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A sample of quicksort in Carbon.
package Sorting;
fn Partition[T:! Comparable & Movable](s: Slice(T))
-> i64 {
var i: i64 = -1;
for (e: T in s) {
if (e <= s.Last()) {
++i;
Swap(&s[i], &e);
}
}
return i;
}
fn QuickSort[T:! Comparable & Movable](s: Slice(T)) {
if (s.Size() <= 1) {
return;
}
let p: i64 = Partition(s);
QuickSort(s[:p - 1]);
QuickSort(s[p + 1:]);
}// C++:
#include <numbers>
#include <print>
#include <span>
#include <stdfloat>
#include <vector>
// or: import std;
struct Circle {
std::float32_t r;
};
void PrintTotalArea(std::span<Circle> circles) {
std::float32_t area = 0;
for (const Circle& c : circles) {
area += std::numbers::pi * c.r * c.r;
}
std::print("Total area: {}\n", area);
}
auto main() -> int {
std::vector<Circle> circles = {{.r = 1.0}, {.r = 2.0}};
// Implicitly converts `vector` to `span`.
PrintTotalArea(circles);
return 0;
}// Carbon:
package Geometry;
import Math;
class Circle {
var r: f32;
}
fn PrintTotalArea(circles: [Circle]) {
var area: f32 = 0;
for (c: Circle in circles) {
area += Math.Pi * c.r * c.r;
}
Print("Total area: {0}", area);
}
fn Main() -> i32 {
// A dynamically sized array, like `std::vector`.
var circles: array [Circle] = ({.r = 1.0}, {.r = 2.0});
// Implicitly constructs a slice from the array.
PrintTotalArea(circles);
return 0;
}// C++ code used in both Carbon and C++:
#include <stdfloat>
struct Circle {
std::float32_t r;
};
// Carbon exposing a function for C++:
package Geometry;
import Cpp library "circle.h";
import Math;
fn PrintTotalArea(circles: [Cpp.Circle]) {
var area: f32 = 0;
for (c: Cpp.Circle in circles) {
area += Math.Pi * c.r * c.r;
}
Print("Total area: {0}", area);
}
// C++ calling Carbon:
#include <vector>
#include "circle.h"
#include "geometry.carbon.h"
auto main() -> int {
std::vector<Circle> circles = {{1.0}, {2.0}};
// A Carbon slice supports implicit construction
// from `std::vector`, similar to `std::span`.
Geometry::PrintTotalArea(circles);
return 0;
}