trans->type = mc_isend;
trans->process = SIMIX_process_self();
trans->isend.rdv = rdv;
- trans->name = bprintf("[%s][%s] iSend (%p)", trans->process->smx_host->name,
- trans->process->name, trans);
+ trans->name = bprintf("[%s]\t iSend (%p)", trans->process->smx_host->name, trans);
return trans;
}
trans->type = mc_irecv;
trans->process = SIMIX_process_self();
trans->irecv.rdv = rdv;
- trans->name = bprintf("[%s][%s] iRecv (%p)", trans->process->smx_host->name,
- trans->process->name, trans);
+ trans->name = bprintf("[%s]\t iRecv (%p)", trans->process->smx_host->name, trans);
return trans;
}
trans->type = mc_wait;
trans->process = SIMIX_process_self();
trans->wait.comm = comm;
- trans->name = bprintf("[%s][%s] Wait (%p)", trans->process->smx_host->name,
- trans->process->name, trans);
+ trans->name = bprintf("[%s]\t Wait (%p)", trans->process->smx_host->name, trans);
return trans;
}
trans->type = mc_test;
trans->process = SIMIX_process_self();
trans->test.comm = comm;
- trans->name = bprintf("[%s][%s] Test (%p)", trans->process->smx_host->name,
- trans->process->name, trans);
+ trans->name = bprintf("[%s]\t Test (%p)", trans->process->smx_host->name, trans);
return trans;
}
trans->type = mc_waitany;
trans->process = SIMIX_process_self();
trans->waitany.comms = comms;
- trans->name = bprintf("[%s][%s] WaitAny (%p)", trans->process->smx_host->name,
- trans->process->name, trans);
+ trans->name = bprintf("[%s]\t WaitAny (%p)", trans->process->smx_host->name, trans);
return trans;
}
trans->type = mc_random;
trans->process = SIMIX_process_self();
trans->random.value = value;
- trans->name = bprintf("[%s][%s] Random %d (%p)", trans->process->smx_host->name,
- trans->process->name, value, trans);
+ trans->name = bprintf("[%s]\t Random %d (%p)", trans->process->smx_host->name, value, trans);
return trans;
}
*/
void MC_trans_intercept_waitany(xbt_dynar_t comms)
{
- unsigned int cursor;
+ unsigned int index = 0;
+ smx_comm_t comm = NULL;
mc_transition_t trans = NULL;
mc_state_t current_state = NULL;
- smx_comm_t comm = NULL;
-
if(!mc_replay_mode){
MC_SET_RAW_MEM;
current_state = (mc_state_t)
xbt_fifo_get_item_content(xbt_fifo_get_first_item(mc_stack));
- xbt_dynar_foreach(comms, cursor, comm){
+ xbt_dynar_foreach(comms, index, comm){
trans = MC_trans_wait_new(comm);
xbt_setset_set_insert(current_state->created_transitions, trans);
xbt_setset_set_insert(current_state->transitions, trans);
MC_SET_RAW_MEM;
current_state = (mc_state_t)
xbt_fifo_get_item_content(xbt_fifo_get_first_item(mc_stack));
- for(i=min; i <= max; i++){
+ for(i=min; i <= max; i++){
trans = MC_trans_random_new(i);
xbt_setset_set_insert(current_state->created_transitions, trans);
xbt_setset_set_insert(current_state->transitions, trans);
/* WaitAny transitions are enabled if any of it's communications has both
a sender and a receiver */
case mc_waitany:
- xbt_dynar_foreach(trans->waitany.comms, index, comm){
+ xbt_dynar_foreach(trans->waitany.comms, index, comm){
if(comm->src_proc && comm->dst_proc){
xbt_setset_set_insert(enabled, trans);
DEBUG1("Transition %p is enabled for next state", trans);
if(t1->type != t2->type)
return FALSE;
+
+/* if(t1->type == mc_isend && t2->type == mc_irecv)
+ return FALSE;
+ if(t1->type == mc_irecv && t2->type == mc_isend)
+ return FALSE;*/
+
if(t1->type == mc_random || t2->type == mc_random)
return FALSE;
&& t1->wait.comm->dst_buff != t2->wait.comm->dst_buff
&& t2->wait.comm->dst_buff != t1->wait.comm->src_buff)
return FALSE;
+
return TRUE;
}
\ No newline at end of file