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I am trying to resize a vector element of a structure and it causes segv. But when I did it individually for some small struct it worked fine. I am curious to know how it allocates memory to structure in which there is a vector element that could be resized. The below comment line causes segv in first iteration (type_index = 0).

Structure:-

struct thread_data {
    dbPointer_t pObj;
    dbObjId_t   objId;
    dbObjTypeId_t type;
    dbObjId_t topCellId;
    dbIteratorId_t             objsIterId;
    int precision;
    int64_t shape_objs;
    vector<vector<vector<PL_trp_header_t *> > > ps_hdrs;
    int pool;
    int num_layers;
    int to_cell_id;
};

Below is the snippet of code:-

thread_data *t_data[types_length];
for(int type_index=0; type_index < types_length; ++type_index) {
                t_data[type_index] = (thread_data*)malloc(sizeof(thread_data));
                t_data[type_index]->pObj = NULL;
                t_data[type_index]->objId = objId;
                t_data[type_index]->type = shape_types[type_index];
                t_data[type_index]->topCellId = topCellId;
                t_data[type_index]->objsIterId = objsIterId;
                t_data[type_index]->precision = nparams.unit_precision;
                t_data[type_index]->shape_objs = 0; 
                t_data[type_index]->ps_hdrs.resize(num_layers); //this line causes segv
                t_data[type_index]->pool = pool;
                t_data[type_index]->num_layers = num_layers;
                t_data[type_index]->to_cell_id = tocell_id;               


                for (int num = 0; num < num_layers; num++) {
                    t_data[type_index]->ps_hdrs[num].resize(index_limit);

                    for (int rows = 0; rows <  index_limit; rows++) 
                        t_data[type_index]->ps_hdrs[num][rows].resize(index_limit);
                }

                for(int i = 0; i < num_layers; i++) {
                    for (int rows = 0; rows < index_limit; rows++) {      
                        for (int cols = 0; cols < index_limit; cols++) {
                            t_data[type_index]->ps_hdrs[i][rows][cols] = alloc_hdr(pool);
                        }
                    }
                }



                printf("In main: creating thread %d \n", type_index);
                rc_thread = pthread_create(&threads[type_index], NULL, thread_fn, (void *) &t_data[type_index]);
                if (rc_thread){
                    printf("ERROR; return code from pthread_create() is %d\n", rc);
                    exit(-1);
                }
                free(t_data[type_index]);
            }
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A triple-vector of naked pointers. Someone needs to shower after that one. –  WhozCraig Nov 5 '13 at 9:46

1 Answer 1

I think you are allocating your data with malloc. In this case no constructors for your objects and theier members are called. This works with PODs but not with classes like vector. In the line with the error you try to access some unitialised memory like an vector. Try new and delete instead of mallac and free to solve this isue.

share|improve this answer
    
thanks jan for your reply, i will try that. could you explain memory allocation too? –  crazy_prog Nov 5 '13 at 9:50
    
@crazy_prog the only thing you need to know about memory allocation is use new and delete or better some factory function which creates smart pointers (like make_shared). Look at for RAII ( stackoverflow.com/questions/tagged/c%2b%2b%20raii ) as an concept for lifetime management of objects. –  Jan Herrmann Nov 5 '13 at 9:59

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