445 lines
16 KiB
Rust
445 lines
16 KiB
Rust
//! Various operations on integer and floating-point numbers
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use crate::prelude::*;
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pub(crate) fn bin_op_to_intcc(bin_op: BinOp, signed: bool) -> Option<IntCC> {
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use BinOp::*;
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use IntCC::*;
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Some(match bin_op {
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Eq => Equal,
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Lt => {
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if signed {
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SignedLessThan
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} else {
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UnsignedLessThan
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}
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}
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Le => {
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if signed {
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SignedLessThanOrEqual
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} else {
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UnsignedLessThanOrEqual
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}
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}
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Ne => NotEqual,
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Ge => {
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if signed {
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SignedGreaterThanOrEqual
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} else {
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UnsignedGreaterThanOrEqual
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}
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}
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Gt => {
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if signed {
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SignedGreaterThan
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} else {
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UnsignedGreaterThan
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}
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}
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_ => return None,
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})
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}
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fn codegen_compare_bin_op<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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signed: bool,
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lhs: Value,
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rhs: Value,
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) -> CValue<'tcx> {
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let intcc = crate::num::bin_op_to_intcc(bin_op, signed).unwrap();
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let val = fx.bcx.ins().icmp(intcc, lhs, rhs);
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CValue::by_val(val, fx.layout_of(fx.tcx.types.bool))
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}
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pub(crate) fn codegen_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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match bin_op {
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BinOp::Eq | BinOp::Lt | BinOp::Le | BinOp::Ne | BinOp::Ge | BinOp::Gt => {
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match in_lhs.layout().ty.kind() {
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ty::Bool | ty::Uint(_) | ty::Int(_) | ty::Char => {
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let signed = type_sign(in_lhs.layout().ty);
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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return codegen_compare_bin_op(fx, bin_op, signed, lhs, rhs);
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}
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_ => {}
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}
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}
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_ => {}
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}
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match in_lhs.layout().ty.kind() {
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ty::Bool => crate::num::codegen_bool_binop(fx, bin_op, in_lhs, in_rhs),
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ty::Uint(_) | ty::Int(_) => crate::num::codegen_int_binop(fx, bin_op, in_lhs, in_rhs),
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ty::Float(_) => crate::num::codegen_float_binop(fx, bin_op, in_lhs, in_rhs),
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ty::RawPtr(..) | ty::FnPtr(..) => crate::num::codegen_ptr_binop(fx, bin_op, in_lhs, in_rhs),
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_ => unreachable!("{:?}({:?}, {:?})", bin_op, in_lhs.layout().ty, in_rhs.layout().ty),
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}
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}
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pub(crate) fn codegen_bool_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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let b = fx.bcx.ins();
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let res = match bin_op {
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BinOp::BitXor => b.bxor(lhs, rhs),
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BinOp::BitAnd => b.band(lhs, rhs),
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BinOp::BitOr => b.bor(lhs, rhs),
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// Compare binops handles by `codegen_binop`.
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_ => unreachable!("{:?}({:?}, {:?})", bin_op, in_lhs, in_rhs),
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};
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CValue::by_val(res, fx.layout_of(fx.tcx.types.bool))
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}
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pub(crate) fn codegen_int_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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if bin_op != BinOp::Shl && bin_op != BinOp::Shr {
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assert_eq!(
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in_lhs.layout().ty,
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in_rhs.layout().ty,
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"int binop requires lhs and rhs of same type"
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);
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}
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if let Some(res) = crate::codegen_i128::maybe_codegen(fx, bin_op, in_lhs, in_rhs) {
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return res;
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}
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let signed = type_sign(in_lhs.layout().ty);
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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let b = fx.bcx.ins();
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let val = match bin_op {
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BinOp::Add => b.iadd(lhs, rhs),
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BinOp::Sub => b.isub(lhs, rhs),
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BinOp::Mul => b.imul(lhs, rhs),
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BinOp::Div => {
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if signed {
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b.sdiv(lhs, rhs)
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} else {
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b.udiv(lhs, rhs)
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}
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}
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BinOp::Rem => {
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if signed {
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b.srem(lhs, rhs)
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} else {
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b.urem(lhs, rhs)
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}
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}
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BinOp::BitXor => b.bxor(lhs, rhs),
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BinOp::BitAnd => b.band(lhs, rhs),
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BinOp::BitOr => b.bor(lhs, rhs),
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BinOp::Shl => b.ishl(lhs, rhs),
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BinOp::Shr => {
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if signed {
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b.sshr(lhs, rhs)
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} else {
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b.ushr(lhs, rhs)
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}
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}
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// Compare binops handles by `codegen_binop`.
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_ => unreachable!("{:?}({:?}, {:?})", bin_op, in_lhs.layout().ty, in_rhs.layout().ty),
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};
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CValue::by_val(val, in_lhs.layout())
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}
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pub(crate) fn codegen_checked_int_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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if let Some(res) = crate::codegen_i128::maybe_codegen_checked(fx, bin_op, in_lhs, in_rhs) {
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return res;
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}
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let signed = type_sign(in_lhs.layout().ty);
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let (res, has_overflow) = match bin_op {
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BinOp::Add => {
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/*let (val, c_out) = fx.bcx.ins().iadd_cout(lhs, rhs);
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(val, c_out)*/
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// FIXME(CraneStation/cranelift#849) legalize iadd_cout for i8 and i16
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let val = fx.bcx.ins().iadd(lhs, rhs);
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let has_overflow = if !signed {
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fx.bcx.ins().icmp(IntCC::UnsignedLessThan, val, lhs)
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} else {
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let rhs_is_negative = fx.bcx.ins().icmp_imm(IntCC::SignedLessThan, rhs, 0);
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let slt = fx.bcx.ins().icmp(IntCC::SignedLessThan, val, lhs);
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fx.bcx.ins().bxor(rhs_is_negative, slt)
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};
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(val, has_overflow)
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}
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BinOp::Sub => {
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/*let (val, b_out) = fx.bcx.ins().isub_bout(lhs, rhs);
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(val, b_out)*/
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// FIXME(CraneStation/cranelift#849) legalize isub_bout for i8 and i16
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let val = fx.bcx.ins().isub(lhs, rhs);
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let has_overflow = if !signed {
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fx.bcx.ins().icmp(IntCC::UnsignedGreaterThan, val, lhs)
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} else {
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let rhs_is_negative = fx.bcx.ins().icmp_imm(IntCC::SignedLessThan, rhs, 0);
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let sgt = fx.bcx.ins().icmp(IntCC::SignedGreaterThan, val, lhs);
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fx.bcx.ins().bxor(rhs_is_negative, sgt)
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};
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(val, has_overflow)
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}
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BinOp::Mul => {
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let ty = fx.bcx.func.dfg.value_type(lhs);
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match ty {
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types::I8 | types::I16 | types::I32 if !signed => {
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let lhs = fx.bcx.ins().uextend(ty.double_width().unwrap(), lhs);
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let rhs = fx.bcx.ins().uextend(ty.double_width().unwrap(), rhs);
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let val = fx.bcx.ins().imul(lhs, rhs);
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let has_overflow = fx.bcx.ins().icmp_imm(
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IntCC::UnsignedGreaterThan,
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val,
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(1 << ty.bits()) - 1,
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);
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let val = fx.bcx.ins().ireduce(ty, val);
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(val, has_overflow)
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}
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types::I8 | types::I16 | types::I32 if signed => {
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let lhs = fx.bcx.ins().sextend(ty.double_width().unwrap(), lhs);
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let rhs = fx.bcx.ins().sextend(ty.double_width().unwrap(), rhs);
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let val = fx.bcx.ins().imul(lhs, rhs);
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let has_underflow =
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fx.bcx.ins().icmp_imm(IntCC::SignedLessThan, val, -(1 << (ty.bits() - 1)));
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let has_overflow = fx.bcx.ins().icmp_imm(
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IntCC::SignedGreaterThan,
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val,
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(1 << (ty.bits() - 1)) - 1,
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);
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let val = fx.bcx.ins().ireduce(ty, val);
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(val, fx.bcx.ins().bor(has_underflow, has_overflow))
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}
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types::I64 => {
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let val = fx.bcx.ins().imul(lhs, rhs);
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let has_overflow = if !signed {
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let val_hi = fx.bcx.ins().umulhi(lhs, rhs);
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fx.bcx.ins().icmp_imm(IntCC::NotEqual, val_hi, 0)
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} else {
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// Based on LLVM's instruction sequence for compiling
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// a.checked_mul(b).is_some() to riscv64gc:
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// mulh a2, a0, a1
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// mul a0, a0, a1
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// srai a0, a0, 63
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// xor a0, a0, a2
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// snez a0, a0
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let val_hi = fx.bcx.ins().smulhi(lhs, rhs);
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let val_sign = fx.bcx.ins().sshr_imm(val, i64::from(ty.bits() - 1));
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let xor = fx.bcx.ins().bxor(val_hi, val_sign);
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fx.bcx.ins().icmp_imm(IntCC::NotEqual, xor, 0)
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};
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(val, has_overflow)
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}
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types::I128 => {
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unreachable!("i128 should have been handled by codegen_i128::maybe_codegen")
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}
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_ => unreachable!("invalid non-integer type {}", ty),
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}
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}
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_ => bug!("binop {:?} on checked int/uint lhs: {:?} rhs: {:?}", bin_op, in_lhs, in_rhs),
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};
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let out_layout = fx.layout_of(fx.tcx.mk_tup(&[in_lhs.layout().ty, fx.tcx.types.bool]));
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CValue::by_val_pair(res, has_overflow, out_layout)
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}
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pub(crate) fn codegen_saturating_int_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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lhs: CValue<'tcx>,
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rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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assert_eq!(lhs.layout().ty, rhs.layout().ty);
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let signed = type_sign(lhs.layout().ty);
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let clif_ty = fx.clif_type(lhs.layout().ty).unwrap();
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let (min, max) = type_min_max_value(&mut fx.bcx, clif_ty, signed);
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let checked_res = crate::num::codegen_checked_int_binop(fx, bin_op, lhs, rhs);
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let (val, has_overflow) = checked_res.load_scalar_pair(fx);
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let val = match (bin_op, signed) {
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(BinOp::Add, false) => fx.bcx.ins().select(has_overflow, max, val),
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(BinOp::Sub, false) => fx.bcx.ins().select(has_overflow, min, val),
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(BinOp::Add, true) => {
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let rhs = rhs.load_scalar(fx);
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let rhs_ge_zero = fx.bcx.ins().icmp_imm(IntCC::SignedGreaterThanOrEqual, rhs, 0);
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let sat_val = fx.bcx.ins().select(rhs_ge_zero, max, min);
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fx.bcx.ins().select(has_overflow, sat_val, val)
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}
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(BinOp::Sub, true) => {
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let rhs = rhs.load_scalar(fx);
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let rhs_ge_zero = fx.bcx.ins().icmp_imm(IntCC::SignedGreaterThanOrEqual, rhs, 0);
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let sat_val = fx.bcx.ins().select(rhs_ge_zero, min, max);
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fx.bcx.ins().select(has_overflow, sat_val, val)
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}
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_ => unreachable!(),
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};
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CValue::by_val(val, lhs.layout())
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}
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pub(crate) fn codegen_float_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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assert_eq!(in_lhs.layout().ty, in_rhs.layout().ty);
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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let b = fx.bcx.ins();
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let res = match bin_op {
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BinOp::Add => b.fadd(lhs, rhs),
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BinOp::Sub => b.fsub(lhs, rhs),
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BinOp::Mul => b.fmul(lhs, rhs),
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BinOp::Div => b.fdiv(lhs, rhs),
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BinOp::Rem => {
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let (name, ty) = match in_lhs.layout().ty.kind() {
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ty::Float(FloatTy::F32) => ("fmodf", types::F32),
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ty::Float(FloatTy::F64) => ("fmod", types::F64),
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_ => bug!(),
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};
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let ret_val = fx.lib_call(
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name,
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vec![AbiParam::new(ty), AbiParam::new(ty)],
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vec![AbiParam::new(ty)],
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&[lhs, rhs],
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)[0];
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return CValue::by_val(ret_val, in_lhs.layout());
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}
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BinOp::Eq | BinOp::Lt | BinOp::Le | BinOp::Ne | BinOp::Ge | BinOp::Gt => {
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let fltcc = match bin_op {
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BinOp::Eq => FloatCC::Equal,
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BinOp::Lt => FloatCC::LessThan,
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BinOp::Le => FloatCC::LessThanOrEqual,
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BinOp::Ne => FloatCC::NotEqual,
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BinOp::Ge => FloatCC::GreaterThanOrEqual,
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BinOp::Gt => FloatCC::GreaterThan,
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_ => unreachable!(),
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};
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let val = fx.bcx.ins().fcmp(fltcc, lhs, rhs);
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return CValue::by_val(val, fx.layout_of(fx.tcx.types.bool));
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}
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_ => unreachable!("{:?}({:?}, {:?})", bin_op, in_lhs, in_rhs),
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};
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CValue::by_val(res, in_lhs.layout())
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}
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pub(crate) fn codegen_ptr_binop<'tcx>(
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fx: &mut FunctionCx<'_, '_, 'tcx>,
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bin_op: BinOp,
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in_lhs: CValue<'tcx>,
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in_rhs: CValue<'tcx>,
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) -> CValue<'tcx> {
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let is_thin_ptr = in_lhs
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.layout()
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.ty
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.builtin_deref(true)
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.map(|TypeAndMut { ty, mutbl: _ }| !has_ptr_meta(fx.tcx, ty))
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.unwrap_or(true);
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if is_thin_ptr {
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match bin_op {
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BinOp::Eq | BinOp::Lt | BinOp::Le | BinOp::Ne | BinOp::Ge | BinOp::Gt => {
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let lhs = in_lhs.load_scalar(fx);
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let rhs = in_rhs.load_scalar(fx);
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codegen_compare_bin_op(fx, bin_op, false, lhs, rhs)
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}
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BinOp::Offset => {
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let pointee_ty = in_lhs.layout().ty.builtin_deref(true).unwrap().ty;
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let (base, offset) = (in_lhs, in_rhs.load_scalar(fx));
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let pointee_size = fx.layout_of(pointee_ty).size.bytes();
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let ptr_diff = fx.bcx.ins().imul_imm(offset, pointee_size as i64);
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let base_val = base.load_scalar(fx);
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let res = fx.bcx.ins().iadd(base_val, ptr_diff);
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CValue::by_val(res, base.layout())
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}
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_ => unreachable!("{:?}({:?}, {:?})", bin_op, in_lhs, in_rhs),
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}
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} else {
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let (lhs_ptr, lhs_extra) = in_lhs.load_scalar_pair(fx);
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let (rhs_ptr, rhs_extra) = in_rhs.load_scalar_pair(fx);
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let res = match bin_op {
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BinOp::Eq => {
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let ptr_eq = fx.bcx.ins().icmp(IntCC::Equal, lhs_ptr, rhs_ptr);
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let extra_eq = fx.bcx.ins().icmp(IntCC::Equal, lhs_extra, rhs_extra);
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fx.bcx.ins().band(ptr_eq, extra_eq)
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}
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BinOp::Ne => {
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let ptr_ne = fx.bcx.ins().icmp(IntCC::NotEqual, lhs_ptr, rhs_ptr);
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let extra_ne = fx.bcx.ins().icmp(IntCC::NotEqual, lhs_extra, rhs_extra);
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fx.bcx.ins().bor(ptr_ne, extra_ne)
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}
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BinOp::Lt | BinOp::Le | BinOp::Ge | BinOp::Gt => {
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let ptr_eq = fx.bcx.ins().icmp(IntCC::Equal, lhs_ptr, rhs_ptr);
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let ptr_cmp =
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fx.bcx.ins().icmp(bin_op_to_intcc(bin_op, false).unwrap(), lhs_ptr, rhs_ptr);
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let extra_cmp = fx.bcx.ins().icmp(
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bin_op_to_intcc(bin_op, false).unwrap(),
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lhs_extra,
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rhs_extra,
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);
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fx.bcx.ins().select(ptr_eq, extra_cmp, ptr_cmp)
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}
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_ => panic!("bin_op {:?} on ptr", bin_op),
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};
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CValue::by_val(res, fx.layout_of(fx.tcx.types.bool))
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}
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|
}
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|
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// In Rust floating point min and max don't propagate NaN. In Cranelift they do however.
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// For this reason it is necessary to use `a.is_nan() ? b : (a >= b ? b : a)` for `minnumf*`
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// and `a.is_nan() ? b : (a <= b ? b : a)` for `maxnumf*`. NaN checks are done by comparing
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// a float against itself. Only in case of NaN is it not equal to itself.
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|
pub(crate) fn codegen_float_min(fx: &mut FunctionCx<'_, '_, '_>, a: Value, b: Value) -> Value {
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|
let a_is_nan = fx.bcx.ins().fcmp(FloatCC::NotEqual, a, a);
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|
let a_ge_b = fx.bcx.ins().fcmp(FloatCC::GreaterThanOrEqual, a, b);
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|
let temp = fx.bcx.ins().select(a_ge_b, b, a);
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|
fx.bcx.ins().select(a_is_nan, b, temp)
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|
}
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|
|
|
pub(crate) fn codegen_float_max(fx: &mut FunctionCx<'_, '_, '_>, a: Value, b: Value) -> Value {
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|
let a_is_nan = fx.bcx.ins().fcmp(FloatCC::NotEqual, a, a);
|
|
let a_le_b = fx.bcx.ins().fcmp(FloatCC::LessThanOrEqual, a, b);
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|
let temp = fx.bcx.ins().select(a_le_b, b, a);
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|
fx.bcx.ins().select(a_is_nan, b, temp)
|
|
}
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