src/tools/rust-analyzer/crates/ide-assists/src/handlers/generate_derive.rs - toolchain/rustc - Git at Google

 use syntax::{
     ast::{self, edit_in_place::AttrsOwnerEdit, make, AstNode, HasAttrs},
     T,
 };

 use crate::{AssistContext, AssistId, AssistKind, Assists};

 // Assist: generate_derive
 //
 // Adds a new `#[derive()]` clause to a struct or enum.
 //
 // ```
 // struct Point {
 //     x: u32,
 //     y: u32,$0
 // }
 // ```
 // ->
 // ```
 // #[derive($0)]
 // struct Point {
 //     x: u32,
 //     y: u32,
 // }
 // ```
 pub(crate) fn generate_derive(acc: &mut Assists, ctx: &AssistContext<'_>) -> Option<()> {
     let cap = ctx.config.snippet_cap?;
     let nominal = ctx.find_node_at_offset::<ast::Adt>()?;
     let target = nominal.syntax().text_range();
     let derive_attr = nominal
         .attrs()
         .filter_map(|x| x.as_simple_call())
         .filter(|(name, _arg)| name == "derive")
         .map(|(_name, arg)| arg)
         .next();

     let delimiter = match &derive_attr {
         None => None,
         Some(tt) => Some(tt.right_delimiter_token()?),
     };

     acc.add(AssistId("generate_derive", AssistKind::Generate), "Add `#[derive]`", target, |edit| {
         match derive_attr {
             None => {
                 let derive = make::attr_outer(make::meta_token_tree(
                     make::ext::ident_path("derive"),
                     make::token_tree(T!['('], vec![]).clone_for_update(),
                 ))
                 .clone_for_update();

                 let nominal = edit.make_mut(nominal);
                 nominal.add_attr(derive.clone());

                 let delimiter = derive
                     .meta()
                     .expect("make::attr_outer was expected to have Meta")
                     .token_tree()
                     .expect("failed to get token tree out of Meta")
                     .r_paren_token()
                     .expect("make::attr_outer was expected to have a R_PAREN");

                 edit.add_tabstop_before_token(cap, delimiter);
             }
             Some(_) => {
                 // Just move the cursor.
                 edit.add_tabstop_before_token(
                     cap,
                     delimiter.expect("Right delim token could not be found."),
                 );
             }
         };
     })
 }

 #[cfg(test)]
 mod tests {
     use crate::tests::{check_assist, check_assist_target};

     use super::*;

     #[test]
     fn add_derive_new() {
         check_assist(
             generate_derive,
             "struct Foo { a: i32, $0}",
             "#[derive($0)]\nstruct Foo { a: i32, }",
         );
         check_assist(
             generate_derive,
             "struct Foo { $0 a: i32, }",
             "#[derive($0)]\nstruct Foo {  a: i32, }",
         );
         check_assist(
             generate_derive,
             "
 mod m {
     struct Foo { a: i32,$0 }
 }
             ",
             "
 mod m {
     #[derive($0)]
     struct Foo { a: i32, }
 }
             ",
         );
     }

     #[test]
     fn add_derive_existing() {
         check_assist(
             generate_derive,
             "#[derive(Clone)]\nstruct Foo { a: i32$0, }",
             "#[derive(Clone$0)]\nstruct Foo { a: i32, }",
         );
     }

     #[test]
     fn add_derive_existing_with_brackets() {
         check_assist(
             generate_derive,
             "
 #[derive[Clone]]
 struct Foo { a: i32$0, }
 ",
             "
 #[derive[Clone$0]]
 struct Foo { a: i32, }
 ",
         );
     }

     #[test]
     fn add_derive_existing_missing_delimiter() {
         // since `#[derive]` isn't a simple attr call (i.e. `#[derive()]`)
         // we don't consider it as a proper derive attr and generate a new
         // one instead
         check_assist(
             generate_derive,
             "
 #[derive]
 struct Foo { a: i32$0, }",
             "
 #[derive]
 #[derive($0)]
 struct Foo { a: i32, }",
         );
     }

     #[test]
     fn add_derive_new_with_doc_comment() {
         check_assist(
             generate_derive,
             "
 /// `Foo` is a pretty important struct.
 /// It does stuff.
 struct Foo { a: i32$0, }
             ",
             "
 /// `Foo` is a pretty important struct.
 /// It does stuff.
 #[derive($0)]
 struct Foo { a: i32, }
             ",
         );
         check_assist(
             generate_derive,
             "
 mod m {
     /// `Foo` is a pretty important struct.
     /// It does stuff.
     struct Foo { a: i32,$0 }
 }
             ",
             "
 mod m {
     /// `Foo` is a pretty important struct.
     /// It does stuff.
     #[derive($0)]
     struct Foo { a: i32, }
 }
             ",
         );
     }

     #[test]
     fn add_derive_target() {
         check_assist_target(
             generate_derive,
             "
 struct SomeThingIrrelevant;
 /// `Foo` is a pretty important struct.
 /// It does stuff.
 struct Foo { a: i32$0, }
 struct EvenMoreIrrelevant;
             ",
             "/// `Foo` is a pretty important struct.
 /// It does stuff.
 struct Foo { a: i32, }",
         );
     }
 }
	use syntax::{
	ast::{self, edit_in_place::AttrsOwnerEdit, make, AstNode, HasAttrs},
	T,
	};

	use crate::{AssistContext, AssistId, AssistKind, Assists};

	// Assist: generate_derive
	//
	// Adds a new `#[derive()]` clause to a struct or enum.
	//
	// ```
	// struct Point {
	// x: u32,
	// y: u32,$0
	// }
	// ```
	// ->
	// ```
	// #[derive($0)]
	// struct Point {
	// x: u32,
	// y: u32,
	// }
	// ```
	pub(crate) fn generate_derive(acc: &mut Assists, ctx: &AssistContext<'_>) -> Option<()> {
	let cap = ctx.config.snippet_cap?;
	let nominal = ctx.find_node_at_offset::<ast::Adt>()?;
	let target = nominal.syntax().text_range();
	let derive_attr = nominal
	.attrs()
	.filter_map(\|x\| x.as_simple_call())
	.filter(\|(name, _arg)\| name == "derive")
	.map(\|(_name, arg)\| arg)
	.next();

	let delimiter = match &derive_attr {
	None => None,
	Some(tt) => Some(tt.right_delimiter_token()?),
	};

	acc.add(AssistId("generate_derive", AssistKind::Generate), "Add `#[derive]`", target, \|edit\| {
	match derive_attr {
	None => {
	let derive = make::attr_outer(make::meta_token_tree(
	make::ext::ident_path("derive"),
	make::token_tree(T!['('], vec![]).clone_for_update(),
	))
	.clone_for_update();

	let nominal = edit.make_mut(nominal);
	nominal.add_attr(derive.clone());

	let delimiter = derive
	.meta()
	.expect("make::attr_outer was expected to have Meta")
	.token_tree()
	.expect("failed to get token tree out of Meta")
	.r_paren_token()
	.expect("make::attr_outer was expected to have a R_PAREN");

	edit.add_tabstop_before_token(cap, delimiter);
	}
	Some(_) => {
	// Just move the cursor.
	edit.add_tabstop_before_token(
	cap,
	delimiter.expect("Right delim token could not be found."),
	);
	}
	};
	})
	}

	#[cfg(test)]
	mod tests {
	use crate::tests::{check_assist, check_assist_target};

	use super::*;

	#[test]
	fn add_derive_new() {
	check_assist(
	generate_derive,
	"struct Foo { a: i32, $0}",
	"#[derive($0)]\nstruct Foo { a: i32, }",
	);
	check_assist(
	generate_derive,
	"struct Foo { $0 a: i32, }",
	"#[derive($0)]\nstruct Foo { a: i32, }",
	);
	check_assist(
	generate_derive,
	"
	mod m {
	struct Foo { a: i32,$0 }
	}
	",
	"
	mod m {
	#[derive($0)]
	struct Foo { a: i32, }
	}
	",
	);
	}

	#[test]
	fn add_derive_existing() {
	check_assist(
	generate_derive,
	"#[derive(Clone)]\nstruct Foo { a: i32$0, }",
	"#[derive(Clone$0)]\nstruct Foo { a: i32, }",
	);
	}

	#[test]
	fn add_derive_existing_with_brackets() {
	check_assist(
	generate_derive,
	"
	#[derive[Clone]]
	struct Foo { a: i32$0, }
	",
	"
	#[derive[Clone$0]]
	struct Foo { a: i32, }
	",
	);
	}

	#[test]
	fn add_derive_existing_missing_delimiter() {
	// since `#[derive]` isn't a simple attr call (i.e. `#[derive()]`)
	// we don't consider it as a proper derive attr and generate a new
	// one instead
	check_assist(
	generate_derive,
	"
	#[derive]
	struct Foo { a: i32$0, }",
	"
	#[derive]
	#[derive($0)]
	struct Foo { a: i32, }",
	);
	}

	#[test]
	fn add_derive_new_with_doc_comment() {
	check_assist(
	generate_derive,
	"
	/// `Foo` is a pretty important struct.
	/// It does stuff.
	struct Foo { a: i32$0, }
	",
	"
	/// `Foo` is a pretty important struct.
	/// It does stuff.
	#[derive($0)]
	struct Foo { a: i32, }
	",
	);
	check_assist(
	generate_derive,
	"
	mod m {
	/// `Foo` is a pretty important struct.
	/// It does stuff.
	struct Foo { a: i32,$0 }
	}
	",
	"
	mod m {
	/// `Foo` is a pretty important struct.
	/// It does stuff.
	#[derive($0)]
	struct Foo { a: i32, }
	}
	",
	);
	}

	#[test]
	fn add_derive_target() {
	check_assist_target(
	generate_derive,
	"
	struct SomeThingIrrelevant;
	/// `Foo` is a pretty important struct.
	/// It does stuff.
	struct Foo { a: i32$0, }
	struct EvenMoreIrrelevant;
	",
	"/// `Foo` is a pretty important struct.
	/// It does stuff.
	struct Foo { a: i32, }",
	);
	}
	}