//! Rename infrastructure for rust-analyzer. It is used primarily for the //! literal "rename" in the ide (look for tests there), but it is also available //! as a general-purpose service. For example, it is used by the fix for the //! "incorrect case" diagnostic. //! //! It leverages the [`crate::search`] functionality to find what needs to be //! renamed. The actual renames are tricky -- field shorthands need special //! attention, and, when renaming modules, you also want to rename files on the //! file system. //! //! Another can of worms are macros: //! //! ```ignore //! macro_rules! m { () => { fn f() {} } } //! m!(); //! fn main() { //! f() // <- rename me //! } //! ``` //! //! The correct behavior in such cases is probably to show a dialog to the user. //! Our current behavior is ¯\_(ツ)_/¯. use std::fmt; use base_db::{AnchoredPathBuf, FileId, FileRange}; use either::Either; use hir::{FieldSource, HasSource, HirFileIdExt, InFile, ModuleSource, Semantics}; use span::SyntaxContextId; use stdx::{never, TupleExt}; use syntax::{ ast::{self, HasName}, AstNode, SyntaxKind, TextRange, T, }; use text_edit::{TextEdit, TextEditBuilder}; use crate::{ defs::Definition, search::{FileReference, FileReferenceNode}, source_change::{FileSystemEdit, SourceChange}, syntax_helpers::node_ext::expr_as_name_ref, traits::convert_to_def_in_trait, RootDatabase, }; pub type Result = std::result::Result; #[derive(Debug)] pub struct RenameError(pub String); impl fmt::Display for RenameError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { fmt::Display::fmt(&self.0, f) } } #[macro_export] macro_rules! _format_err { ($fmt:expr) => { RenameError(format!($fmt)) }; ($fmt:expr, $($arg:tt)+) => { RenameError(format!($fmt, $($arg)+)) } } pub use _format_err as format_err; #[macro_export] macro_rules! _bail { ($($tokens:tt)*) => { return Err(format_err!($($tokens)*)) } } pub use _bail as bail; impl Definition { pub fn rename( &self, sema: &Semantics<'_, RootDatabase>, new_name: &str, rename_external: bool, ) -> Result { // self.krate() returns None if // self is a built-in attr, built-in type or tool module. // it is not allowed for these defs to be renamed. // cases where self.krate() is None is handled below. if let Some(krate) = self.krate(sema.db) { // Can we not rename non-local items? // Then bail if non-local if !rename_external && !krate.origin(sema.db).is_local() { bail!("Cannot rename a non-local definition as the config for it is disabled") } } match *self { Definition::Module(module) => rename_mod(sema, module, new_name), Definition::ToolModule(_) => { bail!("Cannot rename a tool module") } Definition::BuiltinType(_) => { bail!("Cannot rename builtin type") } Definition::BuiltinAttr(_) => { bail!("Cannot rename a builtin attr.") } Definition::SelfType(_) => bail!("Cannot rename `Self`"), Definition::Macro(mac) => rename_reference(sema, Definition::Macro(mac), new_name), def => rename_reference(sema, def, new_name), } } /// Textual range of the identifier which will change when renaming this /// `Definition`. Note that builtin types can't be /// renamed and extern crate names will report its range, though a rename will introduce /// an alias instead. pub fn range_for_rename(self, sema: &Semantics<'_, RootDatabase>) -> Option { let syn_ctx_is_root = |(range, ctx): (_, SyntaxContextId)| ctx.is_root().then_some(range); let res = match self { Definition::Macro(mac) => { let src = mac.source(sema.db)?; let name = match &src.value { Either::Left(it) => it.name()?, Either::Right(it) => it.name()?, }; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } Definition::Field(field) => { let src = field.source(sema.db)?; match &src.value { FieldSource::Named(record_field) => { let name = record_field.name()?; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } FieldSource::Pos(_) => None, } } Definition::Module(module) => { let src = module.declaration_source(sema.db)?; let name = src.value.name()?; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } Definition::Function(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::Adt(adt) => match adt { hir::Adt::Struct(it) => name_range(it, sema).and_then(syn_ctx_is_root), hir::Adt::Union(it) => name_range(it, sema).and_then(syn_ctx_is_root), hir::Adt::Enum(it) => name_range(it, sema).and_then(syn_ctx_is_root), }, Definition::Variant(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::Const(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::Static(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::Trait(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::TraitAlias(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::TypeAlias(it) => name_range(it, sema).and_then(syn_ctx_is_root), Definition::Local(it) => { name_range(it.primary_source(sema.db), sema).and_then(syn_ctx_is_root) } Definition::GenericParam(generic_param) => match generic_param { hir::GenericParam::LifetimeParam(lifetime_param) => { let src = lifetime_param.source(sema.db)?; src.with_value(src.value.lifetime()?.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } _ => { let x = match generic_param { hir::GenericParam::TypeParam(it) => it.merge(), hir::GenericParam::ConstParam(it) => it.merge(), hir::GenericParam::LifetimeParam(_) => return None, }; let src = x.source(sema.db)?; let name = match &src.value { Either::Left(x) => x.name()?, Either::Right(_) => return None, }; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } }, Definition::Label(label) => { let src = label.source(sema.db); let lifetime = src.value.lifetime()?; src.with_value(lifetime.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } Definition::ExternCrateDecl(it) => { let src = it.source(sema.db)?; if let Some(rename) = src.value.rename() { let name = rename.name()?; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } else { let name = src.value.name_ref()?; src.with_value(name.syntax()) .original_file_range_opt(sema.db) .and_then(syn_ctx_is_root) } } Definition::BuiltinType(_) => return None, Definition::SelfType(_) => return None, Definition::BuiltinAttr(_) => return None, Definition::ToolModule(_) => return None, Definition::TupleField(_) => return None, // FIXME: This should be doable in theory Definition::DeriveHelper(_) => return None, }; return res; fn name_range( def: D, sema: &Semantics<'_, RootDatabase>, ) -> Option<(FileRange, SyntaxContextId)> where D: HasSource, D::Ast: ast::HasName, { let src = def.source(sema.db)?; let name = src.value.name()?; src.with_value(name.syntax()).original_file_range_opt(sema.db) } } } fn rename_mod( sema: &Semantics<'_, RootDatabase>, module: hir::Module, new_name: &str, ) -> Result { if IdentifierKind::classify(new_name)? != IdentifierKind::Ident { bail!("Invalid name `{0}`: cannot rename module to {0}", new_name); } let mut source_change = SourceChange::default(); if module.is_crate_root() { return Ok(source_change); } let InFile { file_id, value: def_source } = module.definition_source(sema.db); if let ModuleSource::SourceFile(..) = def_source { let new_name = new_name.trim_start_matches("r#"); let anchor = file_id.original_file(sema.db); let is_mod_rs = module.is_mod_rs(sema.db); let has_detached_child = module.children(sema.db).any(|child| !child.is_inline(sema.db)); // Module exists in a named file if !is_mod_rs { let path = format!("{new_name}.rs"); let dst = AnchoredPathBuf { anchor, path }; source_change.push_file_system_edit(FileSystemEdit::MoveFile { src: anchor, dst }) } // Rename the dir if: // - Module source is in mod.rs // - Module has submodules defined in separate files let dir_paths = match (is_mod_rs, has_detached_child, module.name(sema.db)) { // Go up one level since the anchor is inside the dir we're trying to rename (true, _, Some(mod_name)) => Some(( format!("../{}", mod_name.unescaped().display(sema.db)), format!("../{new_name}"), )), // The anchor is on the same level as target dir (false, true, Some(mod_name)) => { Some((mod_name.unescaped().display(sema.db).to_string(), new_name.to_owned())) } _ => None, }; if let Some((src, dst)) = dir_paths { let src = AnchoredPathBuf { anchor, path: src }; let dst = AnchoredPathBuf { anchor, path: dst }; source_change.push_file_system_edit(FileSystemEdit::MoveDir { src, src_id: anchor, dst, }) } } if let Some(src) = module.declaration_source(sema.db) { let file_id = src.file_id.original_file(sema.db); match src.value.name() { Some(name) => { if let Some(file_range) = src .with_value(name.syntax()) .original_file_range_opt(sema.db) .map(TupleExt::head) { source_change.insert_source_edit( file_id, TextEdit::replace(file_range.range, new_name.to_owned()), ) }; } _ => never!("Module source node is missing a name"), } } let def = Definition::Module(module); let usages = def.usages(sema).all(); let ref_edits = usages.iter().map(|(&file_id, references)| { (file_id, source_edit_from_references(references, def, new_name)) }); source_change.extend(ref_edits); Ok(source_change) } fn rename_reference( sema: &Semantics<'_, RootDatabase>, def: Definition, new_name: &str, ) -> Result { let ident_kind = IdentifierKind::classify(new_name)?; if matches!( def, Definition::GenericParam(hir::GenericParam::LifetimeParam(_)) | Definition::Label(_) ) { match ident_kind { IdentifierKind::Underscore => { bail!("Invalid name `{}`: not a lifetime identifier", new_name); } _ => cov_mark::hit!(rename_lifetime), } } else { match ident_kind { IdentifierKind::Lifetime => { cov_mark::hit!(rename_not_an_ident_ref); bail!("Invalid name `{}`: not an identifier", new_name); } IdentifierKind::Ident => cov_mark::hit!(rename_non_local), IdentifierKind::Underscore => (), } } let def = convert_to_def_in_trait(sema.db, def); let usages = def.usages(sema).all(); if !usages.is_empty() && ident_kind == IdentifierKind::Underscore { cov_mark::hit!(rename_underscore_multiple); bail!("Cannot rename reference to `_` as it is being referenced multiple times"); } let mut source_change = SourceChange::default(); source_change.extend(usages.iter().map(|(&file_id, references)| { (file_id, source_edit_from_references(references, def, new_name)) })); let mut insert_def_edit = |def| { let (file_id, edit) = source_edit_from_def(sema, def, new_name)?; source_change.insert_source_edit(file_id, edit); Ok(()) }; insert_def_edit(def)?; Ok(source_change) } pub fn source_edit_from_references( references: &[FileReference], def: Definition, new_name: &str, ) -> TextEdit { let mut edit = TextEdit::builder(); // macros can cause multiple refs to occur for the same text range, so keep track of what we have edited so far let mut edited_ranges = Vec::new(); for &FileReference { range, ref name, .. } in references { let name_range = name.text_range(); if name_range.len() != range.len() { // This usage comes from a different token kind that was downmapped to a NameLike in a macro // Renaming this will most likely break things syntax-wise continue; } let has_emitted_edit = match name { // if the ranges differ then the node is inside a macro call, we can't really attempt // to make special rewrites like shorthand syntax and such, so just rename the node in // the macro input FileReferenceNode::NameRef(name_ref) if name_range == range => { source_edit_from_name_ref(&mut edit, name_ref, new_name, def) } FileReferenceNode::Name(name) if name_range == range => { source_edit_from_name(&mut edit, name, new_name) } _ => false, }; if !has_emitted_edit && !edited_ranges.contains(&range.start()) { let (range, new_name) = match name { FileReferenceNode::Lifetime(_) => ( TextRange::new(range.start() + syntax::TextSize::from(1), range.end()), new_name.strip_prefix('\'').unwrap_or(new_name).to_owned(), ), _ => (range, new_name.to_owned()), }; edit.replace(range, new_name); edited_ranges.push(range.start()); } } edit.finish() } fn source_edit_from_name(edit: &mut TextEditBuilder, name: &ast::Name, new_name: &str) -> bool { if ast::RecordPatField::for_field_name(name).is_some() { if let Some(ident_pat) = name.syntax().parent().and_then(ast::IdentPat::cast) { cov_mark::hit!(rename_record_pat_field_name_split); // Foo { ref mut field } -> Foo { new_name: ref mut field } // ^ insert `new_name: ` // FIXME: instead of splitting the shorthand, recursively trigger a rename of the // other name https://github.com/rust-lang/rust-analyzer/issues/6547 edit.insert(ident_pat.syntax().text_range().start(), format!("{new_name}: ")); return true; } } false } fn source_edit_from_name_ref( edit: &mut TextEditBuilder, name_ref: &ast::NameRef, new_name: &str, def: Definition, ) -> bool { if name_ref.super_token().is_some() { return true; } if let Some(record_field) = ast::RecordExprField::for_name_ref(name_ref) { let rcf_name_ref = record_field.name_ref(); let rcf_expr = record_field.expr(); match &(rcf_name_ref, rcf_expr.and_then(|it| expr_as_name_ref(&it))) { // field: init-expr, check if we can use a field init shorthand (Some(field_name), Some(init)) => { if field_name == name_ref { if init.text() == new_name { cov_mark::hit!(test_rename_field_put_init_shorthand); // Foo { field: local } -> Foo { local } // ^^^^^^^ delete this // same names, we can use a shorthand here instead. // we do not want to erase attributes hence this range start let s = field_name.syntax().text_range().start(); let e = init.syntax().text_range().start(); edit.delete(TextRange::new(s, e)); return true; } } else if init == name_ref && field_name.text() == new_name { cov_mark::hit!(test_rename_local_put_init_shorthand); // Foo { field: local } -> Foo { field } // ^^^^^^^ delete this // same names, we can use a shorthand here instead. // we do not want to erase attributes hence this range start let s = field_name.syntax().text_range().end(); let e = init.syntax().text_range().end(); edit.delete(TextRange::new(s, e)); return true; } } // init shorthand (None, Some(_)) if matches!(def, Definition::Field(_)) => { cov_mark::hit!(test_rename_field_in_field_shorthand); // Foo { field } -> Foo { new_name: field } // ^ insert `new_name: ` let offset = name_ref.syntax().text_range().start(); edit.insert(offset, format!("{new_name}: ")); return true; } (None, Some(_)) if matches!(def, Definition::Local(_)) => { cov_mark::hit!(test_rename_local_in_field_shorthand); // Foo { field } -> Foo { field: new_name } // ^ insert `: new_name` let offset = name_ref.syntax().text_range().end(); edit.insert(offset, format!(": {new_name}")); return true; } _ => (), } } else if let Some(record_field) = ast::RecordPatField::for_field_name_ref(name_ref) { let rcf_name_ref = record_field.name_ref(); let rcf_pat = record_field.pat(); match (rcf_name_ref, rcf_pat) { // field: rename (Some(field_name), Some(ast::Pat::IdentPat(pat))) if field_name == *name_ref && pat.at_token().is_none() => { // field name is being renamed if let Some(name) = pat.name() { if name.text() == new_name { cov_mark::hit!(test_rename_field_put_init_shorthand_pat); // Foo { field: ref mut local } -> Foo { ref mut field } // ^^^^^^^ delete this // ^^^^^ replace this with `field` // same names, we can use a shorthand here instead/ // we do not want to erase attributes hence this range start let s = field_name.syntax().text_range().start(); let e = pat.syntax().text_range().start(); edit.delete(TextRange::new(s, e)); edit.replace(name.syntax().text_range(), new_name.to_owned()); return true; } } } _ => (), } } false } fn source_edit_from_def( sema: &Semantics<'_, RootDatabase>, def: Definition, new_name: &str, ) -> Result<(FileId, TextEdit)> { let mut edit = TextEdit::builder(); if let Definition::Local(local) = def { let mut file_id = None; for source in local.sources(sema.db) { let source = match source.source.clone().original_ast_node_rooted(sema.db) { Some(source) => source, None => match source .source .syntax() .original_file_range_opt(sema.db) .map(TupleExt::head) { Some(FileRange { file_id: file_id2, range }) => { file_id = Some(file_id2); edit.replace(range, new_name.to_owned()); continue; } None => { bail!("Can't rename local that is defined in a macro declaration") } }, }; file_id = Some(source.file_id); if let Either::Left(pat) = source.value { let name_range = pat.name().unwrap().syntax().text_range(); // special cases required for renaming fields/locals in Record patterns if let Some(pat_field) = pat.syntax().parent().and_then(ast::RecordPatField::cast) { if let Some(name_ref) = pat_field.name_ref() { if new_name == name_ref.text() && pat.at_token().is_none() { // Foo { field: ref mut local } -> Foo { ref mut field } // ^^^^^^ delete this // ^^^^^ replace this with `field` cov_mark::hit!(test_rename_local_put_init_shorthand_pat); edit.delete( name_ref .syntax() .text_range() .cover_offset(pat.syntax().text_range().start()), ); edit.replace(name_range, name_ref.text().to_string()); } else { // Foo { field: ref mut local @ local 2} -> Foo { field: ref mut new_name @ local2 } // Foo { field: ref mut local } -> Foo { field: ref mut new_name } // ^^^^^ replace this with `new_name` edit.replace(name_range, new_name.to_owned()); } } else { // Foo { ref mut field } -> Foo { field: ref mut new_name } // original_ast_node_rootedd: ` // ^^^^^ replace this with `new_name` edit.insert( pat.syntax().text_range().start(), format!("{}: ", pat_field.field_name().unwrap()), ); edit.replace(name_range, new_name.to_owned()); } } else { edit.replace(name_range, new_name.to_owned()); } } } let Some(file_id) = file_id else { bail!("No file available to rename") }; return Ok((file_id, edit.finish())); } let FileRange { file_id, range } = def .range_for_rename(sema) .ok_or_else(|| format_err!("No identifier available to rename"))?; let (range, new_name) = match def { Definition::GenericParam(hir::GenericParam::LifetimeParam(_)) | Definition::Label(_) => ( TextRange::new(range.start() + syntax::TextSize::from(1), range.end()), new_name.strip_prefix('\'').unwrap_or(new_name).to_owned(), ), Definition::ExternCrateDecl(decl) if decl.alias(sema.db).is_none() => { (TextRange::empty(range.end()), format!(" as {new_name}")) } _ => (range, new_name.to_owned()), }; edit.replace(range, new_name); Ok((file_id, edit.finish())) } #[derive(Copy, Clone, Debug, PartialEq)] pub enum IdentifierKind { Ident, Lifetime, Underscore, } impl IdentifierKind { pub fn classify(new_name: &str) -> Result { match parser::LexedStr::single_token(new_name) { Some(res) => match res { (SyntaxKind::IDENT, _) => { if let Some(inner) = new_name.strip_prefix("r#") { if matches!(inner, "self" | "crate" | "super" | "Self") { bail!("Invalid name: `{}` cannot be a raw identifier", inner); } } Ok(IdentifierKind::Ident) } (T![_], _) => Ok(IdentifierKind::Underscore), (SyntaxKind::LIFETIME_IDENT, _) if new_name != "'static" && new_name != "'_" => { Ok(IdentifierKind::Lifetime) } (_, Some(syntax_error)) => bail!("Invalid name `{}`: {}", new_name, syntax_error), (_, None) => bail!("Invalid name `{}`: not an identifier", new_name), }, None => bail!("Invalid name `{}`: not an identifier", new_name), } } }