Struct frequency_runtime::Permill
pub struct Permill(/* private fields */);
Expand description
A fixed point representation of a number in the range [0, 1].
Parts per Million
Implementations§
§impl Permill
impl Permill
pub const fn from_parts(parts: u32) -> Permill
pub const fn from_parts(parts: u32) -> Permill
From an explicitly defined number of parts per maximum of the type.
pub const fn from_percent(x: u32) -> Permill
pub const fn from_percent(x: u32) -> Permill
Converts a percent into Self
. Equal to x / 100
.
This can be created at compile time.
pub const fn deconstruct(self) -> u32
pub const fn deconstruct(self) -> u32
See [PerThing::deconstruct
].
pub fn from_float(x: f64) -> Permill
pub fn from_float(x: f64) -> Permill
See [PerThing::from_float
].
pub fn from_rational_approximation<N>(p: N, q: N) -> Permill
👎Deprecated: Use PerThing::from_rational
instead
pub fn from_rational_approximation<N>(p: N, q: N) -> Permill
PerThing::from_rational
insteadSee [PerThing::from_rational
].
pub fn from_rational<N>(p: N, q: N) -> Permill
pub fn from_rational<N>(p: N, q: N) -> Permill
See [PerThing::from_rational
].
pub fn mul_floor<N>(self, b: N) -> N
pub fn mul_floor<N>(self, b: N) -> N
See [PerThing::mul_floor
].
pub fn mul_ceil<N>(self, b: N) -> N
pub fn mul_ceil<N>(self, b: N) -> N
See [PerThing::mul_ceil
].
pub fn saturating_reciprocal_mul<N>(self, b: N) -> N
pub fn saturating_reciprocal_mul<N>(self, b: N) -> N
See [PerThing::saturating_reciprocal_mul
].
pub fn saturating_reciprocal_mul_floor<N>(self, b: N) -> N
pub fn saturating_reciprocal_mul_floor<N>(self, b: N) -> N
See [PerThing::saturating_reciprocal_mul_floor
].
pub fn saturating_reciprocal_mul_ceil<N>(self, b: N) -> N
pub fn saturating_reciprocal_mul_ceil<N>(self, b: N) -> N
See [PerThing::saturating_reciprocal_mul_ceil
].
pub fn saturating_div(self, rhs: Permill, r: Rounding) -> Permill
pub fn saturating_div(self, rhs: Permill, r: Rounding) -> Permill
Saturating division. Compute self / rhs
, saturating at one if rhs < self
.
The rounding
method must be specified. e.g.:
let pc = |x| Percent::from_percent(x);
assert_eq!(
pc(2).saturating_div(pc(3), Down),
pc(66),
);
assert_eq!(
pc(1).saturating_div(pc(3), NearestPrefUp),
pc(33),
);
assert_eq!(
pc(2).saturating_div(pc(3), NearestPrefDown),
pc(67),
);
assert_eq!(
pc(1).saturating_div(pc(3), Up),
pc(34),
);
§impl Permill
impl Permill
pub const fn from_perthousand(x: u32) -> Permill
pub const fn from_perthousand(x: u32) -> Permill
Converts a percent into Self
. Equal to x / 1000
.
This can be created at compile time.
Trait Implementations§
§impl CheckedAdd for Permill
impl CheckedAdd for Permill
§fn checked_add(&self, rhs: &Permill) -> Option<Permill>
fn checked_add(&self, rhs: &Permill) -> Option<Permill>
None
is
returned.§impl CheckedMul for Permill
impl CheckedMul for Permill
Note
CheckedMul will never fail for PerThings.
§fn checked_mul(&self, rhs: &Permill) -> Option<Permill>
fn checked_mul(&self, rhs: &Permill) -> Option<Permill>
None
is returned.§impl CheckedSub for Permill
impl CheckedSub for Permill
§fn checked_sub(&self, v: &Permill) -> Option<Permill>
fn checked_sub(&self, v: &Permill) -> Option<Permill>
None
is returned.§impl CompactAs for Permill
impl CompactAs for Permill
Implementation makes any compact encoding of PerThing::Inner
valid,
when decoding it will saturate up to PerThing::ACCURACY
.
§impl Decode for Permill
impl Decode for Permill
§fn decode<I>(input: &mut I) -> Result<Permill, Error>where
I: Input,
fn decode<I>(input: &mut I) -> Result<Permill, Error>where
I: Input,
§fn decode_into<I>(
input: &mut I,
dst: &mut MaybeUninit<Self>
) -> Result<DecodeFinished, Error>where
I: Input,
fn decode_into<I>(
input: &mut I,
dst: &mut MaybeUninit<Self>
) -> Result<DecodeFinished, Error>where
I: Input,
§fn skip<I>(input: &mut I) -> Result<(), Error>where
I: Input,
fn skip<I>(input: &mut I) -> Result<(), Error>where
I: Input,
§fn encoded_fixed_size() -> Option<usize>
fn encoded_fixed_size() -> Option<usize>
§impl<'de> Deserialize<'de> for Permill
impl<'de> Deserialize<'de> for Permill
§fn deserialize<__D>(
__deserializer: __D
) -> Result<Permill, <__D as Deserializer<'de>>::Error>where
__D: Deserializer<'de>,
fn deserialize<__D>(
__deserializer: __D
) -> Result<Permill, <__D as Deserializer<'de>>::Error>where
__D: Deserializer<'de>,
§impl Encode for Permill
impl Encode for Permill
§fn encode_to<__CodecOutputEdqy>(
&self,
__codec_dest_edqy: &mut __CodecOutputEdqy
)where
__CodecOutputEdqy: Output + ?Sized,
fn encode_to<__CodecOutputEdqy>(
&self,
__codec_dest_edqy: &mut __CodecOutputEdqy
)where
__CodecOutputEdqy: Output + ?Sized,
§fn using_encoded<__CodecOutputReturn, __CodecUsingEncodedCallback>(
&self,
f: __CodecUsingEncodedCallback
) -> __CodecOutputReturn
fn using_encoded<__CodecOutputReturn, __CodecUsingEncodedCallback>( &self, f: __CodecUsingEncodedCallback ) -> __CodecOutputReturn
§fn encoded_size(&self) -> usize
fn encoded_size(&self) -> usize
§impl MaxEncodedLen for Permill
impl MaxEncodedLen for Permill
§fn max_encoded_len() -> usize
fn max_encoded_len() -> usize
§impl<N> Mul<N> for Permill
impl<N> Mul<N> for Permill
Non-overflow multiplication.
This is tailored to be used with a balance type.
§impl Ord for Permill
impl Ord for Permill
§impl PartialOrd for Permill
impl PartialOrd for Permill
§fn partial_cmp(&self, other: &Permill) -> Option<Ordering>
fn partial_cmp(&self, other: &Permill) -> Option<Ordering>
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 more§impl PerThing for Permill
impl PerThing for Permill
§fn deconstruct(self) -> <Permill as PerThing>::Inner
fn deconstruct(self) -> <Permill as PerThing>::Inner
Consume self and return the number of parts per thing.
§fn from_parts(parts: <Permill as PerThing>::Inner) -> Permill
fn from_parts(parts: <Permill as PerThing>::Inner) -> Permill
Build this type from a number of parts per thing.
§fn from_float(x: f64) -> Permill
fn from_float(x: f64) -> Permill
NOTE: saturate to 0 or 1 if x is beyond [0, 1]
§type Upper = u64
type Upper = u64
Self::Inner
, used to avoid overflow in some computations.
It must be able to compute ACCURACY^2
.§const ACCURACY: <Permill as PerThing>::Inner = {transmute(0x000f4240): <sp_runtime::Permill as sp_runtime::PerThing>::Inner}
const ACCURACY: <Permill as PerThing>::Inner = {transmute(0x000f4240): <sp_runtime::Permill as sp_runtime::PerThing>::Inner}
§fn from_rational_with_rounding<N>(
p: N,
q: N,
r: Rounding
) -> Result<Permill, ()>
fn from_rational_with_rounding<N>( p: N, q: N, r: Rounding ) -> Result<Permill, ()>
p/q
into a per-thing fraction. Read more§fn less_epsilon(self) -> Self
fn less_epsilon(self) -> Self
self
or self
if it is already zero.§fn try_less_epsilon(self) -> Result<Self, Self>
fn try_less_epsilon(self) -> Result<Self, Self>
self
or an error with the same value if self
is already
zero.§fn plus_epsilon(self) -> Self
fn plus_epsilon(self) -> Self
self
or self
if it is already one.§fn try_plus_epsilon(self) -> Result<Self, Self>
fn try_plus_epsilon(self) -> Result<Self, Self>
self
or an error with the same value if self
is already
one.§fn from_percent(x: Self::Inner) -> Self
fn from_percent(x: Self::Inner) -> Self
Self::from_parts(x * Self::ACCURACY / 100)
but more accurate and can cope with potential type overflows.§fn left_from_one(self) -> Self
fn left_from_one(self) -> Self
self
is saturating-subtracted from Self::one()
.§fn mul_floor<N>(self, b: N) -> Nwhere
N: MultiplyArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
fn mul_floor<N>(self, b: N) -> Nwhere
N: MultiplyArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
Mul
rounds to the
nearest whole number. Read more§fn mul_ceil<N>(self, b: N) -> Nwhere
N: MultiplyArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
fn mul_ceil<N>(self, b: N) -> Nwhere
N: MultiplyArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
Mul
rounds to the nearest whole number. Read more§fn saturating_reciprocal_mul<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
fn saturating_reciprocal_mul<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
self
. The result is rounded to the
nearest whole number and saturates at the numeric bounds instead of overflowing. Read more§fn saturating_reciprocal_mul_floor<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
fn saturating_reciprocal_mul_floor<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
self
. The result is rounded down to the
nearest whole number and saturates at the numeric bounds instead of overflowing. Read more§fn saturating_reciprocal_mul_ceil<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
fn saturating_reciprocal_mul_ceil<N>(self, b: N) -> Nwhere
N: ReciprocalArg + UniqueSaturatedInto<Self::Inner>,
Self::Inner: Into<N>,
self
. The result is rounded up to the
nearest whole number and saturates at the numeric bounds instead of overflowing. Read more§fn from_rational<N>(p: N, q: N) -> Self
fn from_rational<N>(p: N, q: N) -> Self
p/q
into a per-thing fraction. This will never overflow. Read more§fn from_rational_approximation<N>(p: N, q: N) -> Self
fn from_rational_approximation<N>(p: N, q: N) -> Self
Self::from_rational
.§impl Saturating for Permill
impl Saturating for Permill
§fn saturating_add(self, rhs: Permill) -> Permill
fn saturating_add(self, rhs: Permill) -> Permill
Saturating addition. Compute self + rhs
, saturating at the numeric bounds instead of
overflowing. This operation is lossless if it does not saturate.
§fn saturating_sub(self, rhs: Permill) -> Permill
fn saturating_sub(self, rhs: Permill) -> Permill
Saturating subtraction. Compute self - rhs
, saturating at the numeric bounds instead of
overflowing. This operation is lossless if it does not saturate.
§fn saturating_mul(self, rhs: Permill) -> Permill
fn saturating_mul(self, rhs: Permill) -> Permill
Saturating multiply. Compute self * rhs
, saturating at the numeric bounds instead of
overflowing. This operation is lossy.
§fn saturating_pow(self, exp: usize) -> Permill
fn saturating_pow(self, exp: usize) -> Permill
Saturating exponentiation. Computes self.pow(exp)
, saturating at the numeric
bounds instead of overflowing. This operation is lossy.
§fn saturating_less_one(self) -> Selfwhere
Self: One,
fn saturating_less_one(self) -> Selfwhere
Self: One,
§fn saturating_plus_one(self) -> Selfwhere
Self: One,
fn saturating_plus_one(self) -> Selfwhere
Self: One,
§fn saturating_inc(&mut self)where
Self: One,
fn saturating_inc(&mut self)where
Self: One,
§fn saturating_dec(&mut self)where
Self: One,
fn saturating_dec(&mut self)where
Self: One,
§fn saturating_accrue(&mut self, amount: Self)where
Self: One,
fn saturating_accrue(&mut self, amount: Self)where
Self: One,
amount
, saturating.§fn saturating_reduce(&mut self, amount: Self)where
Self: One,
fn saturating_reduce(&mut self, amount: Self)where
Self: One,
amount
, saturating at zero.§impl SaturatingAdd for Permill
impl SaturatingAdd for Permill
§fn saturating_add(&self, v: &Permill) -> Permill
fn saturating_add(&self, v: &Permill) -> Permill
self + other
, saturating at the relevant high or low boundary of
the type.§impl SaturatingSub for Permill
impl SaturatingSub for Permill
§fn saturating_sub(&self, v: &Permill) -> Permill
fn saturating_sub(&self, v: &Permill) -> Permill
self - other
, saturating at the relevant high or low boundary of
the type.§impl Serialize for Permill
impl Serialize for Permill
§fn serialize<__S>(
&self,
__serializer: __S
) -> Result<<__S as Serializer>::Ok, <__S as Serializer>::Error>where
__S: Serializer,
fn serialize<__S>(
&self,
__serializer: __S
) -> Result<<__S as Serializer>::Ok, <__S as Serializer>::Error>where
__S: Serializer,
impl Copy for Permill
impl EncodeLike for Permill
impl Eq for Permill
impl StructuralEq for Permill
impl StructuralPartialEq for Permill
Auto Trait Implementations§
impl RefUnwindSafe for Permill
impl Send for Permill
impl Sync for Permill
impl Unpin for Permill
impl UnwindSafe for Permill
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
§impl<T> CheckedConversion for T
impl<T> CheckedConversion for T
§fn checked_from<T>(t: T) -> Option<Self>where
Self: TryFrom<T>,
fn checked_from<T>(t: T) -> Option<Self>where
Self: TryFrom<T>,
§fn checked_into<T>(self) -> Option<T>where
Self: TryInto<T>,
fn checked_into<T>(self) -> Option<T>where
Self: TryInto<T>,
§impl<T> Clear for T
impl<T> Clear for T
§impl<T> Conv for T
impl<T> Conv for T
§impl<T> DecodeAll for Twhere
T: Decode,
impl<T> DecodeAll for Twhere
T: Decode,
§fn decode_all(input: &mut &[u8]) -> Result<T, Error>
fn decode_all(input: &mut &[u8]) -> Result<T, Error>
Self
and consume all of the given input data. Read more§impl<T> DecodeLimit for Twhere
T: Decode,
impl<T> DecodeLimit for Twhere
T: Decode,
§impl<T> DefensiveMax<T> for Twhere
T: PartialOrd,
impl<T> DefensiveMax<T> for Twhere
T: PartialOrd,
§fn defensive_max(self, other: T) -> T
fn defensive_max(self, other: T) -> T
§fn defensive_strict_max(self, other: T) -> T
fn defensive_strict_max(self, other: T) -> T
§impl<T> DefensiveMin<T> for Twhere
T: PartialOrd,
impl<T> DefensiveMin<T> for Twhere
T: PartialOrd,
§fn defensive_min(self, other: T) -> T
fn defensive_min(self, other: T) -> T
§fn defensive_strict_min(self, other: T) -> T
fn defensive_strict_min(self, other: T) -> T
§impl<T> DefensiveSaturating for T
impl<T> DefensiveSaturating for T
§fn defensive_saturating_add(self, other: T) -> T
fn defensive_saturating_add(self, other: T) -> T
self
plus other
defensively.§fn defensive_saturating_sub(self, other: T) -> T
fn defensive_saturating_sub(self, other: T) -> T
self
minus other
defensively.§fn defensive_saturating_mul(self, other: T) -> T
fn defensive_saturating_mul(self, other: T) -> T
self
and other
defensively.§fn defensive_saturating_accrue(&mut self, other: T)
fn defensive_saturating_accrue(&mut self, other: T)
self
by other
defensively.§fn defensive_saturating_reduce(&mut self, other: T)
fn defensive_saturating_reduce(&mut self, other: T)
self
by other
defensively.§fn defensive_saturating_inc(&mut self)
fn defensive_saturating_inc(&mut self)
self
by one defensively.§fn defensive_saturating_dec(&mut self)
fn defensive_saturating_dec(&mut self)
self
by one defensively.§impl<T> EncodeAs<T> for Twhere
T: Encode,
impl<T> EncodeAs<T> for Twhere
T: Encode,
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T: Encode,
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§impl<T> EnsureAdd for Twhere
T: EnsureAddAssign,
impl<T> EnsureAdd for Twhere
T: EnsureAddAssign,
§fn ensure_add(self, v: Self) -> Result<Self, ArithmeticError>
fn ensure_add(self, v: Self) -> Result<Self, ArithmeticError>
§impl<T> EnsureAddAssign for T
impl<T> EnsureAddAssign for T
§fn ensure_add_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
fn ensure_add_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
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impl<T, S> EnsureFrom<S> for T
§fn ensure_from(other: T) -> Result<Self, ArithmeticError>
fn ensure_from(other: T) -> Result<Self, ArithmeticError>
ArithmeticError
] if fails. Read more§impl<T, S> EnsureInto<S> for T
impl<T, S> EnsureInto<S> for T
§fn ensure_into(self) -> Result<T, ArithmeticError>
fn ensure_into(self) -> Result<T, ArithmeticError>
ArithmeticError
] if fails. Read more§impl<T> EnsureMul for Twhere
T: EnsureMulAssign,
impl<T> EnsureMul for Twhere
T: EnsureMulAssign,
§fn ensure_mul(self, v: Self) -> Result<Self, ArithmeticError>
fn ensure_mul(self, v: Self) -> Result<Self, ArithmeticError>
§impl<T> EnsureMulAssign for T
impl<T> EnsureMulAssign for T
§fn ensure_mul_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
fn ensure_mul_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
§impl<T> EnsureSub for Twhere
T: EnsureSubAssign,
impl<T> EnsureSub for Twhere
T: EnsureSubAssign,
§fn ensure_sub(self, v: Self) -> Result<Self, ArithmeticError>
fn ensure_sub(self, v: Self) -> Result<Self, ArithmeticError>
§impl<T> EnsureSubAssign for T
impl<T> EnsureSubAssign for T
§fn ensure_sub_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
fn ensure_sub_assign(&mut self, v: Self) -> Result<(), ArithmeticError>
source§impl<Q, K> Equivalent<K> for Q
impl<Q, K> Equivalent<K> for Q
source§fn equivalent(&self, key: &K) -> bool
fn equivalent(&self, key: &K) -> bool
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and return true
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impl<Q, K> Equivalent<K> for Q
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§impl<Q, K> Equivalent<K> for Q
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§fn equivalent(&self, key: &K) -> bool
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