use syntax::ast::*;
use syntax::codemap::Span;
use syntax::visit::FnKind;
-use utils::{constants, span_lint, span_help_and_lint, snippet, snippet_opt, span_lint_and_then};
+use crate::utils::{constants, in_external_macro, snippet, snippet_opt, span_help_and_lint, span_lint, span_lint_and_then};
/// **What it does:** Checks for structure field patterns bound to wildcards.
///
/// ```rust
/// let { a: _, b: ref b, c: _ } = ..
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub UNNEEDED_FIELD_PATTERN,
- Warn,
+ style,
"struct fields bound to a wildcard instead of using `..`"
}
/// ```rust
/// fn foo(a: i32, _a: i32) {}
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub DUPLICATE_UNDERSCORE_ARGUMENT,
- Warn,
+ style,
"function arguments having names which only differ by an underscore"
}
-/// **What it does:** Detects closures called in the same expression where they are defined.
+/// **What it does:** Detects closures called in the same expression where they
+/// are defined.
///
-/// **Why is this bad?** It is unnecessarily adding to the expression's complexity.
+/// **Why is this bad?** It is unnecessarily adding to the expression's
+/// complexity.
///
/// **Known problems:** None.
///
/// ```rust
/// (|| 42)()
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub REDUNDANT_CLOSURE_CALL,
- Warn,
+ complexity,
"throwaway closures called in the expression they are defined"
}
/// ```rust
/// --x;
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub DOUBLE_NEG,
- Warn,
+ style,
"`--x`, which is a double negation of `x` and not a pre-decrement as in C/C++"
}
-/// **What it does:** Warns on hexadecimal literals with mixed-case letter digits.
+/// **What it does:** Warns on hexadecimal literals with mixed-case letter
+/// digits.
///
/// **Why is this bad?** It looks confusing.
///
/// ```rust
/// let y = 0x1a9BAcD;
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub MIXED_CASE_HEX_LITERALS,
- Warn,
+ style,
"hex literals whose letter digits are not consistently upper- or lowercased"
}
-/// **What it does:** Warns if literal suffixes are not separated by an underscore.
+/// **What it does:** Warns if literal suffixes are not separated by an
+/// underscore.
///
/// **Why is this bad?** It is much less readable.
///
/// ```rust
/// let y = 123832i32;
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub UNSEPARATED_LITERAL_SUFFIX,
- Allow,
+ pedantic,
"literals whose suffix is not separated by an underscore"
}
/// **What it does:** Warns if an integral constant literal starts with `0`.
///
-/// **Why is this bad?** In some languages (including the infamous C language and most of its
-/// familly), this marks an octal constant. In Rust however, this is a decimal constant. This could
+/// **Why is this bad?** In some languages (including the infamous C language
+/// and most of its
+/// family), this marks an octal constant. In Rust however, this is a decimal
+/// constant. This could
/// be confusing for both the writer and a reader of the constant.
///
/// **Known problems:** None.
/// ```
///
/// prints `83` (as `83 == 0o123` while `123 == 0o173`).
-declare_lint! {
+declare_clippy_lint! {
pub ZERO_PREFIXED_LITERAL,
- Warn,
+ complexity,
"integer literals starting with `0`"
}
/// }
/// }
/// ```
-declare_lint! {
+declare_clippy_lint! {
pub BUILTIN_TYPE_SHADOW,
- Warn,
+ style,
"shadowing a builtin type"
}
impl LintPass for MiscEarly {
fn get_lints(&self) -> LintArray {
- lint_array!(UNNEEDED_FIELD_PATTERN,
- DUPLICATE_UNDERSCORE_ARGUMENT,
- REDUNDANT_CLOSURE_CALL,
- DOUBLE_NEG,
- MIXED_CASE_HEX_LITERALS,
- UNSEPARATED_LITERAL_SUFFIX,
- ZERO_PREFIXED_LITERAL,
- BUILTIN_TYPE_SHADOW)
+ lint_array!(
+ UNNEEDED_FIELD_PATTERN,
+ DUPLICATE_UNDERSCORE_ARGUMENT,
+ REDUNDANT_CLOSURE_CALL,
+ DOUBLE_NEG,
+ MIXED_CASE_HEX_LITERALS,
+ UNSEPARATED_LITERAL_SUFFIX,
+ ZERO_PREFIXED_LITERAL,
+ BUILTIN_TYPE_SHADOW
+ )
}
}
impl EarlyLintPass for MiscEarly {
fn check_generics(&mut self, cx: &EarlyContext, gen: &Generics) {
- for ty in &gen.ty_params {
- let name = ty.ident.name.as_str();
- if constants::BUILTIN_TYPES.contains(&&*name) {
- span_lint(cx,
- BUILTIN_TYPE_SHADOW,
- ty.span,
- &format!("This generic shadows the built-in type `{}`", name));
+ for param in &gen.params {
+ if let GenericParamKind::Type { .. } = param.kind {
+ let name = param.ident.name.as_str();
+ if constants::BUILTIN_TYPES.contains(&&*name) {
+ span_lint(
+ cx,
+ BUILTIN_TYPE_SHADOW,
+ param.ident.span,
+ &format!("This generic shadows the built-in type `{}`", name),
+ );
+ }
}
}
}
fn check_pat(&mut self, cx: &EarlyContext, pat: &Pat) {
if let PatKind::Struct(ref npat, ref pfields, _) = pat.node {
let mut wilds = 0;
- let type_name = npat.segments.last().expect("A path must have at least one segment").identifier.name;
+ let type_name = npat.segments
+ .last()
+ .expect("A path must have at least one segment")
+ .ident
+ .name;
for field in pfields {
if field.node.pat.node == PatKind::Wild {
}
}
if !pfields.is_empty() && wilds == pfields.len() {
- span_help_and_lint(cx,
- UNNEEDED_FIELD_PATTERN,
- pat.span,
- "All the struct fields are matched to a wildcard pattern, consider using `..`.",
- &format!("Try with `{} {{ .. }}` instead", type_name));
+ span_help_and_lint(
+ cx,
+ UNNEEDED_FIELD_PATTERN,
+ pat.span,
+ "All the struct fields are matched to a wildcard pattern, consider using `..`.",
+ &format!("Try with `{} {{ .. }}` instead", type_name),
+ );
return;
}
if wilds > 0 {
if field.node.pat.node == PatKind::Wild {
wilds -= 1;
if wilds > 0 {
- span_lint(cx,
- UNNEEDED_FIELD_PATTERN,
- field.span,
- "You matched a field with a wildcard pattern. Consider using `..` instead");
+ span_lint(
+ cx,
+ UNNEEDED_FIELD_PATTERN,
+ field.span,
+ "You matched a field with a wildcard pattern. Consider using `..` instead",
+ );
} else {
- span_help_and_lint(cx,
- UNNEEDED_FIELD_PATTERN,
- field.span,
- "You matched a field with a wildcard pattern. Consider using `..` \
- instead",
- &format!("Try with `{} {{ {}, .. }}`",
- type_name,
- normal[..].join(", ")));
+ span_help_and_lint(
+ cx,
+ UNNEEDED_FIELD_PATTERN,
+ field.span,
+ "You matched a field with a wildcard pattern. Consider using `..` \
+ instead",
+ &format!("Try with `{} {{ {}, .. }}`", type_name, normal[..].join(", ")),
+ );
}
}
}
let mut registered_names: HashMap<String, Span> = HashMap::new();
for arg in &decl.inputs {
- if let PatKind::Ident(_, sp_ident, None) = arg.pat.node {
- let arg_name = sp_ident.node.to_string();
+ if let PatKind::Ident(_, ident, None) = arg.pat.node {
+ let arg_name = ident.name.to_string();
if arg_name.starts_with('_') {
if let Some(correspondence) = registered_names.get(&arg_name[1..]) {
- span_lint(cx,
- DUPLICATE_UNDERSCORE_ARGUMENT,
- *correspondence,
- &format!("`{}` already exists, having another argument having almost the same \
- name makes code comprehension and documentation more difficult",
- arg_name[1..].to_owned()));;
+ span_lint(
+ cx,
+ DUPLICATE_UNDERSCORE_ARGUMENT,
+ *correspondence,
+ &format!(
+ "`{}` already exists, having another argument having almost the same \
+ name makes code comprehension and documentation more difficult",
+ arg_name[1..].to_owned()
+ ),
+ );;
}
} else {
registered_names.insert(arg_name, arg.pat.span);
}
fn check_expr(&mut self, cx: &EarlyContext, expr: &Expr) {
+ if in_external_macro(cx, expr.span) {
+ return;
+ }
match expr.node {
- ExprKind::Call(ref paren, _) => {
- if let ExprKind::Paren(ref closure) = paren.node {
- if let ExprKind::Closure(_, ref decl, ref block, _) = closure.node {
- span_lint_and_then(cx,
- REDUNDANT_CLOSURE_CALL,
- expr.span,
- "Try not to call a closure in the expression where it is declared.",
- |db| if decl.inputs.is_empty() {
- let hint = snippet(cx, block.span, "..").into_owned();
- db.span_suggestion(expr.span, "Try doing something like: ", hint);
- });
- }
+ ExprKind::Call(ref paren, _) => if let ExprKind::Paren(ref closure) = paren.node {
+ if let ExprKind::Closure(_, _, _, ref decl, ref block, _) = closure.node {
+ span_lint_and_then(
+ cx,
+ REDUNDANT_CLOSURE_CALL,
+ expr.span,
+ "Try not to call a closure in the expression where it is declared.",
+ |db| if decl.inputs.is_empty() {
+ let hint = snippet(cx, block.span, "..").into_owned();
+ db.span_suggestion(expr.span, "Try doing something like: ", hint);
+ },
+ );
}
},
- ExprKind::Unary(UnOp::Neg, ref inner) => {
- if let ExprKind::Unary(UnOp::Neg, _) = inner.node {
- span_lint(cx,
- DOUBLE_NEG,
- expr.span,
- "`--x` could be misinterpreted as pre-decrement by C programmers, is usually a no-op");
- }
+ ExprKind::Unary(UnOp::Neg, ref inner) => if let ExprKind::Unary(UnOp::Neg, _) = inner.node {
+ span_lint(
+ cx,
+ DOUBLE_NEG,
+ expr.span,
+ "`--x` could be misinterpreted as pre-decrement by C programmers, is usually a no-op",
+ );
},
- ExprKind::Lit(ref lit) => {
- if_let_chain! {[
- let LitKind::Int(value, ..) = lit.node,
- let Some(src) = snippet_opt(cx, lit.span),
- let Some(firstch) = src.chars().next(),
- char::to_digit(firstch, 10).is_some()
- ], {
- let mut prev = '\0';
- for ch in src.chars() {
- if ch == 'i' || ch == 'u' {
- if prev != '_' {
- span_lint(cx, UNSEPARATED_LITERAL_SUFFIX, lit.span,
- "integer type suffix should be separated by an underscore");
- }
- break;
- }
- prev = ch;
+ ExprKind::Lit(ref lit) => self.check_lit(cx, lit),
+ _ => (),
+ }
+ }
+
+ fn check_block(&mut self, cx: &EarlyContext, block: &Block) {
+ for w in block.stmts.windows(2) {
+ if_chain! {
+ if let StmtKind::Local(ref local) = w[0].node;
+ if let Option::Some(ref t) = local.init;
+ if let ExprKind::Closure(..) = t.node;
+ if let PatKind::Ident(_, ident, _) = local.pat.node;
+ if let StmtKind::Semi(ref second) = w[1].node;
+ if let ExprKind::Assign(_, ref call) = second.node;
+ if let ExprKind::Call(ref closure, _) = call.node;
+ if let ExprKind::Path(_, ref path) = closure.node;
+ then {
+ if ident == path.segments[0].ident {
+ span_lint(
+ cx,
+ REDUNDANT_CLOSURE_CALL,
+ second.span,
+ "Closure called just once immediately after it was declared",
+ );
}
- if src.starts_with("0x") {
- let mut seen = (false, false);
- for ch in src.chars() {
- match ch {
- 'a' ... 'f' => seen.0 = true,
- 'A' ... 'F' => seen.1 = true,
- 'i' | 'u' => break, // start of suffix already
- _ => ()
- }
- }
- if seen.0 && seen.1 {
- span_lint(cx, MIXED_CASE_HEX_LITERALS, lit.span,
- "inconsistent casing in hexadecimal literal");
+ }
+ }
+ }
+ }
+}
+
+impl MiscEarly {
+ fn check_lit(self, cx: &EarlyContext, lit: &Lit) {
+ if_chain! {
+ if let LitKind::Int(value, ..) = lit.node;
+ if let Some(src) = snippet_opt(cx, lit.span);
+ if let Some(firstch) = src.chars().next();
+ if char::to_digit(firstch, 10).is_some();
+ then {
+ let mut prev = '\0';
+ for ch in src.chars() {
+ if ch == 'i' || ch == 'u' {
+ if prev != '_' {
+ span_lint(cx, UNSEPARATED_LITERAL_SUFFIX, lit.span,
+ "integer type suffix should be separated by an underscore");
}
- } else if src.starts_with("0b") || src.starts_with("0o") {
- /* nothing to do */
- } else if value != 0 && src.starts_with('0') {
- span_lint_and_then(cx,
- ZERO_PREFIXED_LITERAL,
- lit.span,
- "this is a decimal constant",
- |db| {
- db.span_suggestion(
- lit.span,
- "if you mean to use a decimal constant, remove the `0` to remove confusion:",
- src[1..].to_string(),
- );
- db.span_suggestion(
- lit.span,
- "if you mean to use an octal constant, use `0o`:",
- format!("0o{}", &src[1..]),
- );
- });
+ break;
}
- }}
- if_let_chain! {[
- let LitKind::Float(..) = lit.node,
- let Some(src) = snippet_opt(cx, lit.span),
- let Some(firstch) = src.chars().next(),
- char::to_digit(firstch, 10).is_some()
- ], {
- let mut prev = '\0';
+ prev = ch;
+ }
+ if src.starts_with("0x") {
+ let mut seen = (false, false);
for ch in src.chars() {
- if ch == 'f' {
- if prev != '_' {
- span_lint(cx, UNSEPARATED_LITERAL_SUFFIX, lit.span,
- "float type suffix should be separated by an underscore");
- }
- break;
+ match ch {
+ 'a' ..= 'f' => seen.0 = true,
+ 'A' ..= 'F' => seen.1 = true,
+ 'i' | 'u' => break, // start of suffix already
+ _ => ()
}
- prev = ch;
}
- }}
- },
- _ => (),
+ if seen.0 && seen.1 {
+ span_lint(cx, MIXED_CASE_HEX_LITERALS, lit.span,
+ "inconsistent casing in hexadecimal literal");
+ }
+ } else if src.starts_with("0b") || src.starts_with("0o") {
+ /* nothing to do */
+ } else if value != 0 && src.starts_with('0') {
+ span_lint_and_then(cx,
+ ZERO_PREFIXED_LITERAL,
+ lit.span,
+ "this is a decimal constant",
+ |db| {
+ db.span_suggestion(
+ lit.span,
+ "if you mean to use a decimal constant, remove the `0` to remove confusion",
+ src.trim_left_matches(|c| c == '_' || c == '0').to_string(),
+ );
+ db.span_suggestion(
+ lit.span,
+ "if you mean to use an octal constant, use `0o`",
+ format!("0o{}", src.trim_left_matches(|c| c == '_' || c == '0')),
+ );
+ });
+ }
+ }
}
- }
-
- fn check_block(&mut self, cx: &EarlyContext, block: &Block) {
- for w in block.stmts.windows(2) {
- if_let_chain! {[
- let StmtKind::Local(ref local) = w[0].node,
- let Option::Some(ref t) = local.init,
- let ExprKind::Closure(_, _, _, _) = t.node,
- let PatKind::Ident(_, sp_ident, _) = local.pat.node,
- let StmtKind::Semi(ref second) = w[1].node,
- let ExprKind::Assign(_, ref call) = second.node,
- let ExprKind::Call(ref closure, _) = call.node,
- let ExprKind::Path(_, ref path) = closure.node
- ], {
- if sp_ident.node == (&path.segments[0]).identifier {
- span_lint(
- cx,
- REDUNDANT_CLOSURE_CALL,
- second.span,
- "Closure called just once immediately after it was declared",
- );
+ if_chain! {
+ if let LitKind::Float(..) = lit.node;
+ if let Some(src) = snippet_opt(cx, lit.span);
+ if let Some(firstch) = src.chars().next();
+ if char::to_digit(firstch, 10).is_some();
+ then {
+ let mut prev = '\0';
+ for ch in src.chars() {
+ if ch == 'f' {
+ if prev != '_' {
+ span_lint(cx, UNSEPARATED_LITERAL_SUFFIX, lit.span,
+ "float type suffix should be separated by an underscore");
+ }
+ break;
+ }
+ prev = ch;
}
- }}
+ }
}
}
}