[−][src]Struct typenum::uint::UInt
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::{B0, B1, UInt, UTerm}; type U6 = UInt<UInt<UInt<UTerm, B1>, B1>, B0>;
Methods
impl<U: Unsigned, B: Bit> UInt<U, B>
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Trait Implementations
impl<U: Unsigned, B: Bit> Add<B0> for UInt<U, B>
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U + B0 = U
type Output = UInt<U, B>
The resulting type after applying the +
operator.
fn add(self, _: B0) -> Self::Output
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impl<U: Unsigned> Add<B1> for UInt<U, B0>
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UInt<U, B0> + B1 = UInt<U + B1>
type Output = UInt<U, B1>
The resulting type after applying the +
operator.
fn add(self, _: B1) -> Self::Output
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impl<U: Unsigned> Add<B1> for UInt<U, B1> where
U: Add<B1>,
Add1<U>: Unsigned,
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U: Add<B1>,
Add1<U>: Unsigned,
UInt<U, B1> + B1 = UInt<U + B1, B0>
type Output = UInt<Add1<U>, B0>
The resulting type after applying the +
operator.
fn add(self, _: B1) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B0> where
Ul: Add<Ur>,
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Ul: Add<Ur>,
UInt<Ul, B0> + UInt<Ur, B0> = UInt<Ul + Ur, B0>
type Output = UInt<Sum<Ul, Ur>, B0>
The resulting type after applying the +
operator.
fn add(self, rhs: UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Add<UInt<Ur, B0>> for UInt<Ul, B1> where
Ul: Add<Ur>,
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Ul: Add<Ur>,
UInt<Ul, B1> + UInt<Ur, B0> = UInt<Ul + Ur, B1>
type Output = UInt<Sum<Ul, Ur>, B1>
The resulting type after applying the +
operator.
fn add(self, rhs: UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B0> where
Ul: Add<Ur>,
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Ul: Add<Ur>,
UInt<Ul, B0> + UInt<Ur, B1> = UInt<Ul + Ur, B1>
type Output = UInt<Sum<Ul, Ur>, B1>
The resulting type after applying the +
operator.
fn add(self, rhs: UInt<Ur, B1>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Add<UInt<Ur, B1>> for UInt<Ul, B1> where
Ul: Add<Ur>,
Sum<Ul, Ur>: Add<B1>,
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Ul: Add<Ur>,
Sum<Ul, Ur>: Add<B1>,
UInt<Ul, B1> + UInt<Ur, B1> = UInt<(Ul + Ur) + B1, B0>
type Output = UInt<Add1<Sum<Ul, Ur>>, B0>
The resulting type after applying the +
operator.
fn add(self, rhs: UInt<Ur, B1>) -> Self::Output
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impl<U: Unsigned, B: Bit> Add<UTerm> for UInt<U, B>
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UInt<U, B> + UTerm = UInt<U, B>
type Output = UInt<U, B>
The resulting type after applying the +
operator.
fn add(self, _: UTerm) -> Self::Output
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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,
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UInt<Ul, Bl>: PrivateAnd<Ur>,
PrivateAndOut<UInt<Ul, Bl>, Ur>: Trim,
Anding unsigned integers.
We use our PrivateAnd
operator and then Trim
the output.
type Output = TrimOut<PrivateAndOut<UInt<Ul, Bl>, Ur>>
The resulting type after applying the &
operator.
fn bitand(self, rhs: Ur) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B0> where
Ul: BitOr<Ur>,
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Ul: BitOr<Ur>,
UInt<Ul, B0> | UInt<Ur, B0> = UInt<Ul | Ur, B0>
type Output = UInt<<Ul as BitOr<Ur>>::Output, B0>
The resulting type after applying the |
operator.
fn bitor(self, rhs: UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> BitOr<UInt<Ur, B0>> for UInt<Ul, B1> where
Ul: BitOr<Ur>,
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Ul: BitOr<Ur>,
UInt<Ul, B1> | UInt<Ur, B0> = UInt<Ul | Ur, B1>
type Output = UInt<Or<Ul, Ur>, B1>
The resulting type after applying the |
operator.
fn bitor(self, rhs: UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B0> where
Ul: BitOr<Ur>,
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Ul: BitOr<Ur>,
UInt<Ul, B0> | UInt<Ur, B1> = UInt<Ul | Ur, B1>
type Output = UInt<Or<Ul, Ur>, B1>
The resulting type after applying the |
operator.
fn bitor(self, rhs: UInt<Ur, B1>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> BitOr<UInt<Ur, B1>> for UInt<Ul, B1> where
Ul: BitOr<Ur>,
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Ul: BitOr<Ur>,
UInt<Ul, B1> | UInt<Ur, B1> = UInt<Ul | Ur, B1>
type Output = UInt<Or<Ul, Ur>, B1>
The resulting type after applying the |
operator.
fn bitor(self, rhs: UInt<Ur, B1>) -> Self::Output
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impl<B: Bit, U: Unsigned> BitOr<UTerm> for UInt<U, B>
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X | UTerm = X
type Output = Self
The resulting type after applying the |
operator.
fn bitor(self, _: UTerm) -> Self::Output
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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,
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UInt<Ul, Bl>: PrivateXor<Ur>,
PrivateXorOut<UInt<Ul, Bl>, Ur>: Trim,
Xoring unsigned integers.
We use our PrivateXor
operator and then Trim
the output.
type Output = TrimOut<PrivateXorOut<UInt<Ul, Bl>, Ur>>
The resulting type after applying the ^
operator.
fn bitxor(self, rhs: Ur) -> Self::Output
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impl<U: Clone, B: Clone> Clone for UInt<U, B>
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fn clone(&self) -> UInt<U, B>
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fn clone_from(&mut self, source: &Self)
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impl<U: Unsigned, B: Bit> Cmp<UInt<U, B>> for UTerm
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Zero < Nonzero
type Output = Less
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, _: &UInt<U, B>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B0> where
Ul: PrivateCmp<Ur, Equal>,
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Ul: PrivateCmp<Ur, Equal>,
UInt<Ul, B0>
cmp with UInt<Ur, B0>
: SoFar
is Equal
type Output = PrivateCmpOut<Ul, Ur, Equal>
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, rhs: &UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Cmp<UInt<Ur, B0>> for UInt<Ul, B1> where
Ul: PrivateCmp<Ur, Greater>,
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Ul: PrivateCmp<Ur, Greater>,
UInt<Ul, B1>
cmp with UInt<Ur, B0>
: SoFar
is Greater
type Output = PrivateCmpOut<Ul, Ur, Greater>
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, rhs: &UInt<Ur, B0>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B1> where
Ul: PrivateCmp<Ur, Equal>,
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Ul: PrivateCmp<Ur, Equal>,
UInt<Ul, B1>
cmp with UInt<Ur, B1>
: SoFar
is Equal
type Output = PrivateCmpOut<Ul, Ur, Equal>
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, rhs: &UInt<Ur, B1>) -> Self::Output
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impl<Ul: Unsigned, Ur: Unsigned> Cmp<UInt<Ur, B1>> for UInt<Ul, B0> where
Ul: PrivateCmp<Ur, Less>,
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Ul: PrivateCmp<Ur, Less>,
UInt<Ul, B0>
cmp with UInt<Ur, B1>
: SoFar
is Less
type Output = PrivateCmpOut<Ul, Ur, Less>
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, rhs: &UInt<Ur, B1>) -> Self::Output
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impl<U: Unsigned, B: Bit> Cmp<UTerm> for UInt<U, B>
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Nonzero > Zero
type Output = Greater
The result of the comparison. It should only ever be one of Greater
, Less
, or Equal
.
fn compare<IM: InternalMarker>(&self, _: &UTerm) -> Self::Output
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impl<U: Copy, B: Copy> Copy for UInt<U, B>
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impl<U: Debug, B: Debug> Debug for UInt<U, B>
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impl<U: Default, B: Default> Default for UInt<U, B>
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impl<Ur: Unsigned, Br: Bit> Div<UInt<Ur, Br>> for UTerm
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type Output = UTerm
The resulting type after applying the /
operator.
fn div(self, _: UInt<Ur, Br>) -> Self::Output
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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>>>>,
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UInt<Ul, Bl>: Len,
Length<UInt<Ul, Bl>>: Sub<B1>,
(): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
type Output = PrivateDivQuot<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>
The resulting type after applying the /
operator.
fn div(self, rhs: UInt<Ur, Br>) -> Self::Output
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impl<U: Eq, B: Eq> Eq for UInt<U, B>
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impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B0> where
Xp: Gcd<Yp>,
UInt<Xp, B0>: NonZero,
UInt<Yp, B0>: NonZero,
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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
impl<Xp, Yp> Gcd<UInt<Yp, B0>> for UInt<Xp, B1> where
UInt<Xp, B1>: Gcd<Yp>,
UInt<Yp, B0>: NonZero,
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UInt<Xp, B1>: Gcd<Yp>,
UInt<Yp, B0>: NonZero,
gcd(x, y) = gcd(x, y/2) if x odd and y even
impl<Xp, Yp> Gcd<UInt<Yp, B1>> for UInt<Xp, B0> where
Xp: Gcd<UInt<Yp, B1>>,
UInt<Xp, B0>: NonZero,
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Xp: Gcd<UInt<Yp, B1>>,
UInt<Xp, B0>: NonZero,
gcd(x, y) = gcd(x/2, y) if x even and y odd
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>>>,
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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.
type Output = Gcf<Diff<Maximum<UInt<Xp, B1>, UInt<Yp, B1>>, Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>, Minimum<UInt<Xp, B1>, UInt<Yp, B1>>>
The greatest common divisor.
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>>>,
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UInt<Ui, Bi>: Copy + Sub<B1>,
Un: GetBit<Sub1<UInt<Ui, Bi>>>,
type Output = GetBitOut<Un, Sub1<UInt<Ui, Bi>>>
fn get_bit<IM: InternalMarker>(&self, i: &UInt<Ui, Bi>) -> Self::Output
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impl<Un, Bn> GetBit<UTerm> for UInt<Un, Bn> where
Bn: Copy,
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Bn: Copy,
impl<U: Hash, B: Hash> Hash for UInt<U, B>
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fn hash<__H: Hasher>(&self, state: &mut __H)
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fn hash_slice<H>(data: &[Self], state: &mut H) where
H: Hasher,
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H: Hasher,
impl<U: Unsigned, B: Bit> Len for UInt<U, B> where
U: Len,
Length<U>: Add<B1>,
Add1<Length<U>>: Unsigned,
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U: Len,
Length<U>: Add<B1>,
Add1<Length<U>>: Unsigned,
Length of a bit is 1
type Output = Add1<Length<U>>
The length as a type-level unsigned integer.
fn len(&self) -> Self::Output
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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>>,
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U: Unsigned,
B: Bit,
Ur: Unsigned,
UInt<U, B>: Cmp<Ur> + PrivateMax<Ur, Compare<UInt<U, B>, Ur>>,
type Output = PrivateMaxOut<UInt<U, B>, Ur, Compare<UInt<U, B>, Ur>>
The type of the maximum of Self
and Rhs
fn max(self, rhs: Ur) -> Self::Output
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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>>,
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U: Unsigned,
B: Bit,
Ur: Unsigned,
UInt<U, B>: Cmp<Ur> + PrivateMin<Ur, Compare<UInt<U, B>, Ur>>,
type Output = PrivateMinOut<UInt<U, B>, Ur, Compare<UInt<U, B>, Ur>>
The type of the minimum of Self
and Rhs
fn min(self, rhs: Ur) -> Self::Output
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impl<U: Unsigned, B: Bit> Mul<B0> for UInt<U, B>
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UInt * B0 = UTerm
type Output = UTerm
The resulting type after applying the *
operator.
fn mul(self, _: B0) -> Self::Output
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impl<U: Unsigned, B: Bit> Mul<B1> for UInt<U, B>
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UInt * B1 = UInt
type Output = UInt<U, B>
The resulting type after applying the *
operator.
fn mul(self, _: B1) -> Self::Output
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impl<Ul: Unsigned, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B0> where
Ul: Mul<UInt<Ur, B>>,
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Ul: Mul<UInt<Ur, B>>,
UInt<Ul, B0> * UInt<Ur, B> = UInt<(Ul * UInt<Ur, B>), B0>
type Output = UInt<Prod<Ul, UInt<Ur, B>>, B0>
The resulting type after applying the *
operator.
fn mul(self, rhs: UInt<Ur, B>) -> Self::Output
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impl<Ul: Unsigned, B: Bit, Ur: Unsigned> Mul<UInt<Ur, B>> for UInt<Ul, B1> where
Ul: Mul<UInt<Ur, B>>,
UInt<Prod<Ul, UInt<Ur, B>>, B0>: Add<UInt<Ur, B>>,
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Ul: Mul<UInt<Ur, B>>,
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>
type Output = Sum<UInt<Prod<Ul, UInt<Ur, B>>, B0>, UInt<Ur, B>>
The resulting type after applying the *
operator.
fn mul(self, rhs: UInt<Ur, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Mul<UTerm> for UInt<U, B>
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UInt<U, B> * UTerm = UTerm
type Output = UTerm
The resulting type after applying the *
operator.
fn mul(self, _: UTerm) -> Self::Output
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impl<U: Unsigned, B: Bit> NonZero for UInt<U, B>
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impl<U: Ord, B: Ord> Ord for UInt<U, B>
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fn cmp(&self, other: &UInt<U, B>) -> Ordering
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#[must_use]
fn max(self, other: Self) -> Self
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#[must_use]
fn min(self, other: Self) -> Self
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#[must_use]
fn clamp(self, min: Self, max: Self) -> Self
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impl<Ur: Unsigned, Br: Bit> PartialDiv<UInt<Ur, Br>> for UTerm
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type Output = UTerm
The type of the result of the division
fn partial_div(self, _: UInt<Ur, Br>) -> Self::Output
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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>,
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UInt<Ul, Bl>: Div<UInt<Ur, Br>> + Rem<UInt<Ur, Br>, Output = U0>,
type Output = Quot<UInt<Ul, Bl>, UInt<Ur, Br>>
The type of the result of the division
fn partial_div(self, rhs: UInt<Ur, Br>) -> Self::Output
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impl<U: PartialEq, B: PartialEq> PartialEq<UInt<U, B>> for UInt<U, B>
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impl<U: PartialOrd, B: PartialOrd> PartialOrd<UInt<U, B>> for UInt<U, B>
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fn partial_cmp(&self, other: &UInt<U, B>) -> Option<Ordering>
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fn lt(&self, other: &UInt<U, B>) -> bool
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fn le(&self, other: &UInt<U, B>) -> bool
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fn gt(&self, other: &UInt<U, B>) -> bool
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fn ge(&self, other: &UInt<U, B>) -> bool
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for f32
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type Output = f32
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for f64
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type Output = f64
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for i64
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type Output = i64
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for isize
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type Output = isize
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for u8
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for u16
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type Output = u16
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for u32
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type Output = u32
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for u64
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type Output = u64
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for usize
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type Output = usize
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for i8
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for i16
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type Output = i16
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl<U: Unsigned, B: Bit> Pow<UInt<U, B>> for i32
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type Output = i32
The result of the exponentiation.
fn powi(self, _: UInt<U, B>) -> Self::Output
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impl PowerOfTwo for UInt<UTerm, B1>
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impl<U: Unsigned + PowerOfTwo> PowerOfTwo for UInt<U, B0>
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impl<Ur: Unsigned, Br: Bit> Rem<UInt<Ur, Br>> for UTerm
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type Output = UTerm
The resulting type after applying the %
operator.
fn rem(self, _: UInt<Ur, Br>) -> Self::Output
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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>>>>,
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UInt<Ul, Bl>: Len,
Length<UInt<Ul, Bl>>: Sub<B1>,
(): PrivateDiv<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>,
type Output = PrivateDivRem<UInt<Ul, Bl>, UInt<Ur, Br>, U0, U0, Sub1<Length<UInt<Ul, Bl>>>>
The resulting type after applying the %
operator.
fn rem(self, rhs: UInt<Ur, Br>) -> Self::Output
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impl<U: Unsigned, B: Bit> Shl<B0> for UInt<U, B>
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Shifting left any unsigned by a zero bit: U << B0 = U
type Output = UInt<U, B>
The resulting type after applying the <<
operator.
fn shl(self, _: B0) -> Self::Output
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impl<U: Unsigned, B: Bit> Shl<B1> for UInt<U, B>
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Shifting left a UInt
by a one bit: UInt<U, B> << B1 = UInt<UInt<U, B>, B0>
type Output = UInt<UInt<U, B>, B0>
The resulting type after applying the <<
operator.
fn shl(self, _: B1) -> Self::Output
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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>>>,
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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)
type Output = Shleft<UInt<UInt<U, B>, B0>, Sub1<UInt<Ur, Br>>>
The resulting type after applying the <<
operator.
fn shl(self, rhs: UInt<Ur, Br>) -> Self::Output
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impl<U: Unsigned, B: Bit> Shl<UTerm> for UInt<U, B>
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Shifting left UInt
by UTerm
: UInt<U, B> << UTerm = UInt<U, B>
type Output = UInt<U, B>
The resulting type after applying the <<
operator.
fn shl(self, _: UTerm) -> Self::Output
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impl<U: Unsigned, B: Bit> Shr<B0> for UInt<U, B>
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Shifting right any unsigned by a zero bit: U >> B0 = U
type Output = UInt<U, B>
The resulting type after applying the >>
operator.
fn shr(self, _: B0) -> Self::Output
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impl<U: Unsigned, B: Bit> Shr<B1> for UInt<U, B>
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Shifting right a UInt
by a 1 bit: UInt<U, B> >> B1 = U
type Output = U
The resulting type after applying the >>
operator.
fn shr(self, _: B1) -> Self::Output
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impl<U: Unsigned, 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>>>,
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UInt<Ur, Br>: Sub<B1>,
U: Shr<Sub1<UInt<Ur, Br>>>,
Shifting right UInt
by UInt
: UInt(U, B) >> Y
= U >> (Y - 1)
type Output = Shright<U, Sub1<UInt<Ur, Br>>>
The resulting type after applying the >>
operator.
fn shr(self, rhs: UInt<Ur, Br>) -> Self::Output
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impl<U: Unsigned, B: Bit> Shr<UTerm> for UInt<U, B>
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Shifting right UInt
by UTerm
: UInt<U, B> >> UTerm = UInt<U, B>
type Output = UInt<U, B>
The resulting type after applying the >>
operator.
fn shr(self, _: UTerm) -> Self::Output
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impl<U, B> StructuralEq for UInt<U, B>
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impl<U, B> StructuralPartialEq for UInt<U, B>
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impl<U: Unsigned, B: Bit> Sub<B0> for UInt<U, B>
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UInt - B0 = UInt
type Output = UInt<U, B>
The resulting type after applying the -
operator.
fn sub(self, _: B0) -> Self::Output
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impl<U: Unsigned, B: Bit> Sub<B1> for UInt<UInt<U, B>, B1>
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UInt<U, B1> - B1 = UInt<U, B0>
type Output = UInt<UInt<U, B>, B0>
The resulting type after applying the -
operator.
fn sub(self, _: B1) -> Self::Output
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impl Sub<B1> for UInt<UTerm, B1>
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UInt<UTerm, B1> - B1 = UTerm
type Output = UTerm
The resulting type after applying the -
operator.
fn sub(self, _: B1) -> Self::Output
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impl<U: Unsigned> Sub<B1> for UInt<U, B0> where
U: Sub<B1>,
Sub1<U>: Unsigned,
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U: Sub<B1>,
Sub1<U>: Unsigned,
UInt<U, B0> - B1 = UInt<U - B1, B1>
type Output = UInt<Sub1<U>, B1>
The resulting type after applying the -
operator.
fn sub(self, _: B1) -> Self::Output
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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,
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UInt<Ul, Bl>: PrivateSub<Ur>,
PrivateSubOut<UInt<Ul, Bl>, Ur>: Trim,
Subtracting unsigned integers. We just do our PrivateSub
and then Trim
the output.
type Output = TrimOut<PrivateSubOut<UInt<Ul, Bl>, Ur>>
The resulting type after applying the -
operator.
fn sub(self, rhs: Ur) -> Self::Output
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impl<U: Unsigned, B: Bit> Unsigned for UInt<U, B>
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const U8: u8
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const U16: u16
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const U32: u32
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const U64: u64
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const USIZE: usize
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const I8: i8
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const I16: i16
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const I32: i32
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const I64: i64
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const ISIZE: isize
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fn to_u8() -> u8
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fn to_u16() -> u16
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fn to_u32() -> u32
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fn to_u64() -> u64
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fn to_usize() -> usize
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fn to_i8() -> i8
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fn to_i16() -> i16
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fn to_i32() -> i32
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fn to_i64() -> i64
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fn to_isize() -> isize
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Auto Trait Implementations
impl<U, B> Send for UInt<U, B> where
B: Send,
U: Send,
B: Send,
U: Send,
impl<U, B> Sync for UInt<U, B> where
B: Sync,
U: Sync,
B: Sync,
U: Sync,
impl<U, B> Unpin for UInt<U, B> where
B: Unpin,
U: Unpin,
B: Unpin,
U: Unpin,
Blanket Implementations
impl<T> Any for T where
T: 'static + ?Sized,
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T: 'static + ?Sized,
impl<T> Borrow<T> for T where
T: ?Sized,
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T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
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T: ?Sized,
fn borrow_mut(&mut self) -> &mut T
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impl<T> From<T> for T
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impl<X> Gcd<UTerm> for X where
X: Unsigned + NonZero,
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X: Unsigned + NonZero,
type Output = X
The greatest common divisor.
impl<T, U> Into<U> for T where
U: From<T>,
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U: From<T>,
impl<A, B> IsEqual<B> for A where
A: Cmp<B> + IsEqualPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsEqualPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsEqualPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_equal(Self, B) -> <A as IsEqual<B>>::Output
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impl<A, B> IsGreater<B> for A where
A: Cmp<B> + IsGreaterPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsGreaterPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsGreaterPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_greater(Self, B) -> <A as IsGreater<B>>::Output
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impl<A, B> IsGreaterOrEqual<B> for A where
A: Cmp<B> + IsGreaterOrEqualPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsGreaterOrEqualPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsGreaterOrEqualPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_greater_or_equal(Self, B) -> <A as IsGreaterOrEqual<B>>::Output
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impl<A, B> IsLess<B> for A where
A: Cmp<B> + IsLessPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsLessPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsLessPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_less(Self, B) -> <A as IsLess<B>>::Output
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impl<A, B> IsLessOrEqual<B> for A where
A: Cmp<B> + IsLessOrEqualPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsLessOrEqualPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsLessOrEqualPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_less_or_equal(Self, B) -> <A as IsLessOrEqual<B>>::Output
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impl<A, B> IsNotEqual<B> for A where
A: Cmp<B> + IsNotEqualPrivate<B, <A as Cmp<B>>::Output>,
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A: Cmp<B> + IsNotEqualPrivate<B, <A as Cmp<B>>::Output>,
type Output = <A as IsNotEqualPrivate<B, <A as Cmp<B>>::Output>>::Output
The type representing either True
or False
fn is_not_equal(Self, B) -> <A as IsNotEqual<B>>::Output
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impl<N> Logarithm2 for N where
N: PrivateLogarithm2,
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N: PrivateLogarithm2,
type Output = <N as PrivateLogarithm2>::Output
The result of the integer binary logarithm.
impl<M, N> PartialDiv<N> for M where
M: Integer + Div<N> + Rem<N, Output = Z0>,
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M: Integer + Div<N> + Rem<N, Output = Z0>,
type Output = <M as Div<N>>::Output
The type of the result of the division
fn partial_div(Self, N) -> <M as PartialDiv<N>>::Output
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impl<X, N> Pow<N> for X where
N: Unsigned,
X: Unsigned + PrivatePow<UInt<UTerm, B1>, N>,
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N: Unsigned,
X: Unsigned + PrivatePow<UInt<UTerm, B1>, N>,
type Output = <X as PrivatePow<UInt<UTerm, B1>, N>>::Output
The result of the exponentiation.
fn powi(Self, N) -> <X as Pow<N>>::Output
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impl<T> Same<T> for T
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type Output = T
Should always be Self
impl<N, I, B> SetBit<I, B> for N where
N: PrivateSetBit<I, B>,
<N as PrivateSetBit<I, B>>::Output: Trim,
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N: PrivateSetBit<I, B>,
<N as PrivateSetBit<I, B>>::Output: Trim,
type Output = <<N as PrivateSetBit<I, B>>::Output as Trim>::Output
fn set_bit<IM>(Self, I, B) -> <N as SetBit<I, B>>::Output where
IM: InternalMarker,
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IM: InternalMarker,
impl<N> SquareRoot for N where
N: PrivateSquareRoot,
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N: PrivateSquareRoot,
type Output = <N as PrivateSquareRoot>::Output
The result of the integer square root.
impl<T, U> TryFrom<U> for T where
U: Into<T>,
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U: Into<T>,
type Error = Infallible
The type returned in the event of a conversion error.
fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>
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impl<T, U> TryInto<U> for T where
U: TryFrom<T>,
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U: TryFrom<T>,