rust/clippy_lints/src/literal_representation.rs

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//! Lints concerned with the grouping of digits with underscores in integral or
//! floating-point literal expressions.
use crate::utils::{in_macro, snippet_opt, span_lint_and_sugg};
use if_chain::if_chain;
use rustc::lint::{in_external_macro, EarlyContext, EarlyLintPass, LintArray, LintContext, LintPass};
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use rustc::{declare_lint_pass, impl_lint_pass};
use rustc_errors::Applicability;
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use rustc_session::declare_tool_lint;
use syntax::ast::*;
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declare_clippy_lint! {
/// **What it does:** Warns if a long integral or floating-point constant does
/// not contain underscores.
///
/// **Why is this bad?** Reading long numbers is difficult without separators.
///
/// **Known problems:** None.
///
/// **Example:**
///
/// ```rust
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/// let x: u64 = 61864918973511;
/// ```
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pub UNREADABLE_LITERAL,
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style,
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"long integer literal without underscores"
}
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declare_clippy_lint! {
/// **What it does:** Warns for mistyped suffix in literals
///
/// **Why is this bad?** This is most probably a typo
///
/// **Known problems:**
/// - Recommends a signed suffix, even though the number might be too big and an unsigned
/// suffix is required
/// - Does not match on `_128` since that is a valid grouping for decimal and octal numbers
///
/// **Example:**
///
/// ```rust
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/// 2_32;
/// ```
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pub MISTYPED_LITERAL_SUFFIXES,
correctness,
"mistyped literal suffix"
}
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declare_clippy_lint! {
/// **What it does:** Warns if an integral or floating-point constant is
/// grouped inconsistently with underscores.
///
/// **Why is this bad?** Readers may incorrectly interpret inconsistently
/// grouped digits.
///
/// **Known problems:** None.
///
/// **Example:**
///
/// ```rust
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/// let x: u64 = 618_64_9189_73_511;
/// ```
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pub INCONSISTENT_DIGIT_GROUPING,
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style,
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"integer literals with digits grouped inconsistently"
}
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declare_clippy_lint! {
/// **What it does:** Warns if the digits of an integral or floating-point
/// constant are grouped into groups that
/// are too large.
///
/// **Why is this bad?** Negatively impacts readability.
///
/// **Known problems:** None.
///
/// **Example:**
///
/// ```rust
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/// let x: u64 = 6186491_8973511;
/// ```
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pub LARGE_DIGIT_GROUPS,
pedantic,
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"grouping digits into groups that are too large"
}
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declare_clippy_lint! {
/// **What it does:** Warns if there is a better representation for a numeric literal.
///
/// **Why is this bad?** Especially for big powers of 2 a hexadecimal representation is more
/// readable than a decimal representation.
///
/// **Known problems:** None.
///
/// **Example:**
///
/// `255` => `0xFF`
/// `65_535` => `0xFFFF`
/// `4_042_322_160` => `0xF0F0_F0F0`
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pub DECIMAL_LITERAL_REPRESENTATION,
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restriction,
"using decimal representation when hexadecimal would be better"
}
#[derive(Debug, PartialEq)]
pub(super) enum Radix {
Binary,
Octal,
Decimal,
Hexadecimal,
}
impl Radix {
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/// Returns a reasonable digit group size for this radix.
#[must_use]
fn suggest_grouping(&self) -> usize {
match *self {
Self::Binary | Self::Hexadecimal => 4,
Self::Octal | Self::Decimal => 3,
}
}
}
/// A helper method to format numeric literals with digit grouping.
/// `lit` must be a valid numeric literal without suffix.
pub fn format_numeric_literal(lit: &str, type_suffix: Option<&str>, float: bool) -> String {
NumericLiteral::new(lit, type_suffix, float).format()
}
#[derive(Debug)]
pub(super) struct NumericLiteral<'a> {
/// Which radix the literal was represented in.
radix: Radix,
/// The radix prefix, if present.
prefix: Option<&'a str>,
/// The integer part of the number.
integer: &'a str,
/// The fraction part of the number.
fraction: Option<&'a str>,
/// The character used as exponent seperator (b'e' or b'E') and the exponent part.
exponent: Option<(char, &'a str)>,
/// The type suffix, including preceding underscore if present.
suffix: Option<&'a str>,
}
impl<'a> NumericLiteral<'a> {
fn from_lit(src: &'a str, lit: &Lit) -> Option<NumericLiteral<'a>> {
if lit.kind.is_numeric() && src.chars().next().map_or(false, |c| c.is_digit(10)) {
let (unsuffixed, suffix) = split_suffix(&src, &lit.kind);
let float = if let LitKind::Float(..) = lit.kind { true } else { false };
Some(NumericLiteral::new(unsuffixed, suffix, float))
} else {
None
}
}
#[must_use]
fn new(lit: &'a str, suffix: Option<&'a str>, float: bool) -> Self {
// Determine delimiter for radix prefix, if present, and radix.
let radix = if lit.starts_with("0x") {
Radix::Hexadecimal
} else if lit.starts_with("0b") {
Radix::Binary
} else if lit.starts_with("0o") {
Radix::Octal
} else {
Radix::Decimal
};
// Grab part of the literal after prefix, if present.
let (prefix, mut sans_prefix) = if let Radix::Decimal = radix {
(None, lit)
} else {
let (p, s) = lit.split_at(2);
(Some(p), s)
};
if suffix.is_some() && sans_prefix.ends_with('_') {
// The '_' before the suffix isn't part of the digits
sans_prefix = &sans_prefix[..sans_prefix.len() - 1];
}
let (integer, fraction, exponent) = Self::split_digit_parts(sans_prefix, float);
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Self {
radix,
prefix,
integer,
fraction,
exponent,
suffix,
}
}
fn split_digit_parts(digits: &str, float: bool) -> (&str, Option<&str>, Option<(char, &str)>) {
let mut integer = digits;
let mut fraction = None;
let mut exponent = None;
if float {
for (i, c) in digits.char_indices() {
match c {
'.' => {
integer = &digits[..i];
fraction = Some(&digits[i + 1..]);
},
'e' | 'E' => {
if integer.len() > i {
integer = &digits[..i];
} else {
fraction = Some(&digits[integer.len() + 1..i]);
};
exponent = Some((c, &digits[i + 1..]));
break;
},
_ => {},
}
}
}
(integer, fraction, exponent)
}
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/// Returns literal formatted in a sensible way.
fn format(&self) -> String {
let mut output = String::new();
if let Some(prefix) = self.prefix {
output.push_str(prefix);
}
let group_size = self.radix.suggest_grouping();
Self::group_digits(
&mut output,
self.integer,
group_size,
true,
self.radix == Radix::Hexadecimal,
);
if let Some(fraction) = self.fraction {
output.push('.');
Self::group_digits(&mut output, fraction, group_size, false, false);
}
if let Some((separator, exponent)) = self.exponent {
output.push(separator);
Self::group_digits(&mut output, exponent, group_size, true, false);
}
if let Some(suffix) = self.suffix {
output.push('_');
output.push_str(suffix);
}
output
}
fn group_digits(output: &mut String, input: &str, group_size: usize, partial_group_first: bool, pad: bool) {
debug_assert!(group_size > 0);
let mut digits = input.chars().filter(|&c| c != '_');
let first_group_size;
if partial_group_first {
first_group_size = (digits.clone().count() - 1) % group_size + 1;
if pad {
for _ in 0..group_size - first_group_size {
output.push('0');
}
}
} else {
first_group_size = group_size;
}
for _ in 0..first_group_size {
if let Some(digit) = digits.next() {
output.push(digit);
}
}
for (c, i) in digits.zip((0..group_size).cycle()) {
if i == 0 {
output.push('_');
}
output.push(c);
}
}
}
fn split_suffix<'a>(src: &'a str, lit_kind: &LitKind) -> (&'a str, Option<&'a str>) {
debug_assert!(lit_kind.is_numeric());
if let Some(suffix_length) = lit_suffix_length(lit_kind) {
let (unsuffixed, suffix) = src.split_at(src.len() - suffix_length);
(unsuffixed, Some(suffix))
} else {
(src, None)
}
}
fn lit_suffix_length(lit_kind: &LitKind) -> Option<usize> {
debug_assert!(lit_kind.is_numeric());
let suffix = match lit_kind {
LitKind::Int(_, int_lit_kind) => match int_lit_kind {
LitIntType::Signed(int_ty) => Some(int_ty.name_str()),
LitIntType::Unsigned(uint_ty) => Some(uint_ty.name_str()),
LitIntType::Unsuffixed => None,
},
LitKind::Float(_, float_lit_kind) => match float_lit_kind {
LitFloatType::Suffixed(float_ty) => Some(float_ty.name_str()),
LitFloatType::Unsuffixed => None,
},
_ => None,
};
suffix.map(str::len)
}
enum WarningType {
UnreadableLiteral,
InconsistentDigitGrouping,
LargeDigitGroups,
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DecimalRepresentation,
MistypedLiteralSuffix,
}
impl WarningType {
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fn display(&self, suggested_format: String, cx: &EarlyContext<'_>, span: rustc_span::Span) {
match self {
Self::MistypedLiteralSuffix => span_lint_and_sugg(
cx,
MISTYPED_LITERAL_SUFFIXES,
span,
"mistyped literal suffix",
"did you mean to write",
suggested_format,
Applicability::MaybeIncorrect,
),
Self::UnreadableLiteral => span_lint_and_sugg(
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cx,
UNREADABLE_LITERAL,
span,
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"long literal lacking separators",
"consider",
suggested_format,
Applicability::MachineApplicable,
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),
Self::LargeDigitGroups => span_lint_and_sugg(
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cx,
LARGE_DIGIT_GROUPS,
span,
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"digit groups should be smaller",
"consider",
suggested_format,
Applicability::MachineApplicable,
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),
Self::InconsistentDigitGrouping => span_lint_and_sugg(
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cx,
INCONSISTENT_DIGIT_GROUPING,
span,
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"digits grouped inconsistently by underscores",
"consider",
suggested_format,
Applicability::MachineApplicable,
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),
Self::DecimalRepresentation => span_lint_and_sugg(
cx,
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DECIMAL_LITERAL_REPRESENTATION,
span,
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"integer literal has a better hexadecimal representation",
"consider",
suggested_format,
Applicability::MachineApplicable,
),
};
}
}
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declare_lint_pass!(LiteralDigitGrouping => [
UNREADABLE_LITERAL,
INCONSISTENT_DIGIT_GROUPING,
LARGE_DIGIT_GROUPS,
MISTYPED_LITERAL_SUFFIXES,
]);
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impl EarlyLintPass for LiteralDigitGrouping {
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fn check_expr(&mut self, cx: &EarlyContext<'_>, expr: &Expr) {
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if in_external_macro(cx.sess(), expr.span) {
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return;
}
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if let ExprKind::Lit(ref lit) = expr.kind {
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Self::check_lit(cx, lit)
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}
}
}
impl LiteralDigitGrouping {
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fn check_lit(cx: &EarlyContext<'_>, lit: &Lit) {
if_chain! {
if let Some(src) = snippet_opt(cx, lit.span);
if let Some(mut num_lit) = NumericLiteral::from_lit(&src, &lit);
then {
if !Self::check_for_mistyped_suffix(cx, lit.span, &mut num_lit) {
return;
}
let result = (|| {
let integral_group_size = Self::get_group_size(num_lit.integer.split('_'))?;
if let Some(fraction) = num_lit.fraction {
let fractional_group_size = Self::get_group_size(fraction.rsplit('_'))?;
let consistent = Self::parts_consistent(integral_group_size,
fractional_group_size,
num_lit.integer.len(),
fraction.len());
if !consistent {
return Err(WarningType::InconsistentDigitGrouping);
};
}
Ok(())
})();
if let Err(warning_type) = result {
let should_warn = match warning_type {
| WarningType::UnreadableLiteral
| WarningType::InconsistentDigitGrouping
| WarningType::LargeDigitGroups => {
!in_macro(lit.span)
}
WarningType::DecimalRepresentation | WarningType::MistypedLiteralSuffix => {
true
}
};
if should_warn {
warning_type.display(num_lit.format(), cx, lit.span)
}
}
}
}
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}
// Returns `false` if the check fails
fn check_for_mistyped_suffix(
cx: &EarlyContext<'_>,
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span: rustc_span::Span,
num_lit: &mut NumericLiteral<'_>,
) -> bool {
if num_lit.suffix.is_some() {
return true;
}
let (part, mistyped_suffixes, missing_char) = if let Some((_, exponent)) = &mut num_lit.exponent {
(exponent, &["32", "64"][..], 'f')
} else if let Some(fraction) = &mut num_lit.fraction {
(fraction, &["32", "64"][..], 'f')
} else {
(&mut num_lit.integer, &["8", "16", "32", "64"][..], 'i')
};
let mut split = part.rsplit('_');
let last_group = split.next().expect("At least one group");
if split.next().is_some() && mistyped_suffixes.contains(&last_group) {
*part = &part[..part.len() - last_group.len()];
let mut sugg = num_lit.format();
sugg.push('_');
sugg.push(missing_char);
sugg.push_str(last_group);
WarningType::MistypedLiteralSuffix.display(sugg, cx, span);
false
} else {
true
}
}
/// Given the sizes of the digit groups of both integral and fractional
/// parts, and the length
/// of both parts, determine if the digits have been grouped consistently.
#[must_use]
fn parts_consistent(
int_group_size: Option<usize>,
frac_group_size: Option<usize>,
int_size: usize,
frac_size: usize,
) -> bool {
match (int_group_size, frac_group_size) {
// No groups on either side of decimal point - trivially consistent.
(None, None) => true,
// Integral part has grouped digits, fractional part does not.
(Some(int_group_size), None) => frac_size <= int_group_size,
// Fractional part has grouped digits, integral part does not.
(None, Some(frac_group_size)) => int_size <= frac_group_size,
// Both parts have grouped digits. Groups should be the same size.
(Some(int_group_size), Some(frac_group_size)) => int_group_size == frac_group_size,
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}
}
/// Returns the size of the digit groups (or None if ungrouped) if successful,
/// otherwise returns a `WarningType` for linting.
fn get_group_size<'a>(groups: impl Iterator<Item = &'a str>) -> Result<Option<usize>, WarningType> {
let mut groups = groups.map(str::len);
let first = groups.next().expect("At least one group");
if let Some(second) = groups.next() {
if !groups.all(|x| x == second) || first > second {
Err(WarningType::InconsistentDigitGrouping)
} else if second > 4 {
Err(WarningType::LargeDigitGroups)
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} else {
Ok(Some(second))
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}
} else if first > 5 {
Err(WarningType::UnreadableLiteral)
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} else {
Ok(None)
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}
}
}
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#[allow(clippy::module_name_repetitions)]
#[derive(Copy, Clone)]
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pub struct DecimalLiteralRepresentation {
threshold: u64,
}
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impl_lint_pass!(DecimalLiteralRepresentation => [DECIMAL_LITERAL_REPRESENTATION]);
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impl EarlyLintPass for DecimalLiteralRepresentation {
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fn check_expr(&mut self, cx: &EarlyContext<'_>, expr: &Expr) {
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if in_external_macro(cx.sess(), expr.span) {
return;
}
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if let ExprKind::Lit(ref lit) = expr.kind {
self.check_lit(cx, lit)
}
}
}
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impl DecimalLiteralRepresentation {
#[must_use]
pub fn new(threshold: u64) -> Self {
Self { threshold }
}
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fn check_lit(self, cx: &EarlyContext<'_>, lit: &Lit) {
// Lint integral literals.
if_chain! {
if let LitKind::Int(val, _) = lit.kind;
if let Some(src) = snippet_opt(cx, lit.span);
if let Some(num_lit) = NumericLiteral::from_lit(&src, &lit);
if num_lit.radix == Radix::Decimal;
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if val >= u128::from(self.threshold);
then {
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let hex = format!("{:#X}", val);
let num_lit = NumericLiteral::new(&hex, num_lit.suffix, false);
let _ = Self::do_lint(num_lit.integer).map_err(|warning_type| {
warning_type.display(num_lit.format(), cx, lit.span)
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});
}
}
}
fn do_lint(digits: &str) -> Result<(), WarningType> {
if digits.len() == 1 {
// Lint for 1 digit literals, if someone really sets the threshold that low
if digits == "1"
|| digits == "2"
|| digits == "4"
|| digits == "8"
|| digits == "3"
|| digits == "7"
|| digits == "F"
{
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return Err(WarningType::DecimalRepresentation);
}
} else if digits.len() < 4 {
// Lint for Literals with a hex-representation of 2 or 3 digits
let f = &digits[0..1]; // first digit
let s = &digits[1..]; // suffix
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// Powers of 2
if ((f.eq("1") || f.eq("2") || f.eq("4") || f.eq("8")) && s.chars().all(|c| c == '0'))
// Powers of 2 minus 1
|| ((f.eq("1") || f.eq("3") || f.eq("7") || f.eq("F")) && s.chars().all(|c| c == 'F'))
{
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return Err(WarningType::DecimalRepresentation);
}
} else {
// Lint for Literals with a hex-representation of 4 digits or more
let f = &digits[0..1]; // first digit
let m = &digits[1..digits.len() - 1]; // middle digits, except last
let s = &digits[1..]; // suffix
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// Powers of 2 with a margin of +15/-16
if ((f.eq("1") || f.eq("2") || f.eq("4") || f.eq("8")) && m.chars().all(|c| c == '0'))
|| ((f.eq("1") || f.eq("3") || f.eq("7") || f.eq("F")) && m.chars().all(|c| c == 'F'))
// Lint for representations with only 0s and Fs, while allowing 7 as the first
// digit
|| ((f.eq("7") || f.eq("F")) && s.chars().all(|c| c == '0' || c == 'F'))
{
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return Err(WarningType::DecimalRepresentation);
}
}
Ok(())
}
}