2015-08-12 06:49:28 -05:00
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use rustc::lint::Context;
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use rustc::middle::const_eval::lookup_const_by_id;
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2015-08-14 10:14:54 -05:00
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use rustc::middle::def::PathResolution;
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use rustc::middle::def::Def::*;
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2015-08-12 06:49:28 -05:00
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use syntax::ast::*;
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use syntax::ptr::P;
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use std::cmp::PartialOrd;
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use std::cmp::Ordering::{self, Greater, Less, Equal};
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use std::rc::Rc;
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use std::ops::Deref;
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use self::Constant::*;
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use self::FloatWidth::*;
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#[derive(PartialEq, Eq, Debug, Copy, Clone)]
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pub enum FloatWidth {
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Fw32,
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Fw64,
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FwAny
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}
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impl From<FloatTy> for FloatWidth {
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fn from(ty: FloatTy) -> FloatWidth {
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match ty {
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TyF32 => Fw32,
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TyF64 => Fw64,
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}
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}
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}
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2015-08-12 06:49:28 -05:00
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/// a Lit_-like enum to fold constant `Expr`s into
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#[derive(Eq, Debug, Clone)]
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pub enum Constant {
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/// a String "abc"
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ConstantStr(String, 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
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ConstantFloat(String, FloatWidth),
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/// 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
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ConstantRepeat(Box<Constant>, usize),
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/// a tuple of constants
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ConstantTuple(Vec<Constant>),
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}
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impl Constant {
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/// convert to u64 if possible
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///
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/// # panics
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///
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/// if the constant could not be converted to u64 losslessly
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fn as_u64(&self) -> u64 {
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if let &ConstantInt(val, _) = self {
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val // TODO we may want to check the sign if any
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} else {
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panic!("Could not convert a {:?} to u64");
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}
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}
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/// convert this constant to a f64, if possible
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pub fn as_float(&self) -> Option<f64> {
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match *self {
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ConstantByte(b) => Some(b as f64),
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ConstantFloat(ref s, _) => s.parse().ok(),
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ConstantInt(i, ty) => Some(if is_negative(ty) {
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-(i as f64) } else { i as f64 }),
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_ => None
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}
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}
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}
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impl PartialEq for Constant {
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fn eq(&self, other: &Constant) -> bool {
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match (self, other) {
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(&ConstantStr(ref ls, ref lsty), &ConstantStr(ref rs, ref rsty)) =>
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ls == rs && lsty == rsty,
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(&ConstantBinary(ref l), &ConstantBinary(ref r)) => l == r,
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(&ConstantByte(l), &ConstantByte(r)) => l == r,
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(&ConstantChar(l), &ConstantChar(r)) => l == r,
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(&ConstantInt(lv, lty), &ConstantInt(rv, rty)) => lv == rv &&
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(is_negative(lty) & (lv != 0)) == (is_negative(rty) & (rv != 0)),
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(&ConstantFloat(ref ls, lw), &ConstantFloat(ref rs, rw)) =>
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if match (lw, rw) {
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(FwAny, _) | (_, FwAny) | (Fw32, Fw32) | (Fw64, Fw64) => true,
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_ => false,
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} {
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match (ls.parse::<f64>(), rs.parse::<f64>()) {
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(Ok(l), Ok(r)) => l.eq(&r),
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_ => false,
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}
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} else { false },
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(&ConstantBool(l), &ConstantBool(r)) => l == r,
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(&ConstantVec(ref l), &ConstantVec(ref r)) => l == r,
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(&ConstantRepeat(ref lv, ref ls), &ConstantRepeat(ref rv, ref rs)) =>
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ls == rs && lv == rv,
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(&ConstantTuple(ref l), &ConstantTuple(ref r)) => l == r,
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_ => false, //TODO: Are there inter-type equalities?
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}
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}
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}
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impl PartialOrd for Constant {
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fn partial_cmp(&self, other: &Constant) -> Option<Ordering> {
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match (self, other) {
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(&ConstantStr(ref ls, ref lsty), &ConstantStr(ref rs, ref rsty)) =>
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if lsty != rsty { None } else { Some(ls.cmp(rs)) },
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(&ConstantByte(ref l), &ConstantByte(ref r)) => Some(l.cmp(r)),
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(&ConstantChar(ref l), &ConstantChar(ref r)) => Some(l.cmp(r)),
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(&ConstantInt(ref lv, lty), &ConstantInt(ref rv, rty)) =>
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Some(match (is_negative(lty) && *lv != 0,
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is_negative(rty) && *rv != 0) {
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(true, true) => lv.cmp(rv),
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(false, false) => rv.cmp(lv),
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(true, false) => Greater,
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(false, true) => Less,
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}),
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(&ConstantFloat(ref ls, lw), &ConstantFloat(ref rs, rw)) =>
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if match (lw, rw) {
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(FwAny, _) | (_, FwAny) | (Fw32, Fw32) | (Fw64, Fw64) => true,
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_ => false,
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} {
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match (ls.parse::<f64>(), rs.parse::<f64>()) {
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(Ok(ref l), Ok(ref r)) => l.partial_cmp(r),
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_ => None,
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}
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} else { None },
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(&ConstantBool(ref l), &ConstantBool(ref r)) => Some(l.cmp(r)),
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(&ConstantVec(ref l), &ConstantVec(ref r)) => l.partial_cmp(&r),
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(&ConstantRepeat(ref lv, ref ls), &ConstantRepeat(ref rv, ref rs)) =>
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match lv.partial_cmp(rv) {
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Some(Equal) => Some(ls.cmp(rs)),
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x => x,
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},
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(&ConstantTuple(ref l), &ConstantTuple(ref r)) => l.partial_cmp(r),
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_ => None, //TODO: Are there any useful inter-type orderings?
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}
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}
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}
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fn lit_to_constant(lit: &Lit_) -> Constant {
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match lit {
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&LitStr(ref is, style) => ConstantStr(is.to_string(), style),
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&LitBinary(ref blob) => ConstantBinary(blob.clone()),
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&LitByte(b) => ConstantByte(b),
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&LitChar(c) => ConstantChar(c),
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&LitInt(value, ty) => ConstantInt(value, ty),
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&LitFloat(ref is, ty) => ConstantFloat(is.to_string(), ty.into()),
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&LitFloatUnsuffixed(ref is) => ConstantFloat(is.to_string(), FwAny),
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&LitBool(b) => ConstantBool(b),
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}
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}
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fn constant_not(o: Constant) -> Option<Constant> {
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Some(match o {
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ConstantBool(b) => ConstantBool(!b),
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ConstantInt(value, ty) => {
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let (nvalue, nty) = match ty {
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SignedIntLit(ity, Plus) => {
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if value == ::std::u64::MAX { return None; }
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(value + 1, SignedIntLit(ity, Minus))
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},
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SignedIntLit(ity, Minus) => {
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if value == 0 {
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(1, SignedIntLit(ity, Minus))
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} else {
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(value - 1, SignedIntLit(ity, Plus))
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}
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}
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UnsignedIntLit(ity) => {
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let mask = match ity {
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UintTy::TyU8 => ::std::u8::MAX as u64,
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UintTy::TyU16 => ::std::u16::MAX as u64,
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UintTy::TyU32 => ::std::u32::MAX as u64,
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UintTy::TyU64 => ::std::u64::MAX,
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UintTy::TyUs => { return None; } // refuse to guess
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};
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(!value & mask, UnsignedIntLit(ity))
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}
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UnsuffixedIntLit(_) => { return None; } // refuse to guess
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};
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ConstantInt(nvalue, nty)
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},
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_ => { return None; }
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})
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}
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fn constant_negate(o: Constant) -> Option<Constant> {
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Some(match o {
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ConstantInt(value, ty) =>
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ConstantInt(value, match ty {
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SignedIntLit(ity, sign) =>
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SignedIntLit(ity, neg_sign(sign)),
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UnsuffixedIntLit(sign) => UnsuffixedIntLit(neg_sign(sign)),
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_ => { return None; },
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}),
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ConstantFloat(is, ty) =>
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ConstantFloat(neg_float_str(is), ty),
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_ => { return None; },
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})
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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,
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Sign::Minus => Sign::Plus,
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}
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}
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fn neg_float_str(s: String) -> String {
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if s.starts_with('-') {
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s[1..].to_owned()
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} else {
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format!("-{}", &*s)
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}
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}
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/// is the given LitIntType negative?
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///
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/// Examples
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///
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/// ```
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/// assert!(is_negative(UnsuffixedIntLit(Minus)));
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/// ```
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pub fn is_negative(ty: LitIntType) -> bool {
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match ty {
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SignedIntLit(_, sign) | UnsuffixedIntLit(sign) => sign == Minus,
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UnsignedIntLit(_) => false,
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}
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}
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fn unify_int_type(l: LitIntType, r: LitIntType, s: Sign) -> Option<LitIntType> {
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match (l, r) {
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(SignedIntLit(lty, _), SignedIntLit(rty, _)) => if lty == rty {
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Some(SignedIntLit(lty, s)) } else { None },
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(UnsignedIntLit(lty), UnsignedIntLit(rty)) =>
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if s == Plus && lty == rty {
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Some(UnsignedIntLit(lty))
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} else { None },
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(UnsuffixedIntLit(_), UnsuffixedIntLit(_)) => Some(UnsuffixedIntLit(s)),
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(SignedIntLit(lty, _), UnsuffixedIntLit(_)) => Some(SignedIntLit(lty, s)),
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(UnsignedIntLit(lty), UnsuffixedIntLit(rs)) => if rs == Plus {
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Some(UnsignedIntLit(lty)) } else { None },
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(UnsuffixedIntLit(_), SignedIntLit(rty, _)) => Some(SignedIntLit(rty, s)),
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(UnsuffixedIntLit(ls), UnsignedIntLit(rty)) => if ls == Plus {
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Some(UnsignedIntLit(rty)) } else { None },
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_ => None,
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}
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}
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fn add_neg_int(pos: u64, pty: LitIntType, neg: u64, nty: LitIntType) ->
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Option<Constant> {
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if neg > pos {
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unify_int_type(nty, pty, Minus).map(|ty| ConstantInt(neg - pos, ty))
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} else {
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unify_int_type(nty, pty, Plus).map(|ty| ConstantInt(pos - neg, ty))
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}
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}
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fn sub_int(l: u64, lty: LitIntType, r: u64, rty: LitIntType, neg: bool) ->
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Option<Constant> {
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unify_int_type(lty, rty, if neg { Minus } else { Plus }).and_then(
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|ty| l.checked_sub(r).map(|v| ConstantInt(v, ty)))
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}
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pub fn constant(lcx: &Context, e: &Expr) -> Option<(Constant, bool)> {
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let mut cx = ConstEvalContext { lcx: Some(lcx), needed_resolution: false };
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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(e: &Expr) -> Option<Constant> {
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let mut cx = ConstEvalContext { lcx: None, needed_resolution: false };
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cx.expr(e)
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}
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struct ConstEvalContext<'c, 'cc: 'c> {
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lcx: Option<&'c Context<'c, 'cc>>,
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needed_resolution: bool
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}
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impl<'c, 'cc> ConstEvalContext<'c, 'cc> {
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/// simple constant folding: Insert an expression, get a constant or none.
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fn expr(&mut self, e: &Expr) -> Option<Constant> {
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match &e.node {
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&ExprParen(ref inner) => self.expr(inner),
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&ExprPath(_, _) => self.fetch_path(e),
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&ExprBlock(ref block) => self.block(block),
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&ExprIf(ref cond, ref then, ref otherwise) =>
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self.ifthenelse(&*cond, &*then, &*otherwise),
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&ExprLit(ref lit) => Some(lit_to_constant(&lit.node)),
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&ExprVec(ref vec) => self.vec(&vec[..]),
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&ExprTup(ref tup) => self.tup(&tup[..]),
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&ExprRepeat(ref value, ref number) =>
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self.binop_apply(value, number,|v, n|
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Some(ConstantRepeat(Box::new(v), n.as_u64() as usize))),
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&ExprUnary(op, ref operand) => self.expr(operand).and_then(
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|o| match op {
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UnNot => constant_not(o),
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UnNeg => constant_negate(o),
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UnUniq | UnDeref => Some(o),
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}),
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&ExprBinary(op, ref left, ref right) =>
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self.binop(op, left, right),
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//TODO: add other expressions
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_ => None,
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}
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}
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/// create `Some(ConstantVec(..))` of all constants, unless there is any
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/// non-constant part
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fn vec<E: Deref<Target=Expr> + Sized>(&mut self, vec: &[E]) -> Option<Constant> {
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let mut parts = Vec::new();
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for opt_part in vec {
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match self.expr(opt_part) {
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Some(p) => {
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parts.push(p)
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},
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None => { return None; },
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}
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}
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Some(ConstantVec(parts))
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}
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fn tup<E: Deref<Target=Expr> + Sized>(&mut self, tup: &[E]) -> Option<Constant> {
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let mut parts = Vec::new();
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for opt_part in tup {
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match self.expr(opt_part) {
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Some(p) => {
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parts.push(p)
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},
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None => { return None; },
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}
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}
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Some(ConstantTuple(parts),)
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}
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/// lookup a possibly constant expression from a ExprPath
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fn fetch_path(&mut self, e: &Expr) -> Option<Constant> {
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if let Some(lcx) = self.lcx {
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if let Some(&PathResolution { base_def: DefConst(id), ..}) =
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lcx.tcx.def_map.borrow().get(&e.id) {
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if let Some(const_expr) = lookup_const_by_id(lcx.tcx, id, None) {
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let ret = self.expr(const_expr);
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if ret.is_some() {
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self.needed_resolution = true;
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}
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return ret;
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}
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}
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}
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None
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}
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/// A block can only yield a constant if it only has one constant expression
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fn block(&mut self, block: &Block) -> Option<Constant> {
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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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}
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fn ifthenelse(&mut self, cond: &Expr, then: &Block, otherwise: &Option<P<Expr>>)
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-> Option<Constant> {
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if let Some(ConstantBool(b)) = self.expr(cond) {
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if b {
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self.block(then)
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2015-08-14 10:14:54 -05:00
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} else {
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2015-08-17 10:51:30 -05:00
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otherwise.as_ref().and_then(|expr| self.expr(&*expr))
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2015-08-14 10:14:54 -05:00
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}
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} else { None }
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2015-08-17 10:51:30 -05:00
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}
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fn binop(&mut self, op: BinOp, left: &Expr, right: &Expr) -> Option<Constant> {
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match op.node {
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BiAdd => self.binop_apply(left, right, |l, r|
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match (l, r) {
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(ConstantByte(l8), ConstantByte(r8)) =>
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l8.checked_add(r8).map(ConstantByte),
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(ConstantInt(l64, lty), ConstantInt(r64, rty)) => {
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let (ln, rn) = (is_negative(lty), is_negative(rty));
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if ln == rn {
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unify_int_type(lty, rty, if ln { Minus } else { Plus })
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.and_then(|ty| l64.checked_add(r64).map(
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|v| ConstantInt(v, ty)))
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} else {
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if ln {
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add_neg_int(r64, rty, l64, lty)
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} else {
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add_neg_int(l64, lty, r64, rty)
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}
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}
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},
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// TODO: float (would need bignum library?)
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_ => None
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}),
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BiSub => self.binop_apply(left, right, |l, r|
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match (l, r) {
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(ConstantByte(l8), ConstantByte(r8)) => if r8 > l8 {
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None } else { Some(ConstantByte(l8 - r8)) },
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(ConstantInt(l64, lty), ConstantInt(r64, rty)) => {
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let (ln, rn) = (is_negative(lty), is_negative(rty));
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match (ln, rn) {
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(false, false) => sub_int(l64, lty, r64, rty, r64 > l64),
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(true, true) => sub_int(l64, lty, r64, rty, l64 > r64),
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(true, false) => unify_int_type(lty, rty, Minus)
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.and_then(|ty| l64.checked_add(r64).map(
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|v| ConstantInt(v, ty))),
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(false, true) => unify_int_type(lty, rty, Plus)
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.and_then(|ty| l64.checked_add(r64).map(
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|v| ConstantInt(v, ty))),
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}
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},
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_ => None,
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}),
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//BiMul,
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//BiDiv,
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//BiRem,
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BiAnd => self.short_circuit(left, right, false),
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BiOr => self.short_circuit(left, right, true),
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BiBitXor => self.bitop(left, right, |x, y| x ^ y),
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BiBitAnd => self.bitop(left, right, |x, y| x & y),
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BiBitOr => self.bitop(left, right, |x, y| (x | y)),
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BiShl => self.bitop(left, right, |x, y| x << y),
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BiShr => self.bitop(left, right, |x, y| x >> y),
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BiEq => self.binop_apply(left, right,
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|l, r| Some(ConstantBool(l == r))),
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BiNe => self.binop_apply(left, right,
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|l, r| Some(ConstantBool(l != r))),
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BiLt => self.cmp(left, right, Less, true),
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BiLe => self.cmp(left, right, Greater, false),
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BiGe => self.cmp(left, right, Less, false),
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BiGt => self.cmp(left, right, Greater, true),
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_ => None
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}
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}
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fn bitop<F>(&mut self, left: &Expr, right: &Expr, f: F)
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-> Option<Constant> where F: Fn(u64, u64) -> u64 {
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self.binop_apply(left, right, |l, r| match (l, r) {
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(ConstantBool(l), ConstantBool(r)) =>
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Some(ConstantBool(f(l as u64, r as u64) != 0)),
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(ConstantByte(l8), ConstantByte(r8)) =>
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Some(ConstantByte(f(l8 as u64, r8 as u64) as u8)),
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(ConstantInt(l, lty), ConstantInt(r, rty)) =>
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unify_int_type(lty, rty, Plus).map(|ty| ConstantInt(f(l, r), ty)),
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_ => None
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})
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}
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fn cmp(&mut self, left: &Expr, right: &Expr, ordering: Ordering, b: bool) -> Option<Constant> {
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self.binop_apply(left, right, |l, r| l.partial_cmp(&r).map(|o|
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ConstantBool(b == (o == ordering))))
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}
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fn binop_apply<F>(&mut self, left: &Expr, right: &Expr, op: F) -> Option<Constant>
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where F: Fn(Constant, Constant) -> Option<Constant> {
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if let (Some(lc), Some(rc)) = (self.expr(left), self.expr(right)) {
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op(lc, rc)
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} else { None }
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}
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fn short_circuit(&mut self, left: &Expr, right: &Expr, b: bool) -> Option<Constant> {
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self.expr(left).and_then(|left|
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if let &ConstantBool(lbool) = &left {
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if lbool == b {
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Some(left)
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} else {
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self.expr(right).and_then(|right|
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if let ConstantBool(_) = right {
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Some(right)
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} else { None }
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)
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}
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} else { None }
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)
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}
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2015-08-13 02:25:44 -05:00
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}
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