rust-clippy/src/const.rs

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use rustc::lint::Context;
use rustc::middle::const_eval::lookup_const_by_id;
use syntax::ast::*;
use syntax::ptr::P;
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pub enum FloatWidth {
Fw32,
Fw64,
FwAny
}
impl From<FloatTy> for FloatWidth {
fn from(ty: FloatTy) -> FloatWidth {
match ty {
TyF32 => Fw32,
TyF64 => Fw64,
}
}
}
#[derive(PartialEq, Eq, Debug, Clone)]
pub struct Constant {
constant: ConstantVariant,
needed_resolution: bool
}
impl Constant {
fn new(variant: ConstantVariant) -> Constant {
Constant { constant: variant, needed_resolution: false }
}
fn new_resolved(variant: ConstantVariant) -> Constant {
Constant { constant: variant, needed_resolution: true }
}
}
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/// a Lit_-like enum to fold constant `Expr`s into
#[derive(PartialEq, Eq, Debug, Clone)]
pub enum ConstantVariant {
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/// a String "abc"
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ConstantStr(&'static str, StrStyle),
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/// a Binary String b"abc"
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ConstantBinary(Rc<Vec<u8>>),
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/// a single byte b'a'
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ConstantByte(u8),
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/// a single char 'a'
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ConstantChar(char),
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/// an integer
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ConstantInt(u64, LitIntType),
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/// a float with given type
ConstantFloat(Cow<'static, str>, FloatWidth),
/// true or false
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ConstantBool(bool),
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/// an array of constants
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ConstantVec(Vec<Constant>),
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/// also an array, but with only one constant, repeated N times
ConstantRepeat(Constant, usize),
/// a tuple of constants
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ConstantTuple(Vec<Constant>),
}
impl ConstantVariant {
/// convert to u64 if possible
///
/// # panics
///
/// if the constant could not be converted to u64 losslessly
fn as_u64(&self) -> u64 {
if let &ConstantInt(val, _) = self {
val // TODO we may want to check the sign if any
} else {
panic!("Could not convert a {:?} to u64");
}
}
}
/// simple constant folding: Insert an expression, get a constant or none.
pub fn constant(cx: &Context, e: &Expr) -> Option<Constant> {
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match e {
&ExprParen(ref inner) => constant(cx, inner),
&ExprPath(_, _) => fetch_path(cx, e),
&ExprBlock(ref block) => constant_block(cx, inner),
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&ExprIf(ref cond, ref then, ref otherwise) =>
constant_if(cx, cond, then, otherwise),
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&ExprLit(ref lit) => Some(lit_to_constant(lit)),
&ExprVec(ref vec) => constant_vec(cx, vec),
&ExprTup(ref tup) => constant_tup(cx, tup),
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&ExprRepeat(ref value, ref number) =>
constant_binop_apply(cx, value, number,|v, n| Constant {
constant: ConstantRepeat(v, n.constant.as_u64()),
needed_resolution: v.needed_resolution || n.needed_resolution
}),
&ExprUnary(op, ref operand) => constant(cx, operand).and_then(
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|o| match op {
UnNot =>
if let ConstantBool(b) = o.variant {
Some(Constant{
needed_resolution: o.needed_resolution,
constant: ConstantBool(!b),
})
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} else { None },
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UnNeg => constant_negate(o),
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UnUniq | UnDeref => o,
}),
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&ExprBinary(op, ref left, ref right) =>
constant_binop(op, left, right),
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//TODO: add other expressions
_ => None,
}
}
fn lit_to_constant(lit: &Lit_) -> Constant {
match lit {
&LitStr(ref is, style) => Constant::new(ConstantStr(&*is, style)),
&LitBinary(ref blob) => Constant::new(ConstantBinary(blob.clone())),
&LitByte(b) => Constant::new(ConstantByte(b)),
&LitChar(c) => Constant::new(ConstantChar(c)),
&LitInt(value, ty) => Constant::new(ConstantInt(value, ty)),
&LitFloat(ref is, ty) =>
Constant::new(ConstantFloat(Cow::Borrowed(&*is), ty.into())),
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&LitFloatUnsuffixed(InternedString) =>
Constant::new(ConstantFloat(Cow::Borrowed(&*is), FwAny)),
&LitBool(b) => Constant::new(ConstantBool(b)),
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}
}
/// create `Some(ConstantVec(..))` of all constants, unless there is any
/// non-constant part
fn constant_vec(cx: &Context, vec: &[&Expr]) -> Option<Constant> {
let mut parts = Vec::new();
let mut resolved = false;
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for opt_part in vec {
match constant(cx, opt_part) {
Some(ref p) => {
resolved |= p.needed_resolution;
parts.push(p)
},
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None => { return None; },
}
}
Some(Constant {
constant: ConstantVec(parts),
needed_resolution: resolved
})
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}
fn constant_tup(cx: &Context, tup: &[&Expr]) -> Option<Constant> {
let mut parts = Vec::new();
let mut resolved = false;
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for opt_part in vec {
match constant(cx, opt_part) {
Some(ref p) => {
resolved |= p.needed_resolution;
parts.push(p)
},
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None => { return None; },
}
}
Some(Constant {
constant: ConstantTuple(parts),
needed_resolution: resolved
})
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}
/// lookup a possibly constant expression from a ExprPath
fn fetch_path(cx: &Context, e: &Expr) -> Option<Constant> {
if let Some(&PathResolution { base_def: DefConst(id), ..}) =
cx.tcx.def_map.borrow().get(&e.id) {
lookup_const_by_id(cx.tcx, id, None).map(
|l| Constant::new_resolved(constant(cx, l).constant))
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} else { None }
}
/// A block can only yield a constant if it only has one constant expression
fn constant_block(cx: &Context, block: &Block) -> Option<Constant> {
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if block.stmts.is_empty() {
block.expr.map(|b| constant(cx, b))
} else { None }
}
fn constant_if(cx: &Context, cond: &Expr, then: &Expr, otherwise: &Expr) ->
Option<Constant> {
if let Some(Constant{ constant: ConstantBool(b), needed_resolution: res }) =
constant(cx, cond) {
let part = constant(cx, if b { then } else { otherwise });
Some(Constant {
constant: part.constant,
needed_resolution: res || part.needed_resolution,
})
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} else { None }
}
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fn constant_negate(o: Constant) -> Option<Constant> {
Some(Constant{
needed_resolution: o.needed_resolution,
constant: match o.constant {
&ConstantInt(value, ty) =>
ConstantInt(value, match ty {
SignedIntLit(ity, sign) =>
SignedIntLit(ity, neg_sign(sign)),
UnsuffixedIntLit(sign) => UnsuffixedIntLit(neg_sign(sign)),
_ => { return None; },
}),
&LitFloat(ref is, ref ty) => ConstantFloat(neg_float_str(is), ty),
_ => { return None; },
}
})
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}
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fn neg_sign(s: Sign) -> Sign {
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match s {
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Sign::Plus => Sign::Minus,
Sign::Minus => Sign::Plus,
}
}
fn neg_float_str(s: &InternedString) -> Cow<'static, str> {
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if s.startsWith('-') {
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Cow::Borrowed(s[1..])
} else {
Cow::Owned(format!("-{}", &*s))
}
}
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fn is_negative(ty: LitIntType) -> bool {
match ty {
SignedIntLit(_, sign) | UnsuffixedIntLit(sign) => sign == Minus,
UnsignedIntLit(_) => false,
}
}
fn unify_int_type(l: LitIntType, r: LitIntType, s: Sign) -> Option(LitIntType) {
match (l, r) {
(SignedIntLit(lty, _), SignedIntLit(rty, _)) => if lty == rty {
Some(SignedIntLit(lty, s)) } else { None },
(UnsignedIntLit(lty), UnsignedIntLit(rty)) =>
if Sign == Plus && lty == rty {
Some(UnsignedIntLit(lty))
} else { None },
(UnsuffixedIntLit(_), UnsuffixedIntLit(_)) => UnsuffixedIntLit(s),
(SignedIntLit(lty, _), UnsuffixedIntLit(_)) => SignedIntLit(lty, s),
(UnsignedIntLit(lty), UnsuffixedIntLit(rs)) => if rs == Plus {
Some(UnsignedIntLit(lty)) } else { None },
(UnsuffixedIntLit(_), SignedIntLit(rty, _)) => SignedIntLit(rty, s),
(UnsuffixedIntLit(ls), UnsignedIntLit(rty)) => if ls == Plus {
Some(UnsignedIntLit(rty)) } else { None },
_ => None,
}
}
fn constant_binop(cx: &Context, op: BinOp, left: &Expr, right: &Expr)
-> Option<Constant> {
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match op.node {
BiAdd => constant_binop_apply(cx, left, right, |l, r|
match (l, r) {
(ConstantByte(l8), ConstantByte(r8)) =>
l8.checked_add(r8).map(|v| ConstantByte(v)),
(ConstantInt(l64, lty), ConstantInt(r64, rty)) => {
let (ln, rn) = (is_negative(lty), is_negative(rty));
if ln == rn {
unify_int_type(lty, rty, if ln { Minus } else { Plus })
.and_then(|ty| l64.checked_add(r64).map(
|v| ConstantInt(v, ty)))
} else {
if ln {
add_neg_int(r64, rty, l64, lty)
} else {
add_neg_int(l64, lty, r64, rty)
}
}
},
// TODO: float
_ => None
}),
BiSub => constant_binop_apply(cx, left, right, |l, r|
match (l, r) {
(ConstantByte(l8), ConstantByte(r8)) => if r8 > l8 {
None } else { Some(ConstantByte(l8 - r8)) },
(ConstantInt(l64, lty), ConstantInt(r64, rty)) => {
let (ln, rn) = (is_negative(lty), is_negative(rty));
match (ln, rn) {
(false, false) => sub_int(l64, lty, r64, rty, r64 > l64),
(true, true) => sub_int(l64, lty, r64, rty, l64 > r64),
(true, false) => unify_int_type(lty, rty, Minus)
.and_then(|ty| l64.checked_add(r64).map(
|v| ConstantInt(v, ty))),
(false, true) => unify_int_type(lty, rty, Plus)
.and_then(|ty| l64.checked_add(r64).map(
|v| ConstantInt(v, ty))),
}
},
_ => None,
}),
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//BiMul,
//BiDiv,
//BiRem,
BiAnd => constant_short_circuit(cx, left, right, false),
BiOr => constant_short_circuit(cx, left, right, true),
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//BiBitXor,
//BiBitAnd,
//BiBitOr,
//BiShl,
//BiShr,
//BiEq,
//BiLt,
//BiLe,
//BiNe,
//BiGe,
//BiGt,
_ => None,
}
}
fn add_neg_int(pos: u64, pty: LitIntType, neg: u64, nty: LitIntType) ->
Some(Constant) {
if neg > pos {
unify_int_type(nty, pty, Minus).map(|ty| ConstantInt(neg - pos, ty))
} else {
unify_int_type(nty, pty, Plus).map(|ty| ConstantInt(pos - neg, ty))
}
}
fn sub_int(l: u64, lty: LitIntType, r: u64, rty: LitIntType, neg: Bool) ->
Option<Constant> {
unify_int_type(lty, rty, if neg { Minus } else { Plus }).and_then(
|ty| l64.checked_sub(r64).map(|v| ConstantInt(v, ty)))
}
fn constant_binop_apply<F>(cx: &Context, left: &Expr, right: &Expr, op: F)
-> Option<Constant>
where F: FnMut(ConstantVariant, ConstantVariant) -> Option<ConstantVariant> {
constant(cx, left).and_then(|l| constant(cx, right).and_then(
|r| Constant {
needed_resolution: l.needed_resolution || r.needed_resolution,
constant: op(l.constant, r.constant)
}))
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}
fn constant_short_circuit(cx: &Context, left: &Expr, right: &Expr, b: bool) ->
Option<Constant> {
let leftconst = constant(cx, left);
if let ConstantBool(lbool) = leftconst.constant {
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if l == b {
Some(leftconst)
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} else {
let rightconst = constant(cx, right);
if let ConstantBool(rbool) = rightconst.constant {
Some(Constant {
constant: rightconst.constant,
needed_resolution: leftconst.needed_resolution ||
rightconst.needed_resolution,
})
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} else { None }
}
} else { None }
}