mi != miEnd; ++mi) {
inserted = mi2iMap_.insert(std::make_pair(*mi, miIndex)).second;
assert(inserted && "multiple MachineInstr -> index mappings");
- ++miIndex;
+ miIndex += 2;
}
}
{
DEBUG(std::cerr << "\t\tregister: ";printRegName(reg); std::cerr << '\n');
- unsigned instrIndex = getInstructionIndex(*mi);
-
LiveVariables::VarInfo& vi = lv_->getVarInfo(reg);
Interval* interval = 0;
interval = &*r2iit->second;
}
+ // we consider defs to happen at the second time slot of the
+ // instruction
+ unsigned instrIndex = getInstructionIndex(*mi) + 1;
+
bool killedInDefiningBasicBlock = false;
for (int i = 0, e = vi.Kills.size(); i != e; ++i) {
MachineBasicBlock* killerBlock = vi.Kills[i].first;
unsigned start = (mbb == killerBlock ?
instrIndex :
getInstructionIndex(killerBlock->front()));
- unsigned end = getInstructionIndex(killerInstr) + 1;
+ unsigned end = (killerInstr == *mi ?
+ instrIndex + 1 : // dead
+ getInstructionIndex(killerInstr) + 1); // killed
// we do not want to add invalid ranges. these can happen when
// a variable has its latest use and is redefined later on in
// the same basic block (common with variables introduced by
DEBUG(std::cerr << "\t\tregister: "; printRegName(reg));
MachineBasicBlock::iterator e = mbb->end();
- unsigned start = getInstructionIndex(*mi);
- unsigned end = start + 1;
+ // we consider defs to happen at the second time slot of the
+ // instruction
+ unsigned start, end;
+ start = end = getInstructionIndex(*mi) + 1;
// a variable can be dead by the instruction defining it
for (KillIter ki = lv_->dead_begin(*mi), ke = lv_->dead_end(*mi);
ki != ke; ++ki) {
if (reg == ki->second) {
DEBUG(std::cerr << " dead\n");
+ ++end;
goto exit;
}
}
// a variable can only be killed by subsequent instructions
do {
++mi;
- ++end;
+ end += 2;
for (KillIter ki = lv_->killed_begin(*mi), ke = lv_->killed_end(*mi);
ki != ke; ++ki) {
if (reg == ki->second) {
}
-// This example is provided becaues liveAt() is non-obvious:
+// An example for liveAt():
//
-// this = [1,2), liveAt(1) will return false. The idea is that the
-// variable is defined in 1 and not live after definition. So it was
-// dead to begin with (defined but never used).
+// this = [1,2), liveAt(0) will return false. The instruction defining
+// this spans slots [0,1]. Since it is a definition we say that it is
+// live in the second slot onwards. By ending the lifetime of this
+// interval at 2 it means that it is not used at all. liveAt(1)
+// returns true which means that this clobbers a register at
+// instruction at 0.
//
-// this = [1,3), liveAt(2) will return false. The variable is used at
-// 2 but 2 is the last use so the variable's allocated register is
-// available for reuse.
+// this = [1,4), liveAt(0) will return false and liveAt(2) will return
+// true. The variable is defined at instruction 0 and last used at 2.
bool LiveIntervals::Interval::liveAt(unsigned index) const
{
Range dummy(index, index+1);
return false;
--r;
- return index >= r->first && index < (r->second - 1);
+ return index >= r->first && index < r->second;
}
-// This example is provided because overlaps() is non-obvious:
+// An example for overlaps():
//
// 0: A = ...
-// 1: B = ...
-// 2: C = A + B ;; last use of A
+// 2: B = ...
+// 4: C = A + B ;; last use of A
//
// The live intervals should look like:
//
-// A = [0, 3)
-// B = [1, x)
-// C = [2, y)
+// A = [1, 5)
+// B = [3, x)
+// C = [5, y)
//
// A->overlaps(C) should return false since we want to be able to join
// A and C.
}
assert(i->first < j->first);
- if ((i->second - 1) > j->first) {
+ if (i->second > j->first) {
return true;
}
else {
projects / oota-llvm.git / commitdiff