if (Reg) MBB->addLiveIn(Reg);
}
-/// TryToFoldFastISelLoad - We're checking to see if we can fold the specified
-/// load into the specified FoldInst. Note that we could have a sequence where
-/// multiple LLVM IR instructions are folded into the same machineinstr. For
-/// example we could have:
-/// A: x = load i32 *P
-/// B: y = icmp A, 42
-/// C: br y, ...
-///
-/// In this scenario, LI is "A", and FoldInst is "C". We know about "B" (and
-/// any other folded instructions) because it is between A and C.
-///
-/// If we succeed in folding the load into the operation, return true.
-///
-bool SelectionDAGISel::TryToFoldFastISelLoad(const LoadInst *LI,
- const Instruction *FoldInst,
- FastISel *FastIS) {
- // We know that the load has a single use, but don't know what it is. If it
- // isn't one of the folded instructions, then we can't succeed here. Handle
- // this by scanning the single-use users of the load until we get to FoldInst.
- unsigned MaxUsers = 6; // Don't scan down huge single-use chains of instrs.
-
- const Instruction *TheUser = LI->use_back();
- while (TheUser != FoldInst && // Scan up until we find FoldInst.
- // Stay in the right block.
- TheUser->getParent() == FoldInst->getParent() &&
- --MaxUsers) { // Don't scan too far.
- // If there are multiple or no uses of this instruction, then bail out.
- if (!TheUser->hasOneUse())
- return false;
-
- TheUser = TheUser->use_back();
- }
-
- // If we didn't find the fold instruction, then we failed to collapse the
- // sequence.
- if (TheUser != FoldInst)
- return false;
-
- // Don't try to fold volatile loads. Target has to deal with alignment
- // constraints.
- if (LI->isVolatile()) return false;
-
- // Figure out which vreg this is going into. If there is no assigned vreg yet
- // then there actually was no reference to it. Perhaps the load is referenced
- // by a dead instruction.
- unsigned LoadReg = FastIS->getRegForValue(LI);
- if (LoadReg == 0)
- return false;
-
- // Check to see what the uses of this vreg are. If it has no uses, or more
- // than one use (at the machine instr level) then we can't fold it.
- MachineRegisterInfo::reg_iterator RI = RegInfo->reg_begin(LoadReg);
- if (RI == RegInfo->reg_end())
- return false;
-
- // See if there is exactly one use of the vreg. If there are multiple uses,
- // then the instruction got lowered to multiple machine instructions or the
- // use of the loaded value ended up being multiple operands of the result, in
- // either case, we can't fold this.
- MachineRegisterInfo::reg_iterator PostRI = RI; ++PostRI;
- if (PostRI != RegInfo->reg_end())
- return false;
-
- assert(RI.getOperand().isUse() &&
- "The only use of the vreg must be a use, we haven't emitted the def!");
-
- MachineInstr *User = &*RI;
-
- // Set the insertion point properly. Folding the load can cause generation of
- // other random instructions (like sign extends) for addressing modes, make
- // sure they get inserted in a logical place before the new instruction.
- FuncInfo->InsertPt = User;
- FuncInfo->MBB = User->getParent();
-
- // Ask the target to try folding the load.
- return FastIS->TryToFoldLoad(User, RI.getOperandNo(), LI);
-}
-
/// isFoldedOrDeadInstruction - Return true if the specified instruction is
/// side-effect free and is either dead or folded into a generated instruction.
/// Return false if it needs to be emitted.
}
if (BeforeInst != Inst && isa<LoadInst>(BeforeInst) &&
BeforeInst->hasOneUse() &&
- TryToFoldFastISelLoad(cast<LoadInst>(BeforeInst), Inst, FastIS)) {
+ FastIS->tryToFoldLoad(cast<LoadInst>(BeforeInst), Inst)) {
// If we succeeded, don't re-select the load.
BI = llvm::next(BasicBlock::const_iterator(BeforeInst));
--NumFastIselRemaining;
projects / oota-llvm.git / blobdiff