// X + (signbit) --> X ^ signbit
if (Val->isSignBit())
return BinaryOperator::CreateXor(LHS, RHS);
+
+ // Is this add the last step in a convoluted sext?
+ Value *X;
+ const APInt *C;
+ if (match(LHS, m_ZExt(m_Xor(m_Value(X), m_APInt(C)))) &&
+ C->isMinSignedValue() &&
+ C->sext(LHS->getType()->getScalarSizeInBits()) == *Val) {
+ // add(zext(xor i16 X, -32768), -32768) --> sext X
+ return CastInst::Create(Instruction::SExt, X, LHS->getType());
+ }
}
// FIXME: Use the match above instead of dyn_cast to allow these transforms
define i7 @sext(i4 %x) {
; CHECK-LABEL: @sext(
-; CHECK-NEXT: [[XOR:%.*]] = xor i4 %x, -8
-; CHECK-NEXT: [[ZEXT:%.*]] = zext i4 [[XOR]] to i7
-; CHECK-NEXT: [[ADD:%.*]] = add nsw i7 [[ZEXT]], -8
+; CHECK-NEXT: [[ADD:%.*]] = sext i4 %x to i7
; CHECK-NEXT: ret i7 [[ADD]]
;
%xor = xor i4 %x, -8
define <2 x i10> @sext_vec(<2 x i3> %x) {
; CHECK-LABEL: @sext_vec(
-; CHECK-NEXT: [[XOR:%.*]] = xor <2 x i3> %x, <i3 -4, i3 -4>
-; CHECK-NEXT: [[ZEXT:%.*]] = zext <2 x i3> [[XOR]] to <2 x i10>
-; CHECK-NEXT: [[ADD:%.*]] = add nsw <2 x i10> [[ZEXT]], <i10 -4, i10 -4>
+; CHECK-NEXT: [[ADD:%.*]] = sext <2 x i3> %x to <2 x i10>
; CHECK-NEXT: ret <2 x i10> [[ADD]]
;
%xor = xor <2 x i3> %x, <i3 -4, i3 -4>
ret <2 x i10> %add
}
+; Multiple uses of the operands don't prevent the fold.
+
+define i4 @sext_multiuse(i4 %x) {
+; CHECK-LABEL: @sext_multiuse(
+; CHECK-NEXT: [[XOR:%.*]] = xor i4 %x, -8
+; CHECK-NEXT: [[ZEXT:%.*]] = zext i4 [[XOR]] to i7
+; CHECK-NEXT: [[ADD:%.*]] = sext i4 %x to i7
+; CHECK-NEXT: [[MUL:%.*]] = sdiv i7 [[ZEXT]], [[ADD]]
+; CHECK-NEXT: [[TRUNC:%.*]] = trunc i7 [[MUL]] to i4
+; CHECK-NEXT: [[DIV:%.*]] = sdiv i4 [[TRUNC]], [[XOR]]
+; CHECK-NEXT: ret i4 [[DIV]]
+;
+ %xor = xor i4 %x, -8
+ %zext = zext i4 %xor to i7
+ %add = add nsw i7 %zext, -8
+ %mul = sdiv i7 %zext, %add
+ %trunc = trunc i7 %mul to i4
+ %div = sdiv i4 %trunc, %xor
+ ret i4 %div
+}
+
; Tests for Integer BitWidth > 64 && BitWidth <= 1024.
;; Flip sign bit then add INT_MIN -> nop.
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