438 lines
13 KiB
Rust
438 lines
13 KiB
Rust
use std::cell::RefCell;
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use itertools::Itertools;
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use hir::{source_binder, diagnostics::{Diagnostic as _, DiagnosticSink}};
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use ra_db::SourceDatabase;
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use ra_syntax::{
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T, Location, SourceFile, TextRange, SyntaxNode,
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ast::{self, AstNode, NamedFieldList, NamedField},
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};
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use ra_assists::ast_editor::{AstEditor, AstBuilder};
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use ra_text_edit::{TextEdit, TextEditBuilder};
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use ra_prof::profile;
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use crate::{Diagnostic, FileId, FileSystemEdit, SourceChange, SourceFileEdit, db::RootDatabase};
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#[derive(Debug, Copy, Clone)]
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pub enum Severity {
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Error,
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WeakWarning,
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}
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pub(crate) fn diagnostics(db: &RootDatabase, file_id: FileId) -> Vec<Diagnostic> {
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let _p = profile("diagnostics");
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let source_file = db.parse(file_id);
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let mut res = Vec::new();
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syntax_errors(&mut res, &source_file);
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for node in source_file.syntax().descendants() {
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check_unnecessary_braces_in_use_statement(&mut res, file_id, node);
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check_struct_shorthand_initialization(&mut res, file_id, node);
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}
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let res = RefCell::new(res);
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let mut sink = DiagnosticSink::new(|d| {
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res.borrow_mut().push(Diagnostic {
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message: d.message(),
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range: d.highlight_range(),
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severity: Severity::Error,
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fix: None,
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})
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})
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.on::<hir::diagnostics::UnresolvedModule, _>(|d| {
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let source_root = db.file_source_root(d.file().original_file(db));
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let create_file = FileSystemEdit::CreateFile { source_root, path: d.candidate.clone() };
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let fix = SourceChange::file_system_edit("create module", create_file);
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res.borrow_mut().push(Diagnostic {
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range: d.highlight_range(),
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message: d.message(),
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severity: Severity::Error,
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fix: Some(fix),
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})
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})
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.on::<hir::diagnostics::MissingFields, _>(|d| {
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let file_id = d.file().original_file(db);
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let source_file = db.parse(file_id);
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let syntax_node = d.syntax_node_ptr();
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let node = NamedFieldList::cast(syntax_node.to_node(source_file.syntax())).unwrap();
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let mut ast_editor = AstEditor::new(node);
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for f in d.missed_fields.iter() {
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ast_editor.append_field(&AstBuilder::<NamedField>::from_name(f));
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}
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let mut builder = TextEditBuilder::default();
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ast_editor.into_text_edit(&mut builder);
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let fix =
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SourceChange::source_file_edit_from("fill struct fields", file_id, builder.finish());
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res.borrow_mut().push(Diagnostic {
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range: d.highlight_range(),
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message: d.message(),
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severity: Severity::Error,
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fix: Some(fix),
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})
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});
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if let Some(m) = source_binder::module_from_file_id(db, file_id) {
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m.diagnostics(db, &mut sink);
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};
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drop(sink);
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res.into_inner()
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}
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fn syntax_errors(acc: &mut Vec<Diagnostic>, source_file: &SourceFile) {
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fn location_to_range(location: Location) -> TextRange {
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match location {
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Location::Offset(offset) => TextRange::offset_len(offset, 1.into()),
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Location::Range(range) => range,
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}
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}
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acc.extend(source_file.errors().into_iter().map(|err| Diagnostic {
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range: location_to_range(err.location()),
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message: format!("Syntax Error: {}", err),
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severity: Severity::Error,
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fix: None,
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}));
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}
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fn check_unnecessary_braces_in_use_statement(
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acc: &mut Vec<Diagnostic>,
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file_id: FileId,
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node: &SyntaxNode,
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) -> Option<()> {
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let use_tree_list = ast::UseTreeList::cast(node)?;
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if let Some((single_use_tree,)) = use_tree_list.use_trees().collect_tuple() {
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let range = use_tree_list.syntax().range();
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let edit =
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text_edit_for_remove_unnecessary_braces_with_self_in_use_statement(single_use_tree)
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.unwrap_or_else(|| {
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let to_replace = single_use_tree.syntax().text().to_string();
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let mut edit_builder = TextEditBuilder::default();
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edit_builder.delete(range);
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edit_builder.insert(range.start(), to_replace);
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edit_builder.finish()
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});
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acc.push(Diagnostic {
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range,
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message: format!("Unnecessary braces in use statement"),
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severity: Severity::WeakWarning,
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fix: Some(SourceChange::source_file_edit(
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"Remove unnecessary braces",
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SourceFileEdit { file_id, edit },
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)),
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});
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}
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Some(())
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}
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fn text_edit_for_remove_unnecessary_braces_with_self_in_use_statement(
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single_use_tree: &ast::UseTree,
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) -> Option<TextEdit> {
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let use_tree_list_node = single_use_tree.syntax().parent()?;
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if single_use_tree.path()?.segment()?.syntax().first_child_or_token()?.kind() == T![self] {
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let start = use_tree_list_node.prev_sibling_or_token()?.range().start();
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let end = use_tree_list_node.range().end();
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let range = TextRange::from_to(start, end);
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let mut edit_builder = TextEditBuilder::default();
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edit_builder.delete(range);
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return Some(edit_builder.finish());
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}
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None
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}
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fn check_struct_shorthand_initialization(
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acc: &mut Vec<Diagnostic>,
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file_id: FileId,
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node: &SyntaxNode,
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) -> Option<()> {
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let struct_lit = ast::StructLit::cast(node)?;
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let named_field_list = struct_lit.named_field_list()?;
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for named_field in named_field_list.fields() {
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if let (Some(name_ref), Some(expr)) = (named_field.name_ref(), named_field.expr()) {
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let field_name = name_ref.syntax().text().to_string();
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let field_expr = expr.syntax().text().to_string();
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if field_name == field_expr {
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let mut edit_builder = TextEditBuilder::default();
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edit_builder.delete(named_field.syntax().range());
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edit_builder.insert(named_field.syntax().range().start(), field_name);
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let edit = edit_builder.finish();
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acc.push(Diagnostic {
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range: named_field.syntax().range(),
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message: format!("Shorthand struct initialization"),
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severity: Severity::WeakWarning,
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fix: Some(SourceChange::source_file_edit(
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"use struct shorthand initialization",
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SourceFileEdit { file_id, edit },
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)),
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});
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}
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}
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}
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Some(())
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}
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#[cfg(test)]
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mod tests {
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use test_utils::assert_eq_text;
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use insta::assert_debug_snapshot_matches;
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use crate::mock_analysis::single_file;
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use super::*;
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type DiagnosticChecker = fn(&mut Vec<Diagnostic>, FileId, &SyntaxNode) -> Option<()>;
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fn check_not_applicable(code: &str, func: DiagnosticChecker) {
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let file = SourceFile::parse(code);
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let mut diagnostics = Vec::new();
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for node in file.syntax().descendants() {
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func(&mut diagnostics, FileId(0), node);
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}
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assert!(diagnostics.is_empty());
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}
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fn check_apply(before: &str, after: &str, func: DiagnosticChecker) {
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let file = SourceFile::parse(before);
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let mut diagnostics = Vec::new();
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for node in file.syntax().descendants() {
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func(&mut diagnostics, FileId(0), node);
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}
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let diagnostic =
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diagnostics.pop().unwrap_or_else(|| panic!("no diagnostics for:\n{}\n", before));
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let mut fix = diagnostic.fix.unwrap();
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let edit = fix.source_file_edits.pop().unwrap().edit;
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let actual = edit.apply(&before);
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assert_eq_text!(after, &actual);
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}
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fn check_apply_diagnostic_fix(before: &str, after: &str) {
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let (analysis, file_id) = single_file(before);
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let diagnostic = analysis.diagnostics(file_id).unwrap().pop().unwrap();
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let mut fix = diagnostic.fix.unwrap();
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let edit = fix.source_file_edits.pop().unwrap().edit;
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let actual = edit.apply(&before);
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assert_eq_text!(after, &actual);
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}
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fn check_no_diagnostic(content: &str) {
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let (analysis, file_id) = single_file(content);
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let diagnostics = analysis.diagnostics(file_id).unwrap();
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assert_eq!(diagnostics.len(), 0);
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}
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#[test]
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fn test_fill_struct_fields_empty() {
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let before = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let s = TestStruct{};
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}
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";
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let after = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let s = TestStruct{ one: (), two: ()};
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}
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";
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check_apply_diagnostic_fix(before, after);
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}
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#[test]
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fn test_fill_struct_fields_partial() {
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let before = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let s = TestStruct{ two: 2 };
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}
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";
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let after = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let s = TestStruct{ two: 2, one: () };
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}
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";
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check_apply_diagnostic_fix(before, after);
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}
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#[test]
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fn test_fill_struct_fields_no_diagnostic() {
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let content = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let one = 1;
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let s = TestStruct{ one, two: 2 };
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}
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";
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check_no_diagnostic(content);
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}
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#[test]
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fn test_fill_struct_fields_no_diagnostic_on_spread() {
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let content = r"
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struct TestStruct {
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one: i32,
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two: i64,
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}
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fn test_fn() {
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let one = 1;
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let s = TestStruct{ ..a };
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}
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";
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check_no_diagnostic(content);
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}
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#[test]
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fn test_unresolved_module_diagnostic() {
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let (analysis, file_id) = single_file("mod foo;");
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let diagnostics = analysis.diagnostics(file_id).unwrap();
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assert_debug_snapshot_matches!(diagnostics, @r###"
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⋮[
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⋮ Diagnostic {
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⋮ message: "unresolved module",
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⋮ range: [0; 8),
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⋮ fix: Some(
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⋮ SourceChange {
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⋮ label: "create module",
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⋮ source_file_edits: [],
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⋮ file_system_edits: [
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⋮ CreateFile {
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⋮ source_root: SourceRootId(
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⋮ 0,
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⋮ ),
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⋮ path: "foo.rs",
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⋮ },
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⋮ ],
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⋮ cursor_position: None,
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⋮ },
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⋮ ),
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⋮ severity: Error,
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⋮ },
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⋮]
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"###);
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}
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#[test]
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fn test_check_unnecessary_braces_in_use_statement() {
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check_not_applicable(
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"
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use a;
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use a::{c, d::e};
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",
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check_unnecessary_braces_in_use_statement,
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);
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check_apply("use {b};", "use b;", check_unnecessary_braces_in_use_statement);
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check_apply("use a::{c};", "use a::c;", check_unnecessary_braces_in_use_statement);
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check_apply("use a::{self};", "use a;", check_unnecessary_braces_in_use_statement);
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check_apply(
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"use a::{c, d::{e}};",
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"use a::{c, d::e};",
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check_unnecessary_braces_in_use_statement,
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);
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}
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#[test]
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fn test_check_struct_shorthand_initialization() {
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check_not_applicable(
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r#"
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struct A {
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a: &'static str
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}
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fn main() {
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A {
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a: "hello"
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}
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}
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"#,
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check_struct_shorthand_initialization,
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);
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check_apply(
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r#"
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struct A {
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a: &'static str
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}
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fn main() {
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let a = "haha";
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A {
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a: a
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}
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}
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"#,
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r#"
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struct A {
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a: &'static str
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}
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fn main() {
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let a = "haha";
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A {
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a
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}
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}
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"#,
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check_struct_shorthand_initialization,
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);
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check_apply(
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r#"
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struct A {
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a: &'static str,
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b: &'static str
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}
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fn main() {
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let a = "haha";
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let b = "bb";
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A {
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a: a,
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b
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}
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}
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"#,
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r#"
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struct A {
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a: &'static str,
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b: &'static str
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}
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fn main() {
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let a = "haha";
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let b = "bb";
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A {
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a,
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b
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}
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}
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"#,
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check_struct_shorthand_initialization,
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);
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}
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}
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