+X86CallFrameOptimization::InstClassification
+X86CallFrameOptimization::classifyInstruction(
+ MachineBasicBlock &MBB, MachineBasicBlock::iterator MI,
+ const X86RegisterInfo &RegInfo, DenseSet<unsigned int> &UsedRegs) {
+ if (MI == MBB.end())
+ return Exit;
+
+ // The instructions we actually care about are movs onto the stack
+ int Opcode = MI->getOpcode();
+ if (Opcode == X86::MOV32mi || Opcode == X86::MOV32mr)
+ return Convert;
+
+ // Not all calling conventions have only stack MOVs between the stack
+ // adjust and the call.
+
+ // We want to tolerate other instructions, to cover more cases.
+ // In particular:
+ // a) PCrel calls, where we expect an additional COPY of the basereg.
+ // b) Passing frame-index addresses.
+ // c) Calling conventions that have inreg parameters. These generate
+ // both copies and movs into registers.
+ // To avoid creating lots of special cases, allow any instruction
+ // that does not write into memory, does not def or use the stack
+ // pointer, and does not def any register that was used by a preceding
+ // push.
+ // (Reading from memory is allowed, even if referenced through a
+ // frame index, since these will get adjusted properly in PEI)
+
+ // The reason for the last condition is that the pushes can't replace
+ // the movs in place, because the order must be reversed.
+ // So if we have a MOV32mr that uses EDX, then an instruction that defs
+ // EDX, and then the call, after the transformation the push will use
+ // the modified version of EDX, and not the original one.
+ // Since we are still in SSA form at this point, we only need to
+ // make sure we don't clobber any *physical* registers that were
+ // used by an earlier mov that will become a push.
+
+ if (MI->isCall() || MI->mayStore())
+ return Exit;
+
+ for (const MachineOperand &MO : MI->operands()) {
+ if (!MO.isReg())
+ continue;
+ unsigned int Reg = MO.getReg();
+ if (!RegInfo.isPhysicalRegister(Reg))
+ continue;
+ if (RegInfo.regsOverlap(Reg, RegInfo.getStackRegister()))
+ return Exit;
+ if (MO.isDef()) {
+ for (unsigned int U : UsedRegs)
+ if (RegInfo.regsOverlap(Reg, U))
+ return Exit;
+ }
+ }
+
+ return Skip;
+}