced_lb && indices[i]+old_types[i]->lb()<lb)
+ lb = indices[i];
+ if(!forced_ub && indices[i]+block_lengths[i]*old_types[i]->ub()>ub)
+ ub = indices[i]+block_lengths[i]*old_types[i]->ub();
+
+ if ( (i< count -1) && (indices[i]+block_lengths[i]*static_cast<int>(old_types[i]->size()) != indices[i+1]) )
+ contiguous=false;
+ }
+ if(!contiguous){
+ *new_type = new Type_Struct(size, lb,ub, DT_FLAG_DERIVED|DT_FLAG_DATA,
+ count, block_lengths, indices, old_types);
+ }else{
+ Datatype::create_contiguous(size, MPI_CHAR, lb, new_type);
+ }
+ return MPI_SUCCESS;
}
+Datatype* Datatype::f2c(int id){
+ return static_cast<Datatype*>(F2C::f2c(id));
+}
}