rust-clippy/clippy_lints/src/misc.rs

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use if_chain::if_chain;
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use rustc_ast::ast::LitKind;
use rustc_errors::Applicability;
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use rustc_hir::intravisit::FnKind;
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use rustc_hir::{
def, BinOpKind, BindingAnnotation, Body, Expr, ExprKind, FnDecl, HirId, Mutability, PatKind, Stmt, StmtKind, Ty,
TyKind, UnOp,
};
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use rustc_lint::{LateContext, LateLintPass};
use rustc_middle::ty;
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use rustc_session::{declare_lint_pass, declare_tool_lint};
use rustc_span::source_map::{ExpnKind, Span};
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use crate::consts::{constant, Constant};
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use crate::utils::sugg::Sugg;
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use crate::utils::{
get_item_name, get_parent_expr, implements_trait, in_constant, is_integer_const, iter_input_pats,
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last_path_segment, match_qpath, match_trait_method, paths, snippet, snippet_opt, span_lint, span_lint_and_sugg,
span_lint_and_then, span_lint_hir_and_then, walk_ptrs_ty, SpanlessEq,
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};
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declare_clippy_lint! {
/// **What it does:** Checks for function arguments and let bindings denoted as
/// `ref`.
///
/// **Why is this bad?** The `ref` declaration makes the function take an owned
/// value, but turns the argument into a reference (which means that the value
/// is destroyed when exiting the function). This adds not much value: either
/// take a reference type, or take an owned value and create references in the
/// body.
///
/// For let bindings, `let x = &foo;` is preferred over `let ref x = foo`. The
/// type of `x` is more obvious with the former.
///
/// **Known problems:** If the argument is dereferenced within the function,
/// removing the `ref` will lead to errors. This can be fixed by removing the
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/// dereferences, e.g., changing `*x` to `x` within the function.
///
/// **Example:**
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/// ```rust
/// fn foo(ref x: u8) -> bool {
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/// true
/// }
/// ```
pub TOPLEVEL_REF_ARG,
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style,
"an entire binding declared as `ref`, in a function argument or a `let` statement"
}
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declare_clippy_lint! {
/// **What it does:** Checks for comparisons to NaN.
///
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/// **Why is this bad?** NaN does not compare meaningfully to anything not
/// even itself so those comparisons are simply wrong.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// # let x = 1.0;
///
/// if x == f32::NAN { }
/// ```
pub CMP_NAN,
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correctness,
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"comparisons to `NAN`, which will always return false, probably not intended"
}
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declare_clippy_lint! {
/// **What it does:** Checks for (in-)equality comparisons on floating-point
/// values (apart from zero), except in functions called `*eq*` (which probably
/// implement equality for a type involving floats).
///
/// **Why is this bad?** Floating point calculations are usually imprecise, so
/// asking if two values are *exactly* equal is asking for trouble. For a good
/// guide on what to do, see [the floating point
/// guide](http://www.floating-point-gui.de/errors/comparison).
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let x = 1.2331f64;
/// let y = 1.2332f64;
/// if y == 1.23f64 { }
/// if y != x {} // where both are floats
/// ```
pub FLOAT_CMP,
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correctness,
"using `==` or `!=` on float values instead of comparing difference with an epsilon"
}
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declare_clippy_lint! {
/// **What it does:** Checks for conversions to owned values just for the sake
/// of a comparison.
///
/// **Why is this bad?** The comparison can operate on a reference, so creating
/// an owned value effectively throws it away directly afterwards, which is
/// needlessly consuming code and heap space.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// # let x = "foo";
/// # let y = String::from("foo");
/// if x.to_owned() == y {}
/// ```
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/// Could be written as
/// ```rust
/// # let x = "foo";
/// # let y = String::from("foo");
/// if x == y {}
/// ```
pub CMP_OWNED,
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perf,
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"creating owned instances for comparing with others, e.g., `x == \"foo\".to_string()`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for getting the remainder of a division by one.
///
/// **Why is this bad?** The result can only ever be zero. No one will write
/// such code deliberately, unless trying to win an Underhanded Rust
/// Contest. Even for that contest, it's probably a bad idea. Use something more
/// underhanded.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// # let x = 1;
/// let a = x % 1;
/// ```
pub MODULO_ONE,
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correctness,
"taking a number modulo 1, which always returns 0"
}
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declare_clippy_lint! {
/// **What it does:** Checks for the use of bindings with a single leading
/// underscore.
///
/// **Why is this bad?** A single leading underscore is usually used to indicate
/// that a binding will not be used. Using such a binding breaks this
/// expectation.
///
/// **Known problems:** The lint does not work properly with desugaring and
/// macro, it has been allowed in the mean time.
///
/// **Example:**
/// ```rust
/// let _x = 0;
/// let y = _x + 1; // Here we are using `_x`, even though it has a leading
/// // underscore. We should rename `_x` to `x`
/// ```
pub USED_UNDERSCORE_BINDING,
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pedantic,
"using a binding which is prefixed with an underscore"
}
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declare_clippy_lint! {
/// **What it does:** Checks for the use of short circuit boolean conditions as
/// a
/// statement.
///
/// **Why is this bad?** Using a short circuit boolean condition as a statement
/// may hide the fact that the second part is executed or not depending on the
/// outcome of the first part.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust,ignore
/// f() && g(); // We should write `if f() { g(); }`.
/// ```
pub SHORT_CIRCUIT_STATEMENT,
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complexity,
"using a short circuit boolean condition as a statement"
}
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declare_clippy_lint! {
/// **What it does:** Catch casts from `0` to some pointer type
///
/// **Why is this bad?** This generally means `null` and is better expressed as
/// {`std`, `core`}`::ptr::`{`null`, `null_mut`}.
///
/// **Known problems:** None.
///
/// **Example:**
///
/// ```rust
/// let a = 0 as *const u32;
/// ```
pub ZERO_PTR,
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style,
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"using `0 as *{const, mut} T`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for (in-)equality comparisons on floating-point
/// value and constant, except in functions called `*eq*` (which probably
/// implement equality for a type involving floats).
///
/// **Why is this bad?** Floating point calculations are usually imprecise, so
/// asking if two values are *exactly* equal is asking for trouble. For a good
/// guide on what to do, see [the floating point
/// guide](http://www.floating-point-gui.de/errors/comparison).
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let x: f64 = 1.0;
/// const ONE: f64 = 1.00;
/// x == ONE; // where both are floats
/// ```
pub FLOAT_CMP_CONST,
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restriction,
"using `==` or `!=` on float constants instead of comparing difference with an epsilon"
}
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declare_lint_pass!(MiscLints => [
TOPLEVEL_REF_ARG,
CMP_NAN,
FLOAT_CMP,
CMP_OWNED,
MODULO_ONE,
USED_UNDERSCORE_BINDING,
SHORT_CIRCUIT_STATEMENT,
ZERO_PTR,
FLOAT_CMP_CONST
]);
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impl<'a, 'tcx> LateLintPass<'a, 'tcx> for MiscLints {
fn check_fn(
&mut self,
cx: &LateContext<'a, 'tcx>,
k: FnKind<'tcx>,
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decl: &'tcx FnDecl<'_>,
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body: &'tcx Body<'_>,
_: Span,
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_: HirId,
) {
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if let FnKind::Closure(_) = k {
// Does not apply to closures
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return;
}
for arg in iter_input_pats(decl, body) {
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match arg.pat.kind {
PatKind::Binding(BindingAnnotation::Ref, ..) | PatKind::Binding(BindingAnnotation::RefMut, ..) => {
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span_lint(
cx,
TOPLEVEL_REF_ARG,
arg.pat.span,
"`ref` directly on a function argument is ignored. Consider using a reference type \
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instead.",
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);
},
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_ => {},
}
}
}
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fn check_stmt(&mut self, cx: &LateContext<'a, 'tcx>, stmt: &'tcx Stmt<'_>) {
if_chain! {
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if let StmtKind::Local(ref local) = stmt.kind;
if let PatKind::Binding(an, .., name, None) = local.pat.kind;
if let Some(ref init) = local.init;
then {
if an == BindingAnnotation::Ref || an == BindingAnnotation::RefMut {
let sugg_init = if init.span.from_expansion() {
Sugg::hir_with_macro_callsite(cx, init, "..")
} else {
Sugg::hir(cx, init, "..")
};
let (mutopt, initref) = if an == BindingAnnotation::RefMut {
("mut ", sugg_init.mut_addr())
} else {
("", sugg_init.addr())
};
let tyopt = if let Some(ref ty) = local.ty {
format!(": &{mutopt}{ty}", mutopt=mutopt, ty=snippet(cx, ty.span, "_"))
} else {
String::new()
};
span_lint_hir_and_then(
cx,
TOPLEVEL_REF_ARG,
init.hir_id,
local.pat.span,
"`ref` on an entire `let` pattern is discouraged, take a reference with `&` instead",
|db| {
db.span_suggestion(
stmt.span,
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"try",
format!(
"let {name}{tyopt} = {initref};",
name=snippet(cx, name.span, "_"),
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tyopt=tyopt,
initref=initref,
),
Applicability::MachineApplicable,
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);
}
);
}
}
};
if_chain! {
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if let StmtKind::Semi(ref expr) = stmt.kind;
if let ExprKind::Binary(ref binop, ref a, ref b) = expr.kind;
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if binop.node == BinOpKind::And || binop.node == BinOpKind::Or;
if let Some(sugg) = Sugg::hir_opt(cx, a);
then {
span_lint_and_then(cx,
SHORT_CIRCUIT_STATEMENT,
stmt.span,
"boolean short circuit operator in statement may be clearer using an explicit test",
|db| {
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let sugg = if binop.node == BinOpKind::Or { !sugg } else { sugg };
db.span_suggestion(
stmt.span,
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"replace it with",
format!(
"if {} {{ {}; }}",
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sugg,
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&snippet(cx, b.span, ".."),
),
Applicability::MachineApplicable, // snippet
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);
});
}
};
}
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fn check_expr(&mut self, cx: &LateContext<'a, 'tcx>, expr: &'tcx Expr<'_>) {
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match expr.kind {
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ExprKind::Cast(ref e, ref ty) => {
check_cast(cx, expr.span, e, ty);
return;
},
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ExprKind::Binary(ref cmp, ref left, ref right) => {
let op = cmp.node;
if op.is_comparison() {
check_nan(cx, left, expr);
check_nan(cx, right, expr);
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check_to_owned(cx, left, right);
check_to_owned(cx, right, left);
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}
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if (op == BinOpKind::Eq || op == BinOpKind::Ne) && (is_float(cx, left) || is_float(cx, right)) {
if is_allowed(cx, left) || is_allowed(cx, right) {
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return;
}
// Allow comparing the results of signum()
if is_signum(cx, left) && is_signum(cx, right) {
return;
}
if let Some(name) = get_item_name(cx, expr) {
let name = name.as_str();
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if name == "eq"
|| name == "ne"
|| name == "is_nan"
|| name.starts_with("eq_")
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|| name.ends_with("_eq")
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{
return;
}
}
let (lint, msg) = if is_named_constant(cx, left) || is_named_constant(cx, right) {
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(FLOAT_CMP_CONST, "strict comparison of `f32` or `f64` constant")
} else {
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(FLOAT_CMP, "strict comparison of `f32` or `f64`")
};
span_lint_and_then(cx, lint, expr.span, msg, |db| {
let lhs = Sugg::hir(cx, left, "..");
let rhs = Sugg::hir(cx, right, "..");
db.span_suggestion(
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expr.span,
"consider comparing them within some error",
format!(
"({}).abs() {} error",
lhs - rhs,
if op == BinOpKind::Eq { '<' } else { '>' }
),
Applicability::HasPlaceholders, // snippet
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);
db.span_note(expr.span, "`f32::EPSILON` and `f64::EPSILON` are available.");
});
} else if op == BinOpKind::Rem && is_integer_const(cx, right, 1) {
span_lint(cx, MODULO_ONE, expr.span, "any number modulo 1 will be 0");
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}
},
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_ => {},
}
if in_attributes_expansion(expr) {
// Don't lint things expanded by #[derive(...)], etc
return;
}
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let binding = match expr.kind {
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ExprKind::Path(ref qpath) => {
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let binding = last_path_segment(qpath).ident.as_str();
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if binding.starts_with('_') &&
!binding.starts_with("__") &&
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binding != "_result" && // FIXME: #944
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is_used(cx, expr) &&
// don't lint if the declaration is in a macro
non_macro_local(cx, cx.tables.qpath_res(qpath, expr.hir_id))
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{
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Some(binding)
} else {
None
}
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},
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ExprKind::Field(_, ident) => {
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let name = ident.as_str();
if name.starts_with('_') && !name.starts_with("__") {
Some(name)
} else {
None
}
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},
_ => None,
};
if let Some(binding) = binding {
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span_lint(
cx,
USED_UNDERSCORE_BINDING,
expr.span,
&format!(
"used binding `{}` which is prefixed with an underscore. A leading \
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underscore signals that a binding will not be used.",
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binding
),
);
}
}
}
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fn check_nan(cx: &LateContext<'_, '_>, expr: &Expr<'_>, cmp_expr: &Expr<'_>) {
if_chain! {
if !in_constant(cx, cmp_expr.hir_id);
if let Some((value, _)) = constant(cx, cx.tables, expr);
then {
let needs_lint = match value {
Constant::F32(num) => num.is_nan(),
Constant::F64(num) => num.is_nan(),
_ => false,
};
if needs_lint {
span_lint(
cx,
CMP_NAN,
cmp_expr.span,
"doomed comparison with `NAN`, use `{f32,f64}::is_nan()` instead",
);
}
}
}
}
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fn is_named_constant<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &'tcx Expr<'_>) -> bool {
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if let Some((_, res)) = constant(cx, cx.tables, expr) {
res
} else {
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false
}
}
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fn is_allowed<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &'tcx Expr<'_>) -> bool {
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match constant(cx, cx.tables, expr) {
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Some((Constant::F32(f), _)) => f == 0.0 || f.is_infinite(),
Some((Constant::F64(f), _)) => f == 0.0 || f.is_infinite(),
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Some((Constant::Vec(vec), _)) => vec.iter().all(|f| match f {
Constant::F32(f) => *f == 0.0 || (*f).is_infinite(),
Constant::F64(f) => *f == 0.0 || (*f).is_infinite(),
_ => false,
}),
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_ => false,
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}
}
// Return true if `expr` is the result of `signum()` invoked on a float value.
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fn is_signum(cx: &LateContext<'_, '_>, expr: &Expr<'_>) -> bool {
// The negation of a signum is still a signum
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if let ExprKind::Unary(UnOp::UnNeg, ref child_expr) = expr.kind {
return is_signum(cx, &child_expr);
}
if_chain! {
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if let ExprKind::MethodCall(ref method_name, _, ref expressions) = expr.kind;
if sym!(signum) == method_name.ident.name;
// Check that the receiver of the signum() is a float (expressions[0] is the receiver of
// the method call)
then {
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return is_float(cx, &expressions[0]);
}
}
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false
}
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fn is_float(cx: &LateContext<'_, '_>, expr: &Expr<'_>) -> bool {
let value = &walk_ptrs_ty(cx.tables.expr_ty(expr)).kind;
if let ty::Array(arr_ty, _) = value {
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return matches!(arr_ty.kind, ty::Float(_));
};
matches!(value, ty::Float(_))
}
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fn check_to_owned(cx: &LateContext<'_, '_>, expr: &Expr<'_>, other: &Expr<'_>) {
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let (arg_ty, snip) = match expr.kind {
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ExprKind::MethodCall(.., ref args) if args.len() == 1 => {
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if match_trait_method(cx, expr, &paths::TO_STRING) || match_trait_method(cx, expr, &paths::TO_OWNED) {
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(cx.tables.expr_ty_adjusted(&args[0]), snippet(cx, args[0].span, ".."))
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} else {
return;
}
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},
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ExprKind::Call(ref path, ref v) if v.len() == 1 => {
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if let ExprKind::Path(ref path) = path.kind {
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if match_qpath(path, &["String", "from_str"]) || match_qpath(path, &["String", "from"]) {
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(cx.tables.expr_ty_adjusted(&v[0]), snippet(cx, v[0].span, ".."))
} else {
return;
}
} else {
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return;
}
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},
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_ => return,
};
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let other_ty = cx.tables.expr_ty_adjusted(other);
let partial_eq_trait_id = match cx.tcx.lang_items().eq_trait() {
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Some(id) => id,
None => return,
};
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let deref_arg_impl_partial_eq_other = arg_ty.builtin_deref(true).map_or(false, |tam| {
implements_trait(cx, tam.ty, partial_eq_trait_id, &[other_ty.into()])
});
let arg_impl_partial_eq_deref_other = other_ty.builtin_deref(true).map_or(false, |tam| {
implements_trait(cx, arg_ty, partial_eq_trait_id, &[tam.ty.into()])
});
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let arg_impl_partial_eq_other = implements_trait(cx, arg_ty, partial_eq_trait_id, &[other_ty.into()]);
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if !deref_arg_impl_partial_eq_other && !arg_impl_partial_eq_deref_other && !arg_impl_partial_eq_other {
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return;
}
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let other_gets_derefed = match other.kind {
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ExprKind::Unary(UnOp::UnDeref, _) => true,
_ => false,
};
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let lint_span = if other_gets_derefed {
expr.span.to(other.span)
} else {
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expr.span
};
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span_lint_and_then(
cx,
CMP_OWNED,
lint_span,
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"this creates an owned instance just for comparison",
|db| {
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// This also catches `PartialEq` implementations that call `to_owned`.
if other_gets_derefed {
db.span_label(lint_span, "try implementing the comparison without allocating");
return;
}
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let try_hint = if deref_arg_impl_partial_eq_other {
// suggest deref on the left
format!("*{}", snip)
} else {
// suggest dropping the to_owned on the left
snip.to_string()
};
db.span_suggestion(
lint_span,
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"try",
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try_hint,
Applicability::MachineApplicable, // snippet
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);
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},
);
}
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/// Heuristic to see if an expression is used. Should be compatible with
/// `unused_variables`'s idea
/// of what it means for an expression to be "used".
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fn is_used(cx: &LateContext<'_, '_>, expr: &Expr<'_>) -> bool {
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if let Some(parent) = get_parent_expr(cx, expr) {
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match parent.kind {
ExprKind::Assign(_, ref rhs, _) | ExprKind::AssignOp(_, _, ref rhs) => {
SpanlessEq::new(cx).eq_expr(rhs, expr)
},
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_ => is_used(cx, parent),
}
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} else {
true
}
}
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/// Tests whether an expression is in a macro expansion (e.g., something
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/// generated by `#[derive(...)]` or the like).
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fn in_attributes_expansion(expr: &Expr<'_>) -> bool {
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use rustc_span::hygiene::MacroKind;
if expr.span.from_expansion() {
let data = expr.span.ctxt().outer_expn_data();
if let ExpnKind::Macro(MacroKind::Attr, _) = data.kind {
true
} else {
false
}
} else {
false
}
}
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/// Tests whether `res` is a variable defined outside a macro.
fn non_macro_local(cx: &LateContext<'_, '_>, res: def::Res) -> bool {
if let def::Res::Local(id) = res {
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!cx.tcx.hir().span(id).from_expansion()
} else {
false
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}
}
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fn check_cast(cx: &LateContext<'_, '_>, span: Span, e: &Expr<'_>, ty: &Ty<'_>) {
if_chain! {
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if let TyKind::Ptr(ref mut_ty) = ty.kind;
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if let ExprKind::Lit(ref lit) = e.kind;
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if let LitKind::Int(0, _) = lit.node;
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if !in_constant(cx, e.hir_id);
then {
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let (msg, sugg_fn) = match mut_ty.mutbl {
Mutability::Mut => ("`0 as *mut _` detected", "std::ptr::null_mut"),
Mutability::Not => ("`0 as *const _` detected", "std::ptr::null"),
};
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let (sugg, appl) = if let TyKind::Infer = mut_ty.ty.kind {
(format!("{}()", sugg_fn), Applicability::MachineApplicable)
} else if let Some(mut_ty_snip) = snippet_opt(cx, mut_ty.ty.span) {
(format!("{}::<{}>()", sugg_fn, mut_ty_snip), Applicability::MachineApplicable)
} else {
// `MaybeIncorrect` as type inference may not work with the suggested code
(format!("{}()", sugg_fn), Applicability::MaybeIncorrect)
};
span_lint_and_sugg(cx, ZERO_PTR, span, msg, "try", sugg, appl);
}
}
}