//! Replaces 128-bit operators with lang item calls where necessary use crate::prelude::*; pub(crate) fn maybe_codegen<'tcx>( fx: &mut FunctionCx<'_, 'tcx, impl Module>, bin_op: BinOp, checked: bool, lhs: CValue<'tcx>, rhs: CValue<'tcx>, ) -> Option> { if lhs.layout().ty != fx.tcx.types.u128 && lhs.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::Add => { let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter()); return Some(if is_signed { fx.easy_call("__rust_i128_addo", &[lhs, rhs], out_ty) } else { fx.easy_call("__rust_u128_addo", &[lhs, rhs], out_ty) }); } BinOp::Sub => { let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter()); return Some(if is_signed { fx.easy_call("__rust_i128_subo", &[lhs, rhs], out_ty) } else { fx.easy_call("__rust_u128_subo", &[lhs, rhs], out_ty) }); } BinOp::Offset => unreachable!("offset should only be used on pointers, not 128bit ints"), BinOp::Mul => { let res = if checked { let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter()); if is_signed { fx.easy_call("__rust_i128_mulo", &[lhs, rhs], out_ty) } else { fx.easy_call("__rust_u128_mulo", &[lhs, rhs], out_ty) } } else { let val_ty = if is_signed { fx.tcx.types.i128 } else { fx.tcx.types.u128 }; fx.easy_call("__multi3", &[lhs, rhs], val_ty) }; Some(res) } BinOp::Div => { assert!(!checked); if is_signed { Some(fx.easy_call("__divti3", &[lhs, rhs], fx.tcx.types.i128)) } else { Some(fx.easy_call("__udivti3", &[lhs, rhs], fx.tcx.types.u128)) } } BinOp::Rem => { assert!(!checked); if is_signed { Some(fx.easy_call("__modti3", &[lhs, rhs], fx.tcx.types.i128)) } else { Some(fx.easy_call("__umodti3", &[lhs, rhs], fx.tcx.types.u128)) } } 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 }; // Optimize `val >> 64`, because compiler_builtins uses it to deconstruct an 128bit // integer into its lsb and msb. // https://github.com/rust-lang-nursery/compiler-builtins/blob/79a6a1603d5672cbb9187ff41ff4d9b5048ac1cb/src/int/mod.rs#L217 if resolve_value_imm(fx.bcx.func, rhs_val) == Some(64) { let (lhs_lsb, lhs_msb) = fx.bcx.ins().isplit(lhs_val); let all_zeros = fx.bcx.ins().iconst(types::I64, 0); let val = match (bin_op, is_signed) { (BinOp::Shr, false) => { let val = fx.bcx.ins().iconcat(lhs_msb, all_zeros); Some(CValue::by_val(val, fx.layout_of(fx.tcx.types.u128))) } (BinOp::Shr, true) => { let sign = fx.bcx.ins().icmp_imm(IntCC::SignedLessThan, lhs_msb, 0); let all_ones = fx.bcx.ins().iconst(types::I64, u64::MAX as i64); let all_sign_bits = fx.bcx.ins().select(sign, all_zeros, all_ones); let val = fx.bcx.ins().iconcat(lhs_msb, all_sign_bits); Some(CValue::by_val(val, fx.layout_of(fx.tcx.types.i128))) } (BinOp::Shl, _) => { let val_ty = if is_signed { fx.tcx.types.i128 } else { fx.tcx.types.u128 }; let val = fx.bcx.ins().iconcat(all_zeros, lhs_lsb); Some(CValue::by_val(val, fx.layout_of(val_ty))) } _ => None, }; if let Some(val) = val { if let Some(is_overflow) = is_overflow { let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter()); let val = val.load_scalar(fx); return Some(CValue::by_val_pair(val, is_overflow, fx.layout_of(out_ty))); } else { return Some(val); } } } let truncated_rhs = clif_intcast(fx, rhs_val, types::I32, false); let truncated_rhs = CValue::by_val(truncated_rhs, fx.layout_of(fx.tcx.types.u32)); let val = match (bin_op, is_signed) { (BinOp::Shl, false) => { fx.easy_call("__ashlti3", &[lhs, truncated_rhs], fx.tcx.types.u128) } (BinOp::Shl, true) => { fx.easy_call("__ashlti3", &[lhs, truncated_rhs], fx.tcx.types.i128) } (BinOp::Shr, false) => { fx.easy_call("__lshrti3", &[lhs, truncated_rhs], fx.tcx.types.u128) } (BinOp::Shr, true) => { fx.easy_call("__ashrti3", &[lhs, truncated_rhs], fx.tcx.types.i128) } (_, _) => unreachable!(), }; if let Some(is_overflow) = is_overflow { let out_ty = fx.tcx.mk_tup([lhs.layout().ty, fx.tcx.types.bool].iter()); let val = val.load_scalar(fx); Some(CValue::by_val_pair(val, is_overflow, fx.layout_of(out_ty))) } else { Some(val) } } } }