src/dummy.rs - external/github.com/CreepySkeleton/proc-macro-error - Git at Google

 //! Facility to emit dummy implementations (or whatever) in case
 //! an error happen.
 //!
 //! `compile_error!` does not abort a compilation right away. This means
 //! `rustc` doesn't just show you the error and abort, it carries on the
 //! compilation process looking for other errors to report.
 //!
 //! Let's consider an example:
 //!
 //! ```rust,ignore
 //! use proc_macro::TokenStream;
 //! use proc_macro_error::*;
 //!
 //! trait MyTrait {
 //!     fn do_thing();
 //! }
 //!
 //! // this proc macro is supposed to generate MyTrait impl
 //! #[proc_macro_derive(MyTrait)]
 //! #[proc_macro_error]
 //! fn example(input: TokenStream) -> TokenStream {
 //!     // somewhere deep inside
 //!     abort!(span, "something's wrong");
 //!
 //!     // this implementation will be generated if no error happened
 //!     quote! {
 //!         impl MyTrait for #name {
 //!             fn do_thing() {/* whatever */}
 //!         }
 //!     }
 //! }
 //!
 //! // ================
 //! // in main.rs
 //!
 //! // this derive triggers an error
 //! #[derive(MyTrait)] // first BOOM!
 //! struct Foo;
 //!
 //! fn main() {
 //!     Foo::do_thing(); // second BOOM!
 //! }
 //! ```
 //!
 //! The problem is: the generated token stream contains only `compile_error!`
 //! invocation, the impl was not generated. That means user will see two compilation
 //! errors:
 //!
 //! ```text
 //! error: something's wrong
 //!  --> $DIR/probe.rs:9:10
 //!   |
 //! 9 |#[proc_macro_derive(MyTrait)]
 //!   |                    ^^^^^^^
 //!
 //! error[E0599]: no function or associated item named `do_thing` found for type `Foo` in the current scope
 //!  --> src\main.rs:3:10
 //!   |
 //! 1 | struct Foo;
 //!   | ----------- function or associated item `do_thing` not found for this
 //! 2 | fn main() {
 //! 3 |     Foo::do_thing(); // second BOOM!
 //!   |          ^^^^^^^^ function or associated item not found in `Foo`
 //! ```
 //!
 //! But the second error is meaningless! We definitely need to fix this.
 //!
 //! Most used approach in cases like this is "dummy implementation" -
 //! omit `impl MyTrait for #name` and fill functions bodies with `unimplemented!()`.
 //!
 //! This is how you do it:
 //!
 //! ```rust,ignore
 //! use proc_macro::TokenStream;
 //! use proc_macro_error::*;
 //!
 //!  trait MyTrait {
 //!      fn do_thing();
 //!  }
 //!
 //!  // this proc macro is supposed to generate MyTrait impl
 //!  #[proc_macro_derive(MyTrait)]
 //!  #[proc_macro_error]
 //!  fn example(input: TokenStream) -> TokenStream {
 //!      // first of all - we set a dummy impl which will be appended to
 //!      // `compile_error!` invocations in case a trigger does happen
 //!      set_dummy(quote! {
 //!          impl MyTrait for #name {
 //!              fn do_thing() { unimplemented!() }
 //!          }
 //!      });
 //!
 //!      // somewhere deep inside
 //!      abort!(span, "something's wrong");
 //!
 //!      // this implementation will be generated if no error happened
 //!      quote! {
 //!          impl MyTrait for #name {
 //!              fn do_thing() {/* whatever */}
 //!          }
 //!      }
 //!  }
 //!
 //!  // ================
 //!  // in main.rs
 //!
 //!  // this derive triggers an error
 //!  #[derive(MyTrait)] // first BOOM!
 //!  struct Foo;
 //!
 //!  fn main() {
 //!      Foo::do_thing(); // no more errors!
 //!  }
 //! ```

 use proc_macro2::TokenStream;
 use std::cell::RefCell;

 use crate::check_correctness;

 thread_local! {
     static DUMMY_IMPL: RefCell<Option<TokenStream>> = RefCell::new(None);
 }

 /// Sets dummy token stream which will be appended to `compile_error!(msg);...`
 /// invocations in case you'll emit any errors.
 ///
 /// See [guide](../index.html#guide).
 pub fn set_dummy(dummy: TokenStream) -> Option<TokenStream> {
     check_correctness();
     DUMMY_IMPL.with(|old_dummy| old_dummy.replace(Some(dummy)))
 }

 /// Same as [`set_dummy`] but, instead of resetting, appends tokens to the
 /// existing dummy (if any). Behaves as `set_dummy` if no dummy is present.
 pub fn append_dummy(dummy: TokenStream) {
     check_correctness();
     DUMMY_IMPL.with(|old_dummy| {
         let mut cell = old_dummy.borrow_mut();
         if let Some(ts) = cell.as_mut() {
             ts.extend(dummy);
         } else {
             *cell = Some(dummy);
         }
     });
 }

 pub(crate) fn cleanup() -> Option<TokenStream> {
     DUMMY_IMPL.with(|old_dummy| old_dummy.replace(None))
 }
	//! Facility to emit dummy implementations (or whatever) in case
	//! an error happen.
	//!
	//! `compile_error!` does not abort a compilation right away. This means
	//! `rustc` doesn't just show you the error and abort, it carries on the
	//! compilation process looking for other errors to report.
	//!
	//! Let's consider an example:
	//!
	//! ```rust,ignore
	//! use proc_macro::TokenStream;
	//! use proc_macro_error::*;
	//!
	//! trait MyTrait {
	//! fn do_thing();
	//! }
	//!
	//! // this proc macro is supposed to generate MyTrait impl
	//! #[proc_macro_derive(MyTrait)]
	//! #[proc_macro_error]
	//! fn example(input: TokenStream) -> TokenStream {
	//! // somewhere deep inside
	//! abort!(span, "something's wrong");
	//!
	//! // this implementation will be generated if no error happened
	//! quote! {
	//! impl MyTrait for #name {
	//! fn do_thing() {/* whatever */}
	//! }
	//! }
	//! }
	//!
	//! // ================
	//! // in main.rs
	//!
	//! // this derive triggers an error
	//! #[derive(MyTrait)] // first BOOM!
	//! struct Foo;
	//!
	//! fn main() {
	//! Foo::do_thing(); // second BOOM!
	//! }
	//! ```
	//!
	//! The problem is: the generated token stream contains only `compile_error!`
	//! invocation, the impl was not generated. That means user will see two compilation
	//! errors:
	//!
	//! ```text
	//! error: something's wrong
	//! --> $DIR/probe.rs:9:10
	//! \|
	//! 9 \|#[proc_macro_derive(MyTrait)]
	//! \| ^^^^^^^
	//!
	//! error[E0599]: no function or associated item named `do_thing` found for type `Foo` in the current scope
	//! --> src\main.rs:3:10
	//! \|
	//! 1 \| struct Foo;
	//! \| ----------- function or associated item `do_thing` not found for this
	//! 2 \| fn main() {
	//! 3 \| Foo::do_thing(); // second BOOM!
	//! \| ^^^^^^^^ function or associated item not found in `Foo`
	//! ```
	//!
	//! But the second error is meaningless! We definitely need to fix this.
	//!
	//! Most used approach in cases like this is "dummy implementation" -
	//! omit `impl MyTrait for #name` and fill functions bodies with `unimplemented!()`.
	//!
	//! This is how you do it:
	//!
	//! ```rust,ignore
	//! use proc_macro::TokenStream;
	//! use proc_macro_error::*;
	//!
	//! trait MyTrait {
	//! fn do_thing();
	//! }
	//!
	//! // this proc macro is supposed to generate MyTrait impl
	//! #[proc_macro_derive(MyTrait)]
	//! #[proc_macro_error]
	//! fn example(input: TokenStream) -> TokenStream {
	//! // first of all - we set a dummy impl which will be appended to
	//! // `compile_error!` invocations in case a trigger does happen
	//! set_dummy(quote! {
	//! impl MyTrait for #name {
	//! fn do_thing() { unimplemented!() }
	//! }
	//! });
	//!
	//! // somewhere deep inside
	//! abort!(span, "something's wrong");
	//!
	//! // this implementation will be generated if no error happened
	//! quote! {
	//! impl MyTrait for #name {
	//! fn do_thing() {/* whatever */}
	//! }
	//! }
	//! }
	//!
	//! // ================
	//! // in main.rs
	//!
	//! // this derive triggers an error
	//! #[derive(MyTrait)] // first BOOM!
	//! struct Foo;
	//!
	//! fn main() {
	//! Foo::do_thing(); // no more errors!
	//! }
	//! ```

	use proc_macro2::TokenStream;
	use std::cell::RefCell;

	use crate::check_correctness;

	thread_local! {
	static DUMMY_IMPL: RefCell<Option<TokenStream>> = RefCell::new(None);
	}

	/// Sets dummy token stream which will be appended to `compile_error!(msg);...`
	/// invocations in case you'll emit any errors.
	///
	/// See [guide](../index.html#guide).
	pub fn set_dummy(dummy: TokenStream) -> Option<TokenStream> {
	check_correctness();
	DUMMY_IMPL.with(\|old_dummy\| old_dummy.replace(Some(dummy)))
	}

	/// Same as [`set_dummy`] but, instead of resetting, appends tokens to the
	/// existing dummy (if any). Behaves as `set_dummy` if no dummy is present.
	pub fn append_dummy(dummy: TokenStream) {
	check_correctness();
	DUMMY_IMPL.with(\|old_dummy\| {
	let mut cell = old_dummy.borrow_mut();
	if let Some(ts) = cell.as_mut() {
	ts.extend(dummy);
	} else {
	*cell = Some(dummy);
	}
	});
	}

	pub(crate) fn cleanup() -> Option<TokenStream> {
	DUMMY_IMPL.with(\|old_dummy\| old_dummy.replace(None))
	}