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use rustc ::lint ::* ;
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use rustc ::hir ::* ;
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use std ::f64 ::consts as f64 ;
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use syntax ::ast ::{ Lit , LitKind , FloatTy } ;
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use utils ::span_lint ;
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/// **What it does:** This lint checks for floating point literals that approximate constants which are defined in [`std::f32::consts`](https://doc.rust-lang.org/stable/std/f32/consts/#constants) or [`std::f64::consts`](https://doc.rust-lang.org/stable/std/f64/consts/#constants), respectively, suggesting to use the predefined constant.
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///
/// **Why is this bad?** Usually, the definition in the standard library is more precise than what people come up with. If you find that your definition is actually more precise, please [file a Rust issue](https://github.com/rust-lang/rust/issues).
///
/// **Known problems:** If you happen to have a value that is within 1/8192 of a known constant, but is not *and should not* be the same, this lint will report your value anyway. We have not yet noticed any false positives in code we tested clippy with (this includes servo), but YMMV.
///
/// **Example:** `let x = 3.14;`
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declare_lint! {
pub APPROX_CONSTANT ,
Warn ,
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" the approximate of a known float constant (in `std::f64::consts` or `std::f32::consts`) \
is found ; suggests to use the constant "
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}
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// Tuples are of the form (constant, name, min_digits)
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const KNOWN_CONSTS : & 'static [ ( f64 , & 'static str , usize ) ] = & [ ( f64 ::E , " E " , 4 ) ,
( f64 ::FRAC_1_PI , " FRAC_1_PI " , 4 ) ,
( f64 ::FRAC_1_SQRT_2 , " FRAC_1_SQRT_2 " , 5 ) ,
( f64 ::FRAC_2_PI , " FRAC_2_PI " , 5 ) ,
( f64 ::FRAC_2_SQRT_PI , " FRAC_2_SQRT_PI " , 5 ) ,
( f64 ::FRAC_PI_2 , " FRAC_PI_2 " , 5 ) ,
( f64 ::FRAC_PI_3 , " FRAC_PI_3 " , 5 ) ,
( f64 ::FRAC_PI_4 , " FRAC_PI_4 " , 5 ) ,
( f64 ::FRAC_PI_6 , " FRAC_PI_6 " , 5 ) ,
( f64 ::FRAC_PI_8 , " FRAC_PI_8 " , 5 ) ,
( f64 ::LN_10 , " LN_10 " , 5 ) ,
( f64 ::LN_2 , " LN_2 " , 5 ) ,
( f64 ::LOG10_E , " LOG10_E " , 5 ) ,
( f64 ::LOG2_E , " LOG2_E " , 5 ) ,
( f64 ::PI , " PI " , 3 ) ,
( f64 ::SQRT_2 , " SQRT_2 " , 5 ) ] ;
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#[ derive(Copy,Clone) ]
pub struct ApproxConstant ;
impl LintPass for ApproxConstant {
fn get_lints ( & self ) -> LintArray {
lint_array! ( APPROX_CONSTANT )
}
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}
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impl LateLintPass for ApproxConstant {
fn check_expr ( & mut self , cx : & LateContext , e : & Expr ) {
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if let ExprLit ( ref lit ) = e . node {
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check_lit ( cx , lit , e ) ;
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}
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}
}
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fn check_lit ( cx : & LateContext , lit : & Lit , e : & Expr ) {
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match lit . node {
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LitKind ::Float ( ref s , FloatTy ::F32 ) = > check_known_consts ( cx , e , s , " f32 " ) ,
LitKind ::Float ( ref s , FloatTy ::F64 ) = > check_known_consts ( cx , e , s , " f64 " ) ,
LitKind ::FloatUnsuffixed ( ref s ) = > check_known_consts ( cx , e , s , " f{32, 64} " ) ,
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_ = > ( ) ,
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}
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}
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fn check_known_consts ( cx : & LateContext , e : & Expr , s : & str , module : & str ) {
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if let Ok ( _ ) = s . parse ::< f64 > ( ) {
for & ( constant , name , min_digits ) in KNOWN_CONSTS {
if is_approx_const ( constant , s , min_digits ) {
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span_lint ( cx ,
APPROX_CONSTANT ,
e . span ,
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& format! ( " approximate value of ` {} ::consts:: {} ` found. Consider using it directly " , module , & name ) ) ;
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return ;
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}
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}
}
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}
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/// Returns false if the number of significant figures in `value` are
/// less than `min_digits`; otherwise, returns true if `value` is equal
/// to `constant`, rounded to the number of digits present in `value`.
fn is_approx_const ( constant : f64 , value : & str , min_digits : usize ) -> bool {
if value . len ( ) < = min_digits {
false
} else {
let round_const = format! ( " {:.*} " , value . len ( ) - 2 , constant ) ;
let mut trunc_const = constant . to_string ( ) ;
if trunc_const . len ( ) > value . len ( ) {
trunc_const . truncate ( value . len ( ) ) ;
}
( value = = round_const ) | | ( value = = trunc_const )
}
}