auto x = get_int_from_user();
auto y = x / 2; // ideally this stays encoded in the type
auto z = y * some_bounded_int<100, 200>();
// z can now be a bounded_integer<100 * (x / 2), 200 * (x / 2)>
This is somewhat C++ized and idealized view of the idea behind all this hard to get nonsense.
@R.MartinhoFernandes yeah, but that frustratingly says nothing about the arrows. Awodey presents 0, 1, 2, and even 3 as examples but doesn’t go beyond and I’m not sure how that generalises. and I’ve never found another source
@Ell short version is that x: T always means 'term x has type T', but what are valid terms and valid types may be wider than what you are used to. e.g. Int: Type (forgive me if that’s not the actual Idris though)
@LucDanton yeah. I understand the syntax, I was looking for more of the "philosophical" (?) Meaning, but you and robot did clear it up by saying that 2 represents bool for example
#include <cstdlib>
#include <iostream>
using namespace std;
int main(int argc, char *argv[])
{
int amount;
int newAmount;
int interestRate;
int initialAmount;
cout << "Please enter the dollar amount. ";
cin >> amount;
cout << "Please enter the interest ...
@Darkrifts Bad ideas are all right as long as they don't materialize.
In any case point was that although you reached (approximately) the right conclusion, at least part of your answer is wrong. You most certainly can declare a function the way he has. In addition, if you put the function definition before its use (in main, in this case) there's also no need for a separate declaration of the same (so this part isn't exactly wrong, but it's still not particularly right either).
@Puppy Reminds me, a few weeks ago I stumbled on a live stream on YouTube and I realized I couldn't hide the chat. Not wanting to catch eye cancer, I promptly deleted the entire element.
Now they've added a "hide chat" feature but back then it really was quite a gross oversight.
I've declared a struct like this:
struct Point{
double x,y;
Point(){}
Point(double xx,double yy): x(xx),y(yy){}
};
And I'm trying to fill the vector like this:
vector<Point> s(1);
Point tmp(1,2);
s[0]=tmp;
s.push_back(s[0]);
Unfortunately, doing this gives me a wrong answer wh...
#include <cstdlib>
#include <iostream>
using namespace std;
int main(int argc, char *argv[])
{
int amount;
int newAmount;
int interestRate;
int initialAmount;
cout << "Please enter the dollar amount. ";
cin >> amount;
cout << "Please enter the interest ...
I've declared a struct like this:
struct Point{
double x,y;
Point(){}
Point(double xx,double yy): x(xx),y(yy){}
};
And I'm trying to fill the vector like this:
vector<Point> s(1);
Point tmp(1,2);
s[0]=tmp;
s.push_back(s[0]);
Unfortunately, doing this gives me a wrong answer wh...
