Struct vergen::MemoryRefreshKind

pub struct MemoryRefreshKind { /* private fields */ }

Available on crate feature si only.

Used to determine which memory you want to refresh specifically.

⚠️ Just like all other refresh types, ruling out a refresh doesn’t assure you that the information won’t be retrieved if the information is accessible without needing extra computation.

use sysinfo::{MemoryRefreshKind, System};

let mut system = System::new();

// We don't want to update all memories information.
system.refresh_memory_specifics(MemoryRefreshKind::new().with_ram());

println!("total RAM: {}", system.total_memory());
println!("free RAM:  {}", system.free_memory());

Implementations

impl MemoryRefreshKind

pub fn new() -> MemoryRefreshKind

Creates a new MemoryRefreshKind with every refresh set to false.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::new();

assert_eq!(r.ram(), false);
assert_eq!(r.swap(), false);

pub fn everything() -> MemoryRefreshKind

Creates a new MemoryRefreshKind with every refresh set to true.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::everything();

assert_eq!(r.ram(), true);
assert_eq!(r.swap(), true);

pub fn ram(&self) -> bool

Returns the value of the “ram” refresh kind.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::new();
assert_eq!(r.ram(), false);

let r = r.with_ram();
assert_eq!(r.ram(), true);

let r = r.without_ram();
assert_eq!(r.ram(), false);

pub fn with_ram(self) -> MemoryRefreshKind

Sets the value of the “ram” refresh kind to true.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::new();
assert_eq!(r.ram(), false);

let r = r.with_ram();
assert_eq!(r.ram(), true);

pub fn without_ram(self) -> MemoryRefreshKind

Sets the value of the “ram” refresh kind to false.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::everything();
assert_eq!(r.ram(), true);

let r = r.without_ram();
assert_eq!(r.ram(), false);

pub fn swap(&self) -> bool

Returns the value of the “swap” refresh kind.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::new();
assert_eq!(r.swap(), false);

let r = r.with_swap();
assert_eq!(r.swap(), true);

let r = r.without_swap();
assert_eq!(r.swap(), false);

pub fn with_swap(self) -> MemoryRefreshKind

Sets the value of the “swap” refresh kind to true.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::new();
assert_eq!(r.swap(), false);

let r = r.with_swap();
assert_eq!(r.swap(), true);

pub fn without_swap(self) -> MemoryRefreshKind

Sets the value of the “swap” refresh kind to false.

use sysinfo::MemoryRefreshKind;

let r = MemoryRefreshKind::everything();
assert_eq!(r.swap(), true);

let r = r.without_swap();
assert_eq!(r.swap(), false);

Trait Implementations

impl Clone for MemoryRefreshKind

fn clone(&self) -> MemoryRefreshKind

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for MemoryRefreshKind

fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter.

impl Default for MemoryRefreshKind

fn default() -> MemoryRefreshKind

Returns the “default value” for a type.

impl PartialEq for MemoryRefreshKind

fn eq(&self, other: &MemoryRefreshKind) -> bool

This method tests for self and other values to be equal, and is used by ==.

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

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl Copy for MemoryRefreshKind

impl Eq for MemoryRefreshKind

impl StructuralEq for MemoryRefreshKind

impl StructuralPartialEq for MemoryRefreshKind