mirror of
https://github.com/rust-lang/rust-clippy
synced 2024-12-22 11:03:16 +00:00
436 lines
20 KiB
Rust
436 lines
20 KiB
Rust
use rustc_front::hir::*;
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use rustc::lint::*;
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use rustc::middle::ty;
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use rustc::middle::subst::{Subst, TypeSpace};
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use std::iter;
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use std::borrow::Cow;
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use utils::{snippet, span_lint, span_note_and_lint, match_path, match_type, walk_ptrs_ty_depth,
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walk_ptrs_ty};
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use utils::{OPTION_PATH, RESULT_PATH, STRING_PATH};
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use self::SelfKind::*;
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use self::OutType::*;
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#[derive(Clone)]
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pub struct MethodsPass;
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/// **What it does:** This lint checks for `.unwrap()` calls on `Option`s. It is `Allow` by default.
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///
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/// **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.
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///
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/// **Known problems:** None
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///
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/// **Example:** `x.unwrap()`
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declare_lint!(pub OPTION_UNWRAP_USED, Allow,
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"using `Option.unwrap()`, which should at least get a better message using `expect()`");
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/// **What it does:** This lint checks for `.unwrap()` calls on `Result`s. It is `Allow` by default.
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///
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/// **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!`.
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///
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/// Even if you want to panic on errors, not all `Error`s implement good 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.
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///
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/// **Known problems:** None
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///
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/// **Example:** `x.unwrap()`
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declare_lint!(pub RESULT_UNWRAP_USED, Allow,
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"using `Result.unwrap()`, which might be better handled");
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/// **What it does:** This lint checks for `.to_string()` method calls on values of type `&str`. It is `Warn` by default.
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///
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/// **Why is this bad?** This uses the whole formatting machinery just to clone a string. Using `.to_owned()` is lighter on resources. You can also consider using a [`Cow<'a, str>`](http://doc.rust-lang.org/std/borrow/enum.Cow.html) instead in some cases.
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///
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/// **Known problems:** None
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///
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/// **Example:** `s.to_string()` where `s: &str`
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declare_lint!(pub STR_TO_STRING, Warn,
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"using `to_string()` on a str, which should be `to_owned()`");
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/// **What it does:** This lint checks for `.to_string()` method calls on values of type `String`. It is `Warn` by default.
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///
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/// **Why is this bad?** As our string is already owned, this whole operation is basically a no-op, but still creates a clone of the string (which, if really wanted, should be done with `.clone()`).
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///
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/// **Known problems:** None
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///
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/// **Example:** `s.to_string()` where `s: String`
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declare_lint!(pub STRING_TO_STRING, Warn,
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"calling `String.to_string()` which is a no-op");
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/// **What it does:** This lint 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. It is `Warn` by default.
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///
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/// **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.
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///
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/// **Known problems:** None
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///
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/// **Example:**
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/// ```
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/// struct X;
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/// impl X {
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/// fn add(&self, other: &X) -> X { .. }
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/// }
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/// ```
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declare_lint!(pub SHOULD_IMPLEMENT_TRAIT, Warn,
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"defining a method that should be implementing a std trait");
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/// **What it does:** This lint checks for methods with certain name prefixes and `Warn`s (by default) if the prefix doesn't match how self is taken. The actual rules are:
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///
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/// |Prefix |`self` taken |
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/// |-------|--------------------|
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/// |`as_` |`&self` or &mut self|
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/// |`from_`| none |
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/// |`into_`|`self` |
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/// |`is_` |`&self` or none |
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/// |`to_` |`&self` |
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///
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/// **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.
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///
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/// **Known problems:** None
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///
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/// **Example**
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///
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/// ```
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/// impl X {
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/// fn as_str(self) -> &str { .. }
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/// }
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/// ```
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declare_lint!(pub WRONG_SELF_CONVENTION, Warn,
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"defining a method named with an established prefix (like \"into_\") that takes \
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`self` with the wrong convention");
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/// **What it does:** This is the same as [`wrong_self_convention`](#wrong_self_convention), but for public items. This lint is `Allow` by default.
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///
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/// **Why is this bad?** See [`wrong_self_convention`](#wrong_self_convention).
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///
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/// **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.
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///
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/// **Example:**
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/// ```
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/// impl X {
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/// pub fn as_str(self) -> &str { .. }
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/// }
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/// ```
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declare_lint!(pub WRONG_PUB_SELF_CONVENTION, Allow,
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"defining a public method named with an established prefix (like \"into_\") that takes \
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`self` with the wrong convention");
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declare_lint!(pub OK_EXPECT, Warn,
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"using `ok().expect()`, which gives worse error messages than \
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calling `expect` directly on the Result");
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declare_lint!(pub OPTION_MAP_UNWRAP_OR, Warn,
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"using `Option.map(f).unwrap_or(a)`, which is more succinctly expressed as \
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`map_or(a, f)`)");
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declare_lint!(pub OPTION_MAP_UNWRAP_OR_ELSE, Warn,
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"using `Option.map(f).unwrap_or_else(g)`, which is more succinctly expressed as \
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`map_or_else(g, f)`)");
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impl LintPass for MethodsPass {
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fn get_lints(&self) -> LintArray {
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lint_array!(OPTION_UNWRAP_USED, RESULT_UNWRAP_USED, STR_TO_STRING, STRING_TO_STRING,
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SHOULD_IMPLEMENT_TRAIT, WRONG_SELF_CONVENTION, OK_EXPECT, OPTION_MAP_UNWRAP_OR,
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OPTION_MAP_UNWRAP_OR_ELSE)
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}
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}
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impl LateLintPass for MethodsPass {
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fn check_expr(&mut self, cx: &LateContext, expr: &Expr) {
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if let ExprMethodCall(ref name, _, ref args) = expr.node {
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let (obj_ty, ptr_depth) = walk_ptrs_ty_depth(cx.tcx.expr_ty(&args[0]));
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match &*name.node.as_str() {
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"unwrap" if match_type(cx, obj_ty, &OPTION_PATH) => {
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span_lint(cx, OPTION_UNWRAP_USED, expr.span,
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"used unwrap() on an Option value. If you don't want \
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to handle the None case gracefully, consider using \
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expect() to provide a better panic message");
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},
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"unwrap" if match_type(cx, obj_ty, &RESULT_PATH) => {
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span_lint(cx, RESULT_UNWRAP_USED, expr.span,
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"used unwrap() on a Result value. Graceful handling \
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of Err values is preferred");
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},
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"to_string" if obj_ty.sty == ty::TyStr => {
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let mut arg_str = snippet(cx, args[0].span, "_");
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if ptr_depth > 1 {
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arg_str = Cow::Owned(format!(
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"({}{})",
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iter::repeat('*').take(ptr_depth - 1).collect::<String>(),
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arg_str));
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}
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span_lint(cx, STR_TO_STRING, expr.span, &format!(
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"`{}.to_owned()` is faster", arg_str));
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},
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"to_string" if match_type(cx, obj_ty, &STRING_PATH) => {
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span_lint(cx, STRING_TO_STRING, expr.span, "`String.to_string()` is a no-op; use \
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`clone()` to make a copy");
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},
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"expect" => if let ExprMethodCall(ref inner_name, _, ref inner_args) = args[0].node {
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if inner_name.node.as_str() == "ok"
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&& match_type(cx, cx.tcx.expr_ty(&inner_args[0]), &RESULT_PATH) {
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let result_type = cx.tcx.expr_ty(&inner_args[0]);
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if let Some(error_type) = get_error_type(cx, result_type) {
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if has_debug_impl(error_type, cx) {
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span_lint(cx, OK_EXPECT, expr.span,
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"called `ok().expect()` on a Result \
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value. You can call `expect` directly \
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on the `Result`");
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}
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}
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}
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},
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// check Option.map(_).unwrap_or(_)
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"unwrap_or" => if let ExprMethodCall(ref inner_name, _, ref inner_args) = args[0].node {
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if inner_name.node.as_str() == "map"
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&& match_type(cx, cx.tcx.expr_ty(&inner_args[0]), &OPTION_PATH) {
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// lint message
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let msg =
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"called `map(f).unwrap_or(a)` on an Option value. This can be done \
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more directly by calling `map_or(a, f)` instead";
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// get args to map() and unwrap_or()
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let map_arg = snippet(cx, inner_args[1].span, "..");
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let unwrap_arg = snippet(cx, args[1].span, "..");
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// lint, with note if neither arg is > 1 line and both map() and
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// unwrap_or() have the same span
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let multiline = map_arg.lines().count() > 1
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|| unwrap_arg.lines().count() > 1;
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let same_span = inner_args[1].span.expn_id == args[1].span.expn_id;
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if same_span && !multiline {
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span_note_and_lint(
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cx, OPTION_MAP_UNWRAP_OR, expr.span, msg, expr.span,
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&format!("replace this with map_or({1}, {0})",
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map_arg, unwrap_arg)
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);
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}
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else if same_span && multiline {
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span_lint(cx, OPTION_MAP_UNWRAP_OR, expr.span, msg);
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};
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}
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},
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// check Option.map(_).unwrap_or_else(_)
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"unwrap_or_else" => if let ExprMethodCall(ref inner_name, _, ref inner_args) = args[0].node {
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if inner_name.node.as_str() == "map"
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&& match_type(cx, cx.tcx.expr_ty(&inner_args[0]), &OPTION_PATH) {
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// lint message
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let msg =
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"called `map(f).unwrap_or_else(g)` on an Option value. This can be \
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done more directly by calling `map_or_else(g, f)` instead";
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// get args to map() and unwrap_or_else()
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let map_arg = snippet(cx, inner_args[1].span, "..");
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let unwrap_arg = snippet(cx, args[1].span, "..");
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// lint, with note if neither arg is > 1 line and both map() and
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// unwrap_or_else() have the same span
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let multiline = map_arg.lines().count() > 1
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|| unwrap_arg.lines().count() > 1;
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let same_span = inner_args[1].span.expn_id == args[1].span.expn_id;
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if same_span && !multiline {
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span_note_and_lint(
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cx, OPTION_MAP_UNWRAP_OR_ELSE, expr.span, msg, expr.span,
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&format!("replace this with map_or_else({1}, {0})",
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map_arg, unwrap_arg)
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);
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}
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else if same_span && multiline {
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span_lint(cx, OPTION_MAP_UNWRAP_OR_ELSE, expr.span, msg);
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};
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}
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},
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_ => {},
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}
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}
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}
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fn check_item(&mut self, cx: &LateContext, item: &Item) {
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if let ItemImpl(_, _, _, None, ref ty, ref items) = item.node {
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for implitem in items {
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let name = implitem.name;
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if let ImplItemKind::Method(ref sig, _) = implitem.node {
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// check missing trait implementations
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for &(method_name, n_args, self_kind, out_type, trait_name) in &TRAIT_METHODS {
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if_let_chain! {
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[
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name.as_str() == method_name,
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sig.decl.inputs.len() == n_args,
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out_type.matches(&sig.decl.output),
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self_kind.matches(&sig.explicit_self.node, false)
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], {
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span_lint(cx, SHOULD_IMPLEMENT_TRAIT, implitem.span, &format!(
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"defining a method called `{}` on this type; consider implementing \
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the `{}` trait or choosing a less ambiguous name", name, trait_name));
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}
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}
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}
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// check conventions w.r.t. conversion method names and predicates
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let is_copy = is_copy(cx, &ty, &item);
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for &(prefix, self_kinds) in &CONVENTIONS {
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if name.as_str().starts_with(prefix) &&
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!self_kinds.iter().any(|k| k.matches(&sig.explicit_self.node, is_copy)) {
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let lint = if item.vis == Visibility::Public {
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WRONG_PUB_SELF_CONVENTION
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} else {
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WRONG_SELF_CONVENTION
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};
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span_lint(cx, lint, sig.explicit_self.span, &format!(
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"methods called `{}*` usually take {}; consider choosing a less \
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ambiguous name", prefix,
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&self_kinds.iter().map(|k| k.description()).collect::<Vec<_>>().join(" or ")));
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}
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}
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}
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}
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}
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}
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}
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// Given a `Result<T, E>` type, return its error type (`E`)
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fn get_error_type<'a>(cx: &LateContext, ty: ty::Ty<'a>) -> Option<ty::Ty<'a>> {
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if !match_type(cx, ty, &RESULT_PATH) {
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return None;
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}
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if let ty::TyEnum(_, substs) = ty.sty {
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if let Some(err_ty) = substs.types.opt_get(TypeSpace, 1) {
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return Some(err_ty);
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}
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}
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None
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}
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// This checks whether a given type is known to implement Debug. It's
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// conservative, i.e. it should not return false positives, but will return
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// false negatives.
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fn has_debug_impl<'a, 'b>(ty: ty::Ty<'a>, cx: &LateContext<'b, 'a>) -> bool {
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let no_ref_ty = walk_ptrs_ty(ty);
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let debug = match cx.tcx.lang_items.debug_trait() {
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Some(debug) => debug,
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None => return false
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};
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let debug_def = cx.tcx.lookup_trait_def(debug);
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let mut debug_impl_exists = false;
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debug_def.for_each_relevant_impl(cx.tcx, no_ref_ty, |d| {
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let self_ty = &cx.tcx.impl_trait_ref(d).and_then(|im| im.substs.self_ty());
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if let Some(self_ty) = *self_ty {
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if !self_ty.flags.get().contains(ty::TypeFlags::HAS_PARAMS) {
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debug_impl_exists = true;
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}
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}
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});
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debug_impl_exists
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}
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const CONVENTIONS: [(&'static str, &'static [SelfKind]); 5] = [
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("into_", &[ValueSelf]),
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("to_", &[RefSelf]),
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("as_", &[RefSelf, RefMutSelf]),
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("is_", &[RefSelf, NoSelf]),
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("from_", &[NoSelf]),
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];
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const TRAIT_METHODS: [(&'static str, usize, SelfKind, OutType, &'static str); 30] = [
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("add", 2, ValueSelf, AnyType, "std::ops::Add"),
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("sub", 2, ValueSelf, AnyType, "std::ops::Sub"),
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("mul", 2, ValueSelf, AnyType, "std::ops::Mul"),
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("div", 2, ValueSelf, AnyType, "std::ops::Div"),
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("rem", 2, ValueSelf, AnyType, "std::ops::Rem"),
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("shl", 2, ValueSelf, AnyType, "std::ops::Shl"),
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("shr", 2, ValueSelf, AnyType, "std::ops::Shr"),
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("bitand", 2, ValueSelf, AnyType, "std::ops::BitAnd"),
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("bitor", 2, ValueSelf, AnyType, "std::ops::BitOr"),
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("bitxor", 2, ValueSelf, AnyType, "std::ops::BitXor"),
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("neg", 1, ValueSelf, AnyType, "std::ops::Neg"),
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("not", 1, ValueSelf, AnyType, "std::ops::Not"),
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("drop", 1, RefMutSelf, UnitType, "std::ops::Drop"),
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("index", 2, RefSelf, RefType, "std::ops::Index"),
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("index_mut", 2, RefMutSelf, RefType, "std::ops::IndexMut"),
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("deref", 1, RefSelf, RefType, "std::ops::Deref"),
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("deref_mut", 1, RefMutSelf, RefType, "std::ops::DerefMut"),
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("clone", 1, RefSelf, AnyType, "std::clone::Clone"),
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("borrow", 1, RefSelf, RefType, "std::borrow::Borrow"),
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("borrow_mut", 1, RefMutSelf, RefType, "std::borrow::BorrowMut"),
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("as_ref", 1, RefSelf, RefType, "std::convert::AsRef"),
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("as_mut", 1, RefMutSelf, RefType, "std::convert::AsMut"),
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("eq", 2, RefSelf, BoolType, "std::cmp::PartialEq"),
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("cmp", 2, RefSelf, AnyType, "std::cmp::Ord"),
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("default", 0, NoSelf, AnyType, "std::default::Default"),
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("hash", 2, RefSelf, UnitType, "std::hash::Hash"),
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("next", 1, RefMutSelf, AnyType, "std::iter::Iterator"),
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("into_iter", 1, ValueSelf, AnyType, "std::iter::IntoIterator"),
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("from_iter", 1, NoSelf, AnyType, "std::iter::FromIterator"),
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("from_str", 1, NoSelf, AnyType, "std::str::FromStr"),
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];
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#[derive(Clone, Copy)]
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enum SelfKind {
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ValueSelf,
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RefSelf,
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RefMutSelf,
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NoSelf,
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}
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impl SelfKind {
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fn matches(&self, slf: &ExplicitSelf_, allow_value_for_ref: bool) -> bool {
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match (self, slf) {
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(&ValueSelf, &SelfValue(_)) => true,
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(&RefSelf, &SelfRegion(_, Mutability::MutImmutable, _)) => true,
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(&RefMutSelf, &SelfRegion(_, Mutability::MutMutable, _)) => true,
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(&RefSelf, &SelfValue(_)) => allow_value_for_ref,
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(&RefMutSelf, &SelfValue(_)) => allow_value_for_ref,
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(&NoSelf, &SelfStatic) => true,
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(_, &SelfExplicit(ref ty, _)) => self.matches_explicit_type(ty, allow_value_for_ref),
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_ => false
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}
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}
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fn matches_explicit_type(&self, ty: &Ty, allow_value_for_ref: bool) -> bool {
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match (self, &ty.node) {
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(&ValueSelf, &TyPath(..)) => true,
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(&RefSelf, &TyRptr(_, MutTy { mutbl: Mutability::MutImmutable, .. })) => true,
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(&RefMutSelf, &TyRptr(_, MutTy { mutbl: Mutability::MutMutable, .. })) => true,
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(&RefSelf, &TyPath(..)) => allow_value_for_ref,
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(&RefMutSelf, &TyPath(..)) => allow_value_for_ref,
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_ => false
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}
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}
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fn description(&self) -> &'static str {
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match *self {
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ValueSelf => "self by value",
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RefSelf => "self by reference",
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RefMutSelf => "self by mutable reference",
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NoSelf => "no self",
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}
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}
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}
|
|
|
|
#[derive(Clone, Copy)]
|
|
enum OutType {
|
|
UnitType,
|
|
BoolType,
|
|
AnyType,
|
|
RefType,
|
|
}
|
|
|
|
impl OutType {
|
|
fn matches(&self, ty: &FunctionRetTy) -> bool {
|
|
match (self, ty) {
|
|
(&UnitType, &DefaultReturn(_)) => true,
|
|
(&UnitType, &Return(ref ty)) if ty.node == TyTup(vec![]) => true,
|
|
(&BoolType, &Return(ref ty)) if is_bool(ty) => true,
|
|
(&AnyType, &Return(ref ty)) if ty.node != TyTup(vec![]) => true,
|
|
(&RefType, &Return(ref ty)) => {
|
|
if let TyRptr(_, _) = ty.node { true } else { false }
|
|
}
|
|
_ => false
|
|
}
|
|
}
|
|
}
|
|
|
|
fn is_bool(ty: &Ty) -> bool {
|
|
if let TyPath(None, ref p) = ty.node {
|
|
if match_path(p, &["bool"]) {
|
|
return true;
|
|
}
|
|
}
|
|
false
|
|
}
|
|
|
|
fn is_copy(cx: &LateContext, ast_ty: &Ty, item: &Item) -> bool {
|
|
match cx.tcx.ast_ty_to_ty_cache.borrow().get(&ast_ty.id) {
|
|
None => false,
|
|
Some(ty) => {
|
|
let env = ty::ParameterEnvironment::for_item(cx.tcx, item.id);
|
|
!ty.subst(cx.tcx, &env.free_substs).moves_by_default(&env, ast_ty.span)
|
|
}
|
|
}
|
|
}
|