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|
//@ charon-args=--no-code-duplication
//@ aeneas-args=-test-trans-units
//@ [coq,fstar] subdir=misc
//! This module doesn't contain **functions which use nested borrows in their
//! signatures**, and doesn't contain functions with loops.
pub struct Pair<T1, T2> {
pub x: T1,
pub y: T2,
}
pub enum List<T> {
Cons(T, Box<List<T>>),
Nil,
}
/// Sometimes, enumerations with one variant are not treated
/// the same way as the other variants (for example, downcasts
/// are not always introduced).
/// A downcast is the cast of an enum to a specific variant, like
/// in the left value of:
/// `((_0 as Right).0: T2) = move _1;`
pub enum One<T1> {
One(T1),
}
/// Truely degenerate case
/// Instantiations of this are encoded as constant values by rust.
pub enum EmptyEnum {
Empty,
}
/// Enumeration (several variants with no parameters)
/// Those are not encoded as constant values.
pub enum Enum {
Variant1,
Variant2,
}
/// Degenerate struct
/// Instanciations of this are encoded as constant values by rust.
pub struct EmptyStruct {}
pub enum Sum<T1, T2> {
Left(T1),
Right(T2),
}
pub fn cast_u32_to_i32(x: u32) -> i32 {
x as i32
}
pub fn cast_bool_to_i32(x: bool) -> i32 {
x as i32
}
#[allow(clippy::unnecessary_cast)]
pub fn cast_bool_to_bool(x: bool) -> bool {
x as bool
}
#[allow(unused_variables)]
pub fn test2() {
let x: u32 = 23;
let y: u32 = 44;
let z = x + y;
let p: Pair<u32, u32> = Pair { x, y: z };
let s: Sum<u32, bool> = Sum::Right(true);
let o: One<u64> = One::One(3);
let e0 = EmptyEnum::Empty;
let e1 = e0;
let enum0 = Enum::Variant1;
}
pub fn get_max(x: u32, y: u32) -> u32 {
if x >= y {
x
} else {
y
}
}
pub fn test3() {
let x = get_max(4, 3);
let y = get_max(10, 11);
let z = x + y;
assert!(z == 15);
}
pub fn test_neg1() {
let x: i32 = 3;
let y = -x;
assert!(y == -3);
}
/// Testing nested references.
pub fn refs_test1() {
let mut x = 0;
let mut px = &mut x;
let ppx = &mut px;
**ppx = 1;
// The interesting thing happening here is that the borrow of x is inside
// the borrow of px: ending the borrow of x requires ending the borrow of
// px first.
assert!(x == 1);
}
pub fn refs_test2() {
let mut x = 0;
let mut y = 1;
let mut px = &mut x;
let py = &mut y;
let ppx = &mut px;
*ppx = py;
**ppx = 2;
assert!(*px == 2);
assert!(x == 0);
assert!(*py == 2);
assert!(y == 2);
}
/// Box creation
#[allow(unused_variables)]
pub fn test_list1() {
let l: List<i32> = List::Cons(0, Box::new(List::Nil));
}
/// Box deref
pub fn test_box1() {
use std::ops::Deref;
use std::ops::DerefMut;
let mut b: Box<i32> = Box::new(0);
let x = b.deref_mut();
*x = 1;
let x = b.deref();
assert!(*x == 1);
}
pub fn copy_int(x: i32) -> i32 {
x
}
/// Just checking the parameters given to unreachable
/// Rk.: the input parameter prevents using the function as a unit test.
pub fn test_unreachable(b: bool) {
if b {
unreachable!();
}
}
/// Just checking the parameters given to panic
/// Rk.: the input parameter prevents using the function as a unit test.
pub fn test_panic(b: bool) {
if b {
panic!("Panicked!");
}
}
// Just testing that shared loans are correctly handled
pub fn test_copy_int() {
let x = 0;
let px = &x;
let y = copy_int(x);
assert!(*px == y);
}
pub fn is_cons<T>(l: &List<T>) -> bool {
match l {
List::Cons(_, _) => true,
List::Nil => false,
}
}
pub fn test_is_cons() {
let l: List<i32> = List::Cons(0, Box::new(List::Nil));
assert!(is_cons(&l));
}
pub fn split_list<T>(l: List<T>) -> (T, List<T>) {
match l {
List::Cons(hd, tl) => (hd, *tl),
_ => panic!(),
}
}
#[allow(unused_variables)]
pub fn test_split_list() {
let l: List<i32> = List::Cons(0, Box::new(List::Nil));
let (hd, tl) = split_list(l);
assert!(hd == 0);
}
pub fn choose<'a, T>(b: bool, x: &'a mut T, y: &'a mut T) -> &'a mut T {
if b {
x
} else {
y
}
}
pub fn choose_test() {
let mut x = 0;
let mut y = 0;
let z = choose(true, &mut x, &mut y);
*z += 1;
assert!(*z == 1);
// drop(z)
assert!(x == 1);
assert!(y == 0);
}
/// Test with a char literal - testing serialization
pub fn test_char() -> char {
'a'
}
/// Mutually recursive types
pub enum Tree<T> {
Leaf(T),
Node(T, NodeElem<T>, Box<Tree<T>>),
}
pub enum NodeElem<T> {
Cons(Box<Tree<T>>, Box<NodeElem<T>>),
Nil,
}
/*
// TODO: those definitions requires semantic termination (breaks the Coq backend
// because we don't use fuel in this case).
/// Mutually recursive functions
pub fn even(x: u32) -> bool {
if x == 0 {
true
} else {
odd(x - 1)
}
}
pub fn odd(x: u32) -> bool {
if x == 0 {
false
} else {
even(x - 1)
}
}
pub fn test_even_odd() {
assert!(even(0));
assert!(even(4));
assert!(odd(1));
assert!(odd(5));
}
*/
#[allow(clippy::needless_lifetimes)]
pub fn list_length<'a, T>(l: &'a List<T>) -> u32 {
match l {
List::Nil => 0,
List::Cons(_, l1) => 1 + list_length(l1),
}
}
#[allow(clippy::needless_lifetimes)]
pub fn list_nth_shared<'a, T>(l: &'a List<T>, i: u32) -> &'a T {
match l {
List::Nil => {
panic!()
}
List::Cons(x, tl) => {
if i == 0 {
x
} else {
list_nth_shared(tl, i - 1)
}
}
}
}
#[allow(clippy::needless_lifetimes)]
pub fn list_nth_mut<'a, T>(l: &'a mut List<T>, i: u32) -> &'a mut T {
match l {
List::Nil => {
panic!()
}
List::Cons(x, tl) => {
if i == 0 {
x
} else {
list_nth_mut(tl, i - 1)
}
}
}
}
/// In-place list reversal - auxiliary function
pub fn list_rev_aux<T>(li: List<T>, mut lo: List<T>) -> List<T> {
match li {
List::Nil => lo,
List::Cons(hd, mut tl) => {
let next = *tl;
*tl = lo;
lo = List::Cons(hd, tl);
list_rev_aux(next, lo)
}
}
}
/// In-place list reversal
#[allow(clippy::needless_lifetimes)]
pub fn list_rev<'a, T>(l: &'a mut List<T>) {
let li = std::mem::replace(l, List::Nil);
*l = list_rev_aux(li, List::Nil);
}
pub fn test_list_functions() {
let mut ls = List::Cons(
0,
Box::new(List::Cons(1, Box::new(List::Cons(2, Box::new(List::Nil))))),
);
assert!(list_length(&ls) == 3);
assert!(*list_nth_shared(&ls, 0) == 0);
assert!(*list_nth_shared(&ls, 1) == 1);
assert!(*list_nth_shared(&ls, 2) == 2);
let x = list_nth_mut(&mut ls, 1);
*x = 3;
assert!(*list_nth_shared(&ls, 0) == 0);
assert!(*list_nth_shared(&ls, 1) == 3); // Updated
assert!(*list_nth_shared(&ls, 2) == 2);
}
pub fn id_mut_pair1<'a, T1, T2>(x: &'a mut T1, y: &'a mut T2) -> (&'a mut T1, &'a mut T2) {
(x, y)
}
pub fn id_mut_pair2<'a, T1, T2>(p: (&'a mut T1, &'a mut T2)) -> (&'a mut T1, &'a mut T2) {
p
}
pub fn id_mut_pair3<'a, 'b, T1, T2>(x: &'a mut T1, y: &'b mut T2) -> (&'a mut T1, &'b mut T2) {
(x, y)
}
pub fn id_mut_pair4<'a, 'b, T1, T2>(p: (&'a mut T1, &'b mut T2)) -> (&'a mut T1, &'b mut T2) {
p
}
/// Testing constants (some constants are hard to retrieve from MIR, because
/// they are compiled to very low values).
/// We resort to the following structure to make rustc generate constants...
pub struct StructWithTuple<T1, T2> {
p: (T1, T2),
}
pub fn new_tuple1() -> StructWithTuple<u32, u32> {
StructWithTuple { p: (1, 2) }
}
pub fn new_tuple2() -> StructWithTuple<i16, i16> {
StructWithTuple { p: (1, 2) }
}
pub fn new_tuple3() -> StructWithTuple<u64, i64> {
StructWithTuple { p: (1, 2) }
}
/// Similar to [StructWithTuple]
pub struct StructWithPair<T1, T2> {
p: Pair<T1, T2>,
}
pub fn new_pair1() -> StructWithPair<u32, u32> {
// This actually doesn't make rustc generate a constant...
// I guess it only happens for tuples.
StructWithPair {
p: Pair { x: 1, y: 2 },
}
}
pub fn test_constants() {
assert!(new_tuple1().p.0 == 1);
assert!(new_tuple2().p.0 == 1);
assert!(new_tuple3().p.0 == 1);
assert!(new_pair1().p.x == 1);
}
/// This assignment is trickier than it seems
#[allow(unused_assignments)]
pub fn test_weird_borrows1() {
let mut x = 0;
let mut px = &mut x;
// Context:
// x -> [l0]
// px -> &mut l0 (0:i32)
px = &mut (*px);
}
pub fn test_mem_replace(px: &mut u32) {
let y = std::mem::replace(px, 1);
assert!(y == 0);
*px = 2;
}
/// Check that matching on borrowed values works well.
pub fn test_shared_borrow_bool1(b: bool) -> u32 {
// Create a shared borrow of b
let _pb = &b;
// Match on b
if b {
0
} else {
1
}
}
/// Check that matching on borrowed values works well.
/// Testing the concrete execution here.
pub fn test_shared_borrow_bool2() -> u32 {
let b = true;
// Create a shared borrow of b
let _pb = &b;
// Match on b
if b {
0
} else {
1
}
}
/// Check that matching on borrowed values works well.
/// In case of enumerations, we need to strip the outer loans before evaluating
/// the discriminant.
pub fn test_shared_borrow_enum1(l: List<u32>) -> u32 {
// Create a shared borrow of l
let _pl = &l;
// Match on l - must ignore the shared loan
match l {
List::Nil => 0,
List::Cons(_, _) => 1,
}
}
/// Check that matching on borrowed values works well.
/// Testing the concrete execution here.
pub fn test_shared_borrow_enum2() -> u32 {
let l: List<u32> = List::Nil;
// Create a shared borrow of l
let _pl = &l;
// Match on l - must ignore the shared loan
match l {
List::Nil => 0,
List::Cons(_, _) => 1,
}
}
pub fn incr(x: &mut u32) {
*x += 1;
}
pub fn call_incr(mut x: u32) -> u32 {
incr(&mut x);
x
}
pub fn read_then_incr(x: &mut u32) -> u32 {
let r = *x;
*x += 1;
r
}
pub struct Tuple<T1, T2>(T1, T2);
pub fn use_tuple_struct(x: &mut Tuple<u32, u32>) {
x.0 = 1;
}
pub fn create_tuple_struct(x: u32, y: u64) -> Tuple<u32, u64> {
Tuple(x, y)
}
/// Structure with one field
pub struct IdType<T>(T);
pub fn use_id_type<T>(x: IdType<T>) -> T {
x.0
}
pub fn create_id_type<T>(x: T) -> IdType<T> {
IdType(x)
}
|