7a1082d916
Changes for rust-nightly after #27856
242 lines
7.8 KiB
Rust
242 lines
7.8 KiB
Rust
use rustc::lint::*;
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use syntax::ptr::P;
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use syntax::ast::*;
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use syntax::ast_util::{is_comparison_binop, binop_to_string};
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use syntax::codemap::{Span, Spanned};
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use syntax::visit::FnKind;
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use rustc::middle::ty;
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use utils::{match_path, snippet, span_lint, span_help_and_lint, walk_ptrs_ty};
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use consts::constant;
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declare_lint!(pub TOPLEVEL_REF_ARG, Warn,
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"a function argument is declared `ref` (i.e. `fn foo(ref x: u8)`, but not \
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`fn foo((ref x, ref y): (u8, u8))`)");
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#[allow(missing_copy_implementations)]
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pub struct TopLevelRefPass;
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impl LintPass for TopLevelRefPass {
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fn get_lints(&self) -> LintArray {
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lint_array!(TOPLEVEL_REF_ARG)
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}
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fn check_fn(&mut self, cx: &Context, k: FnKind, decl: &FnDecl, _: &Block, _: Span, _: NodeId) {
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if let FnKind::FkClosure = k {
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// Does not apply to closures
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return
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}
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for ref arg in &decl.inputs {
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if let PatIdent(BindByRef(_), _, _) = arg.pat.node {
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span_lint(cx,
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TOPLEVEL_REF_ARG,
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arg.pat.span,
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"`ref` directly on a function argument is ignored. Consider using a reference type instead."
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);
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}
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}
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}
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}
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declare_lint!(pub CMP_NAN, Deny,
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"comparisons to NAN (which will always return false, which is probably not intended)");
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#[derive(Copy,Clone)]
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pub struct CmpNan;
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impl LintPass for CmpNan {
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fn get_lints(&self) -> LintArray {
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lint_array!(CMP_NAN)
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}
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fn check_expr(&mut self, cx: &Context, expr: &Expr) {
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if let ExprBinary(ref cmp, ref left, ref right) = expr.node {
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if is_comparison_binop(cmp.node) {
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if let &ExprPath(_, ref path) = &left.node {
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check_nan(cx, path, expr.span);
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}
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if let &ExprPath(_, ref path) = &right.node {
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check_nan(cx, path, expr.span);
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}
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}
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}
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}
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}
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fn check_nan(cx: &Context, path: &Path, span: Span) {
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path.segments.last().map(|seg| if seg.identifier.name == "NAN" {
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span_help_and_lint(cx, CMP_NAN, span,
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"doomed comparison with NAN, use `std::{f32,f64}::is_nan()` instead",
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"for further information see https://github.com/\
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Manishearth/rust-clippy/wiki#cmp_nan");
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});
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}
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declare_lint!(pub FLOAT_CMP, Warn,
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"using `==` or `!=` on float values (as floating-point operations \
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usually involve rounding errors, it is always better to check for approximate \
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equality within small bounds)");
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#[derive(Copy,Clone)]
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pub struct FloatCmp;
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impl LintPass for FloatCmp {
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fn get_lints(&self) -> LintArray {
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lint_array!(FLOAT_CMP)
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}
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fn check_expr(&mut self, cx: &Context, expr: &Expr) {
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if let ExprBinary(ref cmp, ref left, ref right) = expr.node {
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let op = cmp.node;
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if (op == BiEq || op == BiNe) && (is_float(cx, left) || is_float(cx, right)) {
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if constant(cx, left).or_else(|| constant(cx, right)).map_or(
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false, |c| c.0.as_float().map_or(false, |f| f == 0.0)) {
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return;
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}
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span_lint(cx, FLOAT_CMP, expr.span, &format!(
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"{}-comparison of f32 or f64 detected. Consider changing this to \
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`abs({} - {}) < epsilon` for some suitable value of epsilon",
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binop_to_string(op), snippet(cx, left.span, ".."),
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snippet(cx, right.span, "..")));
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}
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}
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}
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}
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fn is_float(cx: &Context, expr: &Expr) -> bool {
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if let ty::TyFloat(_) = walk_ptrs_ty(cx.tcx.expr_ty(expr)).sty {
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true
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} else {
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false
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}
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}
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declare_lint!(pub PRECEDENCE, Warn,
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"expressions where precedence may trip up the unwary reader of the source; \
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suggests adding parentheses, e.g. `x << 2 + y` will be parsed as `x << (2 + y)`");
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#[derive(Copy,Clone)]
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pub struct Precedence;
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impl LintPass for Precedence {
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fn get_lints(&self) -> LintArray {
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lint_array!(PRECEDENCE)
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}
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fn check_expr(&mut self, cx: &Context, expr: &Expr) {
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if let ExprBinary(Spanned { node: op, ..}, ref left, ref right) = expr.node {
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if is_bit_op(op) && (is_arith_expr(left) || is_arith_expr(right)) {
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span_help_and_lint(cx, PRECEDENCE, expr.span,
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"operator precedence can trip the unwary. Consider adding parentheses \
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to the subexpression",
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"for further information see https://github.com/\
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Manishearth/rust-clippy/wiki#precedence");
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}
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}
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}
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}
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fn is_arith_expr(expr : &Expr) -> bool {
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match expr.node {
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ExprBinary(Spanned { node: op, ..}, _, _) => is_arith_op(op),
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_ => false
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}
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}
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fn is_bit_op(op : BinOp_) -> bool {
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match op {
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BiBitXor | BiBitAnd | BiBitOr | BiShl | BiShr => true,
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_ => false
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}
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}
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fn is_arith_op(op : BinOp_) -> bool {
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match op {
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BiAdd | BiSub | BiMul | BiDiv | BiRem => true,
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_ => false
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}
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}
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declare_lint!(pub CMP_OWNED, Warn,
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"creating owned instances for comparing with others, e.g. `x == \"foo\".to_string()`");
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#[derive(Copy,Clone)]
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pub struct CmpOwned;
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impl LintPass for CmpOwned {
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fn get_lints(&self) -> LintArray {
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lint_array!(CMP_OWNED)
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}
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fn check_expr(&mut self, cx: &Context, expr: &Expr) {
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if let ExprBinary(ref cmp, ref left, ref right) = expr.node {
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if is_comparison_binop(cmp.node) {
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check_to_owned(cx, left, right.span);
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check_to_owned(cx, right, left.span)
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}
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}
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}
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}
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fn check_to_owned(cx: &Context, expr: &Expr, other_span: Span) {
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match expr.node {
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ExprMethodCall(Spanned{node: ref ident, ..}, _, ref args) => {
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let name = ident.name;
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if name == "to_string" ||
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name == "to_owned" && is_str_arg(cx, args) {
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span_lint(cx, CMP_OWNED, expr.span, &format!(
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"this creates an owned instance just for comparison. \
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Consider using `{}.as_slice()` to compare without allocation",
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snippet(cx, other_span, "..")))
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}
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},
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ExprCall(ref path, _) => {
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if let &ExprPath(None, ref path) = &path.node {
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if match_path(path, &["String", "from_str"]) ||
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match_path(path, &["String", "from"]) {
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span_lint(cx, CMP_OWNED, expr.span, &format!(
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"this creates an owned instance just for comparison. \
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Consider using `{}.as_slice()` to compare without allocation",
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snippet(cx, other_span, "..")))
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}
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}
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},
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_ => ()
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}
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}
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fn is_str_arg(cx: &Context, args: &[P<Expr>]) -> bool {
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args.len() == 1 && if let ty::TyStr =
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walk_ptrs_ty(cx.tcx.expr_ty(&args[0])).sty { true } else { false }
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}
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declare_lint!(pub MODULO_ONE, Warn, "taking a number modulo 1, which always returns 0");
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#[derive(Copy,Clone)]
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pub struct ModuloOne;
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impl LintPass for ModuloOne {
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fn get_lints(&self) -> LintArray {
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lint_array!(MODULO_ONE)
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}
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fn check_expr(&mut self, cx: &Context, expr: &Expr) {
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if let ExprBinary(ref cmp, _, ref right) = expr.node {
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if let &Spanned {node: BinOp_::BiRem, ..} = cmp {
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if is_lit_one(right) {
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cx.span_lint(MODULO_ONE, expr.span, "any number modulo 1 will be 0");
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}
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}
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}
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}
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}
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fn is_lit_one(expr: &Expr) -> bool {
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if let ExprLit(ref spanned) = expr.node {
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if let LitInt(1, _) = spanned.node {
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return true;
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}
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}
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false
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}
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