// Copyright 2016 Mozilla // // Licensed under the Apache License, Version 2.0 (the "License"); you may not use // this file except in compliance with the License. You may obtain a copy of the // License at http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software distributed // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See the License for the // specific language governing permissions and limitations under the License. use std::fmt::{Display, Formatter}; /// A simplification of Clojure's Symbol. #[derive(Clone,Debug,Eq,Hash,Ord,PartialOrd,PartialEq)] pub struct PlainSymbol(pub String); #[derive(Clone,Debug,Eq,Hash,Ord,PartialOrd,PartialEq)] pub struct NamespacedSymbol { // We derive PartialOrd, which implements a lexicographic based // on the order of members, so put namespace first. pub namespace: String, pub name: String, } /// A keyword is a symbol, optionally with a namespace, that prints with a leading colon. /// This concept is imported from Clojure, as it features in EDN and the query /// syntax that we use. /// /// Clojure's constraints are looser than ours, allowing empty namespaces or /// names: /// /// ```clojure /// user=> (keyword "" "") /// :/ /// user=> (keyword "foo" "") /// :foo/ /// user=> (keyword "" "bar") /// :/bar /// ``` /// /// We think that's nonsense, so we only allow keywords like `:bar` and `:foo/bar`, /// with both namespace and main parts containing no whitespace and no colon or slash: /// /// ```rust /// # use edn::symbols::Keyword; /// # use edn::symbols::NamespacedKeyword; /// let bar = Keyword::new("bar"); // :bar /// let foo_bar = NamespacedKeyword::new("foo", "bar"); // :foo/bar /// assert_eq!("bar", bar.0); /// assert_eq!("bar", foo_bar.name); /// assert_eq!("foo", foo_bar.namespace); /// ``` /// /// If you're not sure whether your input is well-formed, you should use a /// parser or a reader function first to validate. TODO: implement `read`. /// /// Callers are expected to follow these rules: /// http://www.clojure.org/reference/reader#_symbols /// /// Future: fast equality (interning?) for keywords. /// #[derive(Clone,Debug,Eq,Hash,Ord,PartialOrd,PartialEq)] pub struct Keyword(pub String); #[derive(Clone,Debug,Eq,Hash,Ord,PartialOrd,PartialEq)] pub struct NamespacedKeyword { // We derive PartialOrd, which implements a lexicographic order based // on the order of members, so put namespace first. pub namespace: String, pub name: String, } impl PlainSymbol { pub fn new(name: T) -> Self where T: Into { let n = name.into(); assert!(!n.is_empty(), "Symbols cannot be unnamed."); PlainSymbol(n) } /// Return the name of the symbol without any leading '?' or '$'. /// /// ```rust /// # use edn::symbols::PlainSymbol; /// assert_eq!("foo", PlainSymbol::new("?foo").plain_name()); /// assert_eq!("foo", PlainSymbol::new("$foo").plain_name()); /// assert_eq!("!foo", PlainSymbol::new("!foo").plain_name()); /// ``` pub fn plain_name(&self) -> &str { if self.is_src_symbol() || self.is_var_symbol() { &self.0[1..] } else { &self.0 } } #[inline] pub fn is_var_symbol(&self) -> bool { self.0.starts_with('?') } #[inline] pub fn is_src_symbol(&self) -> bool { self.0.starts_with('$') } } impl NamespacedSymbol { pub fn new(namespace: T, name: T) -> Self where T: Into { let n = name.into(); let ns = namespace.into(); assert!(!n.is_empty(), "Symbols cannot be unnamed."); assert!(!ns.is_empty(), "Symbols cannot have an empty non-null namespace."); NamespacedSymbol { name: n, namespace: ns } } } impl Keyword { pub fn new(name: T) -> Self where T: Into { let n = name.into(); assert!(!n.is_empty(), "Keywords cannot be unnamed."); Keyword(n) } } impl NamespacedKeyword { /// Creates a new `NamespacedKeyword`. /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedKeyword; /// let keyword = NamespacedKeyword::new("foo", "bar"); /// assert_eq!(keyword.to_string(), ":foo/bar"); /// ``` pub fn new(namespace: T, name: T) -> Self where T: Into { let n = name.into(); let ns = namespace.into(); assert!(!n.is_empty(), "Keywords cannot be unnamed."); assert!(!ns.is_empty(), "Keywords cannot have an empty non-null namespace."); // TODO: debug asserts to ensure that neither field matches [ :/]. NamespacedKeyword { name: n, namespace: ns, } } /// Whether this `NamespacedKeyword` should be interpreted in reverse order. For example, /// the two following snippets are identical: /// /// ```edn /// [?y :person/friend ?x] /// [?x :person/hired ?y] /// /// [?y :person/friend ?x] /// [?y :person/_hired ?x] /// ``` /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedKeyword; /// assert!(!NamespacedKeyword::new("foo", "bar").is_backward()); /// assert!(NamespacedKeyword::new("foo", "_bar").is_backward()); /// ``` #[inline] pub fn is_backward(&self) -> bool { self.name.starts_with('_') } /// Whether this `NamespacedKeyword` should be interpreted in forward order. /// See `symbols::NamespacedKeyword::is_backward`. /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedKeyword; /// assert!(NamespacedKeyword::new("foo", "bar").is_forward()); /// assert!(!NamespacedKeyword::new("foo", "_bar").is_forward()); /// ``` #[inline] pub fn is_forward(&self) -> bool { !self.is_backward() } /// Returns a `NamespacedKeyword` with the same namespace and a /// 'backward' name. See `symbols::NamespacedKeyword::is_backward`. /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedKeyword; /// let nsk = NamespacedKeyword::new("foo", "bar"); /// assert!(!nsk.is_backward()); /// assert_eq!(":foo/bar", nsk.to_string()); /// /// let reversed = nsk.to_reversed(); /// assert!(reversed.is_backward()); /// assert_eq!(":foo/_bar", reversed.to_string()); /// ``` pub fn to_reversed(&self) -> NamespacedKeyword { let name = if self.is_backward() { self.name[1..].to_string() } else { format!("{}{}", "_", self.name) }; NamespacedKeyword { name: name, namespace: self.namespace.clone(), } } } // // Note that we don't currently do any escaping. // impl Display for PlainSymbol { /// Print the symbol in EDN format. /// /// # Examples /// /// ```rust /// # use edn::symbols::PlainSymbol; /// assert_eq!("baz", PlainSymbol::new("baz").to_string()); /// ``` fn fmt(&self, f: &mut Formatter) -> ::std::fmt::Result { write!(f, "{}", self.0) } } impl Display for NamespacedSymbol { /// Print the symbol in EDN format. /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedSymbol; /// assert_eq!("bar/baz", NamespacedSymbol::new("bar", "baz").to_string()); /// ``` fn fmt(&self, f: &mut Formatter) -> ::std::fmt::Result { write!(f, "{}/{}", self.namespace, self.name) } } impl Display for Keyword { /// Print the keyword in EDN format. /// /// # Examples /// /// ```rust /// # use edn::symbols::Keyword; /// assert_eq!(":baz", Keyword::new("baz").to_string()); /// ``` fn fmt(&self, f: &mut Formatter) -> ::std::fmt::Result { write!(f, ":{}", self.0) } } impl Display for NamespacedKeyword { /// Print the keyword in EDN format. /// /// # Examples /// /// ```rust /// # use edn::symbols::NamespacedKeyword; /// assert_eq!(":bar/baz", NamespacedKeyword::new("bar", "baz").to_string()); /// assert_eq!(":bar/_baz", NamespacedKeyword::new("bar", "baz").to_reversed().to_string()); /// assert_eq!(":bar/baz", NamespacedKeyword::new("bar", "baz").to_reversed().to_reversed().to_string()); /// ``` fn fmt(&self, f: &mut Formatter) -> ::std::fmt::Result { write!(f, ":{}/{}", self.namespace, self.name) } }