[−][src]Trait num::Signed
Useful functions for signed numbers (i.e. numbers that can be negative).
Required methods
fn abs(&self) -> Self
Computes the absolute value.
For f32
and f64
, NaN
will be returned if the number is NaN
.
For signed integers, ::MIN
will be returned if the number is ::MIN
.
fn abs_sub(&self, other: &Self) -> Self
The positive difference of two numbers.
Returns zero
if the number is less than or equal to other
, otherwise the difference
between self
and other
is returned.
fn signum(&self) -> Self
Returns the sign of the number.
For f32
and f64
:
1.0
if the number is positive,+0.0
orINFINITY
-1.0
if the number is negative,-0.0
orNEG_INFINITY
NaN
if the number isNaN
For signed integers:
0
if the number is zero1
if the number is positive-1
if the number is negative
fn is_positive(&self) -> bool
Returns true if the number is positive and false if the number is zero or negative.
fn is_negative(&self) -> bool
Returns true if the number is negative and false if the number is zero or positive.
Implementations on Foreign Types
impl Signed for i16
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fn abs(&self) -> i16
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fn abs_sub(&self, other: &i16) -> i16
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fn signum(&self) -> i16
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for i32
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fn abs(&self) -> i32
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fn abs_sub(&self, other: &i32) -> i32
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fn signum(&self) -> i32
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for f64
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fn abs(&self) -> f64
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Computes the absolute value. Returns NAN
if the number is NAN
.
fn abs_sub(&self, other: &f64) -> f64
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The positive difference of two numbers. Returns 0.0
if the number is
less than or equal to other
, otherwise the difference betweenself
and other
is returned.
fn signum(&self) -> f64
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Returns
1.0
if the number is positive,+0.0
orINFINITY
-1.0
if the number is negative,-0.0
orNEG_INFINITY
NAN
if the number is NaN
fn is_positive(&self) -> bool
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Returns true
if the number is positive, including +0.0
and INFINITY
fn is_negative(&self) -> bool
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Returns true
if the number is negative, including -0.0
and NEG_INFINITY
impl<T> Signed for Wrapping<T> where
T: Signed,
Wrapping<T>: Num,
Wrapping<T>: Neg,
<Wrapping<T> as Neg>::Output == Wrapping<T>,
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T: Signed,
Wrapping<T>: Num,
Wrapping<T>: Neg,
<Wrapping<T> as Neg>::Output == Wrapping<T>,
fn abs(&self) -> Wrapping<T>
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fn abs_sub(&self, other: &Wrapping<T>) -> Wrapping<T>
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fn signum(&self) -> Wrapping<T>
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for i128
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fn abs(&self) -> i128
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fn abs_sub(&self, other: &i128) -> i128
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fn signum(&self) -> i128
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for i8
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fn abs(&self) -> i8
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fn abs_sub(&self, other: &i8) -> i8
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fn signum(&self) -> i8
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for f32
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fn abs(&self) -> f32
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Computes the absolute value. Returns NAN
if the number is NAN
.
fn abs_sub(&self, other: &f32) -> f32
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The positive difference of two numbers. Returns 0.0
if the number is
less than or equal to other
, otherwise the difference betweenself
and other
is returned.
fn signum(&self) -> f32
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Returns
1.0
if the number is positive,+0.0
orINFINITY
-1.0
if the number is negative,-0.0
orNEG_INFINITY
NAN
if the number is NaN
fn is_positive(&self) -> bool
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Returns true
if the number is positive, including +0.0
and INFINITY
fn is_negative(&self) -> bool
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Returns true
if the number is negative, including -0.0
and NEG_INFINITY
impl Signed for i64
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fn abs(&self) -> i64
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fn abs_sub(&self, other: &i64) -> i64
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fn signum(&self) -> i64
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl Signed for isize
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fn abs(&self) -> isize
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fn abs_sub(&self, other: &isize) -> isize
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fn signum(&self) -> isize
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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Implementors
impl Signed for BigInt
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fn abs(&self) -> BigInt
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fn abs_sub(&self, other: &BigInt) -> BigInt
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fn signum(&self) -> BigInt
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fn is_positive(&self) -> bool
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fn is_negative(&self) -> bool
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impl<T> Signed for Ratio<T> where
T: Clone + Integer + Signed,
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T: Clone + Integer + Signed,