rust/src/matches.rs

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use rustc::lint::*;
use rustc_front::hir::*;
use rustc::middle::ty;
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use syntax::ast::Lit_::LitBool;
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use syntax::codemap::Span;
use utils::{snippet, span_lint, span_help_and_lint, in_external_macro, expr_block};
declare_lint!(pub SINGLE_MATCH, Warn,
"a match statement with a single nontrivial arm (i.e, where the other arm \
is `_ => {}`) is used; recommends `if let` instead");
declare_lint!(pub MATCH_REF_PATS, Warn,
"a match has all arms prefixed with `&`; the match expression can be \
dereferenced instead");
declare_lint!(pub MATCH_BOOL, Warn,
"a match on boolean expression; recommends `if..else` block instead");
#[allow(missing_copy_implementations)]
pub struct MatchPass;
impl LintPass for MatchPass {
fn get_lints(&self) -> LintArray {
lint_array!(SINGLE_MATCH, MATCH_REF_PATS, MATCH_BOOL)
}
}
impl LateLintPass for MatchPass {
fn check_expr(&mut self, cx: &LateContext, expr: &Expr) {
if in_external_macro(cx, expr.span) { return; }
if let ExprMatch(ref ex, ref arms, MatchSource::Normal) = expr.node {
// check preconditions for SINGLE_MATCH
// only two arms
if arms.len() == 2 &&
// both of the arms have a single pattern and no guard
arms[0].pats.len() == 1 && arms[0].guard.is_none() &&
arms[1].pats.len() == 1 && arms[1].guard.is_none() &&
// and the second pattern is a `_` wildcard: this is not strictly necessary,
// since the exhaustiveness check will ensure the last one is a catch-all,
// but in some cases, an explicit match is preferred to catch situations
// when an enum is extended, so we don't consider these cases
arms[1].pats[0].node == PatWild &&
// we don't want any content in the second arm (unit or empty block)
is_unit_expr(&arms[1].body) &&
// finally, MATCH_BOOL doesn't apply here
(cx.tcx.expr_ty(ex).sty != ty::TyBool || cx.current_level(MATCH_BOOL) == Allow)
{
span_help_and_lint(cx, SINGLE_MATCH, expr.span,
"you seem to be trying to use match for destructuring a \
single pattern. Consider using `if let`",
&format!("try\nif let {} = {} {}",
snippet(cx, arms[0].pats[0].span, ".."),
snippet(cx, ex.span, ".."),
expr_block(cx, &arms[0].body, None, "..")));
}
// check preconditions for MATCH_BOOL
// type of expression == bool
if cx.tcx.expr_ty(ex).sty == ty::TyBool {
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if arms.len() == 2 && arms[0].pats.len() == 1 { // no guards
let exprs = if let PatLit(ref arm_bool) = arms[0].pats[0].node {
if let ExprLit(ref lit) = arm_bool.node {
if let LitBool(val) = lit.node {
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if val {
Some((&*arms[0].body, &*arms[1].body))
} else {
Some((&*arms[1].body, &*arms[0].body))
}
} else { None }
} else { None }
} else { None };
if let Some((ref true_expr, ref false_expr)) = exprs {
if !is_unit_expr(true_expr) {
if !is_unit_expr(false_expr) {
span_help_and_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block:",
&format!("try\nif {} {} else {}",
snippet(cx, ex.span, "b"),
expr_block(cx, true_expr, None, ".."),
expr_block(cx, false_expr, None, "..")));
} else {
span_help_and_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block:",
&format!("try\nif {} {}",
snippet(cx, ex.span, "b"),
expr_block(cx, true_expr, None, "..")));
}
} else if !is_unit_expr(false_expr) {
span_help_and_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block:",
&format!("try\nif !{} {}",
snippet(cx, ex.span, "b"),
expr_block(cx, false_expr, None, "..")));
} else {
span_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block");
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}
} else {
span_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block");
}
} else {
span_lint(cx, MATCH_BOOL, expr.span,
"you seem to be trying to match on a boolean expression. \
Consider using an if..else block");
}
}
}
if let ExprMatch(ref ex, ref arms, source) = expr.node {
// check preconditions for MATCH_REF_PATS
if has_only_ref_pats(arms) {
if let ExprAddrOf(Mutability::MutImmutable, ref inner) = ex.node {
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let template = match_template(cx, expr.span, source, "", inner);
span_lint(cx, MATCH_REF_PATS, expr.span, &format!(
"you don't need to add `&` to both the expression \
and the patterns: use `{}`", template));
} else {
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let template = match_template(cx, expr.span, source, "*", ex);
span_lint(cx, MATCH_REF_PATS, expr.span, &format!(
"instead of prefixing all patterns with `&`, you can dereference the \
expression: `{}`", template));
}
}
}
}
}
fn is_unit_expr(expr: &Expr) -> bool {
match expr.node {
ExprTup(ref v) if v.is_empty() => true,
ExprBlock(ref b) if b.stmts.is_empty() && b.expr.is_none() => true,
_ => false,
}
}
fn has_only_ref_pats(arms: &[Arm]) -> bool {
let mapped = arms.iter().flat_map(|a| &a.pats).map(|p| match p.node {
PatRegion(..) => Some(true), // &-patterns
PatWild => Some(false), // an "anything" wildcard is also fine
_ => None, // any other pattern is not fine
}).collect::<Option<Vec<bool>>>();
// look for Some(v) where there's at least one true element
mapped.map_or(false, |v| v.iter().any(|el| *el))
}
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fn match_template(cx: &LateContext,
span: Span,
source: MatchSource,
op: &str,
expr: &Expr) -> String {
let expr_snippet = snippet(cx, expr.span, "..");
match source {
MatchSource::Normal => {
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format!("match {}{} {{ ...", op, expr_snippet)
}
MatchSource::IfLetDesugar { .. } => {
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format!("if let ... = {}{} {{", op, expr_snippet)
}
MatchSource::WhileLetDesugar => {
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format!("while let ... = {}{} {{", op, expr_snippet)
}
MatchSource::ForLoopDesugar => {
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cx.sess().span_bug(span, "for loop desugared to match with &-patterns!")
}
}
}