Remove usage of deprecated apis

This commit is contained in:
Alex Crichton 2015-03-04 09:45:19 -08:00
parent fb6b4ae9df
commit 817dec99aa
3 changed files with 51 additions and 51 deletions

View File

@ -765,12 +765,12 @@ macro_rules! impl_to_biguint {
} }
} }
impl_to_biguint!(isize, FromPrimitive::from_int); impl_to_biguint!(isize, FromPrimitive::from_isize);
impl_to_biguint!(i8, FromPrimitive::from_i8); impl_to_biguint!(i8, FromPrimitive::from_i8);
impl_to_biguint!(i16, FromPrimitive::from_i16); impl_to_biguint!(i16, FromPrimitive::from_i16);
impl_to_biguint!(i32, FromPrimitive::from_i32); impl_to_biguint!(i32, FromPrimitive::from_i32);
impl_to_biguint!(i64, FromPrimitive::from_i64); impl_to_biguint!(i64, FromPrimitive::from_i64);
impl_to_biguint!(usize, FromPrimitive::from_uint); impl_to_biguint!(usize, FromPrimitive::from_usize);
impl_to_biguint!(u8, FromPrimitive::from_u8); impl_to_biguint!(u8, FromPrimitive::from_u8);
impl_to_biguint!(u16, FromPrimitive::from_u16); impl_to_biguint!(u16, FromPrimitive::from_u16);
impl_to_biguint!(u32, FromPrimitive::from_u32); impl_to_biguint!(u32, FromPrimitive::from_u32);
@ -790,11 +790,11 @@ fn to_str_radix(me: &BigUint, radix: u32) -> String {
let mut m = n.clone(); let mut m = n.clone();
while m >= divider { while m >= divider {
let (d, m0) = m.div_mod_floor(&divider); let (d, m0) = m.div_mod_floor(&divider);
result.push(m0.to_uint().unwrap() as BigDigit); result.push(m0.to_usize().unwrap() as BigDigit);
m = d; m = d;
} }
if !m.is_zero() { if !m.is_zero() {
result.push(m.to_uint().unwrap() as BigDigit); result.push(m.to_usize().unwrap() as BigDigit);
} }
return result; return result;
} }
@ -839,7 +839,7 @@ impl FromStrRadix for BigUint {
loop { loop {
let start = cmp::max(end, unit_len) - unit_len; let start = cmp::max(end, unit_len) - unit_len;
let d = try!(FromStrRadix::from_str_radix(&s[start .. end], radix)); let d = try!(FromStrRadix::from_str_radix(&s[start .. end], radix));
let d: Option<BigUint> = FromPrimitive::from_uint(d); let d: Option<BigUint> = FromPrimitive::from_usize(d);
match d { match d {
Some(d) => { Some(d) => {
// FIXME(#5992): assignment operator overloads // FIXME(#5992): assignment operator overloads
@ -1516,12 +1516,12 @@ macro_rules! impl_to_bigint {
} }
} }
impl_to_bigint!(isize, FromPrimitive::from_int); impl_to_bigint!(isize, FromPrimitive::from_isize);
impl_to_bigint!(i8, FromPrimitive::from_i8); impl_to_bigint!(i8, FromPrimitive::from_i8);
impl_to_bigint!(i16, FromPrimitive::from_i16); impl_to_bigint!(i16, FromPrimitive::from_i16);
impl_to_bigint!(i32, FromPrimitive::from_i32); impl_to_bigint!(i32, FromPrimitive::from_i32);
impl_to_bigint!(i64, FromPrimitive::from_i64); impl_to_bigint!(i64, FromPrimitive::from_i64);
impl_to_bigint!(usize, FromPrimitive::from_uint); impl_to_bigint!(usize, FromPrimitive::from_usize);
impl_to_bigint!(u8, FromPrimitive::from_u8); impl_to_bigint!(u8, FromPrimitive::from_u8);
impl_to_bigint!(u16, FromPrimitive::from_u16); impl_to_bigint!(u16, FromPrimitive::from_u16);
impl_to_bigint!(u32, FromPrimitive::from_u32); impl_to_bigint!(u32, FromPrimitive::from_u32);
@ -2474,9 +2474,9 @@ mod biguint_tests {
#[test] #[test]
fn test_gcd() { fn test_gcd() {
fn check(a: usize, b: usize, c: usize) { fn check(a: usize, b: usize, c: usize) {
let big_a: BigUint = FromPrimitive::from_uint(a).unwrap(); let big_a: BigUint = FromPrimitive::from_usize(a).unwrap();
let big_b: BigUint = FromPrimitive::from_uint(b).unwrap(); let big_b: BigUint = FromPrimitive::from_usize(b).unwrap();
let big_c: BigUint = FromPrimitive::from_uint(c).unwrap(); let big_c: BigUint = FromPrimitive::from_usize(c).unwrap();
assert_eq!(big_a.gcd(&big_b), big_c); assert_eq!(big_a.gcd(&big_b), big_c);
} }
@ -2491,9 +2491,9 @@ mod biguint_tests {
#[test] #[test]
fn test_lcm() { fn test_lcm() {
fn check(a: usize, b: usize, c: usize) { fn check(a: usize, b: usize, c: usize) {
let big_a: BigUint = FromPrimitive::from_uint(a).unwrap(); let big_a: BigUint = FromPrimitive::from_usize(a).unwrap();
let big_b: BigUint = FromPrimitive::from_uint(b).unwrap(); let big_b: BigUint = FromPrimitive::from_usize(b).unwrap();
let big_c: BigUint = FromPrimitive::from_uint(c).unwrap(); let big_c: BigUint = FromPrimitive::from_usize(c).unwrap();
assert_eq!(big_a.lcm(&big_b), big_c); assert_eq!(big_a.lcm(&big_b), big_c);
} }
@ -2620,8 +2620,8 @@ mod biguint_tests {
let mut f: BigUint = One::one(); let mut f: BigUint = One::one();
for i in range(2, n + 1) { for i in range(2, n + 1) {
// FIXME(#5992): assignment operator overloads // FIXME(#5992): assignment operator overloads
// f *= FromPrimitive::from_uint(i); // f *= FromPrimitive::from_usize(i);
let bu: BigUint = FromPrimitive::from_uint(i).unwrap(); let bu: BigUint = FromPrimitive::from_usize(i).unwrap();
f = f * bu; f = f * bu;
} }
return f; return f;
@ -2644,11 +2644,11 @@ mod biguint_tests {
#[test] #[test]
fn test_bits() { fn test_bits() {
assert_eq!(BigUint::new(vec!(0,0,0,0)).bits(), 0); assert_eq!(BigUint::new(vec!(0,0,0,0)).bits(), 0);
let n: BigUint = FromPrimitive::from_uint(0).unwrap(); let n: BigUint = FromPrimitive::from_usize(0).unwrap();
assert_eq!(n.bits(), 0); assert_eq!(n.bits(), 0);
let n: BigUint = FromPrimitive::from_uint(1).unwrap(); let n: BigUint = FromPrimitive::from_usize(1).unwrap();
assert_eq!(n.bits(), 1); assert_eq!(n.bits(), 1);
let n: BigUint = FromPrimitive::from_uint(3).unwrap(); let n: BigUint = FromPrimitive::from_usize(3).unwrap();
assert_eq!(n.bits(), 2); assert_eq!(n.bits(), 2);
let n: BigUint = FromStrRadix::from_str_radix("4000000000", 16).unwrap(); let n: BigUint = FromStrRadix::from_str_radix("4000000000", 16).unwrap();
assert_eq!(n.bits(), 39); assert_eq!(n.bits(), 39);
@ -2668,13 +2668,13 @@ mod biguint_tests {
let mut rng = thread_rng(); let mut rng = thread_rng();
for _ in range(0, 10) { for _ in range(0, 10) {
assert_eq!(rng.gen_bigint_range(&FromPrimitive::from_uint(236).unwrap(), assert_eq!(rng.gen_bigint_range(&FromPrimitive::from_usize(236).unwrap(),
&FromPrimitive::from_uint(237).unwrap()), &FromPrimitive::from_usize(237).unwrap()),
FromPrimitive::from_uint(236).unwrap()); FromPrimitive::from_usize(236).unwrap());
} }
let l = FromPrimitive::from_uint(403469000 + 2352).unwrap(); let l = FromPrimitive::from_usize(403469000 + 2352).unwrap();
let u = FromPrimitive::from_uint(403469000 + 3513).unwrap(); let u = FromPrimitive::from_usize(403469000 + 3513).unwrap();
for _ in range(0, 1000) { for _ in range(0, 1000) {
let n: BigUint = rng.gen_biguint_below(&u); let n: BigUint = rng.gen_biguint_below(&u);
assert!(n < u); assert!(n < u);
@ -2688,16 +2688,16 @@ mod biguint_tests {
#[test] #[test]
#[should_fail] #[should_fail]
fn test_zero_rand_range() { fn test_zero_rand_range() {
thread_rng().gen_biguint_range(&FromPrimitive::from_uint(54).unwrap(), thread_rng().gen_biguint_range(&FromPrimitive::from_usize(54).unwrap(),
&FromPrimitive::from_uint(54).unwrap()); &FromPrimitive::from_usize(54).unwrap());
} }
#[test] #[test]
#[should_fail] #[should_fail]
fn test_negative_rand_range() { fn test_negative_rand_range() {
let mut rng = thread_rng(); let mut rng = thread_rng();
let l = FromPrimitive::from_uint(2352).unwrap(); let l = FromPrimitive::from_usize(2352).unwrap();
let u = FromPrimitive::from_uint(3513).unwrap(); let u = FromPrimitive::from_usize(3513).unwrap();
// Switching u and l should fail: // Switching u and l should fail:
let _n: BigUint = rng.gen_biguint_range(&u, &l); let _n: BigUint = rng.gen_biguint_range(&u, &l);
} }
@ -2725,8 +2725,8 @@ mod bigint_tests {
#[test] #[test]
fn test_from_biguint() { fn test_from_biguint() {
fn check(inp_s: Sign, inp_n: usize, ans_s: Sign, ans_n: usize) { fn check(inp_s: Sign, inp_n: usize, ans_s: Sign, ans_n: usize) {
let inp = BigInt::from_biguint(inp_s, FromPrimitive::from_uint(inp_n).unwrap()); let inp = BigInt::from_biguint(inp_s, FromPrimitive::from_usize(inp_n).unwrap());
let ans = BigInt { sign: ans_s, data: FromPrimitive::from_uint(ans_n).unwrap()}; let ans = BigInt { sign: ans_s, data: FromPrimitive::from_usize(ans_n).unwrap()};
assert_eq!(inp, ans); assert_eq!(inp, ans);
} }
check(Plus, 1, Plus, 1); check(Plus, 1, Plus, 1);
@ -3231,9 +3231,9 @@ mod bigint_tests {
#[test] #[test]
fn test_gcd() { fn test_gcd() {
fn check(a: isize, b: isize, c: isize) { fn check(a: isize, b: isize, c: isize) {
let big_a: BigInt = FromPrimitive::from_int(a).unwrap(); let big_a: BigInt = FromPrimitive::from_isize(a).unwrap();
let big_b: BigInt = FromPrimitive::from_int(b).unwrap(); let big_b: BigInt = FromPrimitive::from_isize(b).unwrap();
let big_c: BigInt = FromPrimitive::from_int(c).unwrap(); let big_c: BigInt = FromPrimitive::from_isize(c).unwrap();
assert_eq!(big_a.gcd(&big_b), big_c); assert_eq!(big_a.gcd(&big_b), big_c);
} }
@ -3251,9 +3251,9 @@ mod bigint_tests {
#[test] #[test]
fn test_lcm() { fn test_lcm() {
fn check(a: isize, b: isize, c: isize) { fn check(a: isize, b: isize, c: isize) {
let big_a: BigInt = FromPrimitive::from_int(a).unwrap(); let big_a: BigInt = FromPrimitive::from_isize(a).unwrap();
let big_b: BigInt = FromPrimitive::from_int(b).unwrap(); let big_b: BigInt = FromPrimitive::from_isize(b).unwrap();
let big_c: BigInt = FromPrimitive::from_int(c).unwrap(); let big_c: BigInt = FromPrimitive::from_isize(c).unwrap();
assert_eq!(big_a.lcm(&big_b), big_c); assert_eq!(big_a.lcm(&big_b), big_c);
} }
@ -3280,7 +3280,7 @@ mod bigint_tests {
let zero: BigInt = Zero::zero(); let zero: BigInt = Zero::zero();
assert_eq!(one.abs_sub(&zero), one); assert_eq!(one.abs_sub(&zero), one);
let one: BigInt = One::one(); let one: BigInt = One::one();
let two: BigInt = FromPrimitive::from_int(2).unwrap(); let two: BigInt = FromPrimitive::from_isize(2).unwrap();
assert_eq!(one.abs_sub(&-&one), two); assert_eq!(one.abs_sub(&-&one), two);
} }
@ -3288,7 +3288,7 @@ mod bigint_tests {
fn test_from_str_radix() { fn test_from_str_radix() {
fn check(s: &str, ans: Option<isize>) { fn check(s: &str, ans: Option<isize>) {
let ans = ans.map(|n| { let ans = ans.map(|n| {
let x: BigInt = FromPrimitive::from_int(n).unwrap(); let x: BigInt = FromPrimitive::from_isize(n).unwrap();
x x
}); });
assert_eq!(FromStrRadix::from_str_radix(s, 10).ok(), ans); assert_eq!(FromStrRadix::from_str_radix(s, 10).ok(), ans);
@ -3330,9 +3330,9 @@ mod bigint_tests {
let mut rng = thread_rng(); let mut rng = thread_rng();
for _ in range(0, 10) { for _ in range(0, 10) {
assert_eq!(rng.gen_bigint_range(&FromPrimitive::from_uint(236).unwrap(), assert_eq!(rng.gen_bigint_range(&FromPrimitive::from_usize(236).unwrap(),
&FromPrimitive::from_uint(237).unwrap()), &FromPrimitive::from_usize(237).unwrap()),
FromPrimitive::from_uint(236).unwrap()); FromPrimitive::from_usize(236).unwrap());
} }
fn check(l: BigInt, u: BigInt) { fn check(l: BigInt, u: BigInt) {
@ -3343,8 +3343,8 @@ mod bigint_tests {
assert!(n < u); assert!(n < u);
} }
} }
let l: BigInt = FromPrimitive::from_uint(403469000 + 2352).unwrap(); let l: BigInt = FromPrimitive::from_usize(403469000 + 2352).unwrap();
let u: BigInt = FromPrimitive::from_uint(403469000 + 3513).unwrap(); let u: BigInt = FromPrimitive::from_usize(403469000 + 3513).unwrap();
check( l.clone(), u.clone()); check( l.clone(), u.clone());
check(-l.clone(), u.clone()); check(-l.clone(), u.clone());
check(-u.clone(), -l.clone()); check(-u.clone(), -l.clone());
@ -3353,16 +3353,16 @@ mod bigint_tests {
#[test] #[test]
#[should_fail] #[should_fail]
fn test_zero_rand_range() { fn test_zero_rand_range() {
thread_rng().gen_bigint_range(&FromPrimitive::from_int(54).unwrap(), thread_rng().gen_bigint_range(&FromPrimitive::from_isize(54).unwrap(),
&FromPrimitive::from_int(54).unwrap()); &FromPrimitive::from_isize(54).unwrap());
} }
#[test] #[test]
#[should_fail] #[should_fail]
fn test_negative_rand_range() { fn test_negative_rand_range() {
let mut rng = thread_rng(); let mut rng = thread_rng();
let l = FromPrimitive::from_uint(2352).unwrap(); let l = FromPrimitive::from_usize(2352).unwrap();
let u = FromPrimitive::from_uint(3513).unwrap(); let u = FromPrimitive::from_usize(3513).unwrap();
// Switching u and l should fail: // Switching u and l should fail:
let _n: BigInt = rng.gen_bigint_range(&u, &l); let _n: BigInt = rng.gen_bigint_range(&u, &l);
} }
@ -3382,7 +3382,7 @@ mod bench {
fn factorial(n: usize) -> BigUint { fn factorial(n: usize) -> BigUint {
let mut f: BigUint = One::one(); let mut f: BigUint = One::one();
for i in iter::range_inclusive(1, n) { for i in iter::range_inclusive(1, n) {
let bu: BigUint = FromPrimitive::from_uint(i).unwrap(); let bu: BigUint = FromPrimitive::from_usize(i).unwrap();
f = f * bu; f = f * bu;
} }
f f

View File

@ -70,7 +70,7 @@ impl<A> Iterator for Range<A>
Some(a) => { Some(a) => {
let sz = self.stop.to_i64().map(|b| b.checked_sub(a)); let sz = self.stop.to_i64().map(|b| b.checked_sub(a));
match sz { match sz {
Some(Some(bound)) => bound.to_uint(), Some(Some(bound)) => bound.to_usize(),
_ => None, _ => None,
} }
}, },
@ -78,7 +78,7 @@ impl<A> Iterator for Range<A>
Some(a) => { Some(a) => {
let sz = self.stop.to_u64().map(|b| b.checked_sub(a)); let sz = self.stop.to_u64().map(|b| b.checked_sub(a));
match sz { match sz {
Some(Some(bound)) => bound.to_uint(), Some(Some(bound)) => bound.to_usize(),
_ => None _ => None
} }
}, },

View File

@ -496,8 +496,8 @@ mod test {
pub fn to_big(n: Rational) -> BigRational { pub fn to_big(n: Rational) -> BigRational {
Ratio::new( Ratio::new(
FromPrimitive::from_int(n.numer).unwrap(), FromPrimitive::from_isize(n.numer).unwrap(),
FromPrimitive::from_int(n.denom).unwrap() FromPrimitive::from_isize(n.denom).unwrap()
) )
} }