rust-clippy/clippy_lints/src/consts.rs

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#![allow(clippy::float_cmp)]
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use crate::utils::{clip, higher, sext, unsext};
use if_chain::if_chain;
use rustc::hir::def::{DefKind, Res};
use rustc::hir::*;
use rustc::lint::LateContext;
use rustc::ty::subst::{Subst, SubstsRef};
use rustc::ty::{self, Instance, Ty, TyCtxt};
use rustc::{bug, span_bug};
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use rustc_data_structures::sync::Lrc;
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use std::cmp::Ordering::{self, Equal};
use std::cmp::PartialOrd;
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use std::convert::TryInto;
use std::hash::{Hash, Hasher};
use syntax::ast::{FloatTy, LitKind};
use syntax_pos::symbol::Symbol;
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/// A `LitKind`-like enum to fold constant `Expr`s into.
#[derive(Debug, Clone)]
pub enum Constant {
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/// A `String` (e.g., "abc").
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Str(String),
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/// A binary string (e.g., `b"abc"`).
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Binary(Lrc<Vec<u8>>),
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/// A single `char` (e.g., `'a'`).
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Char(char),
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/// An integer's bit representation.
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Int(u128),
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/// An `f32`.
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F32(f32),
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/// An `f64`.
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F64(f64),
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/// `true` or `false`.
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Bool(bool),
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/// An array of constants.
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Vec(Vec<Constant>),
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/// Also an array, but with only one constant, repeated N times.
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Repeat(Box<Constant>, u64),
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/// A tuple of constants.
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Tuple(Vec<Constant>),
/// A raw pointer.
RawPtr(u128),
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/// A literal with syntax error.
Err(Symbol),
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}
impl PartialEq for Constant {
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fn eq(&self, other: &Self) -> bool {
match (self, other) {
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(&Constant::Str(ref ls), &Constant::Str(ref rs)) => ls == rs,
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(&Constant::Binary(ref l), &Constant::Binary(ref r)) => l == r,
(&Constant::Char(l), &Constant::Char(r)) => l == r,
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(&Constant::Int(l), &Constant::Int(r)) => l == r,
(&Constant::F64(l), &Constant::F64(r)) => {
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// We want `Fw32 == FwAny` and `FwAny == Fw64`, and by transitivity we must have
// `Fw32 == Fw64`, so dont compare them.
// `to_bits` is required to catch non-matching 0.0, -0.0, and NaNs.
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l.to_bits() == r.to_bits()
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},
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(&Constant::F32(l), &Constant::F32(r)) => {
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// We want `Fw32 == FwAny` and `FwAny == Fw64`, and by transitivity we must have
// `Fw32 == Fw64`, so dont compare them.
// `to_bits` is required to catch non-matching 0.0, -0.0, and NaNs.
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f64::from(l).to_bits() == f64::from(r).to_bits()
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},
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(&Constant::Bool(l), &Constant::Bool(r)) => l == r,
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(&Constant::Vec(ref l), &Constant::Vec(ref r)) | (&Constant::Tuple(ref l), &Constant::Tuple(ref r)) => {
l == r
},
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(&Constant::Repeat(ref lv, ref ls), &Constant::Repeat(ref rv, ref rs)) => ls == rs && lv == rv,
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// TODO: are there inter-type equalities?
_ => false,
}
}
}
impl Hash for Constant {
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fn hash<H>(&self, state: &mut H)
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where
H: Hasher,
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{
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std::mem::discriminant(self).hash(state);
match *self {
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Constant::Str(ref s) => {
s.hash(state);
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},
Constant::Binary(ref b) => {
b.hash(state);
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},
Constant::Char(c) => {
c.hash(state);
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},
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Constant::Int(i) => {
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i.hash(state);
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},
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Constant::F32(f) => {
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f64::from(f).to_bits().hash(state);
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},
Constant::F64(f) => {
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f.to_bits().hash(state);
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},
Constant::Bool(b) => {
b.hash(state);
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},
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Constant::Vec(ref v) | Constant::Tuple(ref v) => {
v.hash(state);
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},
Constant::Repeat(ref c, l) => {
c.hash(state);
l.hash(state);
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},
Constant::RawPtr(u) => {
u.hash(state);
},
Constant::Err(ref s) => {
s.hash(state);
},
}
}
}
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impl Constant {
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pub fn partial_cmp(tcx: TyCtxt<'_, '_, '_>, cmp_type: Ty<'_>, left: &Self, right: &Self) -> Option<Ordering> {
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match (left, right) {
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(&Constant::Str(ref ls), &Constant::Str(ref rs)) => Some(ls.cmp(rs)),
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(&Constant::Char(ref l), &Constant::Char(ref r)) => Some(l.cmp(r)),
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(&Constant::Int(l), &Constant::Int(r)) => {
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if let ty::Int(int_ty) = cmp_type.sty {
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Some(sext(tcx, l, int_ty).cmp(&sext(tcx, r, int_ty)))
} else {
Some(l.cmp(&r))
}
},
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(&Constant::F64(l), &Constant::F64(r)) => l.partial_cmp(&r),
(&Constant::F32(l), &Constant::F32(r)) => l.partial_cmp(&r),
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(&Constant::Bool(ref l), &Constant::Bool(ref r)) => Some(l.cmp(r)),
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(&Constant::Tuple(ref l), &Constant::Tuple(ref r)) | (&Constant::Vec(ref l), &Constant::Vec(ref r)) => l
.iter()
.zip(r.iter())
.map(|(li, ri)| Self::partial_cmp(tcx, cmp_type, li, ri))
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.find(|r| r.map_or(true, |o| o != Ordering::Equal))
.unwrap_or_else(|| Some(l.len().cmp(&r.len()))),
(&Constant::Repeat(ref lv, ref ls), &Constant::Repeat(ref rv, ref rs)) => {
match Self::partial_cmp(tcx, cmp_type, lv, rv) {
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Some(Equal) => Some(ls.cmp(rs)),
x => x,
}
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},
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// TODO: are there any useful inter-type orderings?
_ => None,
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}
}
}
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/// Parses a `LitKind` to a `Constant`.
pub fn lit_to_constant<'tcx>(lit: &LitKind, ty: Ty<'tcx>) -> Constant {
use syntax::ast::*;
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match *lit {
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LitKind::Str(ref is, _) => Constant::Str(is.to_string()),
LitKind::Byte(b) => Constant::Int(u128::from(b)),
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LitKind::ByteStr(ref s) => Constant::Binary(Lrc::clone(s)),
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LitKind::Char(c) => Constant::Char(c),
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LitKind::Int(n, _) => Constant::Int(n),
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LitKind::Float(ref is, _) | LitKind::FloatUnsuffixed(ref is) => match ty.sty {
ty::Float(FloatTy::F32) => Constant::F32(is.as_str().parse().unwrap()),
ty::Float(FloatTy::F64) => Constant::F64(is.as_str().parse().unwrap()),
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_ => bug!(),
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},
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LitKind::Bool(b) => Constant::Bool(b),
LitKind::Err(s) => Constant::Err(s),
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}
}
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pub fn constant<'c, 'cc>(
lcx: &LateContext<'c, 'cc>,
tables: &'c ty::TypeckTables<'cc>,
e: &Expr,
) -> Option<(Constant, bool)> {
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let mut cx = ConstEvalLateContext {
lcx,
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tables,
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param_env: lcx.param_env,
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needed_resolution: false,
substs: lcx.tcx.intern_substs(&[]),
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};
cx.expr(e).map(|cst| (cst, cx.needed_resolution))
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}
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pub fn constant_simple<'c, 'cc>(
lcx: &LateContext<'c, 'cc>,
tables: &'c ty::TypeckTables<'cc>,
e: &Expr,
) -> Option<Constant> {
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constant(lcx, tables, e).and_then(|(cst, res)| if res { None } else { Some(cst) })
}
/// Creates a `ConstEvalLateContext` from the given `LateContext` and `TypeckTables`.
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pub fn constant_context<'c, 'cc>(
lcx: &'c LateContext<'c, 'cc>,
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tables: &'c ty::TypeckTables<'cc>,
) -> ConstEvalLateContext<'c, 'cc> {
ConstEvalLateContext {
lcx,
tables,
param_env: lcx.param_env,
needed_resolution: false,
substs: lcx.tcx.intern_substs(&[]),
}
}
pub struct ConstEvalLateContext<'a, 'tcx: 'a> {
lcx: &'a LateContext<'a, 'tcx>,
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tables: &'a ty::TypeckTables<'tcx>,
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param_env: ty::ParamEnv<'tcx>,
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needed_resolution: bool,
substs: SubstsRef<'tcx>,
}
impl<'c, 'cc> ConstEvalLateContext<'c, 'cc> {
/// Simple constant folding: Insert an expression, get a constant or none.
pub fn expr(&mut self, e: &Expr) -> Option<Constant> {
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if let Some((ref cond, ref then, otherwise)) = higher::if_block(&e) {
return self.ifthenelse(cond, then, otherwise);
}
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match e.node {
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ExprKind::Path(ref qpath) => self.fetch_path(qpath, e.hir_id),
ExprKind::Block(ref block, _) => self.block(block),
ExprKind::Lit(ref lit) => Some(lit_to_constant(&lit.node, self.tables.expr_ty(e))),
ExprKind::Array(ref vec) => self.multi(vec).map(Constant::Vec),
ExprKind::Tup(ref tup) => self.multi(tup).map(Constant::Tuple),
ExprKind::Repeat(ref value, _) => {
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let n = match self.tables.expr_ty(e).sty {
ty::Array(_, n) => n.assert_usize(self.lcx.tcx).expect("array length"),
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_ => span_bug!(e.span, "typeck error"),
};
self.expr(value).map(|v| Constant::Repeat(Box::new(v), n))
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},
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ExprKind::Unary(op, ref operand) => self.expr(operand).and_then(|o| match op {
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UnNot => self.constant_not(&o, self.tables.expr_ty(e)),
UnNeg => self.constant_negate(&o, self.tables.expr_ty(e)),
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UnDeref => Some(o),
}),
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ExprKind::Binary(op, ref left, ref right) => self.binop(op, left, right),
ExprKind::Call(ref callee, ref args) => {
// We only handle a few const functions for now.
if_chain! {
if args.is_empty();
if let ExprKind::Path(qpath) = &callee.node;
let res = self.tables.qpath_res(qpath, callee.hir_id);
if let Some(def_id) = res.opt_def_id();
let get_def_path = self.lcx.get_def_path(def_id, );
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let def_path = get_def_path
.iter()
.copied()
.map(Symbol::as_str)
.collect::<Vec<_>>();
if def_path[0] == "core";
if def_path[1] == "num";
if def_path[3] == "max_value";
if def_path.len() == 4;
then {
let value = match &*def_path[2] {
"<impl i8>" => i8::max_value() as u128,
"<impl i16>" => i16::max_value() as u128,
"<impl i32>" => i32::max_value() as u128,
"<impl i64>" => i64::max_value() as u128,
"<impl i128>" => i128::max_value() as u128,
_ => return None,
};
Some(Constant::Int(value))
}
else {
None
}
}
},
// TODO: add other expressions.
_ => None,
}
}
#[allow(clippy::cast_possible_wrap)]
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fn constant_not(&self, o: &Constant, ty: Ty<'_>) -> Option<Constant> {
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use self::Constant::*;
match *o {
Bool(b) => Some(Bool(!b)),
Int(value) => {
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let value = !value;
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match ty.sty {
ty::Int(ity) => Some(Int(unsext(self.lcx.tcx, value as i128, ity))),
ty::Uint(ity) => Some(Int(clip(self.lcx.tcx, value, ity))),
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_ => None,
}
},
_ => None,
}
}
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fn constant_negate(&self, o: &Constant, ty: Ty<'_>) -> Option<Constant> {
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use self::Constant::*;
match *o {
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Int(value) => {
let ity = match ty.sty {
ty::Int(ity) => ity,
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_ => return None,
};
// sign extend
let value = sext(self.lcx.tcx, value, ity);
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let value = value.checked_neg()?;
// clear unused bits
Some(Int(unsext(self.lcx.tcx, value, ity)))
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},
F32(f) => Some(F32(-f)),
F64(f) => Some(F64(-f)),
_ => None,
}
}
/// Create `Some(Vec![..])` of all constants, unless there is any
/// non-constant part.
fn multi(&mut self, vec: &[Expr]) -> Option<Vec<Constant>> {
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vec.iter().map(|elem| self.expr(elem)).collect::<Option<_>>()
}
/// Lookup a possibly constant expression from a ExprKind::Path.
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fn fetch_path(&mut self, qpath: &QPath, id: HirId) -> Option<Constant> {
use rustc::mir::interpret::GlobalId;
let res = self.tables.qpath_res(qpath, id);
match res {
Res::Def(DefKind::Const, def_id) | Res::Def(DefKind::AssocConst, def_id) => {
let substs = self.tables.node_substs(id);
let substs = if self.substs.is_empty() {
substs
} else {
substs.subst(self.lcx.tcx, self.substs)
};
let instance = Instance::resolve(self.lcx.tcx, self.param_env, def_id, substs)?;
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let gid = GlobalId {
instance,
promoted: None,
};
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let result = self.lcx.tcx.const_eval(self.param_env.and(gid)).ok()?;
let result = miri_to_const(&result);
if result.is_some() {
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self.needed_resolution = true;
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}
result
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},
// FIXME: cover all usable cases.
_ => None,
}
}
/// A block can only yield a constant if it only has one constant expression.
fn block(&mut self, block: &Block) -> Option<Constant> {
if block.stmts.is_empty() {
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block.expr.as_ref().and_then(|b| self.expr(b))
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} else {
None
}
}
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fn ifthenelse(&mut self, cond: &Expr, then: &Expr, otherwise: Option<&Expr>) -> Option<Constant> {
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if let Some(Constant::Bool(b)) = self.expr(cond) {
if b {
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self.expr(&*then)
} else {
otherwise.as_ref().and_then(|expr| self.expr(expr))
}
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} else {
None
}
}
fn binop(&mut self, op: BinOp, left: &Expr, right: &Expr) -> Option<Constant> {
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let l = self.expr(left)?;
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let r = self.expr(right);
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match (l, r) {
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(Constant::Int(l), Some(Constant::Int(r))) => match self.tables.expr_ty(left).sty {
ty::Int(ity) => {
let l = sext(self.lcx.tcx, l, ity);
let r = sext(self.lcx.tcx, r, ity);
let zext = |n: i128| Constant::Int(unsext(self.lcx.tcx, n, ity));
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match op.node {
BinOpKind::Add => l.checked_add(r).map(zext),
BinOpKind::Sub => l.checked_sub(r).map(zext),
BinOpKind::Mul => l.checked_mul(r).map(zext),
BinOpKind::Div if r != 0 => l.checked_div(r).map(zext),
BinOpKind::Rem if r != 0 => l.checked_rem(r).map(zext),
BinOpKind::Shr => l.checked_shr(r.try_into().expect("invalid shift")).map(zext),
BinOpKind::Shl => l.checked_shl(r.try_into().expect("invalid shift")).map(zext),
BinOpKind::BitXor => Some(zext(l ^ r)),
BinOpKind::BitOr => Some(zext(l | r)),
BinOpKind::BitAnd => Some(zext(l & r)),
BinOpKind::Eq => Some(Constant::Bool(l == r)),
BinOpKind::Ne => Some(Constant::Bool(l != r)),
BinOpKind::Lt => Some(Constant::Bool(l < r)),
BinOpKind::Le => Some(Constant::Bool(l <= r)),
BinOpKind::Ge => Some(Constant::Bool(l >= r)),
BinOpKind::Gt => Some(Constant::Bool(l > r)),
_ => None,
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}
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},
ty::Uint(_) => match op.node {
BinOpKind::Add => l.checked_add(r).map(Constant::Int),
BinOpKind::Sub => l.checked_sub(r).map(Constant::Int),
BinOpKind::Mul => l.checked_mul(r).map(Constant::Int),
BinOpKind::Div => l.checked_div(r).map(Constant::Int),
BinOpKind::Rem => l.checked_rem(r).map(Constant::Int),
BinOpKind::Shr => l.checked_shr(r.try_into().expect("shift too large")).map(Constant::Int),
BinOpKind::Shl => l.checked_shl(r.try_into().expect("shift too large")).map(Constant::Int),
BinOpKind::BitXor => Some(Constant::Int(l ^ r)),
BinOpKind::BitOr => Some(Constant::Int(l | r)),
BinOpKind::BitAnd => Some(Constant::Int(l & r)),
BinOpKind::Eq => Some(Constant::Bool(l == r)),
BinOpKind::Ne => Some(Constant::Bool(l != r)),
BinOpKind::Lt => Some(Constant::Bool(l < r)),
BinOpKind::Le => Some(Constant::Bool(l <= r)),
BinOpKind::Ge => Some(Constant::Bool(l >= r)),
BinOpKind::Gt => Some(Constant::Bool(l > r)),
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_ => None,
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},
_ => None,
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},
(Constant::F32(l), Some(Constant::F32(r))) => match op.node {
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BinOpKind::Add => Some(Constant::F32(l + r)),
BinOpKind::Sub => Some(Constant::F32(l - r)),
BinOpKind::Mul => Some(Constant::F32(l * r)),
BinOpKind::Div => Some(Constant::F32(l / r)),
BinOpKind::Rem => Some(Constant::F32(l % r)),
BinOpKind::Eq => Some(Constant::Bool(l == r)),
BinOpKind::Ne => Some(Constant::Bool(l != r)),
BinOpKind::Lt => Some(Constant::Bool(l < r)),
BinOpKind::Le => Some(Constant::Bool(l <= r)),
BinOpKind::Ge => Some(Constant::Bool(l >= r)),
BinOpKind::Gt => Some(Constant::Bool(l > r)),
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_ => None,
},
(Constant::F64(l), Some(Constant::F64(r))) => match op.node {
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BinOpKind::Add => Some(Constant::F64(l + r)),
BinOpKind::Sub => Some(Constant::F64(l - r)),
BinOpKind::Mul => Some(Constant::F64(l * r)),
BinOpKind::Div => Some(Constant::F64(l / r)),
BinOpKind::Rem => Some(Constant::F64(l % r)),
BinOpKind::Eq => Some(Constant::Bool(l == r)),
BinOpKind::Ne => Some(Constant::Bool(l != r)),
BinOpKind::Lt => Some(Constant::Bool(l < r)),
BinOpKind::Le => Some(Constant::Bool(l <= r)),
BinOpKind::Ge => Some(Constant::Bool(l >= r)),
BinOpKind::Gt => Some(Constant::Bool(l > r)),
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_ => None,
},
(l, r) => match (op.node, l, r) {
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(BinOpKind::And, Constant::Bool(false), _) => Some(Constant::Bool(false)),
(BinOpKind::Or, Constant::Bool(true), _) => Some(Constant::Bool(true)),
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(BinOpKind::And, Constant::Bool(true), Some(r)) | (BinOpKind::Or, Constant::Bool(false), Some(r)) => {
Some(r)
},
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(BinOpKind::BitXor, Constant::Bool(l), Some(Constant::Bool(r))) => Some(Constant::Bool(l ^ r)),
(BinOpKind::BitAnd, Constant::Bool(l), Some(Constant::Bool(r))) => Some(Constant::Bool(l & r)),
(BinOpKind::BitOr, Constant::Bool(l), Some(Constant::Bool(r))) => Some(Constant::Bool(l | r)),
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_ => None,
},
}
}
}
pub fn miri_to_const(result: &ty::Const<'_>) -> Option<Constant> {
use rustc::mir::interpret::{ConstValue, Scalar};
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match result.val {
ConstValue::Scalar(Scalar::Raw { data: d, .. }) => match result.ty.sty {
ty::Bool => Some(Constant::Bool(d == 1)),
ty::Uint(_) | ty::Int(_) => Some(Constant::Int(d)),
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ty::Float(FloatTy::F32) => Some(Constant::F32(f32::from_bits(
d.try_into().expect("invalid f32 bit representation"),
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))),
ty::Float(FloatTy::F64) => Some(Constant::F64(f64::from_bits(
d.try_into().expect("invalid f64 bit representation"),
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))),
ty::RawPtr(type_and_mut) => {
if let ty::Uint(_) = type_and_mut.ty.sty {
return Some(Constant::RawPtr(d));
}
None
},
// FIXME: implement other conversions.
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_ => None,
},
ConstValue::Slice { data, start, end } => match result.ty.sty {
ty::Ref(_, tam, _) => match tam.sty {
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ty::Str => String::from_utf8(data.bytes[start..end].to_owned())
.ok()
.map(Constant::Str),
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_ => None,
},
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_ => None,
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},
// FIXME: implement other conversions.
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_ => None,
}
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}