+ return true;
+}
+
+//===----------------------------------------------------------------------===//
+// Interference checking and interval joining
+//===----------------------------------------------------------------------===//
+//
+// In the easiest case, the two live ranges being joined are disjoint, and
+// there is no interference to consider. It is quite common, though, to have
+// overlapping live ranges, and we need to check if the interference can be
+// resolved.
+//
+// The live range of a single SSA value forms a sub-tree of the dominator tree.
+// This means that two SSA values overlap if and only if the def of one value
+// is contained in the live range of the other value. As a special case, the
+// overlapping values can be defined at the same index.
+//
+// The interference from an overlapping def can be resolved in these cases:
+//
+// 1. Coalescable copies. The value is defined by a copy that would become an
+// identity copy after joining SrcReg and DstReg. The copy instruction will
+// be removed, and the value will be merged with the source value.
+//
+// There can be several copies back and forth, causing many values to be
+// merged into one. We compute a list of ultimate values in the joined live
+// range as well as a mappings from the old value numbers.
+//
+// 2. IMPLICIT_DEF. This instruction is only inserted to ensure all PHI
+// predecessors have a live out value. It doesn't cause real interference,
+// and can be merged into the value it overlaps. Like a coalescable copy, it
+// can be erased after joining.
+//
+// 3. Copy of external value. The overlapping def may be a copy of a value that
+// is already in the other register. This is like a coalescable copy, but
+// the live range of the source register must be trimmed after erasing the
+// copy instruction:
+//
+// %src = COPY %ext
+// %dst = COPY %ext <-- Remove this COPY, trim the live range of %ext.
+//
+// 4. Clobbering undefined lanes. Vector registers are sometimes built by
+// defining one lane at a time:
+//
+// %dst:ssub0<def,read-undef> = FOO
+// %src = BAR
+// %dst:ssub1<def> = COPY %src
+//
+// The live range of %src overlaps the %dst value defined by FOO, but
+// merging %src into %dst:ssub1 is only going to clobber the ssub1 lane
+// which was undef anyway.
+//
+// The value mapping is more complicated in this case. The final live range
+// will have different value numbers for both FOO and BAR, but there is no
+// simple mapping from old to new values. It may even be necessary to add
+// new PHI values.
+//
+// 5. Clobbering dead lanes. A def may clobber a lane of a vector register that
+// is live, but never read. This can happen because we don't compute
+// individual live ranges per lane.
+//
+// %dst<def> = FOO
+// %src = BAR
+// %dst:ssub1<def> = COPY %src
+//
+// This kind of interference is only resolved locally. If the clobbered
+// lane value escapes the block, the join is aborted.
+
+namespace {
+/// Track information about values in a single virtual register about to be
+/// joined. Objects of this class are always created in pairs - one for each
+/// side of the CoalescerPair.
+class JoinVals {
+ LiveInterval &LI;
+
+ // Location of this register in the final joined register.
+ // Either CP.DstIdx or CP.SrcIdx.
+ unsigned SubIdx;
+
+ // Values that will be present in the final live range.
+ SmallVectorImpl<VNInfo*> &NewVNInfo;
+
+ const CoalescerPair &CP;
+ LiveIntervals *LIS;
+ SlotIndexes *Indexes;
+ const TargetRegisterInfo *TRI;
+
+ // Value number assignments. Maps value numbers in LI to entries in NewVNInfo.
+ // This is suitable for passing to LiveInterval::join().
+ SmallVector<int, 8> Assignments;
+
+ // Conflict resolution for overlapping values.
+ enum ConflictResolution {
+ // No overlap, simply keep this value.
+ CR_Keep,
+
+ // Merge this value into OtherVNI and erase the defining instruction.
+ // Used for IMPLICIT_DEF, coalescable copies, and copies from external
+ // values.
+ CR_Erase,
+
+ // Merge this value into OtherVNI but keep the defining instruction.
+ // This is for the special case where OtherVNI is defined by the same
+ // instruction.
+ CR_Merge,
+
+ // Keep this value, and have it replace OtherVNI where possible. This
+ // complicates value mapping since OtherVNI maps to two different values
+ // before and after this def.
+ // Used when clobbering undefined or dead lanes.
+ CR_Replace,
+
+ // Unresolved conflict. Visit later when all values have been mapped.
+ CR_Unresolved,
+
+ // Unresolvable conflict. Abort the join.
+ CR_Impossible
+ };