rust-clippy/clippy_lints/src/cognitive_complexity.rs

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//! calculate cognitive complexity and warn about overly complex functions
use rustc::cfg::CFG;
use rustc::hir::intravisit::{walk_expr, NestedVisitorMap, Visitor};
use rustc::hir::*;
use rustc::lint::{LateContext, LateLintPass, LintArray, LintContext, LintPass};
use rustc::ty;
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use rustc::{declare_tool_lint, impl_lint_pass};
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use syntax::ast::Attribute;
use syntax::source_map::Span;
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use crate::utils::{in_macro_or_desugar, is_allowed, match_type, paths, span_help_and_lint, LimitStack};
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declare_clippy_lint! {
/// **What it does:** Checks for methods with high cognitive complexity.
///
/// **Why is this bad?** Methods of high cognitive complexity tend to be hard to
/// both read and maintain. Also LLVM will tend to optimize small methods better.
///
/// **Known problems:** Sometimes it's hard to find a way to reduce the
/// complexity.
///
/// **Example:** No. You'll see it when you get the warning.
pub COGNITIVE_COMPLEXITY,
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complexity,
"functions that should be split up into multiple functions"
}
pub struct CognitiveComplexity {
limit: LimitStack,
}
impl CognitiveComplexity {
pub fn new(limit: u64) -> Self {
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Self {
limit: LimitStack::new(limit),
}
}
}
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impl_lint_pass!(CognitiveComplexity => [COGNITIVE_COMPLEXITY]);
impl CognitiveComplexity {
fn check<'a, 'tcx: 'a>(&mut self, cx: &'a LateContext<'a, 'tcx>, body: &'tcx Body, span: Span) {
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if in_macro_or_desugar(span) {
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return;
}
let cfg = CFG::new(cx.tcx, body);
let expr = &body.value;
let n = cfg.graph.len_nodes() as u64;
let e = cfg.graph.len_edges() as u64;
if e + 2 < n {
// the function has unreachable code, other lints should catch this
return;
}
let cc = e + 2 - n;
let mut helper = CCHelper {
match_arms: 0,
divergence: 0,
short_circuits: 0,
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returns: 0,
cx,
};
helper.visit_expr(expr);
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let CCHelper {
match_arms,
divergence,
short_circuits,
returns,
..
} = helper;
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let ret_ty = cx.tables.node_type(expr.hir_id);
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let ret_adjust = if match_type(cx, ret_ty, &paths::RESULT) {
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returns
} else {
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#[allow(clippy::integer_division)]
(returns / 2)
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};
if cc + divergence < match_arms + short_circuits {
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report_cc_bug(
cx,
cc,
match_arms,
divergence,
short_circuits,
ret_adjust,
span,
body.id().hir_id,
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);
} else {
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let mut rust_cc = cc + divergence - match_arms - short_circuits;
// prevent degenerate cases where unreachable code contains `return` statements
if rust_cc >= ret_adjust {
rust_cc -= ret_adjust;
}
if rust_cc > self.limit.limit() {
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span_help_and_lint(
cx,
COGNITIVE_COMPLEXITY,
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span,
&format!("the function has a cognitive complexity of {}", rust_cc),
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"you could split it up into multiple smaller functions",
);
}
}
}
}
impl<'a, 'tcx> LateLintPass<'a, 'tcx> for CognitiveComplexity {
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fn check_fn(
&mut self,
cx: &LateContext<'a, 'tcx>,
_: intravisit::FnKind<'tcx>,
_: &'tcx FnDecl,
body: &'tcx Body,
span: Span,
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hir_id: HirId,
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) {
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let def_id = cx.tcx.hir().local_def_id_from_hir_id(hir_id);
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if !cx.tcx.has_attr(def_id, sym!(test)) {
self.check(cx, body, span);
}
}
fn enter_lint_attrs(&mut self, cx: &LateContext<'a, 'tcx>, attrs: &'tcx [Attribute]) {
self.limit.push_attrs(cx.sess(), attrs, "cognitive_complexity");
}
fn exit_lint_attrs(&mut self, cx: &LateContext<'a, 'tcx>, attrs: &'tcx [Attribute]) {
self.limit.pop_attrs(cx.sess(), attrs, "cognitive_complexity");
}
}
struct CCHelper<'a, 'tcx: 'a> {
match_arms: u64,
divergence: u64,
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returns: u64,
short_circuits: u64, // && and ||
cx: &'a LateContext<'a, 'tcx>,
}
impl<'a, 'tcx> Visitor<'tcx> for CCHelper<'a, 'tcx> {
fn visit_expr(&mut self, e: &'tcx Expr) {
match e.node {
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ExprKind::Match(_, ref arms, _) => {
walk_expr(self, e);
let arms_n: u64 = arms.iter().map(|arm| arm.pats.len() as u64).sum();
if arms_n > 1 {
self.match_arms += arms_n - 2;
}
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},
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ExprKind::Call(ref callee, _) => {
walk_expr(self, e);
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let ty = self.cx.tables.node_type(callee.hir_id);
match ty.sty {
ty::FnDef(..) | ty::FnPtr(_) => {
let sig = ty.fn_sig(self.cx.tcx);
if sig.skip_binder().output().sty == ty::Never {
self.divergence += 1;
}
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},
_ => (),
}
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},
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ExprKind::Closure(.., _) => (),
ExprKind::Binary(op, _, _) => {
walk_expr(self, e);
match op.node {
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BinOpKind::And | BinOpKind::Or => self.short_circuits += 1,
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_ => (),
}
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},
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ExprKind::Ret(_) => self.returns += 1,
_ => walk_expr(self, e),
}
}
fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
NestedVisitorMap::None
}
}
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#[cfg(feature = "debugging")]
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#[allow(clippy::too_many_arguments)]
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fn report_cc_bug(
_: &LateContext<'_, '_>,
cc: u64,
narms: u64,
div: u64,
shorts: u64,
returns: u64,
span: Span,
_: HirId,
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) {
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span_bug!(
span,
"Clippy encountered a bug calculating cognitive complexity: cc = {}, arms = {}, \
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div = {}, shorts = {}, returns = {}. Please file a bug report.",
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cc,
narms,
div,
shorts,
returns
);
}
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#[cfg(not(feature = "debugging"))]
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#[allow(clippy::too_many_arguments)]
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fn report_cc_bug(
cx: &LateContext<'_, '_>,
cc: u64,
narms: u64,
div: u64,
shorts: u64,
returns: u64,
span: Span,
id: HirId,
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) {
if !is_allowed(cx, COGNITIVE_COMPLEXITY, id) {
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cx.sess().span_note_without_error(
span,
&format!(
"Clippy encountered a bug calculating cognitive complexity \
(hide this message with `#[allow(cognitive_complexity)]`): \
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cc = {}, arms = {}, div = {}, shorts = {}, returns = {}. \
Please file a bug report.",
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cc, narms, div, shorts, returns
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),
);
}
}