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Improve the dispatching explanation (docs)
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1 changed files with 62 additions and 68 deletions
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@ -4,31 +4,23 @@
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//! [chain of responsibility] pattern enriched with a number of combinator
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//! functions, which together form an instance of the [`dptree::Handler`] type.
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//!
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//! Let us look at this simple example:
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//!
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//! [[`examples/purchase.rs`](https://github.com/teloxide/teloxide/blob/master/examples/purchase.rs)]
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//! ```no_run
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//! // Imports omitted...
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//! # use teloxide::{
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//! # dispatching::{dialogue::InMemStorage, UpdateHandler},
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//! # prelude::*,
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//! # types::{InlineKeyboardButton, InlineKeyboardMarkup},
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//! # utils::command::BotCommands,
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//! # };
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//!
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//! type MyDialogue = Dialogue<State, InMemStorage<State>>;
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//! type HandlerResult = Result<(), Box<dyn std::error::Error + Send + Sync>>;
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//! Take [`examples/purchase.rs`] as an example of dispatching logic. First, we
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//! define a type named `State` to represent the current state of a dialogue:
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//!
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//! ```ignore
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//! #[derive(Clone, Default)]
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//! pub enum State {
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//! #[default]
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//! Start,
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//! ReceiveFullName,
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//! ReceiveProductChoice {
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//! full_name: String,
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//! },
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//! ReceiveProductChoice { full_name: String },
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//! }
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//! ```
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//!
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//! Then, we define a type `Command` to represent user commands such as
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//! `/start` or `/help`:
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//!
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//! ```ignore
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//! #[derive(BotCommands, Clone)]
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//! #[command(rename = "lowercase", description = "These commands are supported:")]
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//! enum Command {
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@ -39,23 +31,15 @@
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//! #[command(description = "cancel the purchase procedure.")]
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//! Cancel,
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//! }
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//! ```
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//!
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//! #[tokio::main]
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//! async fn main() {
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//! // Setup is omitted...
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//! # pretty_env_logger::init();
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//! # log::info!("Starting purchase bot...");
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//! #
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//! # let bot = Bot::from_env().auto_send();
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//! #
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//! # Dispatcher::builder(bot, schema())
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//! # .dependencies(dptree::deps![InMemStorage::<State>::new()])
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//! # .build()
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//! # .setup_ctrlc_handler()
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//! # .dispatch()
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//! # .await;
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//! }
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//! Now the key question: how to elegantly dispatch on different combinations of
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//! `State`, `Command`, and Telegram updates? -- i.e., we may want to execute
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//! specific endpoints only in response to specific user commands and while we
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//! are in a given dialogue state (and possibly under other circumstances!). The
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//! solution is to use [`dptree`]:
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//!
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//! ```ignore
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//! fn schema() -> UpdateHandler<Box<dyn std::error::Error + Send + Sync + 'static>> {
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//! let command_handler = teloxide::filter_command::<Command, _>()
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//! .branch(
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@ -79,7 +63,30 @@
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//! .branch(message_handler)
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//! .branch(callback_query_handler)
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//! }
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//! ```
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//!
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//! The overall logic should be clear. Throughout the above example, we use
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//! several techniques:
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//!
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//! - **Branching:** `a.branch(b)` roughly means "try to handle an update with
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//! `a`, then, if it
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//! neglects the update, try `b`".
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//! - **Pattern matching:** We also use the [`dptree::case!`] macro
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//! extensively, which acts as a filter on an enumeration: if it is of a
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//! certain variant, it passes the variant's payload down the handler chain;
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//! otherwise, it neglects an update.
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//! - **Endpoints:** To specify the final function to handle an update, we use
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//! [`dptree::Handler::endpoint`].
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//!
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//! Notice the clear and uniform code structure: regardless of the dispatch
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//! criteria, we use the same program constructions. In future, you may want to
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//! introduce your application-specific filters or data structures to match upon
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//! -- no problem, reuse [`dptree::Handler::filter`], [`dptree::case!`], and
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//! other combinators in the same way!
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//!
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//! Finally, we define our endpoints like this:
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//!
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//! ```ignore
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//! // Handler definitions omitted...
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//!
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//! async fn start(bot: AutoSend<Bot>, msg: Message, dialogue: MyDialogue) -> HandlerResult {
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//! }
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//! ```
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//!
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//! The above code shows how to dispatch on different combinations of a state
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//! and command _elegantly_. We give a top-bottom explanation of the function
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//! `schema`, which constructs the main update handler:
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//! Each parameter is supplied as a dependency by teloxide. In particular:
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//! - `bot: AutoSend<Bot>` comes from the dispatcher (see below);
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//! - `msg: Message` comes from [`Update::filter_message`];
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//! - `q: CallbackQuery` comes from [`Update::filter_callback_query`];
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//! - `dialogue: MyDialogue` comes from [`dialogue::enter`];
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//! - `full_name: String` comes from `dptree::case![State::ReceiveProductChoice
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//! { full_name }]`.
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//!
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//! - We call the [`dialogue::enter`] function to initiate dialogue
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//! interaction. Then we call [`dptree::Handler::branch`] two times to form a
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//! tree of responsibility of `message_handler` and `callback_query_handler`.
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//! - Inside `message_handler`, we use [`Update::filter_message`] as a filter
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//! for incoming messages. Then we create a tree of responsibility again,
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//! consisting of three branches with a similar structure.
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//! - Inside `callback_query_handler`, we use
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//! [`Update::filter_callback_query`] as a filter and create one branch for
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//! handling product selection.
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//!
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//! `a.branch(b)` roughly means "try to handle an update with `a`, then, if it
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//! fails, try `b`". We use branching multiple times here, which is a natural
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//! pattern for describing dispatching logic. We also use the [`dptree::case!`]
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//! macro extensively, which acts as a filter on an enumeration: if it is of a
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//! certain variant, it passes the variant's payload down the handler chain;
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//! otherwise, it neglects an update. Note how we utilise this macro both for
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//! `State` and `Command` in the same way!
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//!
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//! Finally, we plug the schema into [`Dispatcher`] like this:
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//! Inside `main`, we plug the schema into [`Dispatcher`] like this:
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//!
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//! ```ignore
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//! # #[tokio::main]
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//! # async fn main() {
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//! #[tokio::main]
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//! async fn main() {
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//! let bot = Bot::from_env().auto_send();
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//!
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//! Dispatcher::builder(bot, schema())
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@ -151,20 +144,21 @@
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//! .setup_ctrlc_handler()
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//! .dispatch()
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//! .await;
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//! # }
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//! }
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//! ```
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//!
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//! In a call to [`DispatcherBuilder::dependencies`], we specify a list of
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//! dependencies that all handlers will receive as parameters. Here, we only
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//! specify an in-memory storage of dialogues needed for [`dialogue::enter`].
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//! However, in production bots, you normally also pass a database connection,
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//! configuration, and other stuff.
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//! additional dependencies that all handlers will receive as parameters. Here,
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//! we only specify an in-memory storage of dialogues needed for
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//! [`dialogue::enter`]. However, in production bots, you normally also pass a
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//! database connection, configuration, and other stuff.
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//!
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//! All in all, [`dptree`] can be seen as an extensible alternative to pattern
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//! matching, with support for [dependency injection (DI)] and a few other
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//! useful features. See [`examples/dispatching_features.rs`] as a more involved
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//! example.
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//!
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//! [`examples/purchase.rs`]: https://github.com/teloxide/teloxide/blob/master/examples/purchase.rs
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//! [`Update::filter_message`]: crate::types::Update::filter_message
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//! [`Update::filter_callback_query`]: crate::types::Update::filter_callback_query
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//! [chain of responsibility]: https://en.wikipedia.org/wiki/Chain-of-responsibility_pattern
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