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|
//! Replaces 128-bit operators with lang item calls where necessary
use cranelift_codegen::ir::ArgumentPurpose;
use crate::prelude::*;
pub(crate) fn maybe_codegen<'tcx>(
fx: &mut FunctionCx<'_, '_, 'tcx>,
bin_op: BinOp,
checked: bool,
lhs: CValue<'tcx>,
rhs: CValue<'tcx>,
) -> Option<CValue<'tcx>> {
if lhs.layout().ty != fx.tcx.types.u128
&& lhs.layout().ty != fx.tcx.types.i128
&& rhs.layout().ty != fx.tcx.types.u128
&& rhs.layout().ty != fx.tcx.types.i128
{
return None;
}
let lhs_val = lhs.load_scalar(fx);
let rhs_val = rhs.load_scalar(fx);
let is_signed = type_sign(lhs.layout().ty);
match bin_op {
BinOp::BitAnd | BinOp::BitOr | BinOp::BitXor => {
assert!(!checked);
None
}
BinOp::Add | BinOp::Sub if !checked => None,
BinOp::Mul if !checked => {
let val_ty = if is_signed { fx.tcx.types.i128 } else { fx.tcx.types.u128 };
if fx.tcx.sess.target.is_like_windows {
let ret_place = CPlace::new_stack_slot(fx, lhs.layout());
let (lhs_ptr, lhs_extra) = lhs.force_stack(fx);
let (rhs_ptr, rhs_extra) = rhs.force_stack(fx);
assert!(lhs_extra.is_none());
assert!(rhs_extra.is_none());
let args =
[ret_place.to_ptr().get_addr(fx), lhs_ptr.get_addr(fx), rhs_ptr.get_addr(fx)];
fx.lib_call(
"__multi3",
vec![
AbiParam::special(pointer_ty(fx.tcx), ArgumentPurpose::StructReturn),
AbiParam::new(pointer_ty(fx.tcx)),
AbiParam::new(pointer_ty(fx.tcx)),
],
vec![],
&args,
);
Some(ret_place.to_cvalue(fx))
} else {
Some(fx.easy_call("__multi3", &[lhs, rhs], val_ty))
}
}
BinOp::Add | BinOp::Sub | BinOp::Mul => {
assert!(checked);
let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter());
let out_place = CPlace::new_stack_slot(fx, fx.layout_of(out_ty));
let (param_types, args) = if fx.tcx.sess.target.is_like_windows {
let (lhs_ptr, lhs_extra) = lhs.force_stack(fx);
let (rhs_ptr, rhs_extra) = rhs.force_stack(fx);
assert!(lhs_extra.is_none());
assert!(rhs_extra.is_none());
(
vec![
AbiParam::special(pointer_ty(fx.tcx), ArgumentPurpose::StructReturn),
AbiParam::new(pointer_ty(fx.tcx)),
AbiParam::new(pointer_ty(fx.tcx)),
],
[out_place.to_ptr().get_addr(fx), lhs_ptr.get_addr(fx), rhs_ptr.get_addr(fx)],
)
} else {
(
vec![
AbiParam::special(pointer_ty(fx.tcx), ArgumentPurpose::StructReturn),
AbiParam::new(types::I128),
AbiParam::new(types::I128),
],
[out_place.to_ptr().get_addr(fx), lhs.load_scalar(fx), rhs.load_scalar(fx)],
)
};
let name = match (bin_op, is_signed) {
(BinOp::Add, false) => "__rust_u128_addo",
(BinOp::Add, true) => "__rust_i128_addo",
(BinOp::Sub, false) => "__rust_u128_subo",
(BinOp::Sub, true) => "__rust_i128_subo",
(BinOp::Mul, false) => "__rust_u128_mulo",
(BinOp::Mul, true) => "__rust_i128_mulo",
_ => unreachable!(),
};
fx.lib_call(name, param_types, vec![], &args);
Some(out_place.to_cvalue(fx))
}
BinOp::Offset => unreachable!("offset should only be used on pointers, not 128bit ints"),
BinOp::Div | BinOp::Rem => {
assert!(!checked);
let name = match (bin_op, is_signed) {
(BinOp::Div, false) => "__udivti3",
(BinOp::Div, true) => "__divti3",
(BinOp::Rem, false) => "__umodti3",
(BinOp::Rem, true) => "__modti3",
_ => unreachable!(),
};
if fx.tcx.sess.target.is_like_windows {
let (lhs_ptr, lhs_extra) = lhs.force_stack(fx);
let (rhs_ptr, rhs_extra) = rhs.force_stack(fx);
assert!(lhs_extra.is_none());
assert!(rhs_extra.is_none());
let args = [lhs_ptr.get_addr(fx), rhs_ptr.get_addr(fx)];
let ret = fx.lib_call(
name,
vec![AbiParam::new(pointer_ty(fx.tcx)), AbiParam::new(pointer_ty(fx.tcx))],
vec![AbiParam::new(types::I64X2)],
&args,
)[0];
// FIXME use bitcast instead of store to get from i64x2 to i128
let ret_place = CPlace::new_stack_slot(fx, lhs.layout());
ret_place.to_ptr().store(fx, ret, MemFlags::trusted());
Some(ret_place.to_cvalue(fx))
} else {
Some(fx.easy_call(name, &[lhs, rhs], lhs.layout().ty))
}
}
BinOp::Lt | BinOp::Le | BinOp::Eq | BinOp::Ge | BinOp::Gt | BinOp::Ne => {
assert!(!checked);
None
}
BinOp::Shl | BinOp::Shr => {
let is_overflow = if checked {
// rhs >= 128
// FIXME support non 128bit rhs
/*let (rhs_lsb, rhs_msb) = fx.bcx.ins().isplit(rhs_val);
let rhs_msb_gt_0 = fx.bcx.ins().icmp_imm(IntCC::NotEqual, rhs_msb, 0);
let rhs_lsb_ge_128 = fx.bcx.ins().icmp_imm(IntCC::SignedGreaterThan, rhs_lsb, 127);
let is_overflow = fx.bcx.ins().bor(rhs_msb_gt_0, rhs_lsb_ge_128);*/
let is_overflow = fx.bcx.ins().bconst(types::B1, false);
Some(fx.bcx.ins().bint(types::I8, is_overflow))
} else {
None
};
let truncated_rhs = clif_intcast(fx, rhs_val, types::I32, false);
let val = match bin_op {
BinOp::Shl => fx.bcx.ins().ishl(lhs_val, truncated_rhs),
BinOp::Shr => {
if is_signed {
fx.bcx.ins().sshr(lhs_val, truncated_rhs)
} else {
fx.bcx.ins().ushr(lhs_val, truncated_rhs)
}
}
_ => unreachable!(),
};
if let Some(is_overflow) = is_overflow {
let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter());
Some(CValue::by_val_pair(val, is_overflow, fx.layout_of(out_ty)))
} else {
Some(CValue::by_val(val, lhs.layout()))
}
}
}
}
|
