1.17.0[−][src]Function sp_std::ptr::eq
pub fn eq<T>(a: *const T, b: *const T) -> bool where
T: ?Sized,
Compares raw pointers for equality.
This is the same as using the ==
operator, but less generic:
the arguments have to be *const T
raw pointers,
not anything that implements PartialEq
.
This can be used to compare &T
references (which coerce to *const T
implicitly)
by their address rather than comparing the values they point to
(which is what the PartialEq for &T
implementation does).
Examples
use std::ptr; let five = 5; let other_five = 5; let five_ref = &five; let same_five_ref = &five; let other_five_ref = &other_five; assert!(five_ref == same_five_ref); assert!(ptr::eq(five_ref, same_five_ref)); assert!(five_ref == other_five_ref); assert!(!ptr::eq(five_ref, other_five_ref));
Slices are also compared by their length (fat pointers):
let a = [1, 2, 3]; assert!(std::ptr::eq(&a[..3], &a[..3])); assert!(!std::ptr::eq(&a[..2], &a[..3])); assert!(!std::ptr::eq(&a[0..2], &a[1..3]));
Traits are also compared by their implementation:
#[repr(transparent)] struct Wrapper { member: i32 } trait Trait {} impl Trait for Wrapper {} impl Trait for i32 {} let wrapper = Wrapper { member: 10 }; // Pointers have equal addresses. assert!(std::ptr::eq( &wrapper as *const Wrapper as *const u8, &wrapper.member as *const i32 as *const u8 )); // Objects have equal addresses, but `Trait` has different implementations. assert!(!std::ptr::eq( &wrapper as &dyn Trait, &wrapper.member as &dyn Trait, )); assert!(!std::ptr::eq( &wrapper as &dyn Trait as *const dyn Trait, &wrapper.member as &dyn Trait as *const dyn Trait, )); // Converting the reference to a `*const u8` compares by address. assert!(std::ptr::eq( &wrapper as &dyn Trait as *const dyn Trait as *const u8, &wrapper.member as &dyn Trait as *const dyn Trait as *const u8, ));