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.
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use crate::utils::{snippet_opt, span_lint_and_sugg};
use if_chain::if_chain;
use rustc::lint::{in_external_macro, EarlyContext, EarlyLintPass, LintArray, LintContext, LintPass};
use rustc::{declare_tool_lint, lint_array};
use rustc_errors::Applicability;
use syntax::ast::*;
use syntax_pos;
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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.
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crate fn suggest_grouping(&self) -> usize {
match *self {
Radix::Binary | Radix::Hexadecimal => 4,
Radix::Octal | Radix::Decimal => 3,
}
}
}
#[derive(Debug)]
pub(super) struct DigitInfo<'a> {
/// Characters of a literal between the radix prefix and type suffix.
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crate digits: &'a str,
/// Which radix the literal was represented in.
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crate radix: Radix,
/// The radix prefix, if present.
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crate prefix: Option<&'a str>,
/// The type suffix, including preceding underscore if present.
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crate suffix: Option<&'a str>,
/// True for floating-point literals.
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crate float: bool,
}
impl<'a> DigitInfo<'a> {
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crate fn new(lit: &'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, sans_prefix) = if let Radix::Decimal = radix {
(None, lit)
} else {
let (p, s) = lit.split_at(2);
(Some(p), s)
};
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let len = sans_prefix.len();
let mut last_d = '\0';
for (d_idx, d) in sans_prefix.char_indices() {
let suffix_start = if last_d == '_' { d_idx - 1 } else { d_idx };
if float
&& (d == 'f'
|| is_possible_float_suffix_index(&sans_prefix, suffix_start, len)
|| ((d == 'E' || d == 'e') && !has_possible_float_suffix(&sans_prefix)))
|| !float && (d == 'i' || d == 'u' || is_possible_suffix_index(&sans_prefix, suffix_start, len))
{
let (digits, suffix) = sans_prefix.split_at(suffix_start);
return Self {
digits,
radix,
prefix,
suffix: Some(suffix),
float,
};
}
last_d = d
}
// No suffix found
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Self {
digits: sans_prefix,
radix,
prefix,
suffix: None,
float,
}
}
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/// Returns literal formatted in a sensible way.
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crate fn grouping_hint(&self) -> String {
let group_size = self.radix.suggest_grouping();
if self.digits.contains('.') {
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let mut parts = self.digits.split('.');
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let int_part_hint = parts
.next()
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.expect("split always returns at least one element")
.chars()
.rev()
.filter(|&c| c != '_')
.collect::<Vec<_>>()
.chunks(group_size)
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.map(|chunk| chunk.iter().rev().collect())
.rev()
.collect::<Vec<String>>()
.join("_");
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let frac_part_hint = parts
.next()
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.expect("already checked that there is a `.`")
.chars()
.filter(|&c| c != '_')
.collect::<Vec<_>>()
.chunks(group_size)
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.map(|chunk| chunk.iter().collect())
.collect::<Vec<String>>()
.join("_");
let suffix_hint = match self.suffix {
Some(suffix) if is_mistyped_float_suffix(suffix) => format!("_f{}", &suffix[1..]),
Some(suffix) => suffix.to_string(),
None => String::new(),
};
format!("{}.{}{}", int_part_hint, frac_part_hint, suffix_hint)
} else if self.float && (self.digits.contains('E') || self.digits.contains('e')) {
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let which_e = if self.digits.contains('E') { 'E' } else { 'e' };
let parts: Vec<&str> = self.digits.split(which_e).collect();
let filtered_digits_vec_0 = parts[0].chars().filter(|&c| c != '_').rev().collect::<Vec<_>>();
let filtered_digits_vec_1 = parts[1].chars().filter(|&c| c != '_').rev().collect::<Vec<_>>();
let before_e_hint = filtered_digits_vec_0
.chunks(group_size)
.map(|chunk| chunk.iter().rev().collect())
.rev()
.collect::<Vec<String>>()
.join("_");
let after_e_hint = filtered_digits_vec_1
.chunks(group_size)
.map(|chunk| chunk.iter().rev().collect())
.rev()
.collect::<Vec<String>>()
.join("_");
let suffix_hint = match self.suffix {
Some(suffix) if is_mistyped_float_suffix(suffix) => format!("_f{}", &suffix[1..]),
Some(suffix) => suffix.to_string(),
None => String::new(),
};
format!(
"{}{}{}{}{}",
self.prefix.unwrap_or(""),
before_e_hint,
which_e,
after_e_hint,
suffix_hint
)
} else {
let filtered_digits_vec = self.digits.chars().filter(|&c| c != '_').rev().collect::<Vec<_>>();
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let mut hint = filtered_digits_vec
.chunks(group_size)
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.map(|chunk| chunk.iter().rev().collect())
.rev()
.collect::<Vec<String>>()
.join("_");
// Forces hexadecimal values to be grouped by 4 being filled with zeroes (e.g 0x00ab_cdef)
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let nb_digits_to_fill = filtered_digits_vec.len() % 4;
if self.radix == Radix::Hexadecimal && nb_digits_to_fill != 0 {
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hint = format!("{:0>4}{}", &hint[..nb_digits_to_fill], &hint[nb_digits_to_fill..]);
}
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let suffix_hint = match self.suffix {
Some(suffix) if is_mistyped_suffix(suffix) => format!("_i{}", &suffix[1..]),
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Some(suffix) => suffix.to_string(),
None => String::new(),
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};
format!("{}{}{}", self.prefix.unwrap_or(""), hint, suffix_hint)
}
}
}
enum WarningType {
UnreadableLiteral,
InconsistentDigitGrouping,
LargeDigitGroups,
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DecimalRepresentation,
MistypedLiteralSuffix,
}
impl WarningType {
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crate fn display(&self, grouping_hint: &str, cx: &EarlyContext<'_>, span: syntax_pos::Span) {
match self {
WarningType::MistypedLiteralSuffix => span_lint_and_sugg(
cx,
MISTYPED_LITERAL_SUFFIXES,
span,
"mistyped literal suffix",
"did you mean to write",
grouping_hint.to_string(),
Applicability::MaybeIncorrect,
),
WarningType::UnreadableLiteral => span_lint_and_sugg(
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cx,
UNREADABLE_LITERAL,
span,
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"long literal lacking separators",
"consider",
grouping_hint.to_owned(),
Applicability::MachineApplicable,
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),
WarningType::LargeDigitGroups => span_lint_and_sugg(
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cx,
LARGE_DIGIT_GROUPS,
span,
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"digit groups should be smaller",
"consider",
grouping_hint.to_owned(),
Applicability::MachineApplicable,
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),
WarningType::InconsistentDigitGrouping => span_lint_and_sugg(
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cx,
INCONSISTENT_DIGIT_GROUPING,
span,
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"digits grouped inconsistently by underscores",
"consider",
grouping_hint.to_owned(),
Applicability::MachineApplicable,
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),
WarningType::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",
grouping_hint.to_owned(),
Applicability::MachineApplicable,
),
};
}
}
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#[derive(Copy, Clone)]
pub struct LiteralDigitGrouping;
impl LintPass for LiteralDigitGrouping {
fn get_lints(&self) -> LintArray {
lint_array!(
UNREADABLE_LITERAL,
INCONSISTENT_DIGIT_GROUPING,
LARGE_DIGIT_GROUPS,
MISTYPED_LITERAL_SUFFIXES,
)
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}
fn name(&self) -> &'static str {
"LiteralDigitGrouping"
}
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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.node {
self.check_lit(cx, lit)
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}
}
}
impl LiteralDigitGrouping {
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fn check_lit(self, cx: &EarlyContext<'_>, lit: &Lit) {
match lit.node {
LitKind::Int(..) => {
// Lint integral literals.
if_chain! {
if let Some(src) = snippet_opt(cx, lit.span);
if let Some(firstch) = src.chars().next();
if char::to_digit(firstch, 10).is_some();
then {
let digit_info = DigitInfo::new(&src, false);
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let _ = Self::do_lint(digit_info.digits, digit_info.suffix).map_err(|warning_type| {
warning_type.display(&digit_info.grouping_hint(), cx, lit.span)
});
}
}
},
LitKind::Float(..) | LitKind::FloatUnsuffixed(..) => {
// Lint floating-point literals.
if_chain! {
if let Some(src) = snippet_opt(cx, lit.span);
if let Some(firstch) = src.chars().next();
if char::to_digit(firstch, 10).is_some();
then {
let digit_info = DigitInfo::new(&src, true);
// Separate digits into integral and fractional parts.
let parts: Vec<&str> = digit_info
.digits
.split_terminator('.')
.collect();
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// Lint integral and fractional parts separately, and then check consistency of digit
// groups if both pass.
let _ = Self::do_lint(parts[0], digit_info.suffix)
.map(|integral_group_size| {
if parts.len() > 1 {
// Lint the fractional part of literal just like integral part, but reversed.
let fractional_part = &parts[1].chars().rev().collect::<String>();
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let _ = Self::do_lint(fractional_part, None)
.map(|fractional_group_size| {
let consistent = Self::parts_consistent(integral_group_size,
fractional_group_size,
parts[0].len(),
parts[1].len());
if !consistent {
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WarningType::InconsistentDigitGrouping.display(
&digit_info.grouping_hint(),
cx,
lit.span,
);
}
})
.map_err(|warning_type| warning_type.display(&digit_info.grouping_hint(),
cx,
lit.span));
}
})
.map_err(|warning_type| warning_type.display(&digit_info.grouping_hint(), cx, lit.span));
}
}
},
_ => (),
}
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}
/// 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.
fn parts_consistent(int_group_size: usize, frac_group_size: 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.
(0, 0) => true,
// Integral part has grouped digits, fractional part does not.
(_, 0) => frac_size <= int_group_size,
// Fractional part has grouped digits, integral part does not.
(0, _) => int_size <= frac_group_size,
// Both parts have grouped digits. Groups should be the same size.
(_, _) => int_group_size == frac_group_size,
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}
}
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/// Performs lint on `digits` (no decimal point) and returns the group
/// size on success or `WarningType` when emitting a warning.
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fn do_lint(digits: &str, suffix: Option<&str>) -> Result<usize, WarningType> {
if let Some(suffix) = suffix {
if is_mistyped_suffix(suffix) {
return Err(WarningType::MistypedLiteralSuffix);
}
}
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// Grab underscore indices with respect to the units digit.
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let underscore_positions: Vec<usize> = digits
.chars()
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.rev()
.enumerate()
.filter_map(|(idx, digit)| if digit == '_' { Some(idx) } else { None })
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.collect();
if underscore_positions.is_empty() {
// Check if literal needs underscores.
if digits.len() > 5 {
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Err(WarningType::UnreadableLiteral)
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} else {
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Ok(0)
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}
} else {
// Check consistency and the sizes of the groups.
let group_size = underscore_positions[0];
let consistent = underscore_positions
.windows(2)
.all(|ps| ps[1] - ps[0] == group_size + 1)
// number of digits to the left of the last group cannot be bigger than group size.
&& (digits.len() - underscore_positions.last()
.expect("there's at least one element") <= group_size + 1);
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if !consistent {
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return Err(WarningType::InconsistentDigitGrouping);
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} else if group_size > 4 {
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return Err(WarningType::LargeDigitGroups);
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}
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Ok(group_size)
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}
}
}
#[derive(Copy, Clone)]
pub struct LiteralRepresentation {
threshold: u64,
}
impl LintPass for LiteralRepresentation {
fn get_lints(&self) -> LintArray {
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lint_array!(DECIMAL_LITERAL_REPRESENTATION)
}
fn name(&self) -> &'static str {
"DecimalLiteralRepresentation"
}
}
impl EarlyLintPass for LiteralRepresentation {
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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;
}
if let ExprKind::Lit(ref lit) = expr.node {
self.check_lit(cx, lit)
}
}
}
impl LiteralRepresentation {
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(..) = lit.node;
if let Some(src) = snippet_opt(cx, lit.span);
if let Some(firstch) = src.chars().next();
if char::to_digit(firstch, 10).is_some();
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let digit_info = DigitInfo::new(&src, false);
if digit_info.radix == Radix::Decimal;
if let Ok(val) = digit_info.digits
.chars()
.filter(|&c| c != '_')
.collect::<String>()
.parse::<u128>();
if val >= u128::from(self.threshold);
then {
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let hex = format!("{:#X}", val);
let digit_info = DigitInfo::new(&hex, false);
let _ = Self::do_lint(digit_info.digits).map_err(|warning_type| {
warning_type.display(&digit_info.grouping_hint(), cx, lit.span)
});
}
}
}
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(())
}
}
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fn is_mistyped_suffix(suffix: &str) -> bool {
["_8", "_16", "_32", "_64"].contains(&suffix)
}
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fn is_possible_suffix_index(lit: &str, idx: usize, len: usize) -> bool {
((len > 3 && idx == len - 3) || (len > 2 && idx == len - 2)) && is_mistyped_suffix(lit.split_at(idx).1)
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}
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fn is_mistyped_float_suffix(suffix: &str) -> bool {
["_32", "_64"].contains(&suffix)
}
fn is_possible_float_suffix_index(lit: &str, idx: usize, len: usize) -> bool {
(len > 3 && idx == len - 3) && is_mistyped_float_suffix(lit.split_at(idx).1)
}
fn has_possible_float_suffix(lit: &str) -> bool {
lit.ends_with("_32") || lit.ends_with("_64")
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}