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https://github.com/RPCS3/llvm-mirror.git
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4293c93896
llvm-svn: 132340
296 lines
11 KiB
C++
296 lines
11 KiB
C++
//===-- XCoreISelDAGToDAG.cpp - A dag to dag inst selector for XCore ------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines an instruction selector for the XCore target.
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//
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//===----------------------------------------------------------------------===//
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#include "XCore.h"
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#include "XCoreTargetMachine.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Function.h"
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#include "llvm/Intrinsics.h"
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#include "llvm/CallingConv.h"
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#include "llvm/Constants.h"
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#include "llvm/LLVMContext.h"
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#include "llvm/CodeGen/MachineFrameInfo.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineInstrBuilder.h"
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#include "llvm/CodeGen/MachineRegisterInfo.h"
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#include "llvm/CodeGen/SelectionDAG.h"
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#include "llvm/CodeGen/SelectionDAGISel.h"
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#include "llvm/Target/TargetLowering.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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/// XCoreDAGToDAGISel - XCore specific code to select XCore machine
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/// instructions for SelectionDAG operations.
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///
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namespace {
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class XCoreDAGToDAGISel : public SelectionDAGISel {
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const XCoreTargetLowering &Lowering;
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const XCoreSubtarget &Subtarget;
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public:
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XCoreDAGToDAGISel(XCoreTargetMachine &TM)
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: SelectionDAGISel(TM),
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Lowering(*TM.getTargetLowering()),
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Subtarget(*TM.getSubtargetImpl()) { }
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SDNode *Select(SDNode *N);
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SDNode *SelectBRIND(SDNode *N);
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/// getI32Imm - Return a target constant with the specified value, of type
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/// i32.
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inline SDValue getI32Imm(unsigned Imm) {
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return CurDAG->getTargetConstant(Imm, MVT::i32);
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}
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inline bool immMskBitp(SDNode *inN) const {
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ConstantSDNode *N = cast<ConstantSDNode>(inN);
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uint32_t value = (uint32_t)N->getZExtValue();
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if (!isMask_32(value)) {
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return false;
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}
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int msksize = 32 - CountLeadingZeros_32(value);
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return (msksize >= 1 && msksize <= 8) ||
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msksize == 16 || msksize == 24 || msksize == 32;
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}
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// Complex Pattern Selectors.
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bool SelectADDRspii(SDValue Addr, SDValue &Base, SDValue &Offset);
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bool SelectADDRdpii(SDValue Addr, SDValue &Base, SDValue &Offset);
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bool SelectADDRcpii(SDValue Addr, SDValue &Base, SDValue &Offset);
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virtual const char *getPassName() const {
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return "XCore DAG->DAG Pattern Instruction Selection";
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}
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// Include the pieces autogenerated from the target description.
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#include "XCoreGenDAGISel.inc"
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};
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} // end anonymous namespace
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/// createXCoreISelDag - This pass converts a legalized DAG into a
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/// XCore-specific DAG, ready for instruction scheduling.
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///
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FunctionPass *llvm::createXCoreISelDag(XCoreTargetMachine &TM) {
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return new XCoreDAGToDAGISel(TM);
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}
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bool XCoreDAGToDAGISel::SelectADDRspii(SDValue Addr, SDValue &Base,
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SDValue &Offset) {
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FrameIndexSDNode *FIN = 0;
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if ((FIN = dyn_cast<FrameIndexSDNode>(Addr))) {
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Base = CurDAG->getTargetFrameIndex(FIN->getIndex(), MVT::i32);
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Offset = CurDAG->getTargetConstant(0, MVT::i32);
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return true;
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}
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if (Addr.getOpcode() == ISD::ADD) {
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ConstantSDNode *CN = 0;
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if ((FIN = dyn_cast<FrameIndexSDNode>(Addr.getOperand(0)))
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&& (CN = dyn_cast<ConstantSDNode>(Addr.getOperand(1)))
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&& (CN->getSExtValue() % 4 == 0 && CN->getSExtValue() >= 0)) {
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// Constant positive word offset from frame index
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Base = CurDAG->getTargetFrameIndex(FIN->getIndex(), MVT::i32);
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Offset = CurDAG->getTargetConstant(CN->getSExtValue(), MVT::i32);
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return true;
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}
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}
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return false;
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}
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bool XCoreDAGToDAGISel::SelectADDRdpii(SDValue Addr, SDValue &Base,
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SDValue &Offset) {
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if (Addr.getOpcode() == XCoreISD::DPRelativeWrapper) {
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Base = Addr.getOperand(0);
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Offset = CurDAG->getTargetConstant(0, MVT::i32);
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return true;
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}
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if (Addr.getOpcode() == ISD::ADD) {
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ConstantSDNode *CN = 0;
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if ((Addr.getOperand(0).getOpcode() == XCoreISD::DPRelativeWrapper)
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&& (CN = dyn_cast<ConstantSDNode>(Addr.getOperand(1)))
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&& (CN->getSExtValue() % 4 == 0)) {
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// Constant word offset from a object in the data region
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Base = Addr.getOperand(0).getOperand(0);
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Offset = CurDAG->getTargetConstant(CN->getSExtValue(), MVT::i32);
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return true;
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}
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}
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return false;
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}
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bool XCoreDAGToDAGISel::SelectADDRcpii(SDValue Addr, SDValue &Base,
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SDValue &Offset) {
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if (Addr.getOpcode() == XCoreISD::CPRelativeWrapper) {
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Base = Addr.getOperand(0);
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Offset = CurDAG->getTargetConstant(0, MVT::i32);
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return true;
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}
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if (Addr.getOpcode() == ISD::ADD) {
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ConstantSDNode *CN = 0;
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if ((Addr.getOperand(0).getOpcode() == XCoreISD::CPRelativeWrapper)
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&& (CN = dyn_cast<ConstantSDNode>(Addr.getOperand(1)))
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&& (CN->getSExtValue() % 4 == 0)) {
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// Constant word offset from a object in the data region
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Base = Addr.getOperand(0).getOperand(0);
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Offset = CurDAG->getTargetConstant(CN->getSExtValue(), MVT::i32);
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return true;
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}
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}
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return false;
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}
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SDNode *XCoreDAGToDAGISel::Select(SDNode *N) {
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DebugLoc dl = N->getDebugLoc();
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switch (N->getOpcode()) {
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default: break;
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case ISD::Constant: {
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uint64_t Val = cast<ConstantSDNode>(N)->getZExtValue();
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if (immMskBitp(N)) {
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// Transformation function: get the size of a mask
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// Look for the first non-zero bit
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SDValue MskSize = getI32Imm(32 - CountLeadingZeros_32(Val));
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return CurDAG->getMachineNode(XCore::MKMSK_rus, dl,
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MVT::i32, MskSize);
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}
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else if (!isUInt<16>(Val)) {
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SDValue CPIdx =
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CurDAG->getTargetConstantPool(ConstantInt::get(
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Type::getInt32Ty(*CurDAG->getContext()), Val),
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TLI.getPointerTy());
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return CurDAG->getMachineNode(XCore::LDWCP_lru6, dl, MVT::i32,
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MVT::Other, CPIdx,
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CurDAG->getEntryNode());
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}
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break;
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}
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case XCoreISD::LADD: {
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SDValue Ops[] = { N->getOperand(0), N->getOperand(1),
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N->getOperand(2) };
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return CurDAG->getMachineNode(XCore::LADD_l5r, dl, MVT::i32, MVT::i32,
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Ops, 3);
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}
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case XCoreISD::LSUB: {
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SDValue Ops[] = { N->getOperand(0), N->getOperand(1),
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N->getOperand(2) };
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return CurDAG->getMachineNode(XCore::LSUB_l5r, dl, MVT::i32, MVT::i32,
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Ops, 3);
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}
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case XCoreISD::MACCU: {
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SDValue Ops[] = { N->getOperand(0), N->getOperand(1),
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N->getOperand(2), N->getOperand(3) };
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return CurDAG->getMachineNode(XCore::MACCU_l4r, dl, MVT::i32, MVT::i32,
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Ops, 4);
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}
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case XCoreISD::MACCS: {
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SDValue Ops[] = { N->getOperand(0), N->getOperand(1),
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N->getOperand(2), N->getOperand(3) };
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return CurDAG->getMachineNode(XCore::MACCS_l4r, dl, MVT::i32, MVT::i32,
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Ops, 4);
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}
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case XCoreISD::LMUL: {
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SDValue Ops[] = { N->getOperand(0), N->getOperand(1),
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N->getOperand(2), N->getOperand(3) };
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return CurDAG->getMachineNode(XCore::LMUL_l6r, dl, MVT::i32, MVT::i32,
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Ops, 4);
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}
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case ISD::INTRINSIC_WO_CHAIN: {
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unsigned IntNo = cast<ConstantSDNode>(N->getOperand(0))->getZExtValue();
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switch (IntNo) {
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case Intrinsic::xcore_crc8:
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SDValue Ops[] = { N->getOperand(1), N->getOperand(2), N->getOperand(3) };
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return CurDAG->getMachineNode(XCore::CRC8_l4r, dl, MVT::i32, MVT::i32,
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Ops, 3);
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}
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break;
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}
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case ISD::BRIND:
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if (SDNode *ResNode = SelectBRIND(N))
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return ResNode;
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break;
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// Other cases are autogenerated.
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}
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return SelectCode(N);
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}
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/// Given a chain return a new chain where any appearance of Old is replaced
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/// by New. There must be at most one instruction between Old and Chain and
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/// this instruction must be a TokenFactor. Returns an empty SDValue if
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/// these conditions don't hold.
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static SDValue
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replaceInChain(SelectionDAG *CurDAG, SDValue Chain, SDValue Old, SDValue New)
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{
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if (Chain == Old)
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return New;
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if (Chain->getOpcode() != ISD::TokenFactor)
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return SDValue();
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SmallVector<SDValue, 8> Ops;
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bool found = false;
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for (unsigned i = 0, e = Chain->getNumOperands(); i != e; ++i) {
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if (Chain->getOperand(i) == Old) {
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Ops.push_back(New);
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found = true;
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} else {
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Ops.push_back(Chain->getOperand(i));
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}
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}
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if (!found)
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return SDValue();
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return CurDAG->getNode(ISD::TokenFactor, Chain->getDebugLoc(), MVT::Other,
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&Ops[0], Ops.size());
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}
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SDNode *XCoreDAGToDAGISel::SelectBRIND(SDNode *N) {
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DebugLoc dl = N->getDebugLoc();
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// (brind (int_xcore_checkevent (addr)))
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SDValue Chain = N->getOperand(0);
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SDValue Addr = N->getOperand(1);
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if (Addr->getOpcode() != ISD::INTRINSIC_W_CHAIN)
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return 0;
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unsigned IntNo = cast<ConstantSDNode>(Addr->getOperand(1))->getZExtValue();
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if (IntNo != Intrinsic::xcore_checkevent)
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return 0;
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SDValue nextAddr = Addr->getOperand(2);
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SDValue CheckEventChainOut(Addr.getNode(), 1);
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if (!CheckEventChainOut.use_empty()) {
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// If the chain out of the checkevent intrinsic is an operand of the
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// indirect branch or used in a TokenFactor which is the operand of the
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// indirect branch then build a new chain which uses the chain coming into
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// the checkevent intrinsic instead.
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SDValue CheckEventChainIn = Addr->getOperand(0);
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SDValue NewChain = replaceInChain(CurDAG, Chain, CheckEventChainOut,
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CheckEventChainIn);
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if (!NewChain.getNode())
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return 0;
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Chain = NewChain;
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}
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// Enable events on the thread using setsr 1 and then disable them immediately
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// after with clrsr 1. If any resources owned by the thread are ready an event
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// will be taken. If no resource is ready we branch to the address which was
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// the operand to the checkevent intrinsic.
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SDValue constOne = getI32Imm(1);
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SDValue Glue =
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SDValue(CurDAG->getMachineNode(XCore::SETSR_branch_u6, dl, MVT::Glue,
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constOne, Chain), 0);
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Glue =
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SDValue(CurDAG->getMachineNode(XCore::CLRSR_branch_u6, dl, MVT::Glue,
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constOne, Glue), 0);
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if (nextAddr->getOpcode() == XCoreISD::PCRelativeWrapper &&
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nextAddr->getOperand(0)->getOpcode() == ISD::TargetBlockAddress) {
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return CurDAG->SelectNodeTo(N, XCore::BRFU_lu6, MVT::Other,
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nextAddr->getOperand(0), Glue);
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}
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return CurDAG->SelectNodeTo(N, XCore::BAU_1r, MVT::Other, nextAddr, Glue);
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}
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