glib/variant_dict.rs
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// Take a look at the license at the top of the repository in the LICENSE file.
use std::borrow::Cow;
use crate::{ffi, translate::*, variant::*, variant_type::*};
wrapper! {
// rustdoc-stripper-ignore-next
/// `VariantDict` is a mutable key/value store where the keys are always
/// strings and the values are [`Variant`s](variant/struct.Variant.html).
///
/// Variant dictionaries can easily be converted to/from `Variant`s of the
/// appropriate type. In `glib` terms, this is a variant of the form `"a{sv}"`.
///
/// # Panics
///
/// Note, pretty much all methods on this struct will panic if the
/// [`end_unsafe()`](#method.end_unsafe) method was called on the instance.
#[doc(alias = "GVariantDict")]
pub struct VariantDict(Shared<ffi::GVariantDict>);
match fn {
ref => |ptr| ffi::g_variant_dict_ref(ptr),
unref => |ptr| ffi::g_variant_dict_unref(ptr),
type_ => || ffi::g_variant_dict_get_type(),
}
}
impl VariantDict {
// rustdoc-stripper-ignore-next
/// Create a new `VariantDict` optionally populating it with the given `Variant`
///
/// Since `Variant`s are immutable, this does not couple the `VariantDict` with
/// the input `Variant`, instead the contents are copied into the `VariantDict`.
///
/// # Panics
///
/// This function will panic if the given `Variant` is not of the correct type.
#[doc(alias = "g_variant_dict_new")]
pub fn new(from_asv: Option<&Variant>) -> Self {
if let Some(var) = from_asv {
assert_eq!(var.type_(), VariantDict::static_variant_type());
}
unsafe { from_glib_full(ffi::g_variant_dict_new(from_asv.to_glib_none().0)) }
}
// rustdoc-stripper-ignore-next
/// Check if this `VariantDict` contains the given key.
///
/// Look up whether or not the given key is present, returning `true` if it
/// is present in `self`.
#[doc(alias = "g_variant_dict_contains")]
pub fn contains(&self, key: &str) -> bool {
unsafe {
from_glib(ffi::g_variant_dict_contains(
self.to_glib_none().0,
key.to_glib_none().0,
))
}
}
// rustdoc-stripper-ignore-next
/// Look up a typed value from this `VariantDict`.
///
/// The given `key` is looked up in `self`.
///
/// This will return `None` if the `key` is not present in the dictionary,
/// and an error if the key is present but with the wrong type.
#[doc(alias = "g_variant_dict_lookup")]
pub fn lookup<T: FromVariant>(&self, key: &str) -> Result<Option<T>, VariantTypeMismatchError> {
self.lookup_value(key, None)
.map(|v| Variant::try_get(&v))
.transpose()
}
// rustdoc-stripper-ignore-next
/// Look up and return a value from this `VariantDict`.
///
/// The given `key` is looked up in `self`. If `expected_type` is not
/// `None` then it will be matched against the type of any found value.
///
/// This will return `None` if the `key` is not present in the dictionary
/// or if it is present but the type of the value does not match a given
/// `expected_type`. Otherwise, `Some(value)` will be returned where
/// the `value` is an instance of [`Variant`](variant/struct.Variant.html).
#[doc(alias = "g_variant_dict_lookup_value")]
pub fn lookup_value(&self, key: &str, expected_type: Option<&VariantTy>) -> Option<Variant> {
unsafe {
from_glib_full(ffi::g_variant_dict_lookup_value(
self.to_glib_none().0,
key.to_glib_none().0,
expected_type.to_glib_none().0,
))
}
}
// rustdoc-stripper-ignore-next
/// Insert a variant into the dictionary.
///
/// The given `key`/`value` pair is inserted into `self`. If a value
/// was previously associated with `key` then it is overwritten.
///
/// For convenience, you may use the [`insert()`](#method.insert) if
/// you have a value which implements [`ToVariant`](variant/trait.ToVariant.html).
#[doc(alias = "g_variant_dict_insert_value")]
pub fn insert_value(&self, key: &str, value: &Variant) {
unsafe {
ffi::g_variant_dict_insert_value(
self.to_glib_none().0,
key.to_glib_none().0,
value.to_glib_none().0,
)
}
}
// rustdoc-stripper-ignore-next
/// Insert a value into the dictionary
///
/// The given `key`/`value` pair is inserted into `self`. If a value
/// was previously associated with `key` then it is overwritten.
///
/// This is a convenience method which automatically calls
/// [`to_variant()`](variant/trait.ToVariant.html#method.to_variant) for you
/// on the given value.
///
/// If, on the other hand, you have a [`Variant`](variant/struct.Variant.html)
/// instance already, you should use the [`insert_value()`](#method.insert_value)
/// method instead.
#[doc(alias = "g_variant_dict_insert_value")]
pub fn insert(&self, key: &str, value: impl Into<Variant>) {
unsafe {
ffi::g_variant_dict_insert_value(
self.to_glib_none().0,
key.to_glib_none().0,
value.into().to_glib_none().0,
)
}
}
// rustdoc-stripper-ignore-next
/// Remove the given `key` from the dictionary.
///
/// This removes the given `key` from the dictionary, releasing the reference
/// on the associated value if one is present.
///
/// If a `key`/`value` pair was removed from the dictionary, `true` is
/// returned. If `key` was not present then `false` is returned instead.
#[doc(alias = "g_variant_dict_remove")]
pub fn remove(&self, key: &str) -> bool {
unsafe {
from_glib(ffi::g_variant_dict_remove(
self.to_glib_none().0,
key.to_glib_none().0,
))
}
}
// rustdoc-stripper-ignore-next
/// Convert this dictionary to a [`Variant`](variant/struct.Variant.html)
///
/// This method converts `self` into an instance of [`Variant`](variant/struct.Variant.html)
/// but in doing so renders it very unsafe to use.
///
/// # Safety
///
/// After calling this, the underlying `GVariantDict` is in a state where
/// the only valid operations to perform as reference ones. As such
/// any attempt to read/update the dictionary *will* fail and emit warnings
/// of such.
///
/// You should only use this function if the extra cost of the safe function
/// is too much for your performance critical codepaths
pub unsafe fn end_unsafe(&self) -> Variant {
from_glib_none(ffi::g_variant_dict_end(self.to_glib_none().0))
}
// rustdoc-stripper-ignore-next
/// Convert this dictionary to a [`Variant`](variant/struct.Variant.html)
///
/// This method converts `self` into an instance of [`Variant`](variant/struct.Variant.html)
/// and then reinitialises itself in order to be safe for further use.
///
/// If you are certain that nothing other than disposing of references will
/// be done after ending the instance, you can call the
/// [`end_unsafe()`](#method.end_unsafe) method instead to avoid the unnecessary
/// reinitialisation of the dictionary.
pub fn end(&self) -> Variant {
unsafe {
let ret = self.end_unsafe();
// Reinitialise the dict so that we can continue safely
ffi::g_variant_dict_init(self.to_glib_none().0, None::<Variant>.to_glib_none().0);
ret
}
}
}
impl Default for VariantDict {
fn default() -> Self {
Self::new(None)
}
}
impl StaticVariantType for VariantDict {
fn static_variant_type() -> Cow<'static, VariantTy> {
Cow::Borrowed(VariantTy::VARDICT)
}
}
impl ToVariant for VariantDict {
fn to_variant(&self) -> Variant {
self.end()
}
}
impl From<VariantDict> for Variant {
// rustdoc-stripper-ignore-next
/// Consume a given `VariantDict` and call [`VariantDict::end`] on it.
///
/// Note: While this method consumes the `VariantDict`, the underlying
/// object could still be accessed through other clones because of the
/// reference counted clone semantics.
#[inline]
fn from(d: VariantDict) -> Self {
d.end()
}
}
impl FromVariant for VariantDict {
fn from_variant(variant: &Variant) -> Option<Self> {
if variant.type_() == VariantDict::static_variant_type() {
Some(Self::new(Some(variant)))
} else {
None
}
}
}
impl From<Variant> for VariantDict {
fn from(other: Variant) -> Self {
Self::new(Some(&other))
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn create_destroy() {
let _dict = VariantDict::new(None);
}
#[test]
fn create_roundtrip() {
let dict = VariantDict::default();
let var: Variant = dict.to_variant();
let _dict2: VariantDict = var.into();
}
#[test]
fn into_variant_roundtrip() {
let dict1 = VariantDict::default();
let dict2 = dict1.clone();
dict1.insert_value("one", &(1u8.to_variant()));
assert_eq!(dict1.lookup::<u8>("one").unwrap(), Some(1u8));
assert_eq!(dict2.lookup::<u8>("one").unwrap(), Some(1u8));
// Convert it into `Variant`
let dict: Variant = dict1.into();
// While we can still access the `VariantDict` via `dict2`,
// it should be empty now
assert_eq!(dict2.lookup::<u8>("one").unwrap(), None);
// Convert it back
let dict3: VariantDict = dict.into();
assert_eq!(dict3.lookup::<u8>("one").unwrap(), Some(1u8));
}
#[test]
fn create_populate_destroy() {
let dict = VariantDict::default();
dict.insert_value("one", &(1u8.to_variant()));
assert_eq!(dict.lookup_value("one", None), Some(1u8.to_variant()));
}
#[test]
fn create_populate_roundtrip() {
let dict = VariantDict::default();
dict.insert_value("one", &(1u8.to_variant()));
let var: Variant = dict.to_variant();
let dict = VariantDict::from_variant(&var).expect("Not a dict?");
assert_eq!(dict.lookup_value("one", None), Some(1u8.to_variant()));
}
#[test]
fn lookup() -> Result<(), Box<dyn std::error::Error>> {
let dict = VariantDict::default();
dict.insert_value("one", &(1u8.to_variant()));
assert_eq!(dict.lookup::<u8>("one")?.unwrap(), 1u8);
assert_eq!(
dict.lookup::<String>("one").err().unwrap().actual,
u8::static_variant_type()
);
assert!(dict.lookup::<u8>("two")?.is_none());
Ok(())
}
#[test]
fn create_populate_remove() {
let dict = VariantDict::default();
let empty_var = dict.to_variant();
dict.insert("one", 1u64);
assert!(dict.remove("one"));
assert!(!dict.remove("one"));
let var2 = dict.to_variant();
assert_eq!(empty_var, var2);
}
}