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308 lines
11 KiB
308 lines
11 KiB
//===-- llvm/InlineAsm.h - Class to represent inline asm strings-*- C++ -*-===//
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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 class represents the inline asm strings, which are Value*'s that are
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// used as the callee operand of call instructions. InlineAsm's are uniqued
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// like constants, and created via InlineAsm::get(...).
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_INLINEASM_H
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#define LLVM_INLINEASM_H
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#include "llvm/Value.h"
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#include "llvm/ADT/StringRef.h"
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#include <vector>
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namespace llvm {
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class PointerType;
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class FunctionType;
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class Module;
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struct InlineAsmKeyType;
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template<class ValType, class ValRefType, class TypeClass, class ConstantClass,
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bool HasLargeKey>
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class ConstantUniqueMap;
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template<class ConstantClass, class TypeClass, class ValType>
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struct ConstantCreator;
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class InlineAsm : public Value {
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public:
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enum AsmDialect {
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AD_ATT,
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AD_Intel
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};
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private:
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friend struct ConstantCreator<InlineAsm, PointerType, InlineAsmKeyType>;
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friend class ConstantUniqueMap<InlineAsmKeyType, const InlineAsmKeyType&,
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PointerType, InlineAsm, false>;
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InlineAsm(const InlineAsm &) LLVM_DELETED_FUNCTION;
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void operator=(const InlineAsm&) LLVM_DELETED_FUNCTION;
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std::string AsmString, Constraints;
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bool HasSideEffects;
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bool IsAlignStack;
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AsmDialect Dialect;
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InlineAsm(PointerType *Ty, const std::string &AsmString,
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const std::string &Constraints, bool hasSideEffects,
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bool isAlignStack, AsmDialect asmDialect);
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virtual ~InlineAsm();
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/// When the ConstantUniqueMap merges two types and makes two InlineAsms
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/// identical, it destroys one of them with this method.
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void destroyConstant();
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public:
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/// InlineAsm::get - Return the specified uniqued inline asm string.
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///
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static InlineAsm *get(FunctionType *Ty, StringRef AsmString,
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StringRef Constraints, bool hasSideEffects,
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bool isAlignStack = false,
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AsmDialect asmDialect = AD_ATT);
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bool hasSideEffects() const { return HasSideEffects; }
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bool isAlignStack() const { return IsAlignStack; }
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AsmDialect getDialect() const { return Dialect; }
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/// getType - InlineAsm's are always pointers.
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///
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PointerType *getType() const {
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return reinterpret_cast<PointerType*>(Value::getType());
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}
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/// getFunctionType - InlineAsm's are always pointers to functions.
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///
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FunctionType *getFunctionType() const;
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const std::string &getAsmString() const { return AsmString; }
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const std::string &getConstraintString() const { return Constraints; }
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/// Verify - This static method can be used by the parser to check to see if
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/// the specified constraint string is legal for the type. This returns true
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/// if legal, false if not.
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///
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static bool Verify(FunctionType *Ty, StringRef Constraints);
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// Constraint String Parsing
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enum ConstraintPrefix {
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isInput, // 'x'
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isOutput, // '=x'
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isClobber // '~x'
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};
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typedef std::vector<std::string> ConstraintCodeVector;
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struct SubConstraintInfo {
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/// MatchingInput - If this is not -1, this is an output constraint where an
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/// input constraint is required to match it (e.g. "0"). The value is the
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/// constraint number that matches this one (for example, if this is
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/// constraint #0 and constraint #4 has the value "0", this will be 4).
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signed char MatchingInput;
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/// Code - The constraint code, either the register name (in braces) or the
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/// constraint letter/number.
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ConstraintCodeVector Codes;
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/// Default constructor.
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SubConstraintInfo() : MatchingInput(-1) {}
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};
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typedef std::vector<SubConstraintInfo> SubConstraintInfoVector;
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struct ConstraintInfo;
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typedef std::vector<ConstraintInfo> ConstraintInfoVector;
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struct ConstraintInfo {
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/// Type - The basic type of the constraint: input/output/clobber
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///
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ConstraintPrefix Type;
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/// isEarlyClobber - "&": output operand writes result before inputs are all
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/// read. This is only ever set for an output operand.
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bool isEarlyClobber;
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/// MatchingInput - If this is not -1, this is an output constraint where an
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/// input constraint is required to match it (e.g. "0"). The value is the
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/// constraint number that matches this one (for example, if this is
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/// constraint #0 and constraint #4 has the value "0", this will be 4).
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signed char MatchingInput;
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/// hasMatchingInput - Return true if this is an output constraint that has
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/// a matching input constraint.
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bool hasMatchingInput() const { return MatchingInput != -1; }
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/// isCommutative - This is set to true for a constraint that is commutative
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/// with the next operand.
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bool isCommutative;
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/// isIndirect - True if this operand is an indirect operand. This means
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/// that the address of the source or destination is present in the call
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/// instruction, instead of it being returned or passed in explicitly. This
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/// is represented with a '*' in the asm string.
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bool isIndirect;
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/// Code - The constraint code, either the register name (in braces) or the
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/// constraint letter/number.
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ConstraintCodeVector Codes;
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/// isMultipleAlternative - '|': has multiple-alternative constraints.
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bool isMultipleAlternative;
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/// multipleAlternatives - If there are multiple alternative constraints,
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/// this array will contain them. Otherwise it will be empty.
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SubConstraintInfoVector multipleAlternatives;
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/// The currently selected alternative constraint index.
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unsigned currentAlternativeIndex;
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///Default constructor.
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ConstraintInfo();
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/// Copy constructor.
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ConstraintInfo(const ConstraintInfo &other);
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/// Parse - Analyze the specified string (e.g. "=*&{eax}") and fill in the
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/// fields in this structure. If the constraint string is not understood,
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/// return true, otherwise return false.
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bool Parse(StringRef Str, ConstraintInfoVector &ConstraintsSoFar);
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/// selectAlternative - Point this constraint to the alternative constraint
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/// indicated by the index.
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void selectAlternative(unsigned index);
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};
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/// ParseConstraints - Split up the constraint string into the specific
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/// constraints and their prefixes. If this returns an empty vector, and if
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/// the constraint string itself isn't empty, there was an error parsing.
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static ConstraintInfoVector ParseConstraints(StringRef ConstraintString);
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/// ParseConstraints - Parse the constraints of this inlineasm object,
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/// returning them the same way that ParseConstraints(str) does.
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ConstraintInfoVector ParseConstraints() const {
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return ParseConstraints(Constraints);
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}
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// Methods for support type inquiry through isa, cast, and dyn_cast:
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static inline bool classof(const InlineAsm *) { return true; }
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static inline bool classof(const Value *V) {
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return V->getValueID() == Value::InlineAsmVal;
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}
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// These are helper methods for dealing with flags in the INLINEASM SDNode
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// in the backend.
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enum {
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// Fixed operands on an INLINEASM SDNode.
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Op_InputChain = 0,
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Op_AsmString = 1,
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Op_MDNode = 2,
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Op_ExtraInfo = 3, // HasSideEffects, IsAlignStack, AsmDialect.
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Op_FirstOperand = 4,
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// Fixed operands on an INLINEASM MachineInstr.
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MIOp_AsmString = 0,
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MIOp_ExtraInfo = 1, // HasSideEffects, IsAlignStack, AsmDialect.
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MIOp_FirstOperand = 2,
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// Interpretation of the MIOp_ExtraInfo bit field.
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Extra_HasSideEffects = 1,
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Extra_IsAlignStack = 2,
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Extra_AsmDialect = 4,
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// Inline asm operands map to multiple SDNode / MachineInstr operands.
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// The first operand is an immediate describing the asm operand, the low
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// bits is the kind:
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Kind_RegUse = 1, // Input register, "r".
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Kind_RegDef = 2, // Output register, "=r".
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Kind_RegDefEarlyClobber = 3, // Early-clobber output register, "=&r".
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Kind_Clobber = 4, // Clobbered register, "~r".
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Kind_Imm = 5, // Immediate.
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Kind_Mem = 6, // Memory operand, "m".
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Flag_MatchingOperand = 0x80000000
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};
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static unsigned getFlagWord(unsigned Kind, unsigned NumOps) {
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assert(((NumOps << 3) & ~0xffff) == 0 && "Too many inline asm operands!");
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assert(Kind >= Kind_RegUse && Kind <= Kind_Mem && "Invalid Kind");
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return Kind | (NumOps << 3);
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}
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/// getFlagWordForMatchingOp - Augment an existing flag word returned by
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/// getFlagWord with information indicating that this input operand is tied
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/// to a previous output operand.
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static unsigned getFlagWordForMatchingOp(unsigned InputFlag,
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unsigned MatchedOperandNo) {
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assert(MatchedOperandNo <= 0x7fff && "Too big matched operand");
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assert((InputFlag & ~0xffff) == 0 && "High bits already contain data");
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return InputFlag | Flag_MatchingOperand | (MatchedOperandNo << 16);
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}
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/// getFlagWordForRegClass - Augment an existing flag word returned by
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/// getFlagWord with the required register class for the following register
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/// operands.
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/// A tied use operand cannot have a register class, use the register class
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/// from the def operand instead.
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static unsigned getFlagWordForRegClass(unsigned InputFlag, unsigned RC) {
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// Store RC + 1, reserve the value 0 to mean 'no register class'.
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++RC;
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assert(RC <= 0x7fff && "Too large register class ID");
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assert((InputFlag & ~0xffff) == 0 && "High bits already contain data");
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return InputFlag | (RC << 16);
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}
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static unsigned getKind(unsigned Flags) {
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return Flags & 7;
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}
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static bool isRegDefKind(unsigned Flag){ return getKind(Flag) == Kind_RegDef;}
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static bool isImmKind(unsigned Flag) { return getKind(Flag) == Kind_Imm; }
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static bool isMemKind(unsigned Flag) { return getKind(Flag) == Kind_Mem; }
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static bool isRegDefEarlyClobberKind(unsigned Flag) {
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return getKind(Flag) == Kind_RegDefEarlyClobber;
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}
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static bool isClobberKind(unsigned Flag) {
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return getKind(Flag) == Kind_Clobber;
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}
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/// getNumOperandRegisters - Extract the number of registers field from the
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/// inline asm operand flag.
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static unsigned getNumOperandRegisters(unsigned Flag) {
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return (Flag & 0xffff) >> 3;
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}
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/// isUseOperandTiedToDef - Return true if the flag of the inline asm
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/// operand indicates it is an use operand that's matched to a def operand.
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static bool isUseOperandTiedToDef(unsigned Flag, unsigned &Idx) {
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if ((Flag & Flag_MatchingOperand) == 0)
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return false;
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Idx = (Flag & ~Flag_MatchingOperand) >> 16;
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return true;
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}
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/// hasRegClassConstraint - Returns true if the flag contains a register
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/// class constraint. Sets RC to the register class ID.
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static bool hasRegClassConstraint(unsigned Flag, unsigned &RC) {
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if (Flag & Flag_MatchingOperand)
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return false;
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unsigned High = Flag >> 16;
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// getFlagWordForRegClass() uses 0 to mean no register class, and otherwise
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// stores RC + 1.
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if (!High)
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return false;
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RC = High - 1;
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return true;
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}
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};
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} // End llvm namespace
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#endif
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