# warning[E0502]: cannot borrow `c` as immutable because it is also borrowed as mutable

MUsize は演算の際自動でmodをとる構造体です。

この理由としてMUsizeにderiveするトレイトがusizeと比べ何か足りないのではないかと考えております。

/*
AtCoder abc 132 解説より
*/
/*
1
1 1
1 2 1
1 3 3 1

aCb はa段目のb番目
*/

static MOD: usize = 1_000_000_000 + 7;
#[derive(Copy, Clone, Debug)]
struct MUsize {x: usize}
impl MUsize {
fn new(x: usize) -> MUsize {
MUsize{x: x%MOD}
}
}
fn add_assign(&mut self, other: MUsize) {
let tmp = self.x + other.x;
*self = MUsize {
x: if tmp >= MOD {tmp - MOD} else {tmp}
};
}
}
impl<'a> AddAssign<&'a MUsize> for MUsize {
fn add_assign(&mut self, other: &MUsize) {
let tmp = self.x + other.x;
*self = MUsize {
x: if tmp >= MOD {tmp - MOD} else {tmp}
};
}
}
impl SubAssign for MUsize {
fn sub_assign(&mut self, other: MUsize) {
let tmp = self.x + MOD - other.x;
*self = MUsize {
x: if tmp >= MOD {tmp - MOD} else {tmp}
};
}
}
impl MulAssign for MUsize {
fn mul_assign(&mut self, other: MUsize) {
*self = MUsize {
x: self.x * other.x % MOD
};
}
}
type Output = MUsize;
fn add(self, other: MUsize) -> MUsize {
let mut res = MUsize::new(self.x);
res += other;
res
}
}
impl<'a> Add<&'a MUsize> for MUsize {
type Output = MUsize;
fn add(self, other: &MUsize) -> MUsize {
let mut res = MUsize::new(self.x);
res += other;
res
}
}
impl Sub for MUsize {
type Output = MUsize;
fn sub(self, other: MUsize) -> MUsize {
let mut res = MUsize::new(self.x);
res -= other;
res
}
}
impl Mul for MUsize {
type Output = MUsize;
fn mul(self, other: MUsize) -> MUsize {
let mut res = MUsize::new(self.x);
res *= other;
res
}
}

struct C {
c: Vec<Vec<MUsize>>
}
impl C {
fn new(max: usize) -> C {
let mut c = vec![vec![MUsize::new(0); max+2]; max+2];
c[0][0] = MUsize::new(1);
for i in 0..max+1 {
for j in 0..i+1 {
c[i+1][j] += c[i][j];
c[i+1][j+1] += c[i][j];
}
}
C {c}
}
fn c(&self, n: usize, k: usize) -> usize {
self.c[n][k].x
}
}

fn main() {
let c = C::new(40);
println!("{}", c.c(5, 2));
}
warning[E0502]: cannot borrow `c` as immutable because it is also borrowed as mutable
--> src/main.rs:83:30
|
83 |                 c[i+1][j] += c[i][j];
|                 -------------^------
|                 |            |
|                 |            immutable borrow occurs here
|                 mutable borrow occurs here
|                 mutable borrow later used here
|
= warning: this error has been downgraded to a warning for backwards compatibility with previous releases
= warning: this represents potential undefined behavior in your code and this warning will become a hard error in the future

warning[E0502]: cannot borrow `c` as immutable because it is also borrowed as mutable
--> src/main.rs:84:32
|
84 |                 c[i+1][j+1] += c[i][j];
|                 ---------------^------
|                 |              |
|                 |              immutable borrow occurs here
|                 mutable borrow occurs here
|                 mutable borrow later used here
|
= warning: this error has been downgraded to a warning for backwards compatibility with previous releases
= warning: this represents potential undefined behavior in your code and this warning will become a hard error in the future

Finished dev [unoptimized + debuginfo] target(s) in 0.47s

## 2 件の回答

1. 普通は1つの式の中で同じ値に対する可変参照を2個作ったり、可変参照と共有参照を両方作ったりはできない（借用の基本ルール）
2. ただし、一時変数を作る手間を省くために、共有参照を使うのが可変参照を使うより前で終了することが明確に示せるシンプルな場合のみ、例外的に許可されて一時変数を作っているのと等価な扱いになる。（two-phase borrow）
3. プリミティブ型の += はユーザー定義型（標準ライブラリのものも含む）と違う扱いになっている（トレイト実装を経由しない）ので、プリミティブ型だけはシンプルな例外ケースに該当して、スライスでもtwo-phase borrowが有効になる。

これがエラーにならず警告止まりなのは互換性維持のための経過措置なので、利用することは好ましくありません。

fn main() {
two_phase_borrow_exception_with_primitive_type();
two_phase_borrow_not_works_with_non_primitive_type();
}

fn two_phase_borrow_exception_with_primitive_type() {
let mut v: Vec<usize> = vec![1, 2];
v[0] += v[1];
println!("With usize: {:?}", v);
}

fn two_phase_borrow_not_works_with_non_primitive_type() {
let mut v: Vec<UserUsize> = vec![UserUsize(1), UserUsize(2)];
v[0] += v[1];
println!("With UserUsize: {:?}", v);
}

#[derive(Debug, Clone, Copy)]
struct UserUsize(usize);