Expand description
Variant
binding and helper traits.
Variant
is an immutable dynamically-typed generic
container. Its type and value are defined at construction and never change.
Variant
types are described by VariantType
“type strings”.
GVariant
supports arbitrarily complex types built from primitives like integers, floating point
numbers, strings, arrays, tuples and dictionaries. See ToVariant
for
a full list of supported types. You may also implement ToVariant
and FromVariant
manually, or derive them using the Variant
derive macro.
§Examples
use glib::prelude::*; // or `use gtk::prelude::*;`
use glib::variant::{Variant, FromVariant};
use std::collections::HashMap;
// Using the `ToVariant` trait.
let num = 10.to_variant();
// `is` tests the type of the value.
assert!(num.is::<i32>());
// `get` tries to extract the value.
assert_eq!(num.get::<i32>(), Some(10));
assert_eq!(num.get::<u32>(), None);
// `get_str` tries to borrow a string slice.
let hello = "Hello!".to_variant();
assert_eq!(hello.str(), Some("Hello!"));
assert_eq!(num.str(), None);
// `fixed_array` tries to borrow a fixed size array (u8, bool, i16, etc.),
// rather than creating a deep copy which would be expensive for
// nontrivially sized arrays of fixed size elements.
// The test data here is the zstd compression header, which
// stands in for arbitrary binary data (e.g. not UTF-8).
let bufdata = b"\xFD\x2F\xB5\x28";
let bufv = glib::Variant::array_from_fixed_array(&bufdata[..]);
assert_eq!(bufv.fixed_array::<u8>().unwrap(), bufdata);
assert!(num.fixed_array::<u8>().is_err());
// Variant carrying a Variant
let variant = Variant::from_variant(&hello);
let variant = variant.as_variant().unwrap();
assert_eq!(variant.str(), Some("Hello!"));
// Variant carrying an array
let array = ["Hello", "there!"];
let variant = array.into_iter().collect::<Variant>();
assert_eq!(variant.n_children(), 2);
assert_eq!(variant.child_value(0).str(), Some("Hello"));
assert_eq!(variant.child_value(1).str(), Some("there!"));
// You can also convert from and to a Vec
let variant = vec!["Hello", "there!"].to_variant();
assert_eq!(variant.n_children(), 2);
let vec = <Vec<String>>::from_variant(&variant).unwrap();
assert_eq!(vec[0], "Hello");
// Conversion to and from HashMap and BTreeMap is also possible
let mut map: HashMap<u16, &str> = HashMap::new();
map.insert(1, "hi");
map.insert(2, "there");
let variant = map.to_variant();
assert_eq!(variant.n_children(), 2);
let map: HashMap<u16, String> = HashMap::from_variant(&variant).unwrap();
assert_eq!(map[&1], "hi");
assert_eq!(map[&2], "there");
// And conversion to and from tuples.
let variant = ("hello", 42u16, vec![ "there", "you" ],).to_variant();
assert_eq!(variant.n_children(), 3);
assert_eq!(variant.type_().as_str(), "(sqas)");
let tuple = <(String, u16, Vec<String>)>::from_variant(&variant).unwrap();
assert_eq!(tuple.0, "hello");
assert_eq!(tuple.1, 42);
assert_eq!(tuple.2, &[ "there", "you"]);
// `Option` is supported as well, through maybe types
let variant = Some("hello").to_variant();
assert_eq!(variant.n_children(), 1);
let mut s = <Option<String>>::from_variant(&variant).unwrap();
assert_eq!(s.unwrap(), "hello");
s = None;
let variant = s.to_variant();
assert_eq!(variant.n_children(), 0);
let s = <Option<String>>::from_variant(&variant).unwrap();
assert!(s.is_none());
// Paths may be converted, too. Please note the portability warning above!
use std::path::{Path, PathBuf};
let path = Path::new("foo/bar");
let path_variant = path.to_variant();
assert_eq!(PathBuf::from_variant(&path_variant).as_deref(), Some(path));
Macros§
Structs§
- A Dictionary entry.
- Wrapper type for fixed size type arrays.
- A wrapper type around
Variant
handles. - A wrapper type around
Variant
object paths. - A wrapper type around
Variant
signatures. - A generic immutable value capable of carrying various types.
Traits§
- Trait for fixed size variant types.
- Extracts a value.
- Returns
VariantType
ofSelf
. - Converts to
Variant
.