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Add a CoveredBySubRegs property to Register descriptions.
When set, this bit indicates that a register is completely defined by the value of its sub-registers. Use the CoveredBySubRegs property to infer which super-registers are call-preserved given a list of callee-saved registers. For example, the ARM registers D8-D15 are callee-saved. This now automatically implies that Q4-Q7 are call-preserved. Conversely, Win64 callees save XMM6-XMM15, but the corresponding YMM6-YMM15 registers are not call-preserved because they are not fully defined by their sub-registers. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@148363 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -86,6 +86,12 @@ class Register<string n, list<string> altNames = []> {
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// This is used by the x86-64 and ARM Thumb targets where some registers
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// require larger instruction encodings.
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int CostPerUse = 0;
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// CoveredBySubRegs - When this bit is set, the value of this register is
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// completely determined by the value of its sub-registers. For example, the
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// x86 register AX is covered by its sub-registers AL and AH, but EAX is not
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// covered by its sub-register AX.
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bit CoveredBySubRegs = 0;
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}
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// RegisterWithSubRegs - This can be used to define instances of Register which
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@ -16,6 +16,8 @@ class ARMReg<bits<4> num, string n, list<Register> subregs = []> : Register<n> {
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field bits<4> Num;
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let Namespace = "ARM";
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let SubRegs = subregs;
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// All bits of ARM registers with sub-registers are covered by sub-registers.
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let CoveredBySubRegs = 1;
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}
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class ARMFReg<bits<6> num, string n> : Register<n> {
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@ -94,7 +94,7 @@ let Namespace = "Hexagon" in {
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def GP : Ri<31, "r31">, DwarfRegNum<[33]>;
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// Aliases of the R* registers used to hold 64-bit int values (doubles).
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let SubRegIndices = [subreg_loreg, subreg_hireg] in {
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let SubRegIndices = [subreg_loreg, subreg_hireg], CoveredBySubRegs = 1 in {
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def D0 : Rd< 0, "r1:0", [R0, R1]>, DwarfRegNum<[32]>;
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def D1 : Rd< 2, "r3:2", [R2, R3]>, DwarfRegNum<[34]>;
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def D2 : Rd< 4, "r5:4", [R4, R5]>, DwarfRegNum<[36]>;
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@ -50,6 +50,7 @@ class AFPR<bits<5> num, string n, list<Register> subregs>
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: MipsRegWithSubRegs<n, subregs> {
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let Num = num;
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let SubRegIndices = [sub_fpeven, sub_fpodd];
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let CoveredBySubRegs = 1;
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}
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class AFPR64<bits<5> num, string n, list<Register> subregs>
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@ -39,6 +39,7 @@ class Rd<bits<5> num, string n, list<Register> subregs> : SparcReg<n> {
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let Num = num;
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let SubRegs = subregs;
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let SubRegIndices = [sub_even, sub_odd];
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let CoveredBySubRegs = 1;
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}
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// Control Registers
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@ -70,7 +70,7 @@ let Namespace = "X86" in {
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def BH : Register<"bh">;
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// 16-bit registers
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let SubRegIndices = [sub_8bit, sub_8bit_hi] in {
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let SubRegIndices = [sub_8bit, sub_8bit_hi], CoveredBySubRegs = 1 in {
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def AX : RegisterWithSubRegs<"ax", [AL,AH]>;
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def DX : RegisterWithSubRegs<"dx", [DL,DH]>;
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def CX : RegisterWithSubRegs<"cx", [CL,CH]>;
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@ -29,6 +29,7 @@ CodeGenRegister::CodeGenRegister(Record *R, unsigned Enum)
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: TheDef(R),
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EnumValue(Enum),
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CostPerUse(R->getValueAsInt("CostPerUse")),
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CoveredBySubRegs(R->getValueAsBit("CoveredBySubRegs")),
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SubRegsComplete(false)
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{}
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@ -215,33 +216,40 @@ struct TupleExpander : SetTheory::Expander {
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for (unsigned i = 0, e = Proto->getValues().size(); i != e; ++i) {
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RecordVal RV = Proto->getValues()[i];
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if (RV.getName() == "NAME")
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// Skip existing fields, like NAME.
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if (NewReg->getValue(RV.getNameInit()))
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continue;
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StringRef Field = RV.getName();
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// Replace the sub-register list with Tuple.
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if (RV.getName() == "SubRegs")
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if (Field == "SubRegs")
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RV.setValue(ListInit::get(Tuple, RegisterRecTy));
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// Provide a blank AsmName. MC hacks are required anyway.
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if (RV.getName() == "AsmName")
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if (Field == "AsmName")
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RV.setValue(BlankName);
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// CostPerUse is aggregated from all Tuple members.
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if (RV.getName() == "CostPerUse")
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if (Field == "CostPerUse")
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RV.setValue(IntInit::get(CostPerUse));
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// Composite registers are always covered by sub-registers.
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if (Field == "CoveredBySubRegs")
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RV.setValue(BitInit::get(true));
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// Copy fields from the RegisterTuples def.
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if (RV.getName() == "SubRegIndices" ||
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RV.getName() == "CompositeIndices") {
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NewReg->addValue(*Def->getValue(RV.getName()));
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if (Field == "SubRegIndices" ||
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Field == "CompositeIndices") {
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NewReg->addValue(*Def->getValue(Field));
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continue;
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}
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// Some fields get their default uninitialized value.
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if (RV.getName() == "DwarfNumbers" ||
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RV.getName() == "DwarfAlias" ||
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RV.getName() == "Aliases") {
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if (const RecordVal *DefRV = RegisterCl->getValue(RV.getName()))
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if (Field == "DwarfNumbers" ||
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Field == "DwarfAlias" ||
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Field == "Aliases") {
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if (const RecordVal *DefRV = RegisterCl->getValue(Field))
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NewReg->addValue(*DefRV);
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continue;
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}
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@ -1006,7 +1014,27 @@ BitVector CodeGenRegBank::computeCoveredRegisters(ArrayRef<Record*> Regs) {
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}
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// Second, find all super-registers that are completely covered by the set.
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// FIXME: Implement CoveredBySubRegs bit.
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for (unsigned i = 0; i != Set.size(); ++i) {
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const CodeGenRegister::SuperRegList &SR = Set[i]->getSuperRegs();
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for (unsigned j = 0, e = SR.size(); j != e; ++j) {
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CodeGenRegister *Super = SR[j];
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if (!Super->CoveredBySubRegs || Set.count(Super))
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continue;
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// This new super-register is covered by its sub-registers.
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bool AllSubsInSet = true;
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const CodeGenRegister::SubRegMap &SRM = Super->getSubRegs();
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for (CodeGenRegister::SubRegMap::const_iterator I = SRM.begin(),
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E = SRM.end(); I != E; ++I)
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if (!Set.count(I->second)) {
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AllSubsInSet = false;
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break;
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}
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// All sub-registers in Set, add Super as well.
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// We will visit Super later to recheck its super-registers.
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if (AllSubsInSet)
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Set.insert(Super);
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}
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}
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// Convert to BitVector.
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BitVector BV(Registers.size() + 1);
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@ -36,6 +36,7 @@ namespace llvm {
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Record *TheDef;
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unsigned EnumValue;
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unsigned CostPerUse;
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bool CoveredBySubRegs;
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// Map SubRegIndex -> Register.
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typedef std::map<Record*, CodeGenRegister*, LessRecord> SubRegMap;
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