use crate::{
item_scope::{ImportId, ImportOrExternCrate, ItemInNs},
visibility::Visibility,
MacroId, ModuleDefId,
};
#[derive(PartialEq, Eq, Hash, Copy, Clone, Debug)]
pub enum Namespace {
Types,
Values,
Macros,
}
#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
pub struct PerNs {
pub types: Option<(ModuleDefId, Visibility, Option<ImportOrExternCrate>)>,
pub values: Option<(ModuleDefId, Visibility, Option<ImportId>)>,
pub macros: Option<(MacroId, Visibility, Option<ImportId>)>,
}
impl PerNs {
pub fn none() -> PerNs {
PerNs { types: None, values: None, macros: None }
}
pub fn values(t: ModuleDefId, v: Visibility, i: Option<ImportId>) -> PerNs {
PerNs { types: None, values: Some((t, v, i)), macros: None }
}
pub fn types(t: ModuleDefId, v: Visibility, i: Option<ImportOrExternCrate>) -> PerNs {
PerNs { types: Some((t, v, i)), values: None, macros: None }
}
pub fn both(
types: ModuleDefId,
values: ModuleDefId,
v: Visibility,
i: Option<ImportOrExternCrate>,
) -> PerNs {
PerNs {
types: Some((types, v, i)),
values: Some((values, v, i.and_then(ImportOrExternCrate::into_import))),
macros: None,
}
}
pub fn macros(macro_: MacroId, v: Visibility, i: Option<ImportId>) -> PerNs {
PerNs { types: None, values: None, macros: Some((macro_, v, i)) }
}
pub fn is_none(&self) -> bool {
self.types.is_none() && self.values.is_none() && self.macros.is_none()
}
pub fn is_full(&self) -> bool {
self.types.is_some() && self.values.is_some() && self.macros.is_some()
}
pub fn take_types(self) -> Option<ModuleDefId> {
self.types.map(|it| it.0)
}
pub fn take_types_full(self) -> Option<(ModuleDefId, Visibility, Option<ImportOrExternCrate>)> {
self.types
}
pub fn take_values(self) -> Option<ModuleDefId> {
self.values.map(|it| it.0)
}
pub fn take_values_import(self) -> Option<(ModuleDefId, Option<ImportId>)> {
self.values.map(|it| (it.0, it.2))
}
pub fn take_macros(self) -> Option<MacroId> {
self.macros.map(|it| it.0)
}
pub fn take_macros_import(self) -> Option<(MacroId, Option<ImportId>)> {
self.macros.map(|it| (it.0, it.2))
}
pub fn filter_visibility(self, mut f: impl FnMut(Visibility) -> bool) -> PerNs {
let _p = tracing::info_span!("PerNs::filter_visibility").entered();
PerNs {
types: self.types.filter(|&(_, v, _)| f(v)),
values: self.values.filter(|&(_, v, _)| f(v)),
macros: self.macros.filter(|&(_, v, _)| f(v)),
}
}
pub fn with_visibility(self, vis: Visibility) -> PerNs {
PerNs {
types: self.types.map(|(it, _, c)| (it, vis, c)),
values: self.values.map(|(it, _, c)| (it, vis, c)),
macros: self.macros.map(|(it, _, import)| (it, vis, import)),
}
}
pub fn or(self, other: PerNs) -> PerNs {
PerNs {
types: self.types.or(other.types),
values: self.values.or(other.values),
macros: self.macros.or(other.macros),
}
}
pub fn or_else(self, f: impl FnOnce() -> PerNs) -> PerNs {
if self.is_full() {
self
} else {
self.or(f())
}
}
pub fn iter_items(self) -> impl Iterator<Item = (ItemInNs, Option<ImportOrExternCrate>)> {
let _p = tracing::info_span!("PerNs::iter_items").entered();
self.types
.map(|it| (ItemInNs::Types(it.0), it.2))
.into_iter()
.chain(
self.values
.map(|it| (ItemInNs::Values(it.0), it.2.map(ImportOrExternCrate::Import))),
)
.chain(
self.macros
.map(|it| (ItemInNs::Macros(it.0), it.2.map(ImportOrExternCrate::Import))),
)
}
}