rust/clippy_lints/src/methods/mod.rs

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mod option_map_unwrap_or;
mod unnecessary_filter_map;
use std::borrow::Cow;
use std::fmt;
use std::iter;
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use if_chain::if_chain;
use matches::matches;
use rustc::hir;
use rustc::hir::def::Def;
use rustc::lint::{in_external_macro, LateContext, LateLintPass, Lint, LintArray, LintContext, LintPass};
use rustc::ty::{self, Predicate, Ty};
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use rustc::{declare_lint_pass, declare_tool_lint};
use rustc_errors::Applicability;
use syntax::ast;
use syntax::source_map::{BytePos, Span};
use syntax::symbol::LocalInternedString;
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use crate::utils::paths;
use crate::utils::sugg;
use crate::utils::{
get_arg_name, get_parent_expr, get_trait_def_id, has_iter_method, implements_trait, in_macro, is_copy,
is_ctor_function, is_expn_of, is_self, is_self_ty, iter_input_pats, last_path_segment, match_path, match_qpath,
match_trait_method, match_type, match_var, method_calls, method_chain_args, remove_blocks, return_ty, same_tys,
single_segment_path, snippet, snippet_with_applicability, snippet_with_macro_callsite, span_lint,
span_lint_and_sugg, span_lint_and_then, span_note_and_lint, walk_ptrs_ty, walk_ptrs_ty_depth, SpanlessEq,
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};
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declare_clippy_lint! {
/// **What it does:** Checks for `.unwrap()` calls on `Option`s.
///
/// **Why is this bad?** Usually it is better to handle the `None` case, or to
/// at least call `.expect(_)` with a more helpful message. Still, for a lot of
/// quick-and-dirty code, `unwrap` is a good choice, which is why this lint is
/// `Allow` by default.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// x.unwrap()
/// ```
pub OPTION_UNWRAP_USED,
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restriction,
"using `Option.unwrap()`, which should at least get a better message using `expect()`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for `.unwrap()` calls on `Result`s.
///
/// **Why is this bad?** `result.unwrap()` will let the thread panic on `Err`
/// values. Normally, you want to implement more sophisticated error handling,
/// and propagate errors upwards with `try!`.
///
/// Even if you want to panic on errors, not all `Error`s implement good
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/// messages on display. Therefore, it may be beneficial to look at the places
/// where they may get displayed. Activate this lint to do just that.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// x.unwrap()
/// ```
pub RESULT_UNWRAP_USED,
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restriction,
"using `Result.unwrap()`, which might be better handled"
}
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declare_clippy_lint! {
/// **What it does:** Checks for methods that should live in a trait
/// implementation of a `std` trait (see [llogiq's blog
/// post](http://llogiq.github.io/2015/07/30/traits.html) for further
/// information) instead of an inherent implementation.
///
/// **Why is this bad?** Implementing the traits improve ergonomics for users of
/// the code, often with very little cost. Also people seeing a `mul(...)`
/// method
/// may expect `*` to work equally, so you should have good reason to disappoint
/// them.
///
/// **Known problems:** None.
///
/// **Example:**
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/// ```ignore
/// struct X;
/// impl X {
/// fn add(&self, other: &X) -> X {
/// ..
/// }
/// }
/// ```
pub SHOULD_IMPLEMENT_TRAIT,
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style,
"defining a method that should be implementing a std trait"
}
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declare_clippy_lint! {
/// **What it does:** Checks for methods with certain name prefixes and which
/// doesn't match how self is taken. The actual rules are:
///
/// |Prefix |`self` taken |
/// |-------|----------------------|
/// |`as_` |`&self` or `&mut self`|
/// |`from_`| none |
/// |`into_`|`self` |
/// |`is_` |`&self` or none |
/// |`to_` |`&self` |
///
/// **Why is this bad?** Consistency breeds readability. If you follow the
/// conventions, your users won't be surprised that they, e.g., need to supply a
/// mutable reference to a `as_..` function.
///
/// **Known problems:** None.
///
/// **Example:**
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/// ```ignore
/// impl X {
/// fn as_str(self) -> &str {
/// ..
/// }
/// }
/// ```
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pub WRONG_SELF_CONVENTION,
style,
"defining a method named with an established prefix (like \"into_\") that takes `self` with the wrong convention"
}
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declare_clippy_lint! {
/// **What it does:** This is the same as
/// [`wrong_self_convention`](#wrong_self_convention), but for public items.
///
/// **Why is this bad?** See [`wrong_self_convention`](#wrong_self_convention).
///
/// **Known problems:** Actually *renaming* the function may break clients if
/// the function is part of the public interface. In that case, be mindful of
/// the stability guarantees you've given your users.
///
/// **Example:**
/// ```rust
/// impl X {
/// pub fn as_str(self) -> &str {
/// ..
/// }
/// }
/// ```
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pub WRONG_PUB_SELF_CONVENTION,
restriction,
"defining a public method named with an established prefix (like \"into_\") that takes `self` with the wrong convention"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `ok().expect(..)`.
///
/// **Why is this bad?** Because you usually call `expect()` on the `Result`
/// directly to get a better error message.
///
/// **Known problems:** The error type needs to implement `Debug`
///
/// **Example:**
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/// ```ignore
/// x.ok().expect("why did I do this again?")
/// ```
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pub OK_EXPECT,
style,
"using `ok().expect()`, which gives worse error messages than calling `expect` directly on the Result"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.map(_).unwrap_or(_)`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.map_or(_, _)`.
///
/// **Known problems:** The order of the arguments is not in execution order
///
/// **Example:**
/// ```rust
/// x.map(|a| a + 1).unwrap_or(0)
/// ```
pub OPTION_MAP_UNWRAP_OR,
pedantic,
"using `Option.map(f).unwrap_or(a)`, which is more succinctly expressed as `map_or(a, f)`"
}
declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.map(_).unwrap_or_else(_)`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.map_or_else(_, _)`.
///
/// **Known problems:** The order of the arguments is not in execution order.
///
/// **Example:**
/// ```rust
/// x.map(|a| a + 1).unwrap_or_else(some_function)
/// ```
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pub OPTION_MAP_UNWRAP_OR_ELSE,
pedantic,
"using `Option.map(f).unwrap_or_else(g)`, which is more succinctly expressed as `map_or_else(g, f)`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `result.map(_).unwrap_or_else(_)`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `result.ok().map_or_else(_, _)`.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// x.map(|a| a + 1).unwrap_or_else(some_function)
/// ```
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pub RESULT_MAP_UNWRAP_OR_ELSE,
pedantic,
"using `Result.map(f).unwrap_or_else(g)`, which is more succinctly expressed as `.ok().map_or_else(g, f)`"
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}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.map_or(None, _)`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.and_then(_)`.
///
/// **Known problems:** The order of the arguments is not in execution order.
///
/// **Example:**
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/// ```ignore
/// opt.map_or(None, |a| a + 1)
/// ```
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pub OPTION_MAP_OR_NONE,
style,
"using `Option.map_or(None, f)`, which is more succinctly expressed as `and_then(f)`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.filter(_).next()`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.find(_)`.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// iter.filter(|x| x == 0).next()
/// ```
pub FILTER_NEXT,
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complexity,
"using `filter(p).next()`, which is more succinctly expressed as `.find(p)`"
}
declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.map(_).flatten(_)`,
///
/// **Why is this bad?** Readability, this can be written more concisely as a
/// single method call.
///
/// **Known problems:**
///
/// **Example:**
/// ```rust
/// iter.map(|x| x.iter()).flatten()
/// ```
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pub MAP_FLATTEN,
pedantic,
"using combinations of `flatten` and `map` which can usually be written as a single method call"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `_.filter(_).map(_)`,
/// `_.filter(_).flat_map(_)`, `_.filter_map(_).flat_map(_)` and similar.
///
/// **Why is this bad?** Readability, this can be written more concisely as a
/// single method call.
///
/// **Known problems:** Often requires a condition + Option/Iterator creation
/// inside the closure.
///
/// **Example:**
/// ```rust
/// iter.filter(|x| x == 0).map(|x| x * 2)
/// ```
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pub FILTER_MAP,
pedantic,
"using combinations of `filter`, `map`, `filter_map` and `flat_map` which can usually be written as a single method call"
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}
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declare_clippy_lint! {
/// **What it does:** Checks for an iterator search (such as `find()`,
/// `position()`, or `rposition()`) followed by a call to `is_some()`.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.any(_)`.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// iter.find(|x| x == 0).is_some()
/// ```
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pub SEARCH_IS_SOME,
complexity,
"using an iterator search followed by `is_some()`, which is more succinctly expressed as a call to `any()`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.chars().next()` on a `str` to check
/// if it starts with a given char.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.starts_with(_)`.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// name.chars().next() == Some('_')
/// ```
pub CHARS_NEXT_CMP,
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complexity,
"using `.chars().next()` to check if a string starts with a char"
}
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declare_clippy_lint! {
/// **What it does:** Checks for calls to `.or(foo(..))`, `.unwrap_or(foo(..))`,
/// etc., and suggests to use `or_else`, `unwrap_or_else`, etc., or
/// `unwrap_or_default` instead.
///
/// **Why is this bad?** The function will always be called and potentially
/// allocate an object acting as the default.
///
/// **Known problems:** If the function has side-effects, not calling it will
/// change the semantic of the program, but you shouldn't rely on that anyway.
///
/// **Example:**
/// ```rust
/// foo.unwrap_or(String::new())
/// ```
/// this can instead be written:
/// ```rust
/// foo.unwrap_or_else(String::new)
/// ```
/// or
/// ```rust
/// foo.unwrap_or_default()
/// ```
pub OR_FUN_CALL,
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perf,
"using any `*or` method with a function call, which suggests `*or_else`"
}
declare_clippy_lint! {
/// **What it does:** Checks for calls to `.expect(&format!(...))`, `.expect(foo(..))`,
/// etc., and suggests to use `unwrap_or_else` instead
///
/// **Why is this bad?** The function will always be called.
///
/// **Known problems:** If the function has side-effects, not calling it will
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/// change the semantics of the program, but you shouldn't rely on that anyway.
///
/// **Example:**
/// ```rust
/// foo.expect(&format!("Err {}: {}", err_code, err_msg))
/// ```
/// or
/// ```rust
/// foo.expect(format!("Err {}: {}", err_code, err_msg).as_str())
/// ```
/// this can instead be written:
/// ```rust
/// foo.unwrap_or_else(|_| panic!("Err {}: {}", err_code, err_msg))
/// ```
pub EXPECT_FUN_CALL,
perf,
"using any `expect` method with a function call"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.clone()` on a `Copy` type.
///
/// **Why is this bad?** The only reason `Copy` types implement `Clone` is for
/// generics, not for using the `clone` method on a concrete type.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// 42u64.clone()
/// ```
pub CLONE_ON_COPY,
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complexity,
"using `clone` on a `Copy` type"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.clone()` on a ref-counted pointer,
/// (`Rc`, `Arc`, `rc::Weak`, or `sync::Weak`), and suggests calling Clone via unified
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/// function syntax instead (e.g., `Rc::clone(foo)`).
///
/// **Why is this bad?** Calling '.clone()' on an Rc, Arc, or Weak
/// can obscure the fact that only the pointer is being cloned, not the underlying
/// data.
///
/// **Example:**
/// ```rust
/// x.clone()
/// ```
pub CLONE_ON_REF_PTR,
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restriction,
"using 'clone' on a ref-counted pointer"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.clone()` on an `&&T`.
///
/// **Why is this bad?** Cloning an `&&T` copies the inner `&T`, instead of
/// cloning the underlying `T`.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// fn main() {
/// let x = vec![1];
/// let y = &&x;
/// let z = y.clone();
/// println!("{:p} {:p}", *y, z); // prints out the same pointer
/// }
/// ```
pub CLONE_DOUBLE_REF,
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correctness,
"using `clone` on `&&T`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for `new` not returning `Self`.
///
/// **Why is this bad?** As a convention, `new` methods are used to make a new
/// instance of a type.
///
/// **Known problems:** None.
///
/// **Example:**
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/// ```ignore
/// impl Foo {
/// fn new(..) -> NotAFoo {
/// }
/// }
/// ```
pub NEW_RET_NO_SELF,
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style,
"not returning `Self` in a `new` method"
}
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declare_clippy_lint! {
/// **What it does:** Checks for string methods that receive a single-character
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/// `str` as an argument, e.g., `_.split("x")`.
///
/// **Why is this bad?** Performing these methods using a `char` is faster than
/// using a `str`.
///
/// **Known problems:** Does not catch multi-byte unicode characters.
///
/// **Example:**
/// `_.split("x")` could be `_.split('x')`
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pub SINGLE_CHAR_PATTERN,
perf,
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"using a single-character str where a char could be used, e.g., `_.split(\"x\")`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for getting the inner pointer of a temporary
/// `CString`.
///
/// **Why is this bad?** The inner pointer of a `CString` is only valid as long
/// as the `CString` is alive.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust,ignore
/// let c_str = CString::new("foo").unwrap().as_ptr();
/// unsafe {
/// call_some_ffi_func(c_str);
/// }
/// ```
/// Here `c_str` point to a freed address. The correct use would be:
/// ```rust,ignore
/// let c_str = CString::new("foo").unwrap();
/// unsafe {
/// call_some_ffi_func(c_str.as_ptr());
/// }
/// ```
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pub TEMPORARY_CSTRING_AS_PTR,
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correctness,
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"getting the inner pointer of a temporary `CString`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for use of `.iter().nth()` (and the related
/// `.iter_mut().nth()`) on standard library types with O(1) element access.
///
/// **Why is this bad?** `.get()` and `.get_mut()` are more efficient and more
/// readable.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let some_vec = vec![0, 1, 2, 3];
/// let bad_vec = some_vec.iter().nth(3);
/// let bad_slice = &some_vec[..].iter().nth(3);
/// ```
/// The correct use would be:
/// ```rust
/// let some_vec = vec![0, 1, 2, 3];
/// let bad_vec = some_vec.get(3);
/// let bad_slice = &some_vec[..].get(3);
/// ```
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pub ITER_NTH,
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perf,
"using `.iter().nth()` on a standard library type with O(1) element access"
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}
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declare_clippy_lint! {
/// **What it does:** Checks for use of `.skip(x).next()` on iterators.
///
/// **Why is this bad?** `.nth(x)` is cleaner
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let some_vec = vec![0, 1, 2, 3];
/// let bad_vec = some_vec.iter().skip(3).next();
/// let bad_slice = &some_vec[..].iter().skip(3).next();
/// ```
/// The correct use would be:
/// ```rust
/// let some_vec = vec![0, 1, 2, 3];
/// let bad_vec = some_vec.iter().nth(3);
/// let bad_slice = &some_vec[..].iter().nth(3);
/// ```
pub ITER_SKIP_NEXT,
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style,
"using `.skip(x).next()` on an iterator"
}
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declare_clippy_lint! {
/// **What it does:** Checks for use of `.get().unwrap()` (or
/// `.get_mut().unwrap`) on a standard library type which implements `Index`
///
/// **Why is this bad?** Using the Index trait (`[]`) is more clear and more
/// concise.
///
/// **Known problems:** Not a replacement for error handling: Using either
/// `.unwrap()` or the Index trait (`[]`) carries the risk of causing a `panic`
/// if the value being accessed is `None`. If the use of `.get().unwrap()` is a
/// temporary placeholder for dealing with the `Option` type, then this does
/// not mitigate the need for error handling. If there is a chance that `.get()`
/// will be `None` in your program, then it is advisable that the `None` case
/// is handled in a future refactor instead of using `.unwrap()` or the Index
/// trait.
///
/// **Example:**
/// ```rust
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/// let mut some_vec = vec![0, 1, 2, 3];
/// let last = some_vec.get(3).unwrap();
/// *some_vec.get_mut(0).unwrap() = 1;
/// ```
/// The correct use would be:
/// ```rust
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/// let mut some_vec = vec![0, 1, 2, 3];
/// let last = some_vec[3];
/// some_vec[0] = 1;
/// ```
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pub GET_UNWRAP,
restriction,
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"using `.get().unwrap()` or `.get_mut().unwrap()` when using `[]` would work instead"
}
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declare_clippy_lint! {
/// **What it does:** Checks for the use of `.extend(s.chars())` where s is a
/// `&str` or `String`.
///
/// **Why is this bad?** `.push_str(s)` is clearer
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let abc = "abc";
/// let def = String::from("def");
/// let mut s = String::new();
/// s.extend(abc.chars());
/// s.extend(def.chars());
/// ```
/// The correct use would be:
/// ```rust
/// let abc = "abc";
/// let def = String::from("def");
/// let mut s = String::new();
/// s.push_str(abc);
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/// s.push_str(&def);
/// ```
pub STRING_EXTEND_CHARS,
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style,
"using `x.extend(s.chars())` where s is a `&str` or `String`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for the use of `.cloned().collect()` on slice to
/// create a `Vec`.
///
/// **Why is this bad?** `.to_vec()` is clearer
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let s = [1, 2, 3, 4, 5];
/// let s2: Vec<isize> = s[..].iter().cloned().collect();
/// ```
/// The better use would be:
/// ```rust
/// let s = [1, 2, 3, 4, 5];
/// let s2: Vec<isize> = s.to_vec();
/// ```
pub ITER_CLONED_COLLECT,
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style,
"using `.cloned().collect()` on slice to create a `Vec`"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.chars().last()` or
/// `.chars().next_back()` on a `str` to check if it ends with a given char.
///
/// **Why is this bad?** Readability, this can be written more concisely as
/// `_.ends_with(_)`.
///
/// **Known problems:** None.
///
/// **Example:**
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/// ```ignore
/// name.chars().last() == Some('_') || name.chars().next_back() == Some('-')
/// ```
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pub CHARS_LAST_CMP,
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style,
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"using `.chars().last()` or `.chars().next_back()` to check if a string ends with a char"
}
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declare_clippy_lint! {
/// **What it does:** Checks for usage of `.as_ref()` or `.as_mut()` where the
/// types before and after the call are the same.
///
/// **Why is this bad?** The call is unnecessary.
///
/// **Known problems:** None.
///
/// **Example:**
/// ```rust
/// let x: &[i32] = &[1, 2, 3, 4, 5];
/// do_stuff(x.as_ref());
/// ```
/// The correct use would be:
/// ```rust
/// let x: &[i32] = &[1, 2, 3, 4, 5];
/// do_stuff(x);
/// ```
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pub USELESS_ASREF,
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complexity,
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"using `as_ref` where the types before and after the call are the same"
}
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declare_clippy_lint! {
/// **What it does:** Checks for using `fold` when a more succinct alternative exists.
/// Specifically, this checks for `fold`s which could be replaced by `any`, `all`,
/// `sum` or `product`.
///
/// **Why is this bad?** Readability.
///
/// **Known problems:** False positive in pattern guards. Will be resolved once
/// non-lexical lifetimes are stable.
///
/// **Example:**
/// ```rust
/// let _ = (0..3).fold(false, |acc, x| acc || x > 2);
/// ```
/// This could be written as:
/// ```rust
/// let _ = (0..3).any(|x| x > 2);
/// ```
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pub UNNECESSARY_FOLD,
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style,
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"using `fold` when a more succinct alternative exists"
}
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declare_clippy_lint! {
/// **What it does:** Checks for `filter_map` calls which could be replaced by `filter` or `map`.
/// More specifically it checks if the closure provided is only performing one of the
/// filter or map operations and suggests the appropriate option.
///
/// **Why is this bad?** Complexity. The intent is also clearer if only a single
/// operation is being performed.
///
/// **Known problems:** None
///
/// **Example:**
/// ```rust
/// let _ = (0..3).filter_map(|x| if x > 2 { Some(x) } else { None });
/// ```
/// As there is no transformation of the argument this could be written as:
/// ```rust
/// let _ = (0..3).filter(|&x| x > 2);
/// ```
///
/// ```rust
/// let _ = (0..4).filter_map(i32::checked_abs);
/// ```
/// As there is no conditional check on the argument this could be written as:
/// ```rust
/// let _ = (0..4).map(i32::checked_abs);
/// ```
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pub UNNECESSARY_FILTER_MAP,
complexity,
"using `filter_map` when a more succinct alternative exists"
}
declare_clippy_lint! {
/// **What it does:** Checks for `into_iter` calls on types which should be replaced by `iter` or
/// `iter_mut`.
///
/// **Why is this bad?** Arrays and `PathBuf` do not yet have an `into_iter` method which move out
/// their content into an iterator. Auto-referencing resolves the `into_iter` call to its reference
/// instead, like `<&[T; N] as IntoIterator>::into_iter`, which just iterates over item references
/// like calling `iter` would. Furthermore, when the standard library actually
/// [implements the `into_iter` method][25725] which moves the content out of the array, the
/// original use of `into_iter` got inferred with the wrong type and the code will be broken.
///
/// **Known problems:** None
///
/// **Example:**
///
/// ```rust
/// let _ = [1, 2, 3].into_iter().map(|x| *x).collect::<Vec<u32>>();
/// ```
///
/// [25725]: https://github.com/rust-lang/rust/issues/25725
pub INTO_ITER_ON_ARRAY,
correctness,
"using `.into_iter()` on an array"
}
declare_clippy_lint! {
/// **What it does:** Checks for `into_iter` calls on references which should be replaced by `iter`
/// or `iter_mut`.
///
/// **Why is this bad?** Readability. Calling `into_iter` on a reference will not move out its
/// content into the resulting iterator, which is confusing. It is better just call `iter` or
/// `iter_mut` directly.
///
/// **Known problems:** None
///
/// **Example:**
///
/// ```rust
/// let _ = (&vec![3, 4, 5]).into_iter();
/// ```
pub INTO_ITER_ON_REF,
style,
"using `.into_iter()` on a reference"
}
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declare_lint_pass!(Methods => [
OPTION_UNWRAP_USED,
RESULT_UNWRAP_USED,
SHOULD_IMPLEMENT_TRAIT,
WRONG_SELF_CONVENTION,
WRONG_PUB_SELF_CONVENTION,
OK_EXPECT,
OPTION_MAP_UNWRAP_OR,
OPTION_MAP_UNWRAP_OR_ELSE,
RESULT_MAP_UNWRAP_OR_ELSE,
OPTION_MAP_OR_NONE,
OR_FUN_CALL,
EXPECT_FUN_CALL,
CHARS_NEXT_CMP,
CHARS_LAST_CMP,
CLONE_ON_COPY,
CLONE_ON_REF_PTR,
CLONE_DOUBLE_REF,
NEW_RET_NO_SELF,
SINGLE_CHAR_PATTERN,
SEARCH_IS_SOME,
TEMPORARY_CSTRING_AS_PTR,
FILTER_NEXT,
FILTER_MAP,
MAP_FLATTEN,
ITER_NTH,
ITER_SKIP_NEXT,
GET_UNWRAP,
STRING_EXTEND_CHARS,
ITER_CLONED_COLLECT,
USELESS_ASREF,
UNNECESSARY_FOLD,
UNNECESSARY_FILTER_MAP,
INTO_ITER_ON_ARRAY,
INTO_ITER_ON_REF,
]);
impl<'a, 'tcx> LateLintPass<'a, 'tcx> for Methods {
#[allow(clippy::cognitive_complexity)]
fn check_expr(&mut self, cx: &LateContext<'a, 'tcx>, expr: &'tcx hir::Expr) {
if in_macro(expr.span) {
return;
}
let (method_names, arg_lists) = method_calls(expr, 2);
let method_names: Vec<LocalInternedString> = method_names.iter().map(|s| s.as_str()).collect();
let method_names: Vec<&str> = method_names.iter().map(std::convert::AsRef::as_ref).collect();
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match method_names.as_slice() {
["unwrap", "get"] => lint_get_unwrap(cx, expr, arg_lists[1], false),
["unwrap", "get_mut"] => lint_get_unwrap(cx, expr, arg_lists[1], true),
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["unwrap", ..] => lint_unwrap(cx, expr, arg_lists[0]),
["expect", "ok"] => lint_ok_expect(cx, expr, arg_lists[1]),
["unwrap_or", "map"] => option_map_unwrap_or::lint(cx, expr, arg_lists[1], arg_lists[0]),
["unwrap_or_else", "map"] => lint_map_unwrap_or_else(cx, expr, arg_lists[1], arg_lists[0]),
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["map_or", ..] => lint_map_or_none(cx, expr, arg_lists[0]),
["next", "filter"] => lint_filter_next(cx, expr, arg_lists[1]),
["map", "filter"] => lint_filter_map(cx, expr, arg_lists[1], arg_lists[0]),
["map", "filter_map"] => lint_filter_map_map(cx, expr, arg_lists[1], arg_lists[0]),
["flat_map", "filter"] => lint_filter_flat_map(cx, expr, arg_lists[1], arg_lists[0]),
["flat_map", "filter_map"] => lint_filter_map_flat_map(cx, expr, arg_lists[1], arg_lists[0]),
["flatten", "map"] => lint_map_flatten(cx, expr, arg_lists[1]),
["is_some", "find"] => lint_search_is_some(cx, expr, "find", arg_lists[1], arg_lists[0]),
["is_some", "position"] => lint_search_is_some(cx, expr, "position", arg_lists[1], arg_lists[0]),
["is_some", "rposition"] => lint_search_is_some(cx, expr, "rposition", arg_lists[1], arg_lists[0]),
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["extend", ..] => lint_extend(cx, expr, arg_lists[0]),
["as_ptr", "unwrap"] => lint_cstring_as_ptr(cx, expr, &arg_lists[1][0], &arg_lists[0][0]),
["nth", "iter"] => lint_iter_nth(cx, expr, arg_lists[1], false),
["nth", "iter_mut"] => lint_iter_nth(cx, expr, arg_lists[1], true),
["next", "skip"] => lint_iter_skip_next(cx, expr),
["collect", "cloned"] => lint_iter_cloned_collect(cx, expr, arg_lists[1]),
["as_ref"] => lint_asref(cx, expr, "as_ref", arg_lists[0]),
["as_mut"] => lint_asref(cx, expr, "as_mut", arg_lists[0]),
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["fold", ..] => lint_unnecessary_fold(cx, expr, arg_lists[0]),
["filter_map", ..] => unnecessary_filter_map::lint(cx, expr, arg_lists[0]),
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_ => {},
}
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match expr.node {
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hir::ExprKind::MethodCall(ref method_call, ref method_span, ref args) => {
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lint_or_fun_call(cx, expr, *method_span, &method_call.ident.as_str(), args);
lint_expect_fun_call(cx, expr, *method_span, &method_call.ident.as_str(), args);
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let self_ty = cx.tables.expr_ty_adjusted(&args[0]);
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if args.len() == 1 && method_call.ident.name == "clone" {
lint_clone_on_copy(cx, expr, &args[0], self_ty);
lint_clone_on_ref_ptr(cx, expr, &args[0]);
}
match self_ty.sty {
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ty::Ref(_, ty, _) if ty.sty == ty::Str => {
for &(method, pos) in &PATTERN_METHODS {
if method_call.ident.name == method && args.len() > pos {
lint_single_char_pattern(cx, expr, &args[pos]);
}
}
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},
ty::Ref(..) if method_call.ident.name == "into_iter" => {
lint_into_iter(cx, expr, self_ty, *method_span);
},
_ => (),
}
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},
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hir::ExprKind::Binary(op, ref lhs, ref rhs)
if op.node == hir::BinOpKind::Eq || op.node == hir::BinOpKind::Ne =>
{
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let mut info = BinaryExprInfo {
expr,
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chain: lhs,
other: rhs,
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eq: op.node == hir::BinOpKind::Eq,
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};
lint_binary_expr_with_method_call(cx, &mut info);
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}
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_ => (),
}
}
fn check_impl_item(&mut self, cx: &LateContext<'a, 'tcx>, implitem: &'tcx hir::ImplItem) {
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if in_external_macro(cx.sess(), implitem.span) {
return;
}
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let name = implitem.ident.name;
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let parent = cx.tcx.hir().get_parent_item(implitem.hir_id);
let item = cx.tcx.hir().expect_item_by_hir_id(parent);
let def_id = cx.tcx.hir().local_def_id_from_hir_id(item.hir_id);
let ty = cx.tcx.type_of(def_id);
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if_chain! {
if let hir::ImplItemKind::Method(ref sig, id) = implitem.node;
if let Some(first_arg_ty) = sig.decl.inputs.get(0);
if let Some(first_arg) = iter_input_pats(&sig.decl, cx.tcx.hir().body(id)).next();
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if let hir::ItemKind::Impl(_, _, _, _, None, ref self_ty, _) = item.node;
then {
if cx.access_levels.is_exported(implitem.hir_id) {
// check missing trait implementations
for &(method_name, n_args, self_kind, out_type, trait_name) in &TRAIT_METHODS {
if name == method_name &&
sig.decl.inputs.len() == n_args &&
out_type.matches(cx, &sig.decl.output) &&
self_kind.matches(cx, first_arg_ty, first_arg, self_ty, false, &implitem.generics) {
span_lint(cx, SHOULD_IMPLEMENT_TRAIT, implitem.span, &format!(
"defining a method called `{}` on this type; consider implementing \
the `{}` trait or choosing a less ambiguous name", name, trait_name));
}
}
}
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// check conventions w.r.t. conversion method names and predicates
let is_copy = is_copy(cx, ty);
for &(ref conv, self_kinds) in &CONVENTIONS {
if conv.check(&name.as_str()) {
if !self_kinds
.iter()
.any(|k| k.matches(cx, first_arg_ty, first_arg, self_ty, is_copy, &implitem.generics)) {
let lint = if item.vis.node.is_pub() {
WRONG_PUB_SELF_CONVENTION
} else {
WRONG_SELF_CONVENTION
};
span_lint(cx,
lint,
first_arg.pat.span,
&format!("methods called `{}` usually take {}; consider choosing a less \
ambiguous name",
conv,
&self_kinds.iter()
.map(|k| k.description())
.collect::<Vec<_>>()
.join(" or ")));
}
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// Only check the first convention to match (CONVENTIONS should be listed from most to least
// specific)
break;
}
}
}
}
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if let hir::ImplItemKind::Method(_, _) = implitem.node {
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let ret_ty = return_ty(cx, implitem.hir_id);
// walk the return type and check for Self (this does not check associated types)
for inner_type in ret_ty.walk() {
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if same_tys(cx, ty, inner_type) {
return;
}
}
// if return type is impl trait, check the associated types
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if let ty::Opaque(def_id, _) = ret_ty.sty {
// one of the associated types must be Self
for predicate in &cx.tcx.predicates_of(def_id).predicates {
match predicate {
(Predicate::Projection(poly_projection_predicate), _) => {
let binder = poly_projection_predicate.ty();
let associated_type = binder.skip_binder();
let associated_type_is_self_type = same_tys(cx, ty, associated_type);
// if the associated type is self, early return and do not trigger lint
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if associated_type_is_self_type {
return;
}
},
(_, _) => {},
}
}
}
if name == "new" && !same_tys(cx, ret_ty, ty) {
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span_lint(
cx,
NEW_RET_NO_SELF,
implitem.span,
"methods called `new` usually return `Self`",
);
}
}
}
}
/// Checks for the `OR_FUN_CALL` lint.
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#[allow(clippy::too_many_lines)]
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fn lint_or_fun_call(cx: &LateContext<'_, '_>, expr: &hir::Expr, method_span: Span, name: &str, args: &[hir::Expr]) {
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/// Checks for `unwrap_or(T::new())` or `unwrap_or(T::default())`.
fn check_unwrap_or_default(
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cx: &LateContext<'_, '_>,
name: &str,
fun: &hir::Expr,
self_expr: &hir::Expr,
arg: &hir::Expr,
or_has_args: bool,
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span: Span,
) -> bool {
if or_has_args {
return false;
}
if name == "unwrap_or" {
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if let hir::ExprKind::Path(ref qpath) = fun.node {
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let path = &*last_path_segment(qpath).ident.as_str();
if ["default", "new"].contains(&path) {
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let arg_ty = cx.tables.expr_ty(arg);
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let default_trait_id = if let Some(default_trait_id) = get_trait_def_id(cx, &paths::DEFAULT_TRAIT) {
default_trait_id
} else {
return false;
};
if implements_trait(cx, arg_ty, default_trait_id, &[]) {
let mut applicability = Applicability::MachineApplicable;
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span_lint_and_sugg(
cx,
OR_FUN_CALL,
span,
&format!("use of `{}` followed by a call to `{}`", name, path),
"try this",
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format!(
"{}.unwrap_or_default()",
snippet_with_applicability(cx, self_expr.span, "_", &mut applicability)
),
applicability,
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);
return true;
}
}
}
}
false
}
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/// Checks for `*or(foo())`.
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#[allow(clippy::too_many_arguments)]
fn check_general_case(
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cx: &LateContext<'_, '_>,
name: &str,
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method_span: Span,
fun_span: Span,
self_expr: &hir::Expr,
arg: &hir::Expr,
or_has_args: bool,
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span: Span,
) {
// (path, fn_has_argument, methods, suffix)
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let know_types: &[(&[_], _, &[_], _)] = &[
(&paths::BTREEMAP_ENTRY, false, &["or_insert"], "with"),
(&paths::HASHMAP_ENTRY, false, &["or_insert"], "with"),
(&paths::OPTION, false, &["map_or", "ok_or", "or", "unwrap_or"], "else"),
(&paths::RESULT, true, &["or", "unwrap_or"], "else"),
];
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// early check if the name is one we care about
if know_types.iter().all(|k| !k.2.contains(&name)) {
return;
}
// ignore enum and struct constructors
if is_ctor_function(cx, &arg) {
return;
}
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// don't lint for constant values
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let owner_def = cx.tcx.hir().get_parent_did_by_hir_id(arg.hir_id);
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let promotable = cx.tcx.rvalue_promotable_map(owner_def).contains(&arg.hir_id.local_id);
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if promotable {
return;
}
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let self_ty = cx.tables.expr_ty(self_expr);
let (fn_has_arguments, poss, suffix) = if let Some(&(_, fn_has_arguments, poss, suffix)) =
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know_types.iter().find(|&&i| match_type(cx, self_ty, i.0))
{
(fn_has_arguments, poss, suffix)
} else {
return;
};
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if !poss.contains(&name) {
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return;
}
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let sugg: Cow<'_, _> = match (fn_has_arguments, !or_has_args) {
(true, _) => format!("|_| {}", snippet_with_macro_callsite(cx, arg.span, "..")).into(),
(false, false) => format!("|| {}", snippet_with_macro_callsite(cx, arg.span, "..")).into(),
(false, true) => snippet_with_macro_callsite(cx, fun_span, ".."),
};
let span_replace_word = method_span.with_hi(span.hi());
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span_lint_and_sugg(
cx,
OR_FUN_CALL,
span_replace_word,
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&format!("use of `{}` followed by a function call", name),
"try this",
format!("{}_{}({})", name, suffix, sugg),
Applicability::HasPlaceholders,
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);
}
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if args.len() == 2 {
match args[1].node {
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hir::ExprKind::Call(ref fun, ref or_args) => {
let or_has_args = !or_args.is_empty();
if !check_unwrap_or_default(cx, name, fun, &args[0], &args[1], or_has_args, expr.span) {
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check_general_case(
cx,
name,
method_span,
fun.span,
&args[0],
&args[1],
or_has_args,
expr.span,
);
}
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},
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hir::ExprKind::MethodCall(_, span, ref or_args) => check_general_case(
cx,
name,
method_span,
span,
&args[0],
&args[1],
!or_args.is_empty(),
expr.span,
),
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_ => {},
}
}
}
/// Checks for the `EXPECT_FUN_CALL` lint.
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#[allow(clippy::too_many_lines)]
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fn lint_expect_fun_call(cx: &LateContext<'_, '_>, expr: &hir::Expr, method_span: Span, name: &str, args: &[hir::Expr]) {
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// Strip `&`, `as_ref()` and `as_str()` off `arg` until we're left with either a `String` or
// `&str`
fn get_arg_root<'a>(cx: &LateContext<'_, '_>, arg: &'a hir::Expr) -> &'a hir::Expr {
let mut arg_root = arg;
loop {
arg_root = match &arg_root.node {
hir::ExprKind::AddrOf(_, expr) => expr,
hir::ExprKind::MethodCall(method_name, _, call_args) => {
if call_args.len() == 1
&& (method_name.ident.name == "as_str" || method_name.ident.name == "as_ref")
&& {
let arg_type = cx.tables.expr_ty(&call_args[0]);
let base_type = walk_ptrs_ty(arg_type);
base_type.sty == ty::Str || match_type(cx, base_type, &paths::STRING)
}
{
&call_args[0]
} else {
break;
}
},
_ => break,
};
}
arg_root
}
// Only `&'static str` or `String` can be used directly in the `panic!`. Other types should be
// converted to string.
fn requires_to_string(cx: &LateContext<'_, '_>, arg: &hir::Expr) -> bool {
let arg_ty = cx.tables.expr_ty(arg);
if match_type(cx, arg_ty, &paths::STRING) {
return false;
}
if let ty::Ref(ty::ReStatic, ty, ..) = arg_ty.sty {
if ty.sty == ty::Str {
return false;
}
};
true
}
fn generate_format_arg_snippet(
cx: &LateContext<'_, '_>,
a: &hir::Expr,
applicability: &mut Applicability,
) -> Vec<String> {
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if let hir::ExprKind::AddrOf(_, ref format_arg) = a.node {
if let hir::ExprKind::Match(ref format_arg_expr, _, _) = format_arg.node {
if let hir::ExprKind::Tup(ref format_arg_expr_tup) = format_arg_expr.node {
return format_arg_expr_tup
.iter()
.map(|a| snippet_with_applicability(cx, a.span, "..", applicability).into_owned())
.collect();
}
}
};
unreachable!()
}
fn is_call(node: &hir::ExprKind) -> bool {
match node {
hir::ExprKind::AddrOf(_, expr) => {
is_call(&expr.node)
},
hir::ExprKind::Call(..)
| hir::ExprKind::MethodCall(..)
// These variants are debatable or require further examination
| hir::ExprKind::If(..)
| hir::ExprKind::Match(..)
| hir::ExprKind::Block{ .. } => true,
_ => false,
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}
}
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if args.len() != 2 || name != "expect" || !is_call(&args[1].node) {
return;
}
let receiver_type = cx.tables.expr_ty(&args[0]);
let closure_args = if match_type(cx, receiver_type, &paths::OPTION) {
"||"
} else if match_type(cx, receiver_type, &paths::RESULT) {
"|_|"
} else {
return;
};
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let arg_root = get_arg_root(cx, &args[1]);
let span_replace_word = method_span.with_hi(expr.span.hi());
let mut applicability = Applicability::MachineApplicable;
//Special handling for `format!` as arg_root
if let hir::ExprKind::Call(ref inner_fun, ref inner_args) = arg_root.node {
if is_expn_of(inner_fun.span, "format").is_some() && inner_args.len() == 1 {
if let hir::ExprKind::Call(_, format_args) = &inner_args[0].node {
let fmt_spec = &format_args[0];
let fmt_args = &format_args[1];
let mut args = vec![snippet(cx, fmt_spec.span, "..").into_owned()];
args.extend(generate_format_arg_snippet(cx, fmt_args, &mut applicability));
let sugg = args.join(", ");
span_lint_and_sugg(
cx,
EXPECT_FUN_CALL,
span_replace_word,
&format!("use of `{}` followed by a function call", name),
"try this",
format!("unwrap_or_else({} panic!({}))", closure_args, sugg),
applicability,
);
return;
}
}
}
let mut arg_root_snippet: Cow<'_, _> = snippet_with_applicability(cx, arg_root.span, "..", &mut applicability);
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if requires_to_string(cx, arg_root) {
arg_root_snippet.to_mut().push_str(".to_string()");
}
span_lint_and_sugg(
cx,
EXPECT_FUN_CALL,
span_replace_word,
&format!("use of `{}` followed by a function call", name),
"try this",
format!("unwrap_or_else({} {{ panic!({}) }})", closure_args, arg_root_snippet),
applicability,
);
}
/// Checks for the `CLONE_ON_COPY` lint.
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fn lint_clone_on_copy(cx: &LateContext<'_, '_>, expr: &hir::Expr, arg: &hir::Expr, arg_ty: Ty<'_>) {
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let ty = cx.tables.expr_ty(expr);
if let ty::Ref(_, inner, _) = arg_ty.sty {
if let ty::Ref(_, innermost, _) = inner.sty {
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span_lint_and_then(
cx,
CLONE_DOUBLE_REF,
expr.span,
"using `clone` on a double-reference; \
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this will copy the reference instead of cloning the inner type",
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|db| {
if let Some(snip) = sugg::Sugg::hir_opt(cx, arg) {
let mut ty = innermost;
let mut n = 0;
while let ty::Ref(_, inner, _) = ty.sty {
ty = inner;
n += 1;
}
let refs: String = iter::repeat('&').take(n + 1).collect();
let derefs: String = iter::repeat('*').take(n).collect();
let explicit = format!("{}{}::clone({})", refs, ty, snip);
db.span_suggestion(
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expr.span,
"try dereferencing it",
format!("{}({}{}).clone()", refs, derefs, snip.deref()),
Applicability::MaybeIncorrect,
);
db.span_suggestion(
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expr.span,
"or try being explicit about what type to clone",
explicit,
Applicability::MaybeIncorrect,
);
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}
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},
);
return; // don't report clone_on_copy
}
}
if is_copy(cx, ty) {
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let snip;
if let Some(snippet) = sugg::Sugg::hir_opt(cx, arg) {
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// x.clone() might have dereferenced x, possibly through Deref impls
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if cx.tables.expr_ty(arg) == ty {
snip = Some(("try removing the `clone` call", format!("{}", snippet)));
} else {
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let parent = cx.tcx.hir().get_parent_node_by_hir_id(expr.hir_id);
match cx.tcx.hir().get_by_hir_id(parent) {
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hir::Node::Expr(parent) => match parent.node {
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// &*x is a nop, &x.clone() is not
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hir::ExprKind::AddrOf(..) |
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// (*x).func() is useless, x.clone().func() can work in case func borrows mutably
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hir::ExprKind::MethodCall(..) => return,
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_ => {},
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},
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hir::Node::Stmt(stmt) => {
if let hir::StmtKind::Local(ref loc) = stmt.node {
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if let hir::PatKind::Ref(..) = loc.pat.node {
// let ref y = *x borrows x, let ref y = x.clone() does not
return;
}
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}
},
_ => {},
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}
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let deref_count = cx
.tables
.expr_adjustments(arg)
.iter()
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.filter(|adj| {
if let ty::adjustment::Adjust::Deref(_) = adj.kind {
true
} else {
false
}
})
.count();
let derefs: String = iter::repeat('*').take(deref_count).collect();
snip = Some(("try dereferencing it", format!("{}{}", derefs, snippet)));
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}
} else {
snip = None;
}
span_lint_and_then(cx, CLONE_ON_COPY, expr.span, "using `clone` on a `Copy` type", |db| {
if let Some((text, snip)) = snip {
db.span_suggestion(expr.span, text, snip, Applicability::Unspecified);
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}
});
}
}
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fn lint_clone_on_ref_ptr(cx: &LateContext<'_, '_>, expr: &hir::Expr, arg: &hir::Expr) {
let obj_ty = walk_ptrs_ty(cx.tables.expr_ty(arg));
if let ty::Adt(_, subst) = obj_ty.sty {
let caller_type = if match_type(cx, obj_ty, &paths::RC) {
"Rc"
} else if match_type(cx, obj_ty, &paths::ARC) {
"Arc"
} else if match_type(cx, obj_ty, &paths::WEAK_RC) || match_type(cx, obj_ty, &paths::WEAK_ARC) {
"Weak"
} else {
return;
};
span_lint_and_sugg(
cx,
CLONE_ON_REF_PTR,
expr.span,
"using '.clone()' on a ref-counted pointer",
"try this",
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format!(
"{}::<{}>::clone(&{})",
caller_type,
subst.type_at(0),
snippet(cx, arg.span, "_")
),
Applicability::Unspecified, // Sometimes unnecessary ::<_> after Rc/Arc/Weak
);
}
}
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fn lint_string_extend(cx: &LateContext<'_, '_>, expr: &hir::Expr, args: &[hir::Expr]) {
let arg = &args[1];
if let Some(arglists) = method_chain_args(arg, &["chars"]) {
let target = &arglists[0][0];
let self_ty = walk_ptrs_ty(cx.tables.expr_ty(target));
let ref_str = if self_ty.sty == ty::Str {
""
} else if match_type(cx, self_ty, &paths::STRING) {
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"&"
} else {
return;
};
let mut applicability = Applicability::MachineApplicable;
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span_lint_and_sugg(
cx,
STRING_EXTEND_CHARS,
expr.span,
"calling `.extend(_.chars())`",
"try this",
format!(
"{}.push_str({}{})",
snippet_with_applicability(cx, args[0].span, "_", &mut applicability),
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ref_str,
snippet_with_applicability(cx, target.span, "_", &mut applicability)
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),
applicability,
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);
}
}
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fn lint_extend(cx: &LateContext<'_, '_>, expr: &hir::Expr, args: &[hir::Expr]) {
let obj_ty = walk_ptrs_ty(cx.tables.expr_ty(&args[0]));
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if match_type(cx, obj_ty, &paths::STRING) {
lint_string_extend(cx, expr, args);
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}
}
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fn lint_cstring_as_ptr(cx: &LateContext<'_, '_>, expr: &hir::Expr, new: &hir::Expr, unwrap: &hir::Expr) {
if_chain! {
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if let hir::ExprKind::Call(ref fun, ref args) = new.node;
if args.len() == 1;
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if let hir::ExprKind::Path(ref path) = fun.node;
if let Def::Method(did) = cx.tables.qpath_def(path, fun.hir_id);
if cx.match_def_path(did, &paths::CSTRING_NEW);
then {
span_lint_and_then(
cx,
TEMPORARY_CSTRING_AS_PTR,
expr.span,
"you are getting the inner pointer of a temporary `CString`",
|db| {
db.note("that pointer will be invalid outside this expression");
db.span_help(unwrap.span, "assign the `CString` to a variable to extend its lifetime");
});
}
}
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}
fn lint_iter_cloned_collect<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &hir::Expr, iter_args: &'tcx [hir::Expr]) {
if match_type(cx, cx.tables.expr_ty(expr), &paths::VEC) {
if let Some(slice) = derefs_to_slice(cx, &iter_args[0], cx.tables.expr_ty(&iter_args[0])) {
if let Some(to_replace) = expr.span.trim_start(slice.span.source_callsite()) {
span_lint_and_sugg(
cx,
ITER_CLONED_COLLECT,
to_replace,
"called `iter().cloned().collect()` on a slice to create a `Vec`. Calling `to_vec()` is both faster and \
more readable",
"try",
".to_vec()".to_string(),
Applicability::MachineApplicable,
);
}
}
}
}
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fn lint_unnecessary_fold(cx: &LateContext<'_, '_>, expr: &hir::Expr, fold_args: &[hir::Expr]) {
fn check_fold_with_op(
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cx: &LateContext<'_, '_>,
fold_args: &[hir::Expr],
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op: hir::BinOpKind,
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replacement_method_name: &str,
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replacement_has_args: bool,
) {
if_chain! {
// Extract the body of the closure passed to fold
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if let hir::ExprKind::Closure(_, _, body_id, _, _) = fold_args[2].node;
let closure_body = cx.tcx.hir().body(body_id);
let closure_expr = remove_blocks(&closure_body.value);
// Check if the closure body is of the form `acc <op> some_expr(x)`
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if let hir::ExprKind::Binary(ref bin_op, ref left_expr, ref right_expr) = closure_expr.node;
if bin_op.node == op;
// Extract the names of the two arguments to the closure
if let Some(first_arg_ident) = get_arg_name(&closure_body.arguments[0].pat);
if let Some(second_arg_ident) = get_arg_name(&closure_body.arguments[1].pat);
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if match_var(&*left_expr, first_arg_ident);
if replacement_has_args || match_var(&*right_expr, second_arg_ident);
then {
// Span containing `.fold(...)`
let next_point = cx.sess().source_map().next_point(fold_args[0].span);
let fold_span = next_point.with_hi(fold_args[2].span.hi() + BytePos(1));
let mut applicability = Applicability::MachineApplicable;
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let sugg = if replacement_has_args {
format!(
".{replacement}(|{s}| {r})",
replacement = replacement_method_name,
s = second_arg_ident,
r = snippet_with_applicability(cx, right_expr.span, "EXPR", &mut applicability),
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)
} else {
format!(
".{replacement}()",
replacement = replacement_method_name,
)
};
span_lint_and_sugg(
cx,
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UNNECESSARY_FOLD,
fold_span,
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// TODO #2371 don't suggest e.g., .any(|x| f(x)) if we can suggest .any(f)
"this `.fold` can be written more succinctly using another method",
"try",
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sugg,
applicability,
);
}
}
}
// Check that this is a call to Iterator::fold rather than just some function called fold
if !match_trait_method(cx, expr, &paths::ITERATOR) {
return;
}
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assert!(
fold_args.len() == 3,
"Expected fold_args to have three entries - the receiver, the initial value and the closure"
);
// Check if the first argument to .fold is a suitable literal
match fold_args[1].node {
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hir::ExprKind::Lit(ref lit) => match lit.node {
ast::LitKind::Bool(false) => check_fold_with_op(cx, fold_args, hir::BinOpKind::Or, "any", true),
ast::LitKind::Bool(true) => check_fold_with_op(cx, fold_args, hir::BinOpKind::And, "all", true),
ast::LitKind::Int(0, _) => check_fold_with_op(cx, fold_args, hir::BinOpKind::Add, "sum", false),
ast::LitKind::Int(1, _) => check_fold_with_op(cx, fold_args, hir::BinOpKind::Mul, "product", false),
_ => return,
},
_ => return,
};
}
fn lint_iter_nth<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &hir::Expr, iter_args: &'tcx [hir::Expr], is_mut: bool) {
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let mut_str = if is_mut { "_mut" } else { "" };
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let caller_type = if derefs_to_slice(cx, &iter_args[0], cx.tables.expr_ty(&iter_args[0])).is_some() {
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"slice"
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} else if match_type(cx, cx.tables.expr_ty(&iter_args[0]), &paths::VEC) {
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"Vec"
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} else if match_type(cx, cx.tables.expr_ty(&iter_args[0]), &paths::VEC_DEQUE) {
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"VecDeque"
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} else {
return; // caller is not a type that we want to lint
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};
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span_lint(
cx,
ITER_NTH,
expr.span,
&format!(
"called `.iter{0}().nth()` on a {1}. Calling `.get{0}()` is both faster and more readable",
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mut_str, caller_type
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),
);
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}
fn lint_get_unwrap<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &hir::Expr, get_args: &'tcx [hir::Expr], is_mut: bool) {
// Note: we don't want to lint `get_mut().unwrap` for HashMap or BTreeMap,
// because they do not implement `IndexMut`
let mut applicability = Applicability::MachineApplicable;
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let expr_ty = cx.tables.expr_ty(&get_args[0]);
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let get_args_str = if get_args.len() > 1 {
snippet_with_applicability(cx, get_args[1].span, "_", &mut applicability)
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} else {
return; // not linting on a .get().unwrap() chain or variant
};
let mut needs_ref;
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let caller_type = if derefs_to_slice(cx, &get_args[0], expr_ty).is_some() {
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needs_ref = get_args_str.parse::<usize>().is_ok();
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"slice"
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} else if match_type(cx, expr_ty, &paths::VEC) {
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needs_ref = get_args_str.parse::<usize>().is_ok();
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"Vec"
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} else if match_type(cx, expr_ty, &paths::VEC_DEQUE) {
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needs_ref = get_args_str.parse::<usize>().is_ok();
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"VecDeque"
} else if !is_mut && match_type(cx, expr_ty, &paths::HASHMAP) {
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needs_ref = true;
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"HashMap"
} else if !is_mut && match_type(cx, expr_ty, &paths::BTREEMAP) {
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needs_ref = true;
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"BTreeMap"
} else {
return; // caller is not a type that we want to lint
};
let mut span = expr.span;
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// Handle the case where the result is immediately dereferenced
// by not requiring ref and pulling the dereference into the
// suggestion.
if_chain! {
if needs_ref;
if let Some(parent) = get_parent_expr(cx, expr);
if let hir::ExprKind::Unary(hir::UnOp::UnDeref, _) = parent.node;
then {
needs_ref = false;
span = parent.span;
}
}
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let mut_str = if is_mut { "_mut" } else { "" };
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let borrow_str = if !needs_ref {
""
} else if is_mut {
"&mut "
} else {
"&"
};
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span_lint_and_sugg(
cx,
GET_UNWRAP,
span,
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&format!(
"called `.get{0}().unwrap()` on a {1}. Using `[]` is more clear and more concise",
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mut_str, caller_type
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),
"try this",
format!(
"{}{}[{}]",
borrow_str,
snippet_with_applicability(cx, get_args[0].span, "_", &mut applicability),
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get_args_str
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),
applicability,
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);
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}
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fn lint_iter_skip_next(cx: &LateContext<'_, '_>, expr: &hir::Expr) {
// lint if caller of skip is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
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span_lint(
cx,
ITER_SKIP_NEXT,
expr.span,
"called `skip(x).next()` on an iterator. This is more succinctly expressed by calling `nth(x)`",
);
}
}
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fn derefs_to_slice<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
ty: Ty<'tcx>,
) -> Option<&'tcx hir::Expr> {
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fn may_slice(cx: &LateContext<'_, '_>, ty: Ty<'_>) -> bool {
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match ty.sty {
ty::Slice(_) => true,
ty::Adt(def, _) if def.is_box() => may_slice(cx, ty.boxed_ty()),
ty::Adt(..) => match_type(cx, ty, &paths::VEC),
ty::Array(_, size) => size.assert_usize(cx.tcx).expect("array length") < 32,
ty::Ref(_, inner, _) => may_slice(cx, inner),
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_ => false,
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}
}
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if let hir::ExprKind::MethodCall(ref path, _, ref args) = expr.node {
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if path.ident.name == "iter" && may_slice(cx, cx.tables.expr_ty(&args[0])) {
Some(&args[0])
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} else {
None
}
} else {
match ty.sty {
ty::Slice(_) => Some(expr),
ty::Adt(def, _) if def.is_box() && may_slice(cx, ty.boxed_ty()) => Some(expr),
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ty::Ref(_, inner, _) => {
if may_slice(cx, inner) {
Some(expr)
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} else {
None
}
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},
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_ => None,
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}
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}
}
/// lint use of `unwrap()` for `Option`s and `Result`s
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fn lint_unwrap(cx: &LateContext<'_, '_>, expr: &hir::Expr, unwrap_args: &[hir::Expr]) {
let obj_ty = walk_ptrs_ty(cx.tables.expr_ty(&unwrap_args[0]));
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let mess = if match_type(cx, obj_ty, &paths::OPTION) {
Some((OPTION_UNWRAP_USED, "an Option", "None"))
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} else if match_type(cx, obj_ty, &paths::RESULT) {
Some((RESULT_UNWRAP_USED, "a Result", "Err"))
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} else {
None
};
if let Some((lint, kind, none_value)) = mess {
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span_lint(
cx,
lint,
expr.span,
&format!(
"used unwrap() on {} value. If you don't want to handle the {} case gracefully, consider \
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using expect() to provide a better panic \
message",
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kind, none_value
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),
);
}
}
/// lint use of `ok().expect()` for `Result`s
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fn lint_ok_expect(cx: &LateContext<'_, '_>, expr: &hir::Expr, ok_args: &[hir::Expr]) {
// lint if the caller of `ok()` is a `Result`
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if match_type(cx, cx.tables.expr_ty(&ok_args[0]), &paths::RESULT) {
let result_type = cx.tables.expr_ty(&ok_args[0]);
if let Some(error_type) = get_error_type(cx, result_type) {
if has_debug_impl(error_type, cx) {
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span_lint(
cx,
OK_EXPECT,
expr.span,
"called `ok().expect()` on a Result value. You can call `expect` directly on the `Result`",
);
}
}
}
}
/// lint use of `map().flatten()` for `Iterators`
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fn lint_map_flatten<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &'tcx hir::Expr, map_args: &'tcx [hir::Expr]) {
// lint if caller of `.map().flatten()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
let msg = "called `map(..).flatten()` on an `Iterator`. \
This is more succinctly expressed by calling `.flat_map(..)`";
let self_snippet = snippet(cx, map_args[0].span, "..");
let func_snippet = snippet(cx, map_args[1].span, "..");
let hint = format!("{0}.flat_map({1})", self_snippet, func_snippet);
span_lint_and_then(cx, MAP_FLATTEN, expr.span, msg, |db| {
db.span_suggestion(
expr.span,
"try using flat_map instead",
hint,
Applicability::MachineApplicable,
);
});
}
}
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/// lint use of `map().unwrap_or_else()` for `Option`s and `Result`s
fn lint_map_unwrap_or_else<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
map_args: &'tcx [hir::Expr],
unwrap_args: &'tcx [hir::Expr],
) {
// lint if the caller of `map()` is an `Option`
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let is_option = match_type(cx, cx.tables.expr_ty(&map_args[0]), &paths::OPTION);
let is_result = match_type(cx, cx.tables.expr_ty(&map_args[0]), &paths::RESULT);
if is_option || is_result {
// lint message
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let msg = if is_option {
"called `map(f).unwrap_or_else(g)` on an Option value. This can be done more directly by calling \
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`map_or_else(g, f)` instead"
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} else {
"called `map(f).unwrap_or_else(g)` on a Result value. This can be done more directly by calling \
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`ok().map_or_else(g, f)` instead"
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};
// get snippets for args to map() and unwrap_or_else()
let map_snippet = snippet(cx, map_args[1].span, "..");
let unwrap_snippet = snippet(cx, unwrap_args[1].span, "..");
// lint, with note if neither arg is > 1 line and both map() and
// unwrap_or_else() have the same span
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let multiline = map_snippet.lines().count() > 1 || unwrap_snippet.lines().count() > 1;
let same_span = map_args[1].span.ctxt() == unwrap_args[1].span.ctxt();
if same_span && !multiline {
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span_note_and_lint(
cx,
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if is_option {
OPTION_MAP_UNWRAP_OR_ELSE
} else {
RESULT_MAP_UNWRAP_OR_ELSE
},
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expr.span,
msg,
expr.span,
&format!(
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"replace `map({0}).unwrap_or_else({1})` with `{2}map_or_else({1}, {0})`",
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map_snippet,
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unwrap_snippet,
if is_result { "ok()." } else { "" }
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),
);
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} else if same_span && multiline {
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span_lint(
cx,
if is_option {
OPTION_MAP_UNWRAP_OR_ELSE
} else {
RESULT_MAP_UNWRAP_OR_ELSE
},
expr.span,
msg,
);
};
}
}
/// lint use of `_.map_or(None, _)` for `Option`s
fn lint_map_or_none<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &'tcx hir::Expr, map_or_args: &'tcx [hir::Expr]) {
if match_type(cx, cx.tables.expr_ty(&map_or_args[0]), &paths::OPTION) {
// check if the first non-self argument to map_or() is None
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let map_or_arg_is_none = if let hir::ExprKind::Path(ref qpath) = map_or_args[1].node {
match_qpath(qpath, &paths::OPTION_NONE)
} else {
false
};
if map_or_arg_is_none {
// lint message
let msg = "called `map_or(None, f)` on an Option value. This can be done more directly by calling \
`and_then(f)` instead";
let map_or_self_snippet = snippet(cx, map_or_args[0].span, "..");
let map_or_func_snippet = snippet(cx, map_or_args[2].span, "..");
let hint = format!("{0}.and_then({1})", map_or_self_snippet, map_or_func_snippet);
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span_lint_and_then(cx, OPTION_MAP_OR_NONE, expr.span, msg, |db| {
db.span_suggestion(
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expr.span,
"try using and_then instead",
hint,
Applicability::MachineApplicable, // snippet
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);
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});
}
}
}
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/// lint use of `filter().next()` for `Iterators`
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fn lint_filter_next<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, expr: &'tcx hir::Expr, filter_args: &'tcx [hir::Expr]) {
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// lint if caller of `.filter().next()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
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let msg = "called `filter(p).next()` on an `Iterator`. This is more succinctly expressed by calling \
`.find(p)` instead.";
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let filter_snippet = snippet(cx, filter_args[1].span, "..");
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if filter_snippet.lines().count() <= 1 {
// add note if not multi-line
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span_note_and_lint(
cx,
FILTER_NEXT,
expr.span,
msg,
expr.span,
&format!("replace `filter({0}).next()` with `find({0})`", filter_snippet),
);
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} else {
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span_lint(cx, FILTER_NEXT, expr.span, msg);
}
}
}
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/// lint use of `filter().map()` for `Iterators`
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fn lint_filter_map<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
_filter_args: &'tcx [hir::Expr],
_map_args: &'tcx [hir::Expr],
) {
// lint if caller of `.filter().map()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
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let msg = "called `filter(p).map(q)` on an `Iterator`. \
This is more succinctly expressed by calling `.filter_map(..)` instead.";
span_lint(cx, FILTER_MAP, expr.span, msg);
}
}
/// lint use of `filter().map()` for `Iterators`
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fn lint_filter_map_map<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
_filter_args: &'tcx [hir::Expr],
_map_args: &'tcx [hir::Expr],
) {
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// lint if caller of `.filter().map()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
let msg = "called `filter_map(p).map(q)` on an `Iterator`. \
This is more succinctly expressed by only calling `.filter_map(..)` instead.";
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span_lint(cx, FILTER_MAP, expr.span, msg);
}
}
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/// lint use of `filter().flat_map()` for `Iterators`
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fn lint_filter_flat_map<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
_filter_args: &'tcx [hir::Expr],
_map_args: &'tcx [hir::Expr],
) {
// lint if caller of `.filter().flat_map()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
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let msg = "called `filter(p).flat_map(q)` on an `Iterator`. \
This is more succinctly expressed by calling `.flat_map(..)` \
and filtering by returning an empty Iterator.";
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span_lint(cx, FILTER_MAP, expr.span, msg);
}
}
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/// lint use of `filter_map().flat_map()` for `Iterators`
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fn lint_filter_map_flat_map<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
_filter_args: &'tcx [hir::Expr],
_map_args: &'tcx [hir::Expr],
) {
// lint if caller of `.filter_map().flat_map()` is an Iterator
if match_trait_method(cx, expr, &paths::ITERATOR) {
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let msg = "called `filter_map(p).flat_map(q)` on an `Iterator`. \
This is more succinctly expressed by calling `.flat_map(..)` \
and filtering by returning an empty Iterator.";
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span_lint(cx, FILTER_MAP, expr.span, msg);
}
}
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/// lint searching an Iterator followed by `is_some()`
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fn lint_search_is_some<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
expr: &'tcx hir::Expr,
search_method: &str,
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search_args: &'tcx [hir::Expr],
is_some_args: &'tcx [hir::Expr],
) {
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// lint if caller of search is an Iterator
if match_trait_method(cx, &is_some_args[0], &paths::ITERATOR) {
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let msg = format!(
"called `is_some()` after searching an `Iterator` with {}. This is more succinctly \
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expressed by calling `any()`.",
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search_method
);
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let search_snippet = snippet(cx, search_args[1].span, "..");
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if search_snippet.lines().count() <= 1 {
// add note if not multi-line
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span_note_and_lint(
cx,
SEARCH_IS_SOME,
expr.span,
&msg,
expr.span,
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&format!(
"replace `{0}({1}).is_some()` with `any({1})`",
search_method, search_snippet
),
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);
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} else {
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span_lint(cx, SEARCH_IS_SOME, expr.span, &msg);
}
}
}
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/// Used for `lint_binary_expr_with_method_call`.
#[derive(Copy, Clone)]
struct BinaryExprInfo<'a> {
expr: &'a hir::Expr,
chain: &'a hir::Expr,
other: &'a hir::Expr,
eq: bool,
}
/// Checks for the `CHARS_NEXT_CMP` and `CHARS_LAST_CMP` lints.
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fn lint_binary_expr_with_method_call(cx: &LateContext<'_, '_>, info: &mut BinaryExprInfo<'_>) {
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macro_rules! lint_with_both_lhs_and_rhs {
($func:ident, $cx:expr, $info:ident) => {
if !$func($cx, $info) {
::std::mem::swap(&mut $info.chain, &mut $info.other);
if $func($cx, $info) {
return;
}
}
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};
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}
lint_with_both_lhs_and_rhs!(lint_chars_next_cmp, cx, info);
lint_with_both_lhs_and_rhs!(lint_chars_last_cmp, cx, info);
lint_with_both_lhs_and_rhs!(lint_chars_next_cmp_with_unwrap, cx, info);
lint_with_both_lhs_and_rhs!(lint_chars_last_cmp_with_unwrap, cx, info);
}
/// Wrapper fn for `CHARS_NEXT_CMP` and `CHARS_NEXT_CMP` lints.
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fn lint_chars_cmp(
cx: &LateContext<'_, '_>,
info: &BinaryExprInfo<'_>,
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chain_methods: &[&str],
lint: &'static Lint,
suggest: &str,
) -> bool {
if_chain! {
if let Some(args) = method_chain_args(info.chain, chain_methods);
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if let hir::ExprKind::Call(ref fun, ref arg_char) = info.other.node;
if arg_char.len() == 1;
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if let hir::ExprKind::Path(ref qpath) = fun.node;
if let Some(segment) = single_segment_path(qpath);
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if segment.ident.name == "Some";
then {
let mut applicability = Applicability::MachineApplicable;
let self_ty = walk_ptrs_ty(cx.tables.expr_ty_adjusted(&args[0][0]));
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if self_ty.sty != ty::Str {
return false;
}
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span_lint_and_sugg(
cx,
lint,
info.expr.span,
&format!("you should use the `{}` method", suggest),
"like this",
format!("{}{}.{}({})",
if info.eq { "" } else { "!" },
snippet_with_applicability(cx, args[0][0].span, "_", &mut applicability),
suggest,
snippet_with_applicability(cx, arg_char[0].span, "_", &mut applicability)),
applicability,
);
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return true;
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}
}
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false
}
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/// Checks for the `CHARS_NEXT_CMP` lint.
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fn lint_chars_next_cmp<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, info: &BinaryExprInfo<'_>) -> bool {
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lint_chars_cmp(cx, info, &["chars", "next"], CHARS_NEXT_CMP, "starts_with")
}
/// Checks for the `CHARS_LAST_CMP` lint.
2018-07-23 06:01:12 -05:00
fn lint_chars_last_cmp<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, info: &BinaryExprInfo<'_>) -> bool {
if lint_chars_cmp(cx, info, &["chars", "last"], CHARS_LAST_CMP, "ends_with") {
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true
} else {
lint_chars_cmp(cx, info, &["chars", "next_back"], CHARS_LAST_CMP, "ends_with")
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}
}
/// Wrapper fn for `CHARS_NEXT_CMP` and `CHARS_LAST_CMP` lints with `unwrap()`.
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fn lint_chars_cmp_with_unwrap<'a, 'tcx>(
cx: &LateContext<'a, 'tcx>,
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info: &BinaryExprInfo<'_>,
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chain_methods: &[&str],
lint: &'static Lint,
suggest: &str,
) -> bool {
if_chain! {
if let Some(args) = method_chain_args(info.chain, chain_methods);
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if let hir::ExprKind::Lit(ref lit) = info.other.node;
if let ast::LitKind::Char(c) = lit.node;
then {
let mut applicability = Applicability::MachineApplicable;
span_lint_and_sugg(
cx,
lint,
info.expr.span,
&format!("you should use the `{}` method", suggest),
"like this",
format!("{}{}.{}('{}')",
if info.eq { "" } else { "!" },
snippet_with_applicability(cx, args[0][0].span, "_", &mut applicability),
suggest,
c),
applicability,
);
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return true;
}
}
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false
}
/// Checks for the `CHARS_NEXT_CMP` lint with `unwrap()`.
2018-07-23 06:01:12 -05:00
fn lint_chars_next_cmp_with_unwrap<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, info: &BinaryExprInfo<'_>) -> bool {
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lint_chars_cmp_with_unwrap(cx, info, &["chars", "next", "unwrap"], CHARS_NEXT_CMP, "starts_with")
}
/// Checks for the `CHARS_LAST_CMP` lint with `unwrap()`.
2018-07-23 06:01:12 -05:00
fn lint_chars_last_cmp_with_unwrap<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, info: &BinaryExprInfo<'_>) -> bool {
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if lint_chars_cmp_with_unwrap(cx, info, &["chars", "last", "unwrap"], CHARS_LAST_CMP, "ends_with") {
true
} else {
lint_chars_cmp_with_unwrap(cx, info, &["chars", "next_back", "unwrap"], CHARS_LAST_CMP, "ends_with")
}
}
/// lint for length-1 `str`s for methods in `PATTERN_METHODS`
2018-08-01 01:53:45 -05:00
fn lint_single_char_pattern<'a, 'tcx>(cx: &LateContext<'a, 'tcx>, _expr: &'tcx hir::Expr, arg: &'tcx hir::Expr) {
if_chain! {
if let hir::ExprKind::Lit(lit) = &arg.node;
if let ast::LitKind::Str(r, _) = lit.node;
if r.as_str().len() == 1;
then {
let mut applicability = Applicability::MachineApplicable;
let snip = snippet_with_applicability(cx, arg.span, "..", &mut applicability);
let c = &snip[1..snip.len() - 1];
let hint = format!("'{}'", if c == "'" { "\\'" } else { c });
span_lint_and_sugg(
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cx,
SINGLE_CHAR_PATTERN,
arg.span,
"single-character string constant used as pattern",
"try using a char instead",
hint,
applicability,
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);
}
}
}
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/// Checks for the `USELESS_ASREF` lint.
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fn lint_asref(cx: &LateContext<'_, '_>, expr: &hir::Expr, call_name: &str, as_ref_args: &[hir::Expr]) {
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// when we get here, we've already checked that the call name is "as_ref" or "as_mut"
// check if the call is to the actual `AsRef` or `AsMut` trait
if match_trait_method(cx, expr, &paths::ASREF_TRAIT) || match_trait_method(cx, expr, &paths::ASMUT_TRAIT) {
// check if the type after `as_ref` or `as_mut` is the same as before
let recvr = &as_ref_args[0];
let rcv_ty = cx.tables.expr_ty(recvr);
let res_ty = cx.tables.expr_ty(expr);
let (base_res_ty, res_depth) = walk_ptrs_ty_depth(res_ty);
let (base_rcv_ty, rcv_depth) = walk_ptrs_ty_depth(rcv_ty);
if base_rcv_ty == base_res_ty && rcv_depth >= res_depth {
// allow the `as_ref` or `as_mut` if it is followed by another method call
if_chain! {
if let Some(parent) = get_parent_expr(cx, expr);
if let hir::ExprKind::MethodCall(_, ref span, _) = parent.node;
if span != &expr.span;
then {
return;
}
}
let mut applicability = Applicability::MachineApplicable;
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span_lint_and_sugg(
cx,
USELESS_ASREF,
expr.span,
&format!("this call to `{}` does nothing", call_name),
"try this",
snippet_with_applicability(cx, recvr.span, "_", &mut applicability).to_string(),
applicability,
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);
}
}
}
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fn ty_has_iter_method(
cx: &LateContext<'_, '_>,
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self_ref_ty: Ty<'_>,
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) -> Option<(&'static Lint, &'static str, &'static str)> {
if let Some(ty_name) = has_iter_method(cx, self_ref_ty) {
let lint = match ty_name {
"array" | "PathBuf" => INTO_ITER_ON_ARRAY,
_ => INTO_ITER_ON_REF,
};
let mutbl = match self_ref_ty.sty {
ty::Ref(_, _, mutbl) => mutbl,
_ => unreachable!(),
};
let method_name = match mutbl {
hir::MutImmutable => "iter",
hir::MutMutable => "iter_mut",
};
Some((lint, ty_name, method_name))
} else {
None
}
}
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fn lint_into_iter(cx: &LateContext<'_, '_>, expr: &hir::Expr, self_ref_ty: Ty<'_>, method_span: Span) {
if !match_trait_method(cx, expr, &paths::INTO_ITERATOR) {
return;
}
if let Some((lint, kind, method_name)) = ty_has_iter_method(cx, self_ref_ty) {
span_lint_and_sugg(
cx,
lint,
method_span,
&format!(
"this .into_iter() call is equivalent to .{}() and will not move the {}",
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method_name, kind,
),
"call directly",
method_name.to_string(),
Applicability::MachineApplicable,
);
}
}
/// Given a `Result<T, E>` type, return its error type (`E`).
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fn get_error_type<'a>(cx: &LateContext<'_, '_>, ty: Ty<'a>) -> Option<Ty<'a>> {
if let ty::Adt(_, substs) = ty.sty {
if match_type(cx, ty, &paths::RESULT) {
substs.types().nth(1)
} else {
None
}
} else {
None
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}
}
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/// This checks whether a given type is known to implement Debug.
fn has_debug_impl<'a, 'b>(ty: Ty<'a>, cx: &LateContext<'b, 'a>) -> bool {
match cx.tcx.lang_items().debug_trait() {
Some(debug) => implements_trait(cx, ty, debug, &[]),
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None => false,
}
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}
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enum Convention {
Eq(&'static str),
StartsWith(&'static str),
}
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#[rustfmt::skip]
const CONVENTIONS: [(Convention, &[SelfKind]); 7] = [
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(Convention::Eq("new"), &[SelfKind::No]),
(Convention::StartsWith("as_"), &[SelfKind::Ref, SelfKind::RefMut]),
(Convention::StartsWith("from_"), &[SelfKind::No]),
(Convention::StartsWith("into_"), &[SelfKind::Value]),
(Convention::StartsWith("is_"), &[SelfKind::Ref, SelfKind::No]),
(Convention::Eq("to_mut"), &[SelfKind::RefMut]),
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(Convention::StartsWith("to_"), &[SelfKind::Ref]),
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];
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#[rustfmt::skip]
const TRAIT_METHODS: [(&str, usize, SelfKind, OutType, &str); 30] = [
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("add", 2, SelfKind::Value, OutType::Any, "std::ops::Add"),
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("as_mut", 1, SelfKind::RefMut, OutType::Ref, "std::convert::AsMut"),
("as_ref", 1, SelfKind::Ref, OutType::Ref, "std::convert::AsRef"),
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("bitand", 2, SelfKind::Value, OutType::Any, "std::ops::BitAnd"),
("bitor", 2, SelfKind::Value, OutType::Any, "std::ops::BitOr"),
("bitxor", 2, SelfKind::Value, OutType::Any, "std::ops::BitXor"),
("borrow", 1, SelfKind::Ref, OutType::Ref, "std::borrow::Borrow"),
("borrow_mut", 1, SelfKind::RefMut, OutType::Ref, "std::borrow::BorrowMut"),
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("clone", 1, SelfKind::Ref, OutType::Any, "std::clone::Clone"),
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("cmp", 2, SelfKind::Ref, OutType::Any, "std::cmp::Ord"),
("default", 0, SelfKind::No, OutType::Any, "std::default::Default"),
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("deref", 1, SelfKind::Ref, OutType::Ref, "std::ops::Deref"),
("deref_mut", 1, SelfKind::RefMut, OutType::Ref, "std::ops::DerefMut"),
("div", 2, SelfKind::Value, OutType::Any, "std::ops::Div"),
("drop", 1, SelfKind::RefMut, OutType::Unit, "std::ops::Drop"),
("eq", 2, SelfKind::Ref, OutType::Bool, "std::cmp::PartialEq"),
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("from_iter", 1, SelfKind::No, OutType::Any, "std::iter::FromIterator"),
("from_str", 1, SelfKind::No, OutType::Any, "std::str::FromStr"),
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("hash", 2, SelfKind::Ref, OutType::Unit, "std::hash::Hash"),
("index", 2, SelfKind::Ref, OutType::Ref, "std::ops::Index"),
("index_mut", 2, SelfKind::RefMut, OutType::Ref, "std::ops::IndexMut"),
("into_iter", 1, SelfKind::Value, OutType::Any, "std::iter::IntoIterator"),
("mul", 2, SelfKind::Value, OutType::Any, "std::ops::Mul"),
("neg", 1, SelfKind::Value, OutType::Any, "std::ops::Neg"),
("next", 1, SelfKind::RefMut, OutType::Any, "std::iter::Iterator"),
("not", 1, SelfKind::Value, OutType::Any, "std::ops::Not"),
("rem", 2, SelfKind::Value, OutType::Any, "std::ops::Rem"),
("shl", 2, SelfKind::Value, OutType::Any, "std::ops::Shl"),
("shr", 2, SelfKind::Value, OutType::Any, "std::ops::Shr"),
("sub", 2, SelfKind::Value, OutType::Any, "std::ops::Sub"),
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];
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#[rustfmt::skip]
const PATTERN_METHODS: [(&str, usize); 17] = [
("contains", 1),
("starts_with", 1),
("ends_with", 1),
("find", 1),
("rfind", 1),
("split", 1),
("rsplit", 1),
("split_terminator", 1),
("rsplit_terminator", 1),
("splitn", 2),
("rsplitn", 2),
("matches", 1),
("rmatches", 1),
("match_indices", 1),
("rmatch_indices", 1),
("trim_start_matches", 1),
("trim_end_matches", 1),
];
#[derive(Clone, Copy, PartialEq, Debug)]
enum SelfKind {
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Value,
Ref,
RefMut,
No,
}
impl SelfKind {
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fn matches(
self,
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cx: &LateContext<'_, '_>,
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ty: &hir::Ty,
arg: &hir::Arg,
self_ty: &hir::Ty,
allow_value_for_ref: bool,
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generics: &hir::Generics,
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) -> bool {
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// Self types in the HIR are desugared to explicit self types. So it will
// always be `self:
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// SomeType`,
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// where SomeType can be `Self` or an explicit impl self type (e.g., `Foo` if
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// the impl is on `Foo`)
// Thus, we only need to test equality against the impl self type or if it is
// an explicit
// `Self`. Furthermore, the only possible types for `self: ` are `&Self`,
// `Self`, `&mut Self`,
// and `Box<Self>`, including the equivalent types with `Foo`.
let is_actually_self = |ty| is_self_ty(ty) || SpanlessEq::new(cx).eq_ty(ty, self_ty);
if is_self(arg) {
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match self {
SelfKind::Value => is_actually_self(ty),
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SelfKind::Ref | SelfKind::RefMut => {
if allow_value_for_ref && is_actually_self(ty) {
return true;
}
match ty.node {
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hir::TyKind::Rptr(_, ref mt_ty) => {
let mutability_match = if self == SelfKind::Ref {
mt_ty.mutbl == hir::MutImmutable
} else {
mt_ty.mutbl == hir::MutMutable
};
is_actually_self(&mt_ty.ty) && mutability_match
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},
_ => false,
}
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},
_ => false,
}
} else {
match self {
SelfKind::Value => false,
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SelfKind::Ref => is_as_ref_or_mut_trait(ty, self_ty, generics, &paths::ASREF_TRAIT),
SelfKind::RefMut => is_as_ref_or_mut_trait(ty, self_ty, generics, &paths::ASMUT_TRAIT),
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SelfKind::No => true,
}
}
}
fn description(self) -> &'static str {
match self {
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SelfKind::Value => "self by value",
SelfKind::Ref => "self by reference",
SelfKind::RefMut => "self by mutable reference",
SelfKind::No => "no self",
}
}
}
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fn is_as_ref_or_mut_trait(ty: &hir::Ty, self_ty: &hir::Ty, generics: &hir::Generics, name: &[&str]) -> bool {
single_segment_ty(ty).map_or(false, |seg| {
generics.params.iter().any(|param| match param.kind {
hir::GenericParamKind::Type { .. } => {
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param.name.ident().name == seg.ident.name
&& param.bounds.iter().any(|bound| {
if let hir::GenericBound::Trait(ref ptr, ..) = *bound {
let path = &ptr.trait_ref.path;
match_path(path, name)
&& path.segments.last().map_or(false, |s| {
if let Some(ref params) = s.args {
if params.parenthesized {
false
} else {
// FIXME(flip1995): messy, improve if there is a better option
// in the compiler
let types: Vec<_> = params
.args
.iter()
.filter_map(|arg| match arg {
hir::GenericArg::Type(ty) => Some(ty),
_ => None,
})
.collect();
types.len() == 1 && (is_self_ty(&types[0]) || is_ty(&*types[0], self_ty))
}
} else {
false
}
})
} else {
false
}
})
},
_ => false,
})
})
}
fn is_ty(ty: &hir::Ty, self_ty: &hir::Ty) -> bool {
match (&ty.node, &self_ty.node) {
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(
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&hir::TyKind::Path(hir::QPath::Resolved(_, ref ty_path)),
&hir::TyKind::Path(hir::QPath::Resolved(_, ref self_ty_path)),
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) => ty_path
.segments
.iter()
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.map(|seg| seg.ident.name)
.eq(self_ty_path.segments.iter().map(|seg| seg.ident.name)),
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_ => false,
}
}
fn single_segment_ty(ty: &hir::Ty) -> Option<&hir::PathSegment> {
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if let hir::TyKind::Path(ref path) = ty.node {
single_segment_path(path)
} else {
None
}
}
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impl Convention {
fn check(&self, other: &str) -> bool {
match *self {
Convention::Eq(this) => this == other,
Convention::StartsWith(this) => other.starts_with(this) && this != other,
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}
}
}
impl fmt::Display for Convention {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
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match *self {
Convention::Eq(this) => this.fmt(f),
Convention::StartsWith(this) => this.fmt(f).and_then(|_| '*'.fmt(f)),
}
}
}
#[derive(Clone, Copy)]
enum OutType {
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Unit,
Bool,
Any,
Ref,
}
impl OutType {
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fn matches(self, cx: &LateContext<'_, '_>, ty: &hir::FunctionRetTy) -> bool {
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let is_unit = |ty: &hir::Ty| SpanlessEq::new(cx).eq_ty_kind(&ty.node, &hir::TyKind::Tup(vec![].into()));
match (self, ty) {
(OutType::Unit, &hir::DefaultReturn(_)) => true,
(OutType::Unit, &hir::Return(ref ty)) if is_unit(ty) => true,
(OutType::Bool, &hir::Return(ref ty)) if is_bool(ty) => true,
(OutType::Any, &hir::Return(ref ty)) if !is_unit(ty) => true,
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(OutType::Ref, &hir::Return(ref ty)) => matches!(ty.node, hir::TyKind::Rptr(_, _)),
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_ => false,
}
}
}
fn is_bool(ty: &hir::Ty) -> bool {
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if let hir::TyKind::Path(ref p) = ty.node {
match_qpath(p, &["bool"])
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} else {
false
}
}