# What is the correct way to allocate this nested structures?

I'm having some trouble trying to figure out how to allocate and free the memory for this structures.

I need to use this to create FiniteTable's to use in Newton Interpolation.

``````typedef struct{
unsigned int empty;
float value;
}FiniteTableValue;
``````

The fist one is kind of a Node that has the real value.

``````typedef struct{
FiniteTableValue *column;
unsigned int length;
}FiniteTableRow;
``````

FiniteTableRow keeps an array of FiniteTableValues.

``````typedef struct{
FiniteTableRow *row;
unsigned int length;
}FiniteTable;
``````

FiniteTable then keeps an array of FiniteTableRows.

``````typedef struct{
FiniteTable *tables;
unsigned int length;
}FiniteTableList;
``````

FiniteTableList is the list of FiniteTable's

I tried to debugg it with valgrind and it seems I always access some address that I didn't allocate.

Also, is this the right way to deallocate all ?

``````FiniteTableList *ftl ...
...
for(int i = 0; i < ftl->length; i++){
FiniteTable table = ftl->tables[i];
for(int j = 0; j < table.length; j++){
FiniteTableRow row = table.row[j];
free(row.column);
}
free(table.row);
}
free(ftl->tables);
free(ftl);
``````
• What are the valgrind errors? Try running with `--track-origins=yes` if they involve undefined data. – Florian Weimer Nov 11 '17 at 19:10
• It for "Conditional jump or move depends on uninitialised value(s) " I kind of know where they are, but all I need to know is how simply initiate all these structures with malloc – Felipe Nov 11 '17 at 19:16
• In this case, `--track-origins=yes` should point you to the source code location you need to fix. If not, you need to post the valgrind errors and the corresponding source code. – Florian Weimer Nov 11 '17 at 19:17
• @TomKarzes Oh right typo here. On the code is correct. – Felipe Nov 11 '17 at 19:45

In your deallocation example the `Ftl` object is a `FiniteTableList` rather than a pointer (`FiniteTableList *`). I think you meant to write:

``````FiniteTableList ftl ...
``````

To allocate memory for a `FiniteTableList` structure you'd do something like this:

``````/* Assuming every table in the list will have num_rows rows and num_columns columns.  */
FiniteTableList *
allocate_table_list (int num_rows, num_columns, int num_tables)
{
FiniteTableList * res = malloc (sizeof *res);
res->tables = malloc (num_tables * sizeof (*res->tables));
res->length = num_tables;
for (int t = 0; t < num_tables; t++)
{
FiniteTable table = res->tables[t];
table.row = malloc (num_rows * sizeof (*table.row));
table.length = num_rows;
for (int r = 0; r < num_rows; r++)
{
FiniteTableRow row = table.row[r];
row.column = malloc (num_columns * sizeof (*row.column));
row.length = num_columns;
}
}
return res;
}
``````

If you want to zero-initialise the memory you allocate you can substitute the calls to `malloc` by `calloc`

• What are you allocating when you do FiniteTableList * res = malloc(sizeof *res); ? – Felipe Nov 11 '17 at 20:05
• You are allocating memory for the top-level FiniteTableList object. The (sizeof *res) expression means "the size of the the type that the pointer res points to" – Kyrill Nov 11 '17 at 21:22