reg_closure_t *create_reg_primop_closure(OBJECT_PTR operator,
OBJECT_PTR operands,
unsigned int nof_vals,
OBJECT_PTR *vals,
reg_closure_t *cls)
{
reg_closure_t *primop_closure = (reg_closure_t *)GC_MALLOC(sizeof(reg_closure_t));
if(cons_length(operands) == 0) //last binding
primop_closure->fn = primop_cont_fn_non_recur;
else
primop_closure->fn = primop_cont_fn_recur;
primop_closure->nof_closed_vals = nof_vals + 2;
primop_closure->closed_vals = (OBJECT_PTR *)GC_MALLOC(primop_closure->nof_closed_vals * sizeof(OBJECT_PTR));
primop_closure->closed_vals[0] = operator;
primop_closure->closed_vals[1] = operands;
int i;
for(i=2; i<primop_closure->nof_closed_vals; i++)
primop_closure->closed_vals[i] = vals[i-2];
primop_closure->data = cls;
return primop_closure;
}
reg_closure_t *create_reg_app_closure(OBJECT_PTR exp,
unsigned int nof_vals,
OBJECT_PTR *vals,
reg_closure_t *cls)
{
reg_closure_t *app_closure = (reg_closure_t *)GC_MALLOC(sizeof(reg_closure_t));
if(cons_length(exp) == 0) //last binding
app_closure->fn = app_cont_fn_non_recur;
else
app_closure->fn = app_cont_fn_recur;
app_closure->nof_closed_vals = nof_vals + 1;
app_closure->closed_vals = (OBJECT_PTR *)GC_MALLOC(app_closure->nof_closed_vals * sizeof(OBJECT_PTR));
app_closure->closed_vals[0] = exp;
int i;
for(i=1; i<app_closure->nof_closed_vals; i++)
app_closure->closed_vals[i] = vals[i-1];
app_closure->data = cls;
return app_closure;
}
reg_closure_t *create_reg_let_closure(OBJECT_PTR bindings,
OBJECT_PTR full_bindings,
OBJECT_PTR body,
unsigned int nof_vals,
OBJECT_PTR *vals,
reg_closure_t *cls)
{
reg_closure_t *let_closure = (reg_closure_t *)GC_MALLOC(sizeof(reg_closure_t));
if(cons_length(bindings) == 0) //last binding
let_closure->fn = let_cont_fn_non_recur;
else
let_closure->fn = let_cont_fn_recur;
let_closure->nof_closed_vals = nof_vals + 3;
let_closure->closed_vals = (OBJECT_PTR *)GC_MALLOC(let_closure->nof_closed_vals * sizeof(OBJECT_PTR));
let_closure->closed_vals[0] = bindings;
let_closure->closed_vals[1] = full_bindings;
let_closure->closed_vals[2] = body;
int i;
for(i=3; i<let_closure->nof_closed_vals; i++)
let_closure->closed_vals[i] = vals[i-3];
let_closure->data = cls;
return let_closure;
}
void print_statistics(hash_table* ht)
{
int min_length = 0, max_length = 0;
int curLength, NnonzeroConses = 0, SummarConsLength = 0;
int i, n = ht->hash_div;
cons** table = ht->table;
for (i = 0; i < n; i++) {
if (table[i] != NULL) {
++NnonzeroConses;
curLength = cons_length(&table[i]);
SummarConsLength += curLength;
if (curLength < min_length || !min_length) {
min_length = curLength;
}
if (curLength > max_length) {
max_length = curLength;
}
}
}
pprint_stat(NnonzeroConses, SummarConsLength, min_length, max_length);
}
