use proc_macro::TokenStream; use quote::{quote, ToTokens}; use syn::parse_macro_input; mod inlineprops; mod props; // mod rsx; use dioxus_rsx as rsx; #[proc_macro] pub fn format_args_f(input: TokenStream) -> TokenStream { use rsx::*; let item = parse_macro_input!(input as IfmtInput); format_args_f_impl(item) .unwrap_or_else(|err| err.to_compile_error()) .into() } #[proc_macro_derive(Props, attributes(props))] pub fn derive_typed_builder(input: proc_macro::TokenStream) -> proc_macro::TokenStream { let input = parse_macro_input!(input as syn::DeriveInput); match props::impl_my_derive(&input) { Ok(output) => output.into(), Err(error) => error.to_compile_error().into(), } } /// The rsx! macro makes it easy for developers to write jsx-style markup in their components. /// /// ## Complete Reference Guide: /// ``` /// const Example: Component = |cx| { /// let formatting = "formatting!"; /// let formatting_tuple = ("a", "b"); /// let lazy_fmt = format_args!("lazily formatted text"); /// cx.render(rsx! { /// div { /// // Elements /// div {} /// h1 {"Some text"} /// h1 {"Some text with {formatting}"} /// h1 {"Formatting basic expressions {formatting_tuple.0} and {formatting_tuple.1}"} /// h2 { /// "Multiple" /// "Text" /// "Blocks" /// "Use comments as separators in html" /// } /// div { /// h1 {"multiple"} /// h2 {"nested"} /// h3 {"elements"} /// } /// div { /// class: "my special div" /// h1 {"Headers and attributes!"} /// } /// div { /// // pass simple rust expressions in /// class: lazy_fmt, /// id: format_args!("attributes can be passed lazily with std::fmt::Arguments"), /// div { /// class: { /// const WORD: &str = "expressions"; /// format_args!("Arguments can be passed in through curly braces for complex {}", WORD) /// } /// } /// } /// /// // Expressions can be used in element position too: /// {rsx!(p { "More templating!" })} /// {html!(

"Even HTML templating!!"

)} /// /// // Iterators /// {(0..10).map(|i| rsx!(li { "{i}" }))} /// {{ /// let data = std::collections::HashMap::<&'static str, &'static str>::new(); /// // Iterators *should* have keys when you can provide them. /// // Keys make your app run faster. Make sure your keys are stable, unique, and predictable. /// // Using an "ID" associated with your data is a good idea. /// data.into_iter().map(|(k, v)| rsx!(li { key: "{k}" "{v}" })) /// }} /// /// // Matching /// {match true { /// true => rsx!(h1 {"Top text"}), /// false => rsx!(h1 {"Bottom text"}) /// }} /// /// // Conditional rendering /// // Dioxus conditional rendering is based around None/Some. We have no special syntax for conditionals. /// // You can convert a bool condition to rsx! with .then and .or /// {true.then(|| rsx!(div {}))} /// /// // True conditions /// {if true { /// rsx!(h1 {"Top text"}) /// } else { /// rsx!(h1 {"Bottom text"}) /// }} /// /// // returning "None" is a bit noisy... but rare in practice /// {None as Option<()>} /// /// // Use the Dioxus type-alias for less noise /// {NONE_ELEMENT} /// /// // can also just use empty fragments /// Fragment {} /// /// // Fragments let you insert groups of nodes without a parent. /// // This lets you make components that insert elements as siblings without a container. /// div {"A"} /// Fragment { /// div {"B"} /// div {"C"} /// Fragment { /// "D" /// Fragment { /// "heavily nested fragments is an antipattern" /// "they cause Dioxus to do unnecessary work" /// "don't use them carelessly if you can help it" /// } /// } /// } /// /// // Components /// // Can accept any paths /// // Notice how you still get syntax highlighting and IDE support :) /// Baller {} /// baller::Baller { } /// crate::baller::Baller {} /// /// // Can take properties /// Taller { a: "asd" } /// /// // Can take optional properties /// Taller { a: "asd" } /// /// // Can pass in props directly as an expression /// {{ /// let props = TallerProps {a: "hello"}; /// rsx!(Taller { ..props }) /// }} /// /// // Spreading can also be overridden manually /// Taller { /// ..TallerProps { a: "ballin!" } /// a: "not ballin!" /// } /// /// // Can take children too! /// Taller { a: "asd", div {"hello world!"} } /// } /// }) /// }; /// /// mod baller { /// use super::*; /// pub struct BallerProps {} /// /// /// This component totally balls /// pub fn Baller(cx: Scope) -> DomTree { /// todo!() /// } /// } /// /// #[derive(Debug, PartialEq, Props)] /// pub struct TallerProps { /// a: &'static str, /// } /// /// /// This component is taller than most :) /// pub fn Taller(cx: Scope) -> DomTree { /// let b = true; /// todo!() /// } /// ``` #[proc_macro_error::proc_macro_error] #[proc_macro] pub fn rsx(s: TokenStream) -> TokenStream { #[cfg(feature = "hot_reload")] let rsx_text = s.to_string(); match syn::parse::(s) { Err(err) => err.to_compile_error().into(), Ok(body) => { #[cfg(feature = "hot_reload")] { use dioxus_rsx_interperter::captuered_context::CapturedContextBuilder; let captured = CapturedContextBuilder::from_call_body(body); quote! { { let line_num = get_line_num(); let rsx_text_index: RsxTextIndex = cx.consume_context().unwrap(); use_state(&cx, || { rsx_text_index.insert( line_num.clone(), #rsx_text.to_string(), ); }); LazyNodes::new(move |factory|{ let read = rsx_text_index.read(); if let Some(text) = read.get(&line_num){ interpert_rsx( factory, &text, #captured ) } else{ println!("rsx: line number {:?} not found", line_num); factory.static_text("") } }) } } .into() } #[cfg(not(feature = "hot_reload"))] body.to_token_stream().into() } } } /// Derive props for a component within the component definition. /// /// This macro provides a simple transformation from `Scope<{}>` to `Scope

`, /// removing some boilerplate when defining props. /// /// You don't *need* to use this macro at all, but it can be helpful in cases where /// you would be repeating a lot of the usual Rust boilerplate. /// /// # Example /// ``` /// #[inline_props] /// fn app(cx: Scope, bob: String) -> Element { /// cx.render(rsx!("hello, {bob}")) /// } /// /// // is equivalent to /// /// #[derive(PartialEq, Props)] /// struct AppProps { /// bob: String, /// } /// /// fn app(cx: Scope) -> Element { /// cx.render(rsx!("hello, {bob}")) /// } /// ``` #[proc_macro_attribute] pub fn inline_props(_args: proc_macro::TokenStream, s: TokenStream) -> TokenStream { match syn::parse::(s) { Err(e) => e.to_compile_error().into(), Ok(s) => s.to_token_stream().into(), } }