rust-clippy/clippy_lints/src/booleans.rs

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use rustc::lint::{LateContext, LateLintPass, LintArray, LintPass};
use rustc::hir::*;
use rustc::hir::intravisit::*;
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use syntax::ast::{LitKind, NodeId, DUMMY_NODE_ID};
use syntax::codemap::{dummy_spanned, Span, DUMMY_SP};
use syntax::util::ThinVec;
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use utils::{in_macro, snippet_opt, span_lint_and_then, SpanlessEq};
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/// **What it does:** Checks for boolean expressions that can be written more
/// concisely.
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///
/// **Why is this bad?** Readability of boolean expressions suffers from
/// unnecessary duplication.
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///
/// **Known problems:** Ignores short circuiting behavior of `||` and
/// `&&`. Ignores `|`, `&` and `^`.
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///
/// **Example:**
/// ```rust
/// if a && true // should be: if a
/// if !(a == b) // should be: if a != b
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/// ```
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declare_lint! {
pub NONMINIMAL_BOOL,
Allow,
"boolean expressions that can be written more concisely"
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}
/// **What it does:** Checks for boolean expressions that contain terminals that
/// can be eliminated.
///
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/// **Why is this bad?** This is most likely a logic bug.
///
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/// **Known problems:** Ignores short circuiting behavior.
///
/// **Example:**
/// ```rust
/// if a && b || a { ... }
/// ```
/// The `b` is unnecessary, the expression is equivalent to `if a`.
declare_lint! {
pub LOGIC_BUG,
Warn,
"boolean expressions that contain terminals which can be eliminated"
}
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// For each pairs, both orders are considered.
const METHODS_WITH_NEGATION: [(&str, &str); 2] = [
("is_some", "is_none"),
("is_err", "is_ok"),
];
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#[derive(Copy, Clone)]
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pub struct NonminimalBool;
impl LintPass for NonminimalBool {
fn get_lints(&self) -> LintArray {
lint_array!(NONMINIMAL_BOOL, LOGIC_BUG)
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}
}
impl<'a, 'tcx> LateLintPass<'a, 'tcx> for NonminimalBool {
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fn check_fn(
&mut self,
cx: &LateContext<'a, 'tcx>,
_: intravisit::FnKind<'tcx>,
_: &'tcx FnDecl,
body: &'tcx Body,
_: Span,
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_: NodeId,
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) {
NonminimalBoolVisitor { cx: cx }.visit_body(body)
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}
}
struct NonminimalBoolVisitor<'a, 'tcx: 'a> {
cx: &'a LateContext<'a, 'tcx>,
}
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use quine_mc_cluskey::Bool;
struct Hir2Qmm<'a, 'tcx: 'a, 'v> {
terminals: Vec<&'v Expr>,
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cx: &'a LateContext<'a, 'tcx>,
}
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impl<'a, 'tcx, 'v> Hir2Qmm<'a, 'tcx, 'v> {
fn extract(&mut self, op: BinOp_, a: &[&'v Expr], mut v: Vec<Bool>) -> Result<Vec<Bool>, String> {
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for a in a {
if let ExprBinary(binop, ref lhs, ref rhs) = a.node {
if binop.node == op {
v = self.extract(op, &[lhs, rhs], v)?;
continue;
}
}
v.push(self.run(a)?);
}
Ok(v)
}
fn run(&mut self, e: &'v Expr) -> Result<Bool, String> {
// prevent folding of `cfg!` macros and the like
if !in_macro(e.span) {
match e.node {
ExprUnary(UnNot, ref inner) => return Ok(Bool::Not(box self.run(inner)?)),
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ExprBinary(binop, ref lhs, ref rhs) => match binop.node {
BiOr => return Ok(Bool::Or(self.extract(BiOr, &[lhs, rhs], Vec::new())?)),
BiAnd => return Ok(Bool::And(self.extract(BiAnd, &[lhs, rhs], Vec::new())?)),
_ => (),
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},
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ExprLit(ref lit) => match lit.node {
LitKind::Bool(true) => return Ok(Bool::True),
LitKind::Bool(false) => return Ok(Bool::False),
_ => (),
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},
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_ => (),
}
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}
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for (n, expr) in self.terminals.iter().enumerate() {
if SpanlessEq::new(self.cx).ignore_fn().eq_expr(e, expr) {
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#[allow(cast_possible_truncation)]
return Ok(Bool::Term(n as u8));
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}
let negated = match e.node {
ExprBinary(binop, ref lhs, ref rhs) => {
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let mk_expr = |op| {
Expr {
id: DUMMY_NODE_ID,
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hir_id: DUMMY_HIR_ID,
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span: DUMMY_SP,
attrs: ThinVec::new(),
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node: ExprBinary(dummy_spanned(op), lhs.clone(), rhs.clone()),
}
};
match binop.node {
BiEq => mk_expr(BiNe),
BiNe => mk_expr(BiEq),
BiGt => mk_expr(BiLe),
BiGe => mk_expr(BiLt),
BiLt => mk_expr(BiGe),
BiLe => mk_expr(BiGt),
_ => continue,
}
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},
_ => continue,
};
if SpanlessEq::new(self.cx).ignore_fn().eq_expr(&negated, expr) {
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#[allow(cast_possible_truncation)]
return Ok(Bool::Not(Box::new(Bool::Term(n as u8))));
}
}
let n = self.terminals.len();
self.terminals.push(e);
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if n < 32 {
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#[allow(cast_possible_truncation)]
Ok(Bool::Term(n as u8))
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} else {
Err("too many literals".to_owned())
}
}
}
struct SuggestContext<'a, 'tcx: 'a, 'v> {
terminals: &'v [&'v Expr],
cx: &'a LateContext<'a, 'tcx>,
output: String,
simplified: bool,
}
impl<'a, 'tcx, 'v> SuggestContext<'a, 'tcx, 'v> {
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fn snip(&self, e: &Expr) -> Option<String> {
snippet_opt(self.cx, e.span)
}
fn simplify_not(&self, expr: &Expr) -> Option<String> {
match expr.node {
ExprBinary(binop, ref lhs, ref rhs) => {
match binop.node {
BiEq => Some(" != "),
BiNe => Some(" == "),
BiLt => Some(" >= "),
BiGt => Some(" <= "),
BiLe => Some(" > "),
BiGe => Some(" < "),
_ => None,
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}.and_then(|op| Some(format!("{}{}{}", self.snip(lhs)?, op, self.snip(rhs)?)))
},
ExprMethodCall(ref path, _, ref args) if args.len() == 1 => {
METHODS_WITH_NEGATION
.iter().cloned()
.flat_map(|(a, b)| vec![(a, b), (b, a)])
.find(|&(a, _)| a == path.name.as_str())
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.and_then(|(_, neg_method)| Some(format!("{}.{}()", self.snip(&args[0])?, neg_method)))
},
_ => None,
}
}
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fn recurse(&mut self, suggestion: &Bool) -> Option<()> {
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use quine_mc_cluskey::Bool::*;
match *suggestion {
True => {
self.output.push_str("true");
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},
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False => {
self.output.push_str("false");
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},
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Not(ref inner) => match **inner {
And(_) | Or(_) => {
self.output.push('!');
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self.output.push('(');
self.recurse(inner);
self.output.push(')');
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},
Term(n) => {
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let terminal = self.terminals[n as usize];
if let Some(str) = self.simplify_not(terminal) {
self.simplified = true;
self.output.push_str(&str)
} else {
self.output.push('!');
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let snip = self.snip(terminal)?;
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self.output.push_str(&snip);
}
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},
True | False | Not(_) => {
self.output.push('!');
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self.recurse(inner)?;
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},
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},
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And(ref v) => {
for (index, inner) in v.iter().enumerate() {
if index > 0 {
self.output.push_str(" && ");
}
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if let Or(_) = *inner {
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self.output.push('(');
self.recurse(inner);
self.output.push(')');
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} else {
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self.recurse(inner);
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}
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}
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},
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Or(ref v) => {
for (index, inner) in v.iter().enumerate() {
if index > 0 {
self.output.push_str(" || ");
}
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self.recurse(inner);
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}
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},
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Term(n) => {
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let snip = self.snip(self.terminals[n as usize])?;
self.output.push_str(&snip);
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},
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}
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Some(())
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}
}
// The boolean part of the return indicates whether some simplifications have been applied.
fn suggest(cx: &LateContext, suggestion: &Bool, terminals: &[&Expr]) -> (String, bool) {
let mut suggest_context = SuggestContext {
terminals: terminals,
cx: cx,
output: String::new(),
simplified: false,
};
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suggest_context.recurse(suggestion);
(suggest_context.output, suggest_context.simplified)
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}
fn simple_negate(b: Bool) -> Bool {
use quine_mc_cluskey::Bool::*;
match b {
True => False,
False => True,
t @ Term(_) => Not(Box::new(t)),
And(mut v) => {
for el in &mut v {
*el = simple_negate(::std::mem::replace(el, True));
}
Or(v)
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},
Or(mut v) => {
for el in &mut v {
*el = simple_negate(::std::mem::replace(el, True));
}
And(v)
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},
Not(inner) => *inner,
}
}
#[derive(Default)]
struct Stats {
terminals: [usize; 32],
negations: usize,
ops: usize,
}
fn terminal_stats(b: &Bool) -> Stats {
fn recurse(b: &Bool, stats: &mut Stats) {
match *b {
True | False => stats.ops += 1,
Not(ref inner) => {
match **inner {
And(_) | Or(_) => stats.ops += 1, // brackets are also operations
_ => stats.negations += 1,
}
recurse(inner, stats);
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},
And(ref v) | Or(ref v) => {
stats.ops += v.len() - 1;
for inner in v {
recurse(inner, stats);
}
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},
Term(n) => stats.terminals[n as usize] += 1,
}
}
use quine_mc_cluskey::Bool::*;
let mut stats = Stats::default();
recurse(b, &mut stats);
stats
}
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impl<'a, 'tcx> NonminimalBoolVisitor<'a, 'tcx> {
fn bool_expr(&self, e: &Expr) {
let mut h2q = Hir2Qmm {
terminals: Vec::new(),
cx: self.cx,
};
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if let Ok(expr) = h2q.run(e) {
if h2q.terminals.len() > 8 {
// QMC has exponentially slow behavior as the number of terminals increases
// 8 is reasonable, it takes approximately 0.2 seconds.
// See #825
return;
}
let stats = terminal_stats(&expr);
let mut simplified = expr.simplify();
for simple in Bool::Not(Box::new(expr.clone())).simplify() {
match simple {
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Bool::Not(_) | Bool::True | Bool::False => {},
_ => simplified.push(Bool::Not(Box::new(simple.clone()))),
}
let simple_negated = simple_negate(simple);
if simplified.iter().any(|s| *s == simple_negated) {
continue;
}
simplified.push(simple_negated);
}
let mut improvements = Vec::new();
'simplified: for suggestion in &simplified {
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let simplified_stats = terminal_stats(suggestion);
let mut improvement = false;
for i in 0..32 {
// ignore any "simplifications" that end up requiring a terminal more often
// than in the original expression
if stats.terminals[i] < simplified_stats.terminals[i] {
continue 'simplified;
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}
if stats.terminals[i] != 0 && simplified_stats.terminals[i] == 0 {
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span_lint_and_then(
self.cx,
LOGIC_BUG,
e.span,
"this boolean expression contains a logic bug",
|db| {
db.span_help(
h2q.terminals[i].span,
"this expression can be optimized out by applying boolean operations to the \
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outer expression",
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);
db.span_suggestion(
e.span,
"it would look like the following",
suggest(self.cx, suggestion, &h2q.terminals).0,
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);
},
);
// don't also lint `NONMINIMAL_BOOL`
return;
}
// if the number of occurrences of a terminal decreases or any of the stats
// decreases while none increases
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improvement |= (stats.terminals[i] > simplified_stats.terminals[i])
|| (stats.negations > simplified_stats.negations && stats.ops == simplified_stats.ops)
|| (stats.ops > simplified_stats.ops && stats.negations == simplified_stats.negations);
}
if improvement {
improvements.push(suggestion);
}
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}
let nonminimal_bool_lint = |suggestions| {
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span_lint_and_then(
self.cx,
NONMINIMAL_BOOL,
e.span,
"this boolean expression can be simplified",
|db| { db.span_suggestions(e.span, "try", suggestions); },
);
};
if improvements.is_empty() {
let suggest = suggest(self.cx, &expr, &h2q.terminals);
if suggest.1 {
nonminimal_bool_lint(vec![suggest.0])
}
} else {
nonminimal_bool_lint(
improvements
.into_iter()
.map(|suggestion| suggest(self.cx, suggestion, &h2q.terminals).0)
.collect()
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);
}
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}
}
}
impl<'a, 'tcx> Visitor<'tcx> for NonminimalBoolVisitor<'a, 'tcx> {
fn visit_expr(&mut self, e: &'tcx Expr) {
if in_macro(e.span) {
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return;
}
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match e.node {
ExprBinary(binop, _, _) if binop.node == BiOr || binop.node == BiAnd => self.bool_expr(e),
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ExprUnary(UnNot, ref inner) => if self.cx.tables.node_types()[inner.hir_id].is_bool() {
self.bool_expr(e);
} else {
walk_expr(self, e);
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},
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_ => walk_expr(self, e),
}
}
fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
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NestedVisitorMap::None
}
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}