rust-clippy/src/utils.rs

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use rustc::lint::*;
use rustc_front::hir::*;
use reexport::*;
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use syntax::codemap::{ExpnInfo, Span, ExpnFormat};
use rustc::front::map::Node::*;
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use rustc::middle::def_id::DefId;
use rustc::middle::ty;
use std::borrow::Cow;
use syntax::ast::Lit_::*;
use syntax::ast;
use syntax::ptr::P;
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use rustc::session::Session;
use std::str::FromStr;
pub type MethodArgs = HirVec<P<Expr>>;
// module DefPaths for certain structs/enums we check for
pub const OPTION_PATH: [&'static str; 3] = ["core", "option", "Option"];
pub const RESULT_PATH: [&'static str; 3] = ["core", "result", "Result"];
pub const STRING_PATH: [&'static str; 3] = ["collections", "string", "String"];
pub const VEC_PATH: [&'static str; 3] = ["collections", "vec", "Vec"];
pub const LL_PATH: [&'static str; 3] = ["collections", "linked_list", "LinkedList"];
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pub const OPEN_OPTIONS_PATH: [&'static str; 3] = ["std", "fs", "OpenOptions"];
pub const MUTEX_PATH: [&'static str; 4] = ["std", "sync", "mutex", "Mutex"];
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pub const CLONE_PATH: [&'static str; 2] = ["Clone", "clone"];
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pub const BEGIN_UNWIND:[&'static str; 3] = ["std", "rt", "begin_unwind"];
/// Produce a nested chain of if-lets and ifs from the patterns:
///
/// if_let_chain! {
/// [
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/// let Some(y) = x,
/// y.len() == 2,
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/// let Some(z) = y,
/// ],
/// {
/// block
/// }
/// }
///
/// becomes
///
/// if let Some(y) = x {
/// if y.len() == 2 {
/// if let Some(z) = y {
/// block
/// }
/// }
/// }
#[macro_export]
macro_rules! if_let_chain {
([let $pat:pat = $expr:expr, $($tt:tt)+], $block:block) => {
if let $pat = $expr {
if_let_chain!{ [$($tt)+], $block }
}
};
([let $pat:pat = $expr:expr], $block:block) => {
if let $pat = $expr {
$block
}
};
([$expr:expr, $($tt:tt)+], $block:block) => {
if $expr {
if_let_chain!{ [$($tt)+], $block }
}
};
([$expr:expr], $block:block) => {
if $expr {
$block
}
};
}
/// returns true if this expn_info was expanded by any macro
pub fn in_macro<T: LintContext>(cx: &T, span: Span) -> bool {
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cx.sess().codemap().with_expn_info(span.expn_id,
|info| info.is_some())
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}
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/// returns true if the macro that expanded the crate was outside of
/// the current crate or was a compiler plugin
pub fn in_external_macro<T: LintContext>(cx: &T, span: Span) -> bool {
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/// invokes in_macro with the expansion info of the given span
/// slightly heavy, try to use this after other checks have already happened
fn in_macro_ext<T: LintContext>(cx: &T, opt_info: Option<&ExpnInfo>) -> bool {
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// no ExpnInfo = no macro
opt_info.map_or(false, |info| {
if let ExpnFormat::MacroAttribute(..) = info.callee.format {
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// these are all plugins
return true;
}
// no span for the callee = external macro
info.callee.span.map_or(true, |span| {
// no snippet = external macro or compiler-builtin expansion
cx.sess().codemap().span_to_snippet(span).ok().map_or(true, |code|
// macro doesn't start with "macro_rules"
// = compiler plugin
!code.starts_with("macro_rules")
)
})
})
}
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cx.sess().codemap().with_expn_info(span.expn_id,
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|info| in_macro_ext(cx, info))
}
/// check if a DefId's path matches the given absolute type path
/// usage e.g. with
/// `match_def_path(cx, id, &["core", "option", "Option"])`
pub fn match_def_path(cx: &LateContext, def_id: DefId, path: &[&str]) -> bool {
cx.tcx.with_path(def_id, |iter| iter.zip(path)
.all(|(nm, p)| nm.name().as_str() == *p))
}
/// check if type is struct or enum type with given def path
pub fn match_type(cx: &LateContext, ty: ty::Ty, path: &[&str]) -> bool {
match ty.sty {
ty::TyEnum(ref adt, _) | ty::TyStruct(ref adt, _) => {
match_def_path(cx, adt.did, path)
}
_ => {
false
}
}
}
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/// check if method call given in "expr" belongs to given trait
pub fn match_impl_method(cx: &LateContext, expr: &Expr, path: &[&str]) -> bool {
let method_call = ty::MethodCall::expr(expr.id);
let trt_id = cx.tcx.tables
.borrow().method_map.get(&method_call)
.and_then(|callee| cx.tcx.impl_of_method(callee.def_id));
if let Some(trt_id) = trt_id {
match_def_path(cx, trt_id, path)
} else {
false
}
}
/// check if method call given in "expr" belongs to given trait
pub fn match_trait_method(cx: &LateContext, expr: &Expr, path: &[&str]) -> bool {
let method_call = ty::MethodCall::expr(expr.id);
let trt_id = cx.tcx.tables
.borrow().method_map.get(&method_call)
.and_then(|callee| cx.tcx.trait_of_item(callee.def_id));
if let Some(trt_id) = trt_id {
match_def_path(cx, trt_id, path)
} else {
false
}
}
/// match a Path against a slice of segment string literals, e.g.
/// `match_path(path, &["std", "rt", "begin_unwind"])`
pub fn match_path(path: &Path, segments: &[&str]) -> bool {
path.segments.iter().rev().zip(segments.iter().rev()).all(
|(a, b)| a.identifier.name.as_str() == *b)
}
/// match a Path against a slice of segment string literals, e.g.
/// `match_path(path, &["std", "rt", "begin_unwind"])`
pub fn match_path_ast(path: &ast::Path, segments: &[&str]) -> bool {
path.segments.iter().rev().zip(segments.iter().rev()).all(
|(a, b)| a.identifier.name.as_str() == *b)
}
/// match an Expr against a chain of methods, and return the matched Exprs. For example, if `expr`
/// represents the `.baz()` in `foo.bar().baz()`, `matched_method_chain(expr, &["bar", "baz"])`
/// will return a Vec containing the Exprs for `.bar()` and `.baz()`
pub fn method_chain_args<'a>(expr: &'a Expr, methods: &[&str]) -> Option<Vec<&'a MethodArgs>> {
let mut current = expr;
let mut matched = Vec::with_capacity(methods.len());
for method_name in methods.iter().rev() { // method chains are stored last -> first
if let ExprMethodCall(ref name, _, ref args) = current.node {
if name.node.as_str() == *method_name {
matched.push(args); // build up `matched` backwards
current = &args[0] // go to parent expression
}
else {
return None;
}
}
else {
return None;
}
}
matched.reverse(); // reverse `matched`, so that it is in the same order as `methods`
Some(matched)
}
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/// get the name of the item the expression is in, if available
pub fn get_item_name(cx: &LateContext, expr: &Expr) -> Option<Name> {
let parent_id = cx.tcx.map.get_parent(expr.id);
match cx.tcx.map.find(parent_id) {
Some(NodeItem(&Item{ ref name, .. })) |
Some(NodeTraitItem(&TraitItem{ ref name, .. })) |
Some(NodeImplItem(&ImplItem{ ref name, .. })) => {
Some(*name)
}
_ => None,
}
}
/// checks if a `let` decl is from a for loop desugaring
pub fn is_from_for_desugar(decl: &Decl) -> bool {
if_let_chain! {
[
let DeclLocal(ref loc) = decl.node,
let Some(ref expr) = loc.init,
let ExprMatch(_, _, MatchSource::ForLoopDesugar) = expr.node
],
{ return true; }
};
false
}
/// convert a span to a code snippet if available, otherwise use default, e.g.
/// `snippet(cx, expr.span, "..")`
pub fn snippet<'a, T: LintContext>(cx: &T, span: Span, default: &'a str) -> Cow<'a, str> {
cx.sess().codemap().span_to_snippet(span).map(From::from).unwrap_or(Cow::Borrowed(default))
}
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/// Converts a span to a code snippet. Returns None if not available.
pub fn snippet_opt<T: LintContext>(cx: &T, span: Span) -> Option<String> {
cx.sess().codemap().span_to_snippet(span).ok()
}
/// convert a span (from a block) to a code snippet if available, otherwise use default, e.g.
/// `snippet(cx, expr.span, "..")`
/// This trims the code of indentation, except for the first line
/// Use it for blocks or block-like things which need to be printed as such
pub fn snippet_block<'a, T: LintContext>(cx: &T, span: Span, default: &'a str) -> Cow<'a, str> {
let snip = snippet(cx, span, default);
trim_multiline(snip, true)
}
/// Like snippet_block, but add braces if the expr is not an ExprBlock
/// Also takes an Option<String> which can be put inside the braces
pub fn expr_block<'a, T: LintContext>(cx: &T, expr: &Expr,
option: Option<String>,
default: &'a str) -> Cow<'a, str> {
let code = snippet_block(cx, expr.span, default);
let string = option.map_or("".to_owned(), |s| s);
if let ExprBlock(_) = expr.node {
Cow::Owned(format!("{}{}", code, string))
} else if string.is_empty() {
Cow::Owned(format!("{{ {} }}", code))
} else {
Cow::Owned(format!("{{\n{};\n{}\n}}", code, string))
}
}
/// Trim indentation from a multiline string
/// with possibility of ignoring the first line
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pub fn trim_multiline(s: Cow<str>, ignore_first: bool) -> Cow<str> {
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let s_space = trim_multiline_inner(s, ignore_first, ' ');
let s_tab = trim_multiline_inner(s_space, ignore_first, '\t');
trim_multiline_inner(s_tab, ignore_first, ' ')
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}
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fn trim_multiline_inner(s: Cow<str>, ignore_first: bool, ch: char) -> Cow<str> {
let x = s.lines().skip(ignore_first as usize)
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.filter_map(|l| { if l.len() > 0 { // ignore empty lines
Some(l.char_indices()
.find(|&(_,x)| x != ch)
.unwrap_or((l.len(), ch)).0)
} else {None}})
.min().unwrap_or(0);
if x > 0 {
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Cow::Owned(s.lines().enumerate().map(|(i,l)| if (ignore_first && i == 0) ||
l.len() == 0 {
l
} else {
l.split_at(x).1
}).collect::<Vec<_>>()
.join("\n"))
} else {
s
}
}
/// get a parent expr if any this is useful to constrain a lint
pub fn get_parent_expr<'c>(cx: &'c LateContext, e: &Expr) -> Option<&'c Expr> {
let map = &cx.tcx.map;
let node_id : NodeId = e.id;
let parent_id : NodeId = map.get_parent_node(node_id);
if node_id == parent_id { return None; }
map.find(parent_id).and_then(|node|
if let NodeExpr(parent) = node { Some(parent) } else { None } )
}
pub fn get_enclosing_block<'c>(cx: &'c LateContext, node: NodeId) -> Option<&'c Block> {
let map = &cx.tcx.map;
let enclosing_node = map.get_enclosing_scope(node)
.and_then(|enclosing_id| map.find(enclosing_id));
if let Some(node) = enclosing_node {
match node {
NodeBlock(ref block) => Some(block),
NodeItem(&Item{ node: ItemFn(_, _, _, _, _, ref block), .. }) => Some(block),
_ => None
}
} else { None }
}
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#[cfg(not(feature="structured_logging"))]
pub fn span_lint<T: LintContext>(cx: &T, lint: &'static Lint, sp: Span, msg: &str) {
cx.span_lint(lint, sp, msg);
if cx.current_level(lint) != Level::Allow {
cx.sess().fileline_help(sp, &format!("for further information visit \
https://github.com/Manishearth/rust-clippy/wiki#{}",
lint.name_lower()))
}
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}
#[cfg(feature="structured_logging")]
pub fn span_lint<T: LintContext>(cx: &T, lint: &'static Lint, sp: Span, msg: &str) {
// lint.name / lint.desc is can give details of the lint
// cx.sess().codemap() has all these nice functions for line/column/snippet details
// http://doc.rust-lang.org/syntax/codemap/struct.CodeMap.html#method.span_to_string
cx.span_lint(lint, sp, msg);
if cx.current_level(lint) != Level::Allow {
cx.sess().fileline_help(sp, &format!("for further information visit \
https://github.com/Manishearth/rust-clippy/wiki#{}",
lint.name_lower()))
}
}
pub fn span_help_and_lint<T: LintContext>(cx: &T, lint: &'static Lint, span: Span,
msg: &str, help: &str) {
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cx.span_lint(lint, span, msg);
if cx.current_level(lint) != Level::Allow {
cx.sess().fileline_help(span, &format!("{}\nfor further information \
visit https://github.com/Manishearth/rust-clippy/wiki#{}",
help, lint.name_lower()))
}
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}
pub fn span_note_and_lint<T: LintContext>(cx: &T, lint: &'static Lint, span: Span,
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msg: &str, note_span: Span, note: &str) {
cx.span_lint(lint, span, msg);
if cx.current_level(lint) != Level::Allow {
if note_span == span {
cx.sess().fileline_note(note_span, note)
} else {
cx.sess().span_note(note_span, note)
}
cx.sess().fileline_help(span, &format!("for further information visit \
https://github.com/Manishearth/rust-clippy/wiki#{}",
lint.name_lower()))
}
}
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pub fn span_lint_and_then<T: LintContext, F>(cx: &T, lint: &'static Lint, sp: Span,
msg: &str, f: F) where F: Fn() {
cx.span_lint(lint, sp, msg);
if cx.current_level(lint) != Level::Allow {
f();
cx.sess().fileline_help(sp, &format!("for further information visit \
https://github.com/Manishearth/rust-clippy/wiki#{}",
lint.name_lower()))
}
}
/// return the base type for references and raw pointers
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pub fn walk_ptrs_ty(ty: ty::Ty) -> ty::Ty {
match ty.sty {
ty::TyRef(_, ref tm) | ty::TyRawPtr(ref tm) => walk_ptrs_ty(tm.ty),
_ => ty
}
}
/// return the base type for references and raw pointers, and count reference depth
pub fn walk_ptrs_ty_depth(ty: ty::Ty) -> (ty::Ty, usize) {
fn inner(ty: ty::Ty, depth: usize) -> (ty::Ty, usize) {
match ty.sty {
ty::TyRef(_, ref tm) | ty::TyRawPtr(ref tm) => inner(tm.ty, depth + 1),
_ => (ty, depth)
}
}
inner(ty, 0)
}
pub fn is_integer_literal(expr: &Expr, value: u64) -> bool
{
// FIXME: use constant folding
if let ExprLit(ref spanned) = expr.node {
if let LitInt(v, _) = spanned.node {
return v == value;
}
}
false
}
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pub fn is_adjusted(cx: &LateContext, e: &Expr) -> bool {
cx.tcx.tables.borrow().adjustments.get(&e.id).is_some()
}
pub struct LimitStack {
stack: Vec<u64>,
}
impl Drop for LimitStack {
fn drop(&mut self) {
assert_eq!(self.stack.len(), 1);
}
}
impl LimitStack {
pub fn new(limit: u64) -> LimitStack {
LimitStack {
stack: vec![limit],
}
}
pub fn limit(&self) -> u64 {
*self.stack.last().expect("there should always be a value in the stack")
}
pub fn push_attrs(&mut self, sess: &Session, attrs: &[ast::Attribute], name: &'static str) {
let stack = &mut self.stack;
parse_attrs(
sess,
attrs,
name,
|val| stack.push(val),
);
}
pub fn pop_attrs(&mut self, sess: &Session, attrs: &[ast::Attribute], name: &'static str) {
let stack = &mut self.stack;
parse_attrs(
sess,
attrs,
name,
|val| assert_eq!(stack.pop(), Some(val)),
);
}
}
fn parse_attrs<F: FnMut(u64)>(sess: &Session, attrs: &[ast::Attribute], name: &'static str, mut f: F) {
for attr in attrs {
let attr = &attr.node;
if attr.is_sugared_doc { continue; }
if let ast::MetaNameValue(ref key, ref value) = attr.value.node {
if *key == name {
if let LitStr(ref s, _) = value.node {
if let Ok(value) = FromStr::from_str(s) {
f(value)
} else {
sess.span_err(value.span, "not a number");
}
} else {
unreachable!()
}
}
}
}
}