defm LTDBR : LoadAndTestRRE<"ltdb", 0xB312, FP64>;
defm LTXBR : LoadAndTestRRE<"ltxb", 0xB342, FP128>;
}
-def : CompareZeroFP<LTEBRCompare, FP32>;
-def : CompareZeroFP<LTDBRCompare, FP64>;
-def : CompareZeroFP<LTXBRCompare, FP128>;
+defm : CompareZeroFP<LTEBRCompare, FP32>;
+defm : CompareZeroFP<LTDBRCompare, FP64>;
+defm : CompareZeroFP<LTXBRCompare, FP128>;
// Moves between 64-bit integer and floating-point registers.
def LGDR : UnaryRRE<"lgd", 0xB3CD, bitconvert, GR64, FP64>;
// Record that INSN is a LOAD AND TEST that can be used to compare
// registers in CLS against zero. The instruction has separate R1 and R2
// operands, but they must be the same when the instruction is used like this.
-class CompareZeroFP<Instruction insn, RegisterOperand cls>
- : Pat<(z_fcmp cls:$reg, (fpimm0)), (insn cls:$reg, cls:$reg)>;
+multiclass CompareZeroFP<Instruction insn, RegisterOperand cls> {
+ def : Pat<(z_fcmp cls:$reg, (fpimm0)), (insn cls:$reg, cls:$reg)>;
+ // The sign of the zero makes no difference.
+ def : Pat<(z_fcmp cls:$reg, (fpimmneg0)), (insn cls:$reg, cls:$reg)>;
+}
exit:
ret double %val
}
+
+; Repeat f2 with a comparison against -0.
+define float @f17(float %a, float %b, float *%dest) {
+; CHECK-LABEL: f17:
+; CHECK: aebr %f0, %f2
+; CHECK-NEXT: jl .L{{.*}}
+; CHECK: br %r14
+entry:
+ %res = fadd float %a, %b
+ %cmp = fcmp olt float %res, -0.0
+ br i1 %cmp, label %exit, label %store
+
+store:
+ store float %b, float *%dest
+ br label %exit
+
+exit:
+ ret float %res
+}
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