extern crate proc_macro;
#[macro_use]
extern crate proc_macro_hack_impl;
pub use proc_macro_hack_impl::*;
#[doc(hidden)]
pub use proc_macro::TokenStream;
#[macro_export]
macro_rules! proc_macro_expr_decl {
($name:ident ! => $name_impl:ident) => {
#[derive(ProcMacroHackExpr)]
#[allow(unused, non_camel_case_types)]
enum $name {
$name_impl
}
}
}
#[macro_export]
macro_rules! proc_macro_item_decl {
($name:ident ! => $name_impl:ident) => {
#[derive(ProcMacroHackItem)]
#[allow(unused, non_camel_case_types)]
enum $name {
$name_impl
}
}
}
#[macro_export]
macro_rules! proc_macro_expr_impl {
($(
$( #[$attr:meta] )*
pub fn $func:ident($input:ident: &str) -> String $body:block
)+) => {
$(
$( #[$attr] )*
#[proc_macro_derive($func)]
pub fn $func(input: $crate::TokenStream) -> $crate::TokenStream {
let source = input.to_string();
let source = source.trim();
let prefix = "#[allow(unused)]\nenum ProcMacroHack { Input = (stringify!(";
let suffix = "), 0).1, }";
if !(source.starts_with(prefix) && source.ends_with(suffix)) {
panic!("`{}` procedural macro failed", stringify!($func));
}
let tokens = &source[prefix.len() .. source.len() - suffix.len()];
fn func($input: &str) -> String $body
format!("
macro_rules! proc_macro_call {{
() => {{
{}
}}
}}
", func(tokens)).parse().unwrap()
}
)+
}
}
#[macro_export]
macro_rules! proc_macro_item_impl {
($(
$( #[$attr:meta] )*
pub fn $func:ident($input:ident: &str) -> String $body:block
)+) => {
$(
$( #[$attr] )*
#[proc_macro_derive($func)]
pub fn $func(input: $crate::TokenStream) -> $crate::TokenStream {
let source = input.to_string();
let source = source.trim();
let prefix = "#[allow(unused)]\nenum ProcMacroHack { Input = (stringify!(";
let suffix = "), 0).1, }";
if !(source.starts_with(prefix) && source.ends_with(suffix)) {
panic!("`{}` procedural macro failed", stringify!($func));
}
let tokens = &source[prefix.len() .. source.len() - suffix.len()];
fn func($input: &str) -> String $body
func(tokens).parse().unwrap()
}
)+
}
}