pub struct UInt<U, B> { /* private fields */ }
Expand description
UInt
is defined recursively, where B
is the least significant bit and U
is the rest
of the number. Conceptually, U
should be bound by the trait Unsigned
and B
should
be bound by the trait Bit
, but enforcing these bounds causes linear instead of
logrithmic scaling in some places, so they are left off for now. They may be enforced in
future.
In order to keep numbers unique, leading zeros are not allowed, so UInt<UTerm, B0>
is
forbidden.
Example
use typenum::{UInt, UTerm, B0, B1};
type U6 = UInt<UInt<UInt<UTerm, B1>, B1>, B0>;
Implementations§
Trait Implementations§
source§impl<U> Add<B1> for UInt<U, B1>where
U: Add<B1> + Unsigned,
Add1<U>: Unsigned,
impl<U> Add<B1> for UInt<U, B1>where U: Add<B1> + Unsigned, Add1<U>: Unsigned,
UInt<U, B1> + B1 = UInt<U + B1, B0>
source§impl<Ul, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B0>where
Ul: Add<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B0>where Ul: Add<Ur> + Unsigned,
UInt<Ul, B0> + UInt<Ur, B0> = UInt<Ul + Ur, B0>
source§impl<Ul, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B1>where
Ul: Add<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B1>where Ul: Add<Ur> + Unsigned,
UInt<Ul, B1> + UInt<Ur, B0> = UInt<Ul + Ur, B1>
source§impl<Ul, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B0>where
Ul: Add<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B0>where Ul: Add<Ur> + Unsigned,
UInt<Ul, B0> + UInt<Ur, B1> = UInt<Ul + Ur, B1>
source§impl<Ul, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B1>where
Ul: Add<Ur> + Unsigned,
Sum<Ul, Ur>: Add<B1>,
impl<Ul, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B1>where Ul: Add<Ur> + Unsigned, Sum<Ul, Ur>: Add<B1>,
UInt<Ul, B1> + UInt<Ur, B1> = UInt<(Ul + Ur) + B1, B0>
source§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> BitAnd<Ur> for UInt<Ul, Bl>where
UInt<Ul, Bl>: PrivateAnd<Ur>,
PrivateAndOut<UInt<Ul, Bl>, Ur>: Trim,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> BitAnd<Ur> for UInt<Ul, Bl>where UInt<Ul, Bl>: PrivateAnd<Ur>, PrivateAndOut<UInt<Ul, Bl>, Ur>: Trim,
Anding unsigned integers.
We use our PrivateAnd
operator and then Trim
the output.
source§impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B0>where
Ul: BitOr<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B0>where Ul: BitOr<Ur> + Unsigned,
UInt<Ul, B0> | UInt<Ur, B0> = UInt<Ul | Ur, B0>
source§impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B1>where
Ul: BitOr<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B1>where Ul: BitOr<Ur> + Unsigned,
UInt<Ul, B1> | UInt<Ur, B0> = UInt<Ul | Ur, B1>
source§impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B0>where
Ul: BitOr<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B0>where Ul: BitOr<Ur> + Unsigned,
UInt<Ul, B0> | UInt<Ur, B1> = UInt<Ul | Ur, B1>
source§impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B1>where
Ul: BitOr<Ur> + Unsigned,
impl<Ul, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B1>where Ul: BitOr<Ur> + Unsigned,
UInt<Ul, B1> | UInt<Ur, B1> = UInt<Ul | Ur, B1>
source§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> BitXor<Ur> for UInt<Ul, Bl>where
UInt<Ul, Bl>: PrivateXor<Ur>,
PrivateXorOut<UInt<Ul, Bl>, Ur>: Trim,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> BitXor<Ur> for UInt<Ul, Bl>where UInt<Ul, Bl>: PrivateXor<Ur>, PrivateXorOut<UInt<Ul, Bl>, Ur>: Trim,
Xoring unsigned integers.
We use our PrivateXor
operator and then Trim
the output.
source§impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B0>where
Ul: PrivateCmp<Ur, Equal> + Unsigned,
impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B0>where Ul: PrivateCmp<Ur, Equal> + Unsigned,
UInt<Ul, B0>
cmp with UInt<Ur, B0>
: SoFar
is Equal
source§impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B1>where
Ul: PrivateCmp<Ur, Greater> + Unsigned,
impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B1>where Ul: PrivateCmp<Ur, Greater> + Unsigned,
UInt<Ul, B1>
cmp with UInt<Ur, B0>
: SoFar
is Greater
source§impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B0>where
Ul: PrivateCmp<Ur, Less> + Unsigned,
impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B0>where Ul: PrivateCmp<Ur, Less> + Unsigned,
UInt<Ul, B0>
cmp with UInt<Ur, B1>
: SoFar
is Less
source§impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B1>where
Ul: PrivateCmp<Ur, Equal> + Unsigned,
impl<Ul, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B1>where Ul: PrivateCmp<Ur, Equal> + Unsigned,
UInt<Ul, B1>
cmp with UInt<Ur, B1>
: SoFar
is Equal
source§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> Div<UInt<Ur, Br>> for UInt<Ul, Bl>where
UInt<Ul, Bl>: Len,
Length<UInt<Ul, Bl>>: Sub<B1>,
(): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> Div<UInt<Ur, Br>> for UInt<Ul, Bl>where UInt<Ul, Bl>: Len, Length<UInt<Ul, Bl>>: Sub<B1>, (): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
source§impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B0>where
Xp: Gcd<Yp>,
UInt<Xp, B0>: NonZero,
UInt<Yp, B0>: NonZero,
impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B0>where Xp: Gcd<Yp>, UInt<Xp, B0>: NonZero, UInt<Yp, B0>: NonZero,
gcd(x, y) = 2*gcd(x/2, y/2) if both x and y even
source§impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B1>where
UInt<Xp, B1>: Gcd<Yp>,
UInt<Yp, B0>: NonZero,
impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B1>where UInt<Xp, B1>: Gcd<Yp>, UInt<Yp, B0>: NonZero,
gcd(x, y) = gcd(x, y/2) if x odd and y even
source§impl<Xp, Yp> Gcd<UInt<Yp, B1>> for UInt<Xp, B0>where
Xp: Gcd<UInt<Yp, B1>>,
UInt<Xp, B0>: NonZero,
impl<Xp, Yp> Gcd<UInt<Yp, B1>> for UInt<Xp, B0>where Xp: Gcd<UInt<Yp, B1>>, UInt<Xp, B0>: NonZero,
gcd(x, y) = gcd(x/2, y) if x even and y odd
source§impl<Xp, Yp> Gcd<UInt<Yp, B1>> for UInt<Xp, B1>where
UInt<Xp, B1>: Max<UInt<Yp, B1>> + Min<UInt<Yp, B1>>,
UInt<Yp, B1>: Max<UInt<Xp, B1>> + Min<UInt<Xp, B1>>,
Maximum<UInt<Xp, B1>, UInt<Yp, B1>>: Sub<Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>,
Diff<Maximum<UInt<Xp, B1>, UInt<Yp, B1>>, Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>: Gcd<Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>,
impl<Xp, Yp> Gcd<UInt<Yp, B1>> for UInt<Xp, B1>where UInt<Xp, B1>: Max<UInt<Yp, B1>> + Min<UInt<Yp, B1>>, UInt<Yp, B1>: Max<UInt<Xp, B1>> + Min<UInt<Xp, B1>>, Maximum<UInt<Xp, B1>, UInt<Yp, B1>>: Sub<Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>, Diff<Maximum<UInt<Xp, B1>, UInt<Yp, B1>>, Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>: Gcd<Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>,
gcd(x, y) = gcd([max(x, y) - min(x, y)], min(x, y)) if both x and y odd
This will immediately invoke the case for x even and y odd because the difference of two odd numbers is an even number.
source§impl<Un, Bn, Ui, Bi> GetBit<UInt<Ui, Bi>> for UInt<Un, Bn>where
UInt<Ui, Bi>: Copy + Sub<B1>,
Un: GetBit<Sub1<UInt<Ui, Bi>>>,
impl<Un, Bn, Ui, Bi> GetBit<UInt<Ui, Bi>> for UInt<Un, Bn>where UInt<Ui, Bi>: Copy + Sub<B1>, Un: GetBit<Sub1<UInt<Ui, Bi>>>,
source§impl<U, B: Bit> Len for UInt<U, B>where
U: Len + Unsigned,
Length<U>: Add<B1>,
Add1<Length<U>>: Unsigned,
impl<U, B: Bit> Len for UInt<U, B>where U: Len + Unsigned, Length<U>: Add<B1>, Add1<Length<U>>: Unsigned,
Length of a bit is 1
source§impl<U, B, Ur> Max<Ur> for UInt<U, B>where
U: Unsigned,
B: Bit,
Ur: Unsigned,
UInt<U, B>: Cmp<Ur> + PrivateMax<Ur, Compare<UInt<U, B>, Ur>>,
impl<U, B, Ur> Max<Ur> for UInt<U, B>where U: Unsigned, B: Bit, Ur: Unsigned, UInt<U, B>: Cmp<Ur> + PrivateMax<Ur, Compare<UInt<U, B>, Ur>>,
source§impl<U, B, Ur> Min<Ur> for UInt<U, B>where
U: Unsigned,
B: Bit,
Ur: Unsigned,
UInt<U, B>: Cmp<Ur> + PrivateMin<Ur, Compare<UInt<U, B>, Ur>>,
impl<U, B, Ur> Min<Ur> for UInt<U, B>where U: Unsigned, B: Bit, Ur: Unsigned, UInt<U, B>: Cmp<Ur> + PrivateMin<Ur, Compare<UInt<U, B>, Ur>>,
source§impl<Ul, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B0>where
Ul: Mul<UInt<Ur, B>> + Unsigned,
impl<Ul, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B0>where Ul: Mul<UInt<Ur, B>> + Unsigned,
UInt<Ul, B0> * UInt<Ur, B> = UInt<(Ul * UInt<Ur, B>), B0>
source§impl<Ul, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B1>where
Ul: Mul<UInt<Ur, B>> + Unsigned,
UInt<Prod<Ul, UInt<Ur, B>>, B0>: Add<UInt<Ur, B>>,
impl<Ul, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B1>where Ul: Mul<UInt<Ur, B>> + Unsigned, UInt<Prod<Ul, UInt<Ur, B>>, B0>: Add<UInt<Ur, B>>,
UInt<Ul, B1> * UInt<Ur, B> = UInt<(Ul * UInt<Ur, B>), B0> + UInt<Ur, B>
source§impl<U: Ord, B: Ord> Ord for UInt<U, B>
impl<U: Ord, B: Ord> Ord for UInt<U, B>
1.21.0 · source§fn max(self, other: Self) -> Selfwhere
Self: Sized,
fn max(self, other: Self) -> Selfwhere Self: Sized,
source§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> PartialDiv<UInt<Ur, Br>> for UInt<Ul, Bl>where
UInt<Ul, Bl>: Div<UInt<Ur, Br>> + Rem<UInt<Ur, Br>, Output = U0>,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> PartialDiv<UInt<Ur, Br>> for UInt<Ul, Bl>where UInt<Ul, Bl>: Div<UInt<Ur, Br>> + Rem<UInt<Ur, Br>, Output = U0>,
source§impl<U: PartialEq, B: PartialEq> PartialEq for UInt<U, B>
impl<U: PartialEq, B: PartialEq> PartialEq for UInt<U, B>
source§impl<U: PartialOrd, B: PartialOrd> PartialOrd for UInt<U, B>
impl<U: PartialOrd, B: PartialOrd> PartialOrd for UInt<U, B>
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moresource§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> Rem<UInt<Ur, Br>> for UInt<Ul, Bl>where
UInt<Ul, Bl>: Len,
Length<UInt<Ul, Bl>>: Sub<B1>,
(): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned, Br: Bit> Rem<UInt<Ur, Br>> for UInt<Ul, Bl>where UInt<Ul, Bl>: Len, Length<UInt<Ul, Bl>>: Sub<B1>, (): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
source§impl<U: Unsigned, B: Bit> Shl<B0> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shl<B0> for UInt<U, B>
Shifting left any unsigned by a zero bit: U << B0 = U
source§impl<U: Unsigned, B: Bit> Shl<B1> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shl<B1> for UInt<U, B>
Shifting left a UInt
by a one bit: UInt<U, B> << B1 = UInt<UInt<U, B>, B0>
source§impl<U: Unsigned, B: Bit, Ur: Unsigned, Br: Bit> Shl<UInt<Ur, Br>> for UInt<U, B>where
UInt<Ur, Br>: Sub<B1>,
UInt<UInt<U, B>, B0>: Shl<Sub1<UInt<Ur, Br>>>,
impl<U: Unsigned, B: Bit, Ur: Unsigned, Br: Bit> Shl<UInt<Ur, Br>> for UInt<U, B>where UInt<Ur, Br>: Sub<B1>, UInt<UInt<U, B>, B0>: Shl<Sub1<UInt<Ur, Br>>>,
Shifting left UInt
by UInt
: X << Y
= UInt(X, B0) << (Y - 1)
source§impl<U: Unsigned, B: Bit> Shl<UTerm> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shl<UTerm> for UInt<U, B>
Shifting left UInt
by UTerm
: UInt<U, B> << UTerm = UInt<U, B>
source§impl<U: Unsigned, B: Bit> Shr<B0> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shr<B0> for UInt<U, B>
Shifting right any unsigned by a zero bit: U >> B0 = U
source§impl<U: Unsigned, B: Bit> Shr<B1> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shr<B1> for UInt<U, B>
Shifting right a UInt
by a 1 bit: UInt<U, B> >> B1 = U
source§impl<U, B: Bit, Ur: Unsigned, Br: Bit> Shr<UInt<Ur, Br>> for UInt<U, B>where
UInt<Ur, Br>: Sub<B1>,
U: Shr<Sub1<UInt<Ur, Br>>> + Unsigned,
impl<U, B: Bit, Ur: Unsigned, Br: Bit> Shr<UInt<Ur, Br>> for UInt<U, B>where UInt<Ur, Br>: Sub<B1>, U: Shr<Sub1<UInt<Ur, Br>>> + Unsigned,
Shifting right UInt
by UInt
: UInt(U, B) >> Y
= U >> (Y - 1)
source§impl<U: Unsigned, B: Bit> Shr<UTerm> for UInt<U, B>
impl<U: Unsigned, B: Bit> Shr<UTerm> for UInt<U, B>
Shifting right UInt
by UTerm
: UInt<U, B> >> UTerm = UInt<U, B>
source§impl<U> Sub<B1> for UInt<U, B0>where
U: Sub<B1> + Unsigned,
Sub1<U>: Unsigned,
impl<U> Sub<B1> for UInt<U, B0>where U: Sub<B1> + Unsigned, Sub1<U>: Unsigned,
UInt<U, B0> - B1 = UInt<U - B1, B1>
source§impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> Sub<Ur> for UInt<Ul, Bl>where
UInt<Ul, Bl>: PrivateSub<Ur>,
PrivateSubOut<UInt<Ul, Bl>, Ur>: Trim,
impl<Ul: Unsigned, Bl: Bit, Ur: Unsigned> Sub<Ur> for UInt<Ul, Bl>where UInt<Ul, Bl>: PrivateSub<Ur>, PrivateSubOut<UInt<Ul, Bl>, Ur>: Trim,
Subtracting unsigned integers. We just do our PrivateSub
and then Trim
the output.