use std::collections::BTreeMap; use std::cell::RefCell; use std::rc::Rc; #[derive(Clone, Debug, PartialEq, Eq)] pub struct NamespaceSet { parent: RefCell>>, namespaces: BTreeMap, String>, } impl Default for NamespaceSet { fn default() -> Self { NamespaceSet { parent: RefCell::new(None), namespaces: BTreeMap::new(), } } } impl NamespaceSet { pub fn declared_ns(&self) -> &BTreeMap, String> { &self.namespaces } pub fn get(&self, prefix: &Option) -> Option { match self.namespaces.get(prefix) { Some(ns) => Some(ns.clone()), None => match *self.parent.borrow() { None => None, Some(ref parent) => parent.get(prefix) }, } } pub fn has>(&self, prefix: &Option, wanted_ns: NS) -> bool { match self.namespaces.get(prefix) { Some(ns) => ns == wanted_ns.as_ref(), None => match *self.parent.borrow() { None => false, Some(ref parent) => parent.has(prefix, wanted_ns), }, } } pub fn set_parent(&self, parent: Rc) { let mut parent_ns = self.parent.borrow_mut(); let new_set = parent; *parent_ns = Some(new_set); } } impl From, String>> for NamespaceSet { fn from(namespaces: BTreeMap, String>) -> Self { NamespaceSet { parent: RefCell::new(None), namespaces, } } } impl From> for NamespaceSet { fn from(namespace: Option) -> Self { match namespace { None => Self::default(), Some(namespace) => Self::from(namespace), } } } impl From for NamespaceSet { fn from(namespace: String) -> Self { let mut namespaces = BTreeMap::new(); namespaces.insert(None, namespace); NamespaceSet { parent: RefCell::new(None), namespaces, } } } impl From<(Option, String)> for NamespaceSet { fn from(prefix_namespace: (Option, String)) -> Self { let (prefix, namespace) = prefix_namespace; let mut namespaces = BTreeMap::new(); namespaces.insert(prefix, namespace); NamespaceSet { parent: RefCell::new(None), namespaces, } } } impl From<(String, String)> for NamespaceSet { fn from(prefix_namespace: (String, String)) -> Self { let (prefix, namespace) = prefix_namespace; Self::from((Some(prefix), namespace)) } } #[cfg(test)] mod tests { use super::*; use std::rc::Rc; #[test] fn get_has() { let namespaces = NamespaceSet::from("foo".to_owned()); assert_eq!(namespaces.get(&None), Some("foo".to_owned())); assert!(namespaces.has(&None, "foo")); } #[test] fn get_has_prefixed() { let namespaces = NamespaceSet::from(("x".to_owned(), "bar".to_owned())); assert_eq!(namespaces.get(&Some("x".to_owned())), Some("bar".to_owned())); assert!(namespaces.has(&Some("x".to_owned()), "bar")); } #[test] fn get_has_recursive() { let mut parent = NamespaceSet::from("foo".to_owned()); for _ in 0..1000 { let namespaces = NamespaceSet::default(); namespaces.set_parent(Rc::new(parent)); assert_eq!(namespaces.get(&None), Some("foo".to_owned())); assert!(namespaces.has(&None, "foo")); parent = namespaces; } } #[test] fn get_has_prefixed_recursive() { let mut parent = NamespaceSet::from(("x".to_owned(), "bar".to_owned())); for _ in 0..1000 { let namespaces = NamespaceSet::default(); namespaces.set_parent(Rc::new(parent)); assert_eq!(namespaces.get(&Some("x".to_owned())), Some("bar".to_owned())); assert!(namespaces.has(&Some("x".to_owned()), "bar")); parent = namespaces; } } }