unsigned UseIndex =
std::distance(const_cast<const Use *>(CS.arg_begin()), U);
- assert(UseIndex < CS.arg_size() && "Non-argument use?");
+ assert(UseIndex < CS.data_operands_size() &&
+ "Indirect function calls should have been filtered above!");
+
+ if (UseIndex >= CS.getNumArgOperands()) {
+ // Data operand, but not a argument operand -- must be a bundle operand
+ assert(CS.hasOperandBundles() && "Must be!");
+
+ // CaptureTracking told us that we're being captured by an operand bundle
+ // use. In this case it does not matter if the callee is within our SCC
+ // or not -- we've been captured in some unknown way, and we have to be
+ // conservative.
+ Captured = true;
+ return true;
+ }
+
if (UseIndex >= F->arg_size()) {
assert(F->isVarArg() && "More params than args in non-varargs call");
Captured = true;
unsigned UseIndex = std::distance(CS.arg_begin(), U);
- assert(UseIndex < CS.arg_size() && "Non-argument use?");
- if (UseIndex >= F->arg_size()) {
+ assert(UseIndex < CS.data_operands_size() && "Non-argument use?");
+
+ bool IsOperandBundleUse = UseIndex >= CS.getNumArgOperands();
+
+ if (UseIndex >= F->arg_size() && !IsOperandBundleUse) {
assert(F->isVarArg() && "More params than args in non-varargs call");
return Attribute::None;
}
Captures &= !CS.doesNotCapture(UseIndex);
- if (!SCCNodes.count(std::next(F->arg_begin(), UseIndex))) {
+
+ // Since the optimizer (by design) cannot see the data flow corresponding
+ // to a operand bundle use, these cannot participate in the optimistic SCC
+ // analysis. Instead, we model the operand bundle uses as arguments in
+ // call to a function external to the SCC.
+ if (!SCCNodes.count(std::next(F->arg_begin(), UseIndex)) ||
+ IsOperandBundleUse) {
+
+ // The accessors used on CallSite here do the right thing for calls and
+ // invokes with operand bundles.
+
if (!CS.onlyReadsMemory() && !CS.onlyReadsMemory(UseIndex))
return Attribute::None;
if (!CS.doesNotAccessMemory(UseIndex))