//! lint on enum variants that are prefixed or suffixed by the same characters use clippy_utils::diagnostics::{span_lint, span_lint_and_help}; use clippy_utils::source::is_present_in_source; use clippy_utils::str_utils::{self, count_match_end, count_match_start}; use rustc_hir::{EnumDef, Item, ItemKind}; use rustc_lint::{LateContext, LateLintPass}; use rustc_session::{declare_tool_lint, impl_lint_pass}; use rustc_span::source_map::Span; use rustc_span::symbol::Symbol; declare_clippy_lint! { /// ### What it does /// Detects enumeration variants that are prefixed or suffixed /// by the same characters. /// /// ### Why is this bad? /// Enumeration variant names should specify their variant, /// not repeat the enumeration name. /// /// ### Example /// ```rust /// enum Cake { /// BlackForestCake, /// HummingbirdCake, /// BattenbergCake, /// } /// ``` /// Could be written as: /// ```rust /// enum Cake { /// BlackForest, /// Hummingbird, /// Battenberg, /// } /// ``` #[clippy::version = "pre 1.29.0"] pub ENUM_VARIANT_NAMES, style, "enums where all variants share a prefix/postfix" } declare_clippy_lint! { /// ### What it does /// Detects type names that are prefixed or suffixed by the /// containing module's name. /// /// ### Why is this bad? /// It requires the user to type the module name twice. /// /// ### Example /// ```rust /// mod cake { /// struct BlackForestCake; /// } /// ``` /// Could be written as: /// ```rust /// mod cake { /// struct BlackForest; /// } /// ``` #[clippy::version = "1.33.0"] pub MODULE_NAME_REPETITIONS, pedantic, "type names prefixed/postfixed with their containing module's name" } declare_clippy_lint! { /// ### What it does /// Checks for modules that have the same name as their /// parent module /// /// ### Why is this bad? /// A typical beginner mistake is to have `mod foo;` and /// again `mod foo { .. /// }` in `foo.rs`. /// The expectation is that items inside the inner `mod foo { .. }` are then /// available /// through `foo::x`, but they are only available through /// `foo::foo::x`. /// If this is done on purpose, it would be better to choose a more /// representative module name. /// /// ### Example /// ```ignore /// // lib.rs /// mod foo; /// // foo.rs /// mod foo { /// ... /// } /// ``` #[clippy::version = "pre 1.29.0"] pub MODULE_INCEPTION, style, "modules that have the same name as their parent module" } pub struct EnumVariantNames { modules: Vec<(Symbol, String)>, threshold: u64, avoid_breaking_exported_api: bool, } impl EnumVariantNames { #[must_use] pub fn new(threshold: u64, avoid_breaking_exported_api: bool) -> Self { Self { modules: Vec::new(), threshold, avoid_breaking_exported_api, } } } impl_lint_pass!(EnumVariantNames => [ ENUM_VARIANT_NAMES, MODULE_NAME_REPETITIONS, MODULE_INCEPTION ]); fn check_variant( cx: &LateContext<'_>, threshold: u64, def: &EnumDef<'_>, item_name: &str, item_name_chars: usize, span: Span, ) { if (def.variants.len() as u64) < threshold { return; } for var in def.variants { let name = var.ident.name.as_str(); if count_match_start(item_name, &name).char_count == item_name_chars && name.chars().nth(item_name_chars).map_or(false, |c| !c.is_lowercase()) && name.chars().nth(item_name_chars + 1).map_or(false, |c| !c.is_numeric()) { span_lint( cx, ENUM_VARIANT_NAMES, var.span, "variant name starts with the enum's name", ); } if count_match_end(item_name, &name).char_count == item_name_chars { span_lint( cx, ENUM_VARIANT_NAMES, var.span, "variant name ends with the enum's name", ); } } let first = &def.variants[0].ident.name.as_str(); let mut pre = &first[..str_utils::camel_case_until(&*first).byte_index]; let mut post = &first[str_utils::camel_case_start(&*first).byte_index..]; for var in def.variants { let name = var.ident.name.as_str(); let pre_match = count_match_start(pre, &name).byte_count; pre = &pre[..pre_match]; let pre_camel = str_utils::camel_case_until(pre).byte_index; pre = &pre[..pre_camel]; while let Some((next, last)) = name[pre.len()..].chars().zip(pre.chars().rev()).next() { if next.is_numeric() { return; } if next.is_lowercase() { let last = pre.len() - last.len_utf8(); let last_camel = str_utils::camel_case_until(&pre[..last]); pre = &pre[..last_camel.byte_index]; } else { break; } } let post_match = count_match_end(post, &name); let post_end = post.len() - post_match.byte_count; post = &post[post_end..]; let post_camel = str_utils::camel_case_start(post); post = &post[post_camel.byte_index..]; } let (what, value) = match (pre.is_empty(), post.is_empty()) { (true, true) => return, (false, _) => ("pre", pre), (true, false) => ("post", post), }; span_lint_and_help( cx, ENUM_VARIANT_NAMES, span, &format!("all variants have the same {}fix: `{}`", what, value), None, &format!( "remove the {}fixes and use full paths to \ the variants instead of glob imports", what ), ); } #[must_use] fn to_camel_case(item_name: &str) -> String { let mut s = String::new(); let mut up = true; for c in item_name.chars() { if c.is_uppercase() { // we only turn snake case text into CamelCase return item_name.to_string(); } if c == '_' { up = true; continue; } if up { up = false; s.extend(c.to_uppercase()); } else { s.push(c); } } s } impl LateLintPass<'_> for EnumVariantNames { fn check_item_post(&mut self, _cx: &LateContext<'_>, _item: &Item<'_>) { let last = self.modules.pop(); assert!(last.is_some()); } #[allow(clippy::similar_names)] fn check_item(&mut self, cx: &LateContext<'_>, item: &Item<'_>) { let item_name = item.ident.name.as_str(); let item_name_chars = item_name.chars().count(); let item_camel = to_camel_case(&item_name); if !item.span.from_expansion() && is_present_in_source(cx, item.span) { if let Some(&(ref mod_name, ref mod_camel)) = self.modules.last() { // constants don't have surrounding modules if !mod_camel.is_empty() { if mod_name == &item.ident.name { if let ItemKind::Mod(..) = item.kind { span_lint( cx, MODULE_INCEPTION, item.span, "module has the same name as its containing module", ); } } // The `module_name_repetitions` lint should only trigger if the item has the module in its // name. Having the same name is accepted. if item.vis.node.is_pub() && item_camel.len() > mod_camel.len() { let matching = count_match_start(mod_camel, &item_camel); let rmatching = count_match_end(mod_camel, &item_camel); let nchars = mod_camel.chars().count(); let is_word_beginning = |c: char| c == '_' || c.is_uppercase() || c.is_numeric(); if matching.char_count == nchars { match item_camel.chars().nth(nchars) { Some(c) if is_word_beginning(c) => span_lint( cx, MODULE_NAME_REPETITIONS, item.span, "item name starts with its containing module's name", ), _ => (), } } if rmatching.char_count == nchars { span_lint( cx, MODULE_NAME_REPETITIONS, item.span, "item name ends with its containing module's name", ); } } } } } if let ItemKind::Enum(ref def, _) = item.kind { if !(self.avoid_breaking_exported_api && cx.access_levels.is_exported(item.def_id)) { check_variant(cx, self.threshold, def, &item_name, item_name_chars, item.span); } } self.modules.push((item.ident.name, item_camel)); } }