Trait scale_info::prelude::cmp::PartialOrd

1.0.0 · source ·
pub trait PartialOrd<Rhs = Self>: PartialEq<Rhs>
where Rhs: ?Sized,
{ // Required method fn partial_cmp(&self, other: &Rhs) -> Option<Ordering>; // Provided methods fn lt(&self, other: &Rhs) -> bool { ... } fn le(&self, other: &Rhs) -> bool { ... } fn gt(&self, other: &Rhs) -> bool { ... } fn ge(&self, other: &Rhs) -> bool { ... } }
Expand description

Trait for types that form a partial order.

The lt, le, gt, and ge methods of this trait can be called using the <, <=, >, and >= operators, respectively.

The methods of this trait must be consistent with each other and with those of PartialEq. The following conditions must hold:

  1. a == b if and only if partial_cmp(a, b) == Some(Equal).
  2. a < b if and only if partial_cmp(a, b) == Some(Less)
  3. a > b if and only if partial_cmp(a, b) == Some(Greater)
  4. a <= b if and only if a < b || a == b
  5. a >= b if and only if a > b || a == b
  6. a != b if and only if !(a == b).

Conditions 2–5 above are ensured by the default implementation. Condition 6 is already ensured by PartialEq.

If Ord is also implemented for Self and Rhs, it must also be consistent with partial_cmp (see the documentation of that trait for the exact requirements). It’s easy to accidentally make them disagree by deriving some of the traits and manually implementing others.

The comparison relations must satisfy the following conditions (for all a, b, c of type A, B, C):

  • Transitivity: if A: PartialOrd<B> and B: PartialOrd<C> and A: PartialOrd<C>, then a < b and b < c implies a < c. The same must hold for both == and >. This must also work for longer chains, such as when A: PartialOrd<B>, B: PartialOrd<C>, C: PartialOrd<D>, and A: PartialOrd<D> all exist.
  • Duality: if A: PartialOrd<B> and B: PartialOrd<A>, then a < b if and only if b > a.

Note that the B: PartialOrd<A> (dual) and A: PartialOrd<C> (transitive) impls are not forced to exist, but these requirements apply whenever they do exist.

Violating these requirements is a logic error. The behavior resulting from a logic error is not specified, but users of the trait must ensure that such logic errors do not result in undefined behavior. This means that unsafe code must not rely on the correctness of these methods.

§Cross-crate considerations

Upholding the requirements stated above can become tricky when one crate implements PartialOrd for a type of another crate (i.e., to allow comparing one of its own types with a type from the standard library). The recommendation is to never implement this trait for a foreign type. In other words, such a crate should do impl PartialOrd<ForeignType> for LocalType, but it should not do impl PartialOrd<LocalType> for ForeignType.

This avoids the problem of transitive chains that criss-cross crate boundaries: for all local types T, you may assume that no other crate will add impls that allow comparing T < U. In other words, if other crates add impls that allow building longer transitive chains U1 < ... < T < V1 < ..., then all the types that appear to the right of T must be types that the crate defining T already knows about. This rules out transitive chains where downstream crates can add new impls that “stitch together” comparisons of foreign types in ways that violate transitivity.

Not having such foreign impls also avoids forward compatibility issues where one crate adding more PartialOrd implementations can cause build failures in downstream crates.

§Corollaries

The following corollaries follow from the above requirements:

  • irreflexivity of < and >: !(a < a), !(a > a)
  • transitivity of >: if a > b and b > c then a > c
  • duality of partial_cmp: partial_cmp(a, b) == partial_cmp(b, a).map(Ordering::reverse)

§Strict and non-strict partial orders

The < and > operators behave according to a strict partial order. However, <= and >= do not behave according to a non-strict partial order. That is because mathematically, a non-strict partial order would require reflexivity, i.e. a <= a would need to be true for every a. This isn’t always the case for types that implement PartialOrd, for example:

let a = f64::sqrt(-1.0);
assert_eq!(a <= a, false);

§Derivable

This trait can be used with #[derive].

When derived on structs, it will produce a lexicographic ordering based on the top-to-bottom declaration order of the struct’s members.

When derived on enums, variants are primarily ordered by their discriminants. Secondarily, they are ordered by their fields. By default, the discriminant is smallest for variants at the top, and largest for variants at the bottom. Here’s an example:

#[derive(PartialEq, PartialOrd)]
enum E {
    Top,
    Bottom,
}

assert!(E::Top < E::Bottom);

However, manually setting the discriminants can override this default behavior:

#[derive(PartialEq, PartialOrd)]
enum E {
    Top = 2,
    Bottom = 1,
}

assert!(E::Bottom < E::Top);

§How can I implement PartialOrd?

PartialOrd only requires implementation of the partial_cmp method, with the others generated from default implementations.

However it remains possible to implement the others separately for types which do not have a total order. For example, for floating point numbers, NaN < 0 == false and NaN >= 0 == false (cf. IEEE 754-2008 section 5.11).

PartialOrd requires your type to be PartialEq.

If your type is Ord, you can implement partial_cmp by using cmp:

use std::cmp::Ordering;

#[derive(Eq)]
struct Person {
    id: u32,
    name: String,
    height: u32,
}

impl PartialOrd for Person {
    fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
        Some(self.cmp(other))
    }
}

impl Ord for Person {
    fn cmp(&self, other: &Self) -> Ordering {
        self.height.cmp(&other.height)
    }
}

impl PartialEq for Person {
    fn eq(&self, other: &Self) -> bool {
        self.height == other.height
    }
}

You may also find it useful to use partial_cmp on your type’s fields. Here is an example of Person types who have a floating-point height field that is the only field to be used for sorting:

use std::cmp::Ordering;

struct Person {
    id: u32,
    name: String,
    height: f64,
}

impl PartialOrd for Person {
    fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
        self.height.partial_cmp(&other.height)
    }
}

impl PartialEq for Person {
    fn eq(&self, other: &Self) -> bool {
        self.height == other.height
    }
}

§Examples

let x: u32 = 0;
let y: u32 = 1;

assert_eq!(x < y, true);
assert_eq!(x.lt(&y), true);

Required Methods§

1.0.0 · source

fn partial_cmp(&self, other: &Rhs) -> Option<Ordering>

This method returns an ordering between self and other values if one exists.

§Examples
use std::cmp::Ordering;

let result = 1.0.partial_cmp(&2.0);
assert_eq!(result, Some(Ordering::Less));

let result = 1.0.partial_cmp(&1.0);
assert_eq!(result, Some(Ordering::Equal));

let result = 2.0.partial_cmp(&1.0);
assert_eq!(result, Some(Ordering::Greater));

When comparison is impossible:

let result = f64::NAN.partial_cmp(&1.0);
assert_eq!(result, None);

Provided Methods§

1.0.0 · source

fn lt(&self, other: &Rhs) -> bool

This method tests less than (for self and other) and is used by the < operator.

§Examples
assert_eq!(1.0 < 1.0, false);
assert_eq!(1.0 < 2.0, true);
assert_eq!(2.0 < 1.0, false);
1.0.0 · source

fn le(&self, other: &Rhs) -> bool

This method tests less than or equal to (for self and other) and is used by the <= operator.

§Examples
assert_eq!(1.0 <= 1.0, true);
assert_eq!(1.0 <= 2.0, true);
assert_eq!(2.0 <= 1.0, false);
1.0.0 · source

fn gt(&self, other: &Rhs) -> bool

This method tests greater than (for self and other) and is used by the > operator.

§Examples
assert_eq!(1.0 > 1.0, false);
assert_eq!(1.0 > 2.0, false);
assert_eq!(2.0 > 1.0, true);
1.0.0 · source

fn ge(&self, other: &Rhs) -> bool

This method tests greater than or equal to (for self and other) and is used by the >= operator.

§Examples
assert_eq!(1.0 >= 1.0, true);
assert_eq!(1.0 >= 2.0, false);
assert_eq!(2.0 >= 1.0, true);

Implementors§

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impl PartialOrd for TypeDefPrimitive

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impl PartialOrd for MetaForm

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impl PartialOrd for PortableForm

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impl PartialOrd for Ordering

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impl PartialOrd for AsciiChar

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impl PartialOrd for Infallible

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impl PartialOrd for IpAddr

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impl PartialOrd for SocketAddr

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impl PartialOrd for ErrorKind

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impl PartialOrd for bool

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impl PartialOrd for char

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impl PartialOrd for f16

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impl PartialOrd for f32

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impl PartialOrd for f64

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impl PartialOrd for f128

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impl PartialOrd for i8

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impl PartialOrd for i16

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impl PartialOrd for i32

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impl PartialOrd for i64

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impl PartialOrd for i128

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impl PartialOrd for isize

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impl PartialOrd for !

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impl PartialOrd for str

Implements comparison operations on strings.

Strings are compared lexicographically by their byte values. This compares Unicode code points based on their positions in the code charts. This is not necessarily the same as “alphabetical” order, which varies by language and locale. Comparing strings according to culturally-accepted standards requires locale-specific data that is outside the scope of the str type.

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impl PartialOrd for u8

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impl PartialOrd for u16

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impl PartialOrd for u32

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impl PartialOrd for u64

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impl PartialOrd for u128

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impl PartialOrd for ()

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impl PartialOrd for usize

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impl PartialOrd for Lsb0

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impl PartialOrd for Msb0

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impl PartialOrd for Bytes

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impl PartialOrd for BytesMut

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impl PartialOrd for Const

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impl PartialOrd for Mut

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impl PartialOrd for NullPtrError

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impl PartialOrd for MetaType

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impl PartialOrd for TypeId

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impl PartialOrd for Error

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impl PartialOrd for PhantomPinned

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impl PartialOrd for String

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impl PartialOrd for Duration

1.8.0 · source§

impl PartialOrd for Instant

1.8.0 · source§

impl PartialOrd for SystemTime

1.64.0 · source§

impl PartialOrd for CString

1.27.0 · source§

impl PartialOrd for CpuidResult

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impl PartialOrd for CStr

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impl PartialOrd for Ipv4Addr

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impl PartialOrd for Ipv6Addr

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impl PartialOrd for SocketAddrV4

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impl PartialOrd for SocketAddrV6

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impl PartialOrd for Alignment

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impl PartialOrd for OsStr

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impl PartialOrd for OsString

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impl PartialOrd for std::path::Path

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impl PartialOrd for PathBuf

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impl PartialOrd<IpAddr> for Ipv4Addr

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impl PartialOrd<IpAddr> for Ipv6Addr

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impl PartialOrd<str> for Bytes

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impl PartialOrd<str> for BytesMut

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impl PartialOrd<str> for OsStr

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impl PartialOrd<str> for OsString

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impl PartialOrd<Bytes> for &str

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impl PartialOrd<Bytes> for &[u8]

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impl PartialOrd<Bytes> for str

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impl PartialOrd<Bytes> for String

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impl PartialOrd<Bytes> for Vec<u8>

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impl PartialOrd<Bytes> for [u8]

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impl PartialOrd<BytesMut> for &str

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impl PartialOrd<BytesMut> for &[u8]

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impl PartialOrd<BytesMut> for str

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impl PartialOrd<BytesMut> for String

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impl PartialOrd<BytesMut> for Vec<u8>

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impl PartialOrd<BytesMut> for [u8]

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impl PartialOrd<String> for Bytes

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impl PartialOrd<String> for BytesMut

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impl PartialOrd<Vec<u8>> for Bytes

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impl PartialOrd<Vec<u8>> for BytesMut

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impl PartialOrd<Ipv4Addr> for IpAddr

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impl PartialOrd<Ipv6Addr> for IpAddr

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impl PartialOrd<OsStr> for std::path::Path

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impl PartialOrd<OsStr> for PathBuf

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impl PartialOrd<OsString> for std::path::Path

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impl PartialOrd<OsString> for PathBuf

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impl PartialOrd<Path> for OsStr

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impl PartialOrd<Path> for OsString

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impl PartialOrd<Path> for PathBuf

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impl PartialOrd<PathBuf> for OsStr

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impl PartialOrd<PathBuf> for OsString

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impl PartialOrd<PathBuf> for std::path::Path

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impl PartialOrd<[u8]> for Bytes

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impl PartialOrd<[u8]> for BytesMut

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impl<'a> PartialOrd for Component<'a>

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impl<'a> PartialOrd for Prefix<'a>

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impl<'a> PartialOrd for Location<'a>

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impl<'a> PartialOrd for Components<'a>

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impl<'a> PartialOrd for PrefixComponent<'a>

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impl<'a> PartialOrd<&'a OsStr> for std::path::Path

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impl<'a> PartialOrd<&'a OsStr> for PathBuf

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impl<'a> PartialOrd<&'a Path> for OsStr

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impl<'a> PartialOrd<&'a Path> for OsString

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impl<'a> PartialOrd<&'a Path> for PathBuf

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impl<'a> PartialOrd<Cow<'a, OsStr>> for std::path::Path

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impl<'a> PartialOrd<Cow<'a, OsStr>> for PathBuf

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impl<'a> PartialOrd<Cow<'a, Path>> for OsStr

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impl<'a> PartialOrd<Cow<'a, Path>> for OsString

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impl<'a> PartialOrd<Cow<'a, Path>> for std::path::Path

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impl<'a> PartialOrd<Cow<'a, Path>> for PathBuf

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impl<'a> PartialOrd<OsStr> for &'a std::path::Path

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impl<'a> PartialOrd<OsStr> for Cow<'a, Path>

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impl<'a> PartialOrd<OsString> for &'a std::path::Path

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impl<'a> PartialOrd<OsString> for Cow<'a, Path>

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impl<'a> PartialOrd<Path> for &'a OsStr

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impl<'a> PartialOrd<Path> for Cow<'a, OsStr>

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impl<'a> PartialOrd<Path> for Cow<'a, Path>

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impl<'a> PartialOrd<PathBuf> for &'a OsStr

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impl<'a> PartialOrd<PathBuf> for &'a std::path::Path

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impl<'a> PartialOrd<PathBuf> for Cow<'a, OsStr>

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impl<'a> PartialOrd<PathBuf> for Cow<'a, Path>

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impl<'a, 'b> PartialOrd<&'a OsStr> for OsString

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impl<'a, 'b> PartialOrd<&'a Path> for Cow<'b, OsStr>

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impl<'a, 'b> PartialOrd<&'b OsStr> for Cow<'a, OsStr>

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impl<'a, 'b> PartialOrd<&'b OsStr> for Cow<'a, Path>

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impl<'a, 'b> PartialOrd<&'b Path> for Cow<'a, Path>

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impl<'a, 'b> PartialOrd<Cow<'a, OsStr>> for &'b OsStr

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impl<'a, 'b> PartialOrd<Cow<'a, OsStr>> for OsStr

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impl<'a, 'b> PartialOrd<Cow<'a, OsStr>> for OsString

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impl<'a, 'b> PartialOrd<Cow<'a, Path>> for &'b OsStr

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impl<'a, 'b> PartialOrd<Cow<'a, Path>> for &'b std::path::Path

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impl<'a, 'b> PartialOrd<Cow<'b, OsStr>> for &'a std::path::Path

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impl<'a, 'b> PartialOrd<OsStr> for Cow<'a, OsStr>

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impl<'a, 'b> PartialOrd<OsStr> for OsString

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impl<'a, 'b> PartialOrd<OsString> for &'a OsStr

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impl<'a, 'b> PartialOrd<OsString> for Cow<'a, OsStr>

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impl<'a, 'b> PartialOrd<OsString> for OsStr

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impl<'a, B> PartialOrd for Cow<'a, B>
where B: PartialOrd + ToOwned + ?Sized,

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impl<'a, O1, O2, T1, T2> PartialOrd<BitBox<T2, O2>> for &'a BitSlice<T1, O1>
where O1: BitOrder, O2: BitOrder, T1: BitStore, T2: BitStore,

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impl<'a, O1, O2, T1, T2> PartialOrd<BitBox<T2, O2>> for &'a mut BitSlice<T1, O1>
where O1: BitOrder, O2: BitOrder, T1: BitStore, T2: BitStore,

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impl<'a, T1, T2, O1, O2> PartialOrd<BitVec<T2, O2>> for &'a BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<'a, T1, T2, O1, O2> PartialOrd<BitVec<T2, O2>> for &'a mut BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<'a, T> PartialOrd<&'a T> for Bytes
where Bytes: PartialOrd<T>, T: ?Sized,

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impl<'a, T> PartialOrd<&'a T> for BytesMut
where BytesMut: PartialOrd<T>, T: ?Sized,

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impl<'a, T, O> PartialOrd for IterOnes<'a, T, O>
where T: PartialOrd + 'a + BitStore, O: PartialOrd + BitOrder,

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impl<'a, T, O> PartialOrd for IterZeros<'a, T, O>
where T: PartialOrd + 'a + BitStore, O: PartialOrd + BitOrder,

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impl<'a, T: PartialOrd + 'a> PartialOrd for Symbol<'a, T>

1.0.0 · source§

impl<A, B> PartialOrd<&B> for &A
where A: PartialOrd<B> + ?Sized, B: ?Sized,

1.0.0 · source§

impl<A, B> PartialOrd<&mut B> for &mut A
where A: PartialOrd<B> + ?Sized, B: ?Sized,

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impl<A, O, Rhs> PartialOrd<Rhs> for BitArray<A, O>
where A: BitViewSized, O: BitOrder, BitSlice<<A as BitView>::Store, O>: PartialOrd<Rhs>, Rhs: ?Sized,

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impl<A, T, O> PartialOrd<BitArray<A, O>> for BitSlice<T, O>
where A: BitViewSized, T: BitStore, O: BitOrder,

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impl<Dyn> PartialOrd for DynMetadata<Dyn>
where Dyn: ?Sized,

1.4.0 · source§

impl<F> PartialOrd for F
where F: FnPtr,

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impl<Inner> PartialOrd for Frozen<Inner>
where Inner: PartialOrd + Mutability,

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impl<K, V, A> PartialOrd for BTreeMap<K, V, A>
where K: PartialOrd, V: PartialOrd, A: Allocator + Clone,

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impl<M1, M2, O1, O2, T1, T2> PartialOrd<BitRef<'_, M2, T2, O2>> for BitRef<'_, M1, T1, O1>
where M1: Mutability, M2: Mutability, T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<M1, M2, T1, T2> PartialOrd<Address<M2, T2>> for Address<M1, T1>
where M1: Mutability, M2: Mutability,

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impl<M1, M2, T1, T2, O> PartialOrd<BitPtr<M2, T2, O>> for BitPtr<M1, T1, O>
where M1: Mutability, M2: Mutability, T1: BitStore, T2: BitStore, O: BitOrder,

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impl<M, T, O> PartialOrd<&bool> for BitRef<'_, M, T, O>
where M: Mutability, T: BitStore, O: BitOrder,

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impl<M, T, O> PartialOrd<bool> for BitRef<'_, M, T, O>
where M: Mutability, T: BitStore, O: BitOrder,

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impl<O1, O2, T1, T2> PartialOrd<BitBox<T2, O2>> for BitSlice<T1, O1>
where O1: BitOrder, O2: BitOrder, T1: BitStore, T2: BitStore,

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impl<Ptr, Q> PartialOrd<Pin<Q>> for Pin<Ptr>
where Ptr: Deref, Q: Deref, <Ptr as Deref>::Target: PartialOrd<<Q as Deref>::Target>,

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impl<R> PartialOrd for BitEnd<R>

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impl<R> PartialOrd for BitIdx<R>

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impl<R> PartialOrd for BitIdxError<R>

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impl<R> PartialOrd for BitMask<R>

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impl<R> PartialOrd for BitPos<R>

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impl<R> PartialOrd for BitSel<R>

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impl<T1, T2, O1, O2> PartialOrd<&BitSlice<T2, O2>> for &mut BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<&BitSlice<T2, O2>> for BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<&mut BitSlice<T2, O2>> for &BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<&mut BitSlice<T2, O2>> for BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<BitSlice<T2, O2>> for &BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<BitSlice<T2, O2>> for &mut BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T1, T2, O1, O2> PartialOrd<BitSlice<T2, O2>> for BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

Compares two BitSlices by semantic — not representational — ordering.

The comparison sorts by testing at each index if one slice has a high bit where the other has a low. At the first index where the slices differ, the slice with the high bit is greater. If the slices are equal until at least one terminates, then they are compared by length.

Original

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impl<T1, T2, O1, O2> PartialOrd<BitVec<T2, O2>> for BitSlice<T1, O1>
where T1: BitStore, T2: BitStore, O1: BitOrder, O2: BitOrder,

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impl<T> PartialOrd for BitPtrError<T>
where T: PartialOrd + BitStore,

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impl<T> PartialOrd for BitSpanError<T>
where T: PartialOrd + BitStore,

1.0.0 · source§

impl<T> PartialOrd for Option<T>
where T: PartialOrd,

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impl<T> PartialOrd for Poll<T>
where T: PartialOrd,

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impl<T> PartialOrd for *const T
where T: ?Sized,

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impl<T> PartialOrd for *mut T
where T: ?Sized,

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impl<T> PartialOrd for [T]
where T: PartialOrd,

Implements comparison of slices lexicographically.

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impl<T> PartialOrd for (T₁, T₂, …, Tₙ)
where T: PartialOrd + ?Sized,

This trait is implemented for tuples up to twelve items long.

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impl<T> PartialOrd for CapacityError<T>
where T: PartialOrd,

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impl<T> PartialOrd for MisalignError<T>
where T: PartialOrd,

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impl<T> PartialOrd for Compact<T>
where T: PartialOrd,

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impl<T> PartialOrd for PhantomData<T>
where T: ?Sized,

1.20.0 · source§

impl<T> PartialOrd for ManuallyDrop<T>
where T: PartialOrd + ?Sized,

1.28.0 · source§

impl<T> PartialOrd for NonZero<T>

1.74.0 · source§

impl<T> PartialOrd for Saturating<T>
where T: PartialOrd,

1.0.0 · source§

impl<T> PartialOrd for Wrapping<T>
where T: PartialOrd,

1.10.0 · source§

impl<T> PartialOrd for Cell<T>
where T: PartialOrd + Copy,

1.10.0 · source§

impl<T> PartialOrd for RefCell<T>
where T: PartialOrd + ?Sized,

1.25.0 · source§

impl<T> PartialOrd for NonNull<T>
where T: ?Sized,

1.19.0 · source§

impl<T> PartialOrd for Reverse<T>
where T: PartialOrd,

1.0.0 · source§

impl<T, A1, A2> PartialOrd<Vec<T, A2>> for Vec<T, A1>
where T: PartialOrd, A1: Allocator, A2: Allocator,

Implements comparison of vectors, lexicographically.

1.0.0 · source§

impl<T, A> PartialOrd for Box<T, A>
where T: PartialOrd + ?Sized, A: Allocator,

1.0.0 · source§

impl<T, A> PartialOrd for BTreeSet<T, A>
where T: PartialOrd, A: Allocator + Clone,

1.0.0 · source§

impl<T, A> PartialOrd for LinkedList<T, A>
where T: PartialOrd, A: Allocator,

1.0.0 · source§

impl<T, A> PartialOrd for VecDeque<T, A>
where T: PartialOrd, A: Allocator,

1.0.0 · source§

impl<T, A> PartialOrd for Rc<T, A>
where T: PartialOrd + ?Sized, A: Allocator,

1.0.0 · source§

impl<T, A> PartialOrd for Arc<T, A>
where T: PartialOrd + ?Sized, A: Allocator,

1.0.0 · source§

impl<T, E> PartialOrd for Result<T, E>
where T: PartialOrd, E: PartialOrd,

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impl<T, O, Rhs> PartialOrd<Rhs> for BitBox<T, O>
where T: BitStore, O: BitOrder, Rhs: PartialOrd<BitSlice<T, O>> + ?Sized,

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impl<T, O, Rhs> PartialOrd<Rhs> for BitVec<T, O>
where T: BitStore, O: BitOrder, Rhs: PartialOrd<BitSlice<T, O>> + ?Sized,

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impl<T, const CAP: usize> PartialOrd for ArrayVec<T, CAP>
where T: PartialOrd,

1.0.0 · source§

impl<T, const N: usize> PartialOrd for [T; N]
where T: PartialOrd,

Implements comparison of arrays lexicographically.

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impl<T, const N: usize> PartialOrd for Mask<T, N>

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impl<T, const N: usize> PartialOrd for Simd<T, N>

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impl<T: PartialOrd + Form> PartialOrd for TypeDef<T>

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impl<T: PartialOrd + Form> PartialOrd for Field<T>

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impl<T: PartialOrd + Form> PartialOrd for scale_info::Path<T>
where T::String: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for Type<T>
where T::String: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefArray<T>
where T::Type: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefBitSequence<T>
where T::Type: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefCompact<T>
where T::Type: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefComposite<T>

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impl<T: PartialOrd + Form> PartialOrd for TypeDefSequence<T>
where T::Type: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefTuple<T>
where T::Type: PartialOrd,

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impl<T: PartialOrd + Form> PartialOrd for TypeDefVariant<T>

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impl<T: PartialOrd + Form> PartialOrd for TypeParameter<T>

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impl<T: PartialOrd + Form> PartialOrd for Variant<T>
where T::String: PartialOrd,

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impl<T: PartialOrd> PartialOrd for UntrackedSymbol<T>

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impl<Y, R> PartialOrd for CoroutineState<Y, R>
where Y: PartialOrd, R: PartialOrd,

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impl<const CAP: usize> PartialOrd for ArrayString<CAP>

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impl<const CAP: usize> PartialOrd<str> for ArrayString<CAP>

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impl<const CAP: usize> PartialOrd<ArrayString<CAP>> for str