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/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #![cfg_attr(feature = "fatal-warnings", deny(warnings))] #![deny(clippy::correctness)] #![warn(clippy::pedantic)] #![allow(clippy::match_bool)] #![allow(clippy::if_not_else)] #![allow(clippy::stutter)] #![allow(clippy::similar_names)] #![allow(clippy::use_self)] #![allow(clippy::single_match_else)] // Note: If you change this remember to update `README.md`. To do so run `./tools/update-readme.sh`. //! # Rust Persistent Data Structures //! //! Rust Persistent Data Structures provides [fully persistent data structures](https://en.wikipedia.org/wiki/Persistent_data_structure) //! with structural sharing. //! //! ## Setup //! //! To use rpds add the following to your `Cargo.toml`: //! //! ```toml //! [dependencies] //! rpds = "<version>" //! ``` //! //! ## Data structures //! //! This crate offers the following data structures: //! //! 1. [`List`](#list) //! 2. [`Vector`](#vector) //! 3. [`Stack`](#stack) //! 4. [`Queue`](#queue) //! 5. [`HashTrieMap`](#hashtriemap) //! 6. [`HashTrieSet`](#hashtrieset) //! 7. [`RedBlackTreeMap`](#redblacktreemap) //! 8. [`RedBlackTreeSet`](#redblacktreeset) //! //! ### `List` //! [![List documentation](https://img.shields.io/badge/doc-List-303070.svg)](./list/struct.List.html) //! //! Your classic functional list. //! //! #### Example //! //! ```rust //! use rpds::List; //! //! let list = List::new().push_front("list"); //! //! assert_eq!(list.first(), Some(&"list")); //! //! let a_list = list.push_front("a"); //! //! assert_eq!(a_list.first(), Some(&"a")); //! //! let list_dropped = a_list.drop_first().unwrap(); //! //! assert_eq!(list_dropped, list); //! ``` //! //! ### `Vector` //! [![`Vector` documentation](https://img.shields.io/badge/doc-Vector-303070.svg)](./vector/struct.Vector.html) //! //! A sequence that can be indexed. The implementation is described in //! [Understanding Persistent Vector Part 1](http://hypirion.com/musings/understanding-persistent-vector-pt-1) //! and [Understanding Persistent Vector Part 2](http://hypirion.com/musings/understanding-persistent-vector-pt-2). //! //! #### Example //! //! ```rust //! use rpds::Vector; //! //! let vector = Vector::new() //! .push_back("I’m") //! .push_back("a") //! .push_back("vector"); //! //! assert_eq!(vector[1], "a"); //! //! let screaming_vector = vector //! .drop_last().unwrap() //! .push_back("VECTOR!!!"); //! //! assert_eq!(screaming_vector[2], "VECTOR!!!"); //! ``` //! //! ### `Stack` //! [![`Stack` documentation](https://img.shields.io/badge/doc-Stack-303070.svg)](./stack/struct.Stack.html) //! //! A LIFO (last in, first out) data structure. This is just a [`List`](#list) in disguise. //! //! #### Example //! //! ```rust //! use rpds::Stack; //! //! let stack = Stack::new().push("stack"); //! //! assert_eq!(stack.peek(), Some(&"stack")); //! //! let a_stack = stack.push("a"); //! //! assert_eq!(a_stack.peek(), Some(&"a")); //! //! let stack_popped = a_stack.pop().unwrap(); //! //! assert_eq!(stack_popped, stack); //! ``` //! //! ### `Queue` //! [![`Queue` documentation](https://img.shields.io/badge/doc-Queue-303070.svg)](./queue/struct.Queue.html) //! //! A FIFO (first in, first out) data structure. //! //! #### Example //! //! ```rust //! use rpds::Queue; //! //! let queue = Queue::new() //! .enqueue("um") //! .enqueue("dois") //! .enqueue("tres"); //! //! assert_eq!(queue.peek(), Some(&"um")); //! //! let queue_dequeued = queue.dequeue().unwrap(); //! //! assert_eq!(queue_dequeued.peek(), Some(&"dois")); //! ``` //! //! ### `HashTrieMap` //! [![`HashTrieMap` documentation](https://img.shields.io/badge/doc-HashTrieMap-303070.svg)](./map/hash_trie_map/struct.HashTrieMap.html) //! //! A map implemented with a [hash array mapped trie](https://en.wikipedia.org/wiki/Hash_array_mapped_trie). //! See [Ideal Hash Trees](https://infoscience.epfl.ch/record/64398/files/idealhashtrees.pdf) for //! details. //! //! #### Example //! //! ```rust //! use rpds::HashTrieMap; //! //! let map_en = HashTrieMap::new() //! .insert(0, "zero") //! .insert(1, "one"); //! //! assert_eq!(map_en.get(&1), Some(&"one")); //! //! let map_pt = map_en //! .insert(1, "um") //! .insert(2, "dois"); //! //! assert_eq!(map_pt.get(&2), Some(&"dois")); //! //! let map_pt_binary = map_pt.remove(&2); //! //! assert_eq!(map_pt_binary.get(&2), None); //! ``` //! //! ### `HashTrieSet` //! [![`HashTrieSet` documentation](https://img.shields.io/badge/doc-HashTrieSet-303070.svg)](./set/hash_trie_set/struct.HashTrieSet.html) //! //! A set implemented with a [`HashTrieMap`](#hashtriemap). //! //! #### Example //! //! ```rust //! use rpds::HashTrieSet; //! //! let set = HashTrieSet::new() //! .insert("zero") //! .insert("one"); //! //! assert!(set.contains(&"one")); //! //! let set_extended = set.insert("two"); //! //! assert!(set_extended.contains(&"two")); //! //! let set_positive = set_extended.remove(&"zero"); //! //! assert!(!set_positive.contains(&"zero")); //! ``` //! //! ### `RedBlackTreeMap` //! [![`RedBlackTreeMap` documentation](https://img.shields.io/badge/doc-RedBlackTreeMap-303070.svg)](./map/red_black_tree_map/struct.RedBlackTreeMap.html) //! //! A map implemented with a [red-black tree](https://en.wikipedia.org/wiki/Red-Black_tree). //! //! #### Example //! //! ```rust //! use rpds::RedBlackTreeMap; //! //! let map_en = RedBlackTreeMap::new() //! .insert(0, "zero") //! .insert(1, "one"); //! //! assert_eq!(map_en.get(&1), Some(&"one")); //! //! let map_pt = map_en //! .insert(1, "um") //! .insert(2, "dois"); //! //! assert_eq!(map_pt.get(&2), Some(&"dois")); //! //! let map_pt_binary = map_pt.remove(&2); //! //! assert_eq!(map_pt_binary.get(&2), None); //! //! assert_eq!(map_pt_binary.first(), Some((&0, &"zero"))); //! ``` //! //! ### `RedBlackTreeSet` //! [![`RedBlackTreeSet` documentation](https://img.shields.io/badge/doc-RedBlackTreeSet-303070.svg)](./set/red_black_tree_set/struct.RedBlackTreeSet.html) //! //! A set implemented with a [`RedBlackTreeMap`](#redblacktreemap). //! //! #### Example //! //! ```rust //! use rpds::RedBlackTreeSet; //! //! let set = RedBlackTreeSet::new() //! .insert("zero") //! .insert("one"); //! //! assert!(set.contains(&"one")); //! //! let set_extended = set.insert("two"); //! //! assert!(set_extended.contains(&"two")); //! //! let set_positive = set_extended.remove(&"zero"); //! //! assert!(!set_positive.contains(&"zero")); //! //! assert_eq!(set_positive.first(), Some(&"one")); //! ``` //! //! ## Other features //! //! ### Mutable methods //! //! When you change a data structure you often do not need its previous versions. For those cases //! rpds offers you mutable methods which are generally faster: //! //! ```rust //! use rpds::HashTrieSet; //! //! let mut set = HashTrieSet::new(); //! //! set.insert_mut("zero"); //! set.insert_mut("one"); //! //! let set_0_1 = set.clone(); //! let set_0_1_2 = set.insert("two"); //! ``` //! //! ### Initialization macros //! //! There are convenient initialization macros for all data structures: //! //! ```rust //! use rpds::*; //! //! let vector = vector![3, 1, 4, 1, 5]; //! let map = ht_map!["orange" => "orange", "banana" => "yellow"]; //! ``` //! //! Check the documentation for initialization macros of other data structures. //! //! ### Thread safety //! //! All data structures in this crate can be shared between threads, but that is an opt-in ability. //! This is because there is a performance cost to make data structures thread safe. That cost //! is worth avoiding when you are not actually sharing them between threads. //! //! Of course if you try to share a rpds data structure across different threads you can count on //! the rust compiler to ensure that it is safe to do so. If you are using the version of the data //! structure that is not thread safe you will get a compile-time error. //! //! To create a thread-safe version of any data structure use `new_sync()`: //! //! ```rust //! # /*DROP_LINE_IN_README*/ use rpds::Vector; //! # /*DROP_LINE_IN_README*/ //! let vec = Vector::new_sync() //! .push_back(42); //! ``` //! //! Or use the `_sync` variant of the initialization macro: //! //! ```rust //! # /*DROP_LINE_IN_README*/ use rpds::vector_sync; //! # /*DROP_LINE_IN_README*/ //! let vec = vector_sync!(42); //! ``` //! //! #### Further details //! //! Internally the data structures in this crate maintain a lot of reference-counting pointers. //! These pointers are used both for links between the internal nodes of the data structure as well //! as for the values it stores. //! //! There are two implementations of reference-counting pointers in the standard library: //! [`Rc`](https://doc.rust-lang.org/std/rc/struct.Rc.html) and //! [`Arc`](https://doc.rust-lang.org/std/sync/struct.Arc.html). They behave the same way, but //! `Arc` allows you to share the data it points to across multiple threads. The downside is that //! it is significantly slower to clone and drop than `Rc`, and persistent data structures do a //! lot of those operations. In some microbenchmarks with rpds data structure we can see that //! using `Rc` instead of `Arc` can make some operations twice as fast! You can see this for //! yourself by running `cargo bench`. //! //! To implement this we parameterize the type of reference-counting pointer (`Rc` or `Arc`) as a //! type argument of the data structure. We use the [archery](https://github.com/orium/archery/) //! crate to do this in a convenient way. //! //! The pointer type can be parameterized like this: //! //! ```rust //! # /*DROP_LINE_IN_README*/ use rpds::Vector; //! # /*DROP_LINE_IN_README*/ //! let vec: Vector<u32, archery::ArcK> = Vector::new_with_ptr_kind(); //! // ↖ //! // This will use `Arc` pointers. //! // Change it to `archery::RcK` to use a `Rc` pointer. //! ``` //! //! ### Serialization //! //! We support serialization through [serde](https://crates.io/crates/serde). To use it //! enable the `serde` feature. To do so change the rpds dependency in your `Cargo.toml` to //! //! ```toml //! [dependencies] //! rpds = { version = "<version>", features = ["serde"] } //! ``` mod utils; #[macro_use] pub mod list; pub mod map; pub mod queue; pub mod set; pub mod stack; pub mod vector; pub use crate::list::List; pub use crate::list::ListSync; pub use crate::map::hash_trie_map::HashTrieMap; pub use crate::map::hash_trie_map::HashTrieMapSync; pub use crate::map::red_black_tree_map::RedBlackTreeMap; pub use crate::map::red_black_tree_map::RedBlackTreeMapSync; pub use crate::queue::Queue; pub use crate::queue::QueueSync; pub use crate::set::hash_trie_set::HashTrieSet; pub use crate::set::hash_trie_set::HashTrieSetSync; pub use crate::set::red_black_tree_set::RedBlackTreeSet; pub use crate::set::red_black_tree_set::RedBlackTreeSetSync; pub use crate::stack::Stack; pub use crate::stack::StackSync; pub use crate::vector::Vector; pub use crate::vector::VectorSync;