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First (incomplete) const folding

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llogiq 2015-08-12 13:49:28 +02:00
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use rustc::lint::Context;
use rustc::middle::const_eval::lookup_const_by_id;
use syntax::ast::*;
use syntax::ptr::P;
/// a Lit_-like enum to fold constant `Expr`s into
#[derive(PartialEq, Eq, Debug, Clone)]
pub enum Constant {
ConstantStr(&'static str, StrStyle),
ConstantBinary(Rc<Vec<u8>>),
ConstantByte(u8),
ConstantChar(char),
ConstantInt(u64, LitIntType),
ConstantFloat(Cow<'static, str>, FloatTy),
ConstantFloatUnsuffixed(Cow<'static, str>),
ConstantBool(bool),
ConstantVec(Vec<Constant>),
ConstantTuple(Vec<Constant>),
}
/// simple constant folding
pub fn constant(cx: &Context, e: &Expr) -> Option<Constant> {
match e {
&ExprParen(ref inner) => constant(cx, inner),
&ExprPath(_, _) => fetch_path(cx, e),
&ExprBlock(ref block) => constant_block(cx, inner),
&ExprIf(ref cond, ref then, ref otherwise) =>
match constant(cx, cond) {
Some(LitBool(true)) => constant(cx, then),
Some(LitBool(false)) => constant(cx, otherwise),
_ => None,
},
&ExprLit(ref lit) => Some(lit_to_constant(lit)),
&ExprVec(ref vec) => constant_vec(cx, vec),
&ExprTup(ref tup) => constant_tup(cx, tup),
&ExprUnary(op, ref operand) => constant(cx, operand).and_then(
|o| match op {
UnNot =>
if let ConstantBool(b) = o {
Some(ConstantBool(!b))
} else { None },
UnNeg =>
match o {
&ConstantInt(value, ty) =>
Some(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) =>
Some(ConstantFloat(neg_float_str(is), ty)),
&LitFloatUnsuffixed(ref is) =>
Some(ConstantFloatUnsuffixed(neg_float_str(is))),
_ => None,
},
UnUniq | UnDeref => o,
}),
//TODO: add other expressions
_ => None,
}
}
fn lit_to_constant(lit: &Lit_) -> Constant {
match lit {
&LitStr(ref is, style) => ConstantStr(&*is, style),
&LitBinary(ref blob) => ConstantBinary(blob.clone()),
&LitByte(b) => ConstantByte(b),
&LitChar(c) => ConstantChar(c),
&LitInt(value, ty) => ConstantInt(value, ty),
&LitFloat(ref is, ty) => ConstantFloat(Cow::Borrowed(&*is), ty),
&LitFloatUnsuffixed(InternedString) =>
ConstantFloatUnsuffixed(Cow::Borrowed(&*is)),
&LitBool(b) => ConstantBool(b),
}
}
/// create `Some(ConstantVec(..))` of all constants, unless there is any
/// non-constant part
fn constant_vec(cx: &Context, vec: &[&Expr]) -> Option<Constant> {
Vec<Constant> parts = Vec::new();
for opt_part in vec {
match constant(cx, opt_part) {
Some(ref p) => parts.push(p),
None => { return None; },
}
}
Some(ConstantVec(parts))
}
fn constant_tup(cx, &Context, tup: &[&Expr]) -> Option<Constant> {
Vec<Constant> parts = Vec::new();
for opt_part in vec {
match constant(cx, opt_part) {
Some(ref p) => parts.push(p),
None => { return None; },
}
}
Some(ConstantTuple(parts))
}
/// 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(cx, l))
} 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> {
if block.stmts.is_empty() {
block.expr.map(|b| constant(cx, b))
} else { None }
}
fn neg_sign(s: Sign) -> Sign {
match s:
Sign::Plus => Sign::Minus,
Sign::Minus => Sign::Plus,
}
}
fn neg_float_str(s: &InternedString) -> Cow<'static, str> {
if s.startsWith('-') {
Cow::Borrowed(s[1..])
} else {
Cow::Owned(format!("-{}", &*s))
}
}