void TimeComplexity::intersection_tracktime(string listname1, string listname2, string listname3)
{
time_actual = 0;
long n_1 = all_lists->getN(listname2);
long n_2 = all_lists->getN(listname3);
long n_low, n_hi;
string greater_list, lesser_list;
if(n_1 > n_2)
{
greater_list = listname2;
lesser_list = listname3;
n_low = n_2;
n_hi = n_1;
}
else
{
greater_list = listname3;
lesser_list = listname2;
n_low = n_1;
n_hi = n_2;
}
//intersection's algorithm 3.95*(n_low*n_low + n_hi*n_hi + n_low*n_hi + n_low) how I got 3.95 is in the README
long tc_estimate = 3.95*(n_low*n_low + n_hi*n_hi + n_low*n_hi + n_low);
long c = 8;
long upper_bound = c*((n_hi*n_hi) + (n_low*n_low)); // n^2 is the upper bound or O(n^2), since bubble sort is used to alphabetize times a constant c for the true upper bound
all_lists->intersect_initialize(greater_list, lesser_list, listname1, "iterative"); // calling the actual intersection function to calculate the TIME_ACTUAL
stringstream ss; //outputting all data in CSV format
ss<<n_1<<","<<n_2<<","<<"intersection,"<<tc_estimate<<","<<time_actual<<","<<c<<",64,"<<upper_bound;
string result = ss.str();
output(result, "append");
return;
}
void StackContainer::postfixCalc(string listID)
{
Node* current = postfix_list->head;
string s1, s2, itos;
stringstream ss;
int i = 0;
while(current != NULL)
{
if(current->word == "+")
{
//creates a list named "union#" where # is an arbitrary iterator used to distinguish multiple unions in a single expression
//pushes the name to the stack in order to use it for the next operation
//However, if it is the last node in the list, it is the final operation which means the list should be instead named listID
s1 = pop();
s2 = pop();
if(s1 == "" || s2 == "")
{
error("Stack underflow, not enough arguments for union for operation involving " +listID);
break;
}
if(current->next == NULL)
{
all_lists->union_initialize(s1, s2, listID, "recursive");
break;
}
ss << i;
itos = ss.str();
all_lists->union_initialize(s1, s2, "union"+itos, "recursive");
push("union"+itos);
i++;
current = current->next;
ss.str("");
ss.clear();
continue;
}
if(current->word == "*")
{
//creates a list named "intersection#" where # is an arbitrary iterator used to distinguish multiple intersections in a single expression
//pushes the name to the stack in order to use it for the next operation
//however, if it is the last node in the list, it is the final operation which means the list should be instead named listID
s1 = pop();
s2 = pop();
if(s1 == "" || s2 == "")
{
error("Stack underflow, not enough arguments for intersection for operation involving " +listID);
break;
}
if(current->next == NULL)
{
all_lists->intersect_initialize(s1, s2, listID, "recursive");
break;
}
ss << i;
itos = ss.str();
all_lists->intersect_initialize(s1, s2, "intersect"+itos, "recursive");
push("intersect"+itos);
i++;
current = current->next;
ss.str("");
ss.clear();
continue;
}
//if not + or *, it must be an operand, and operands get pushed to stack
push(current->word);
current = current->next;
i++;
}
while(pop()!=""); //clears the stack of anything left over if the expression was not legal
}