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https://github.com/c64scene-ar/llvm-6502.git
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6690dbffe0
This change adds new attribute called "argmemonly". Function marked with this attribute can only access memory through it's argument pointers. This attribute directly corresponds to the "OnlyAccessesArgumentPointees" ModRef behaviour in alias analysis. Differential Revision: http://reviews.llvm.org/D10398 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@241979 91177308-0d34-0410-b5e6-96231b3b80d8
431 lines
14 KiB
C++
431 lines
14 KiB
C++
//===- CallSite.h - Abstract Call & Invoke instrs ---------------*- 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 file defines the CallSite class, which is a handy wrapper for code that
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// wants to treat Call and Invoke instructions in a generic way. When in non-
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// mutation context (e.g. an analysis) ImmutableCallSite should be used.
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// Finally, when some degree of customization is necessary between these two
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// extremes, CallSiteBase<> can be supplied with fine-tuned parameters.
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//
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// NOTE: These classes are supposed to have "value semantics". So they should be
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// passed by value, not by reference; they should not be "new"ed or "delete"d.
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// They are efficiently copyable, assignable and constructable, with cost
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// equivalent to copying a pointer (notice that they have only a single data
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// member). The internal representation carries a flag which indicates which of
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// the two variants is enclosed. This allows for cheaper checks when various
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// accessors of CallSite are employed.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_IR_CALLSITE_H
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#define LLVM_IR_CALLSITE_H
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#include "llvm/ADT/PointerIntPair.h"
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#include "llvm/ADT/iterator_range.h"
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#include "llvm/IR/Attributes.h"
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#include "llvm/IR/CallingConv.h"
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#include "llvm/IR/Instructions.h"
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namespace llvm {
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class CallInst;
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class InvokeInst;
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template <typename FunTy = const Function,
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typename BBTy = const BasicBlock,
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typename ValTy = const Value,
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typename UserTy = const User,
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typename InstrTy = const Instruction,
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typename CallTy = const CallInst,
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typename InvokeTy = const InvokeInst,
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typename IterTy = User::const_op_iterator>
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class CallSiteBase {
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protected:
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PointerIntPair<InstrTy*, 1, bool> I;
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CallSiteBase() : I(nullptr, false) {}
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CallSiteBase(CallTy *CI) : I(CI, true) { assert(CI); }
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CallSiteBase(InvokeTy *II) : I(II, false) { assert(II); }
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explicit CallSiteBase(ValTy *II) { *this = get(II); }
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private:
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/// CallSiteBase::get - This static method is sort of like a constructor. It
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/// will create an appropriate call site for a Call or Invoke instruction, but
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/// it can also create a null initialized CallSiteBase object for something
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/// which is NOT a call site.
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///
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static CallSiteBase get(ValTy *V) {
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if (InstrTy *II = dyn_cast<InstrTy>(V)) {
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if (II->getOpcode() == Instruction::Call)
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return CallSiteBase(static_cast<CallTy*>(II));
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else if (II->getOpcode() == Instruction::Invoke)
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return CallSiteBase(static_cast<InvokeTy*>(II));
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}
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return CallSiteBase();
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}
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public:
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/// isCall - true if a CallInst is enclosed.
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/// Note that !isCall() does not mean it is an InvokeInst enclosed,
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/// it also could signify a NULL Instruction pointer.
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bool isCall() const { return I.getInt(); }
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/// isInvoke - true if a InvokeInst is enclosed.
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///
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bool isInvoke() const { return getInstruction() && !I.getInt(); }
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InstrTy *getInstruction() const { return I.getPointer(); }
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InstrTy *operator->() const { return I.getPointer(); }
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explicit operator bool() const { return I.getPointer(); }
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/// Get the basic block containing the call site
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BBTy* getParent() const { return getInstruction()->getParent(); }
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/// getCalledValue - Return the pointer to function that is being called.
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///
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ValTy *getCalledValue() const {
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assert(getInstruction() && "Not a call or invoke instruction!");
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return *getCallee();
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}
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/// getCalledFunction - Return the function being called if this is a direct
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/// call, otherwise return null (if it's an indirect call).
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///
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FunTy *getCalledFunction() const {
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return dyn_cast<FunTy>(getCalledValue());
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}
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/// setCalledFunction - Set the callee to the specified value.
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///
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void setCalledFunction(Value *V) {
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assert(getInstruction() && "Not a call or invoke instruction!");
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*getCallee() = V;
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}
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/// isCallee - Determine whether the passed iterator points to the
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/// callee operand's Use.
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bool isCallee(Value::const_user_iterator UI) const {
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return isCallee(&UI.getUse());
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}
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/// Determine whether this Use is the callee operand's Use.
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bool isCallee(const Use *U) const { return getCallee() == U; }
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ValTy *getArgument(unsigned ArgNo) const {
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assert(arg_begin() + ArgNo < arg_end() && "Argument # out of range!");
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return *(arg_begin() + ArgNo);
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}
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void setArgument(unsigned ArgNo, Value* newVal) {
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assert(getInstruction() && "Not a call or invoke instruction!");
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assert(arg_begin() + ArgNo < arg_end() && "Argument # out of range!");
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getInstruction()->setOperand(ArgNo, newVal);
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}
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/// Given a value use iterator, returns the argument that corresponds to it.
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/// Iterator must actually correspond to an argument.
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unsigned getArgumentNo(Value::const_user_iterator I) const {
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return getArgumentNo(&I.getUse());
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}
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/// Given a use for an argument, get the argument number that corresponds to
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/// it.
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unsigned getArgumentNo(const Use *U) const {
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assert(getInstruction() && "Not a call or invoke instruction!");
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assert(arg_begin() <= U && U < arg_end()
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&& "Argument # out of range!");
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return U - arg_begin();
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}
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/// arg_iterator - The type of iterator to use when looping over actual
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/// arguments at this call site.
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typedef IterTy arg_iterator;
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/// arg_begin/arg_end - Return iterators corresponding to the actual argument
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/// list for a call site.
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IterTy arg_begin() const {
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assert(getInstruction() && "Not a call or invoke instruction!");
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// Skip non-arguments
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return (*this)->op_begin();
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}
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IterTy arg_end() const { return (*this)->op_end() - getArgumentEndOffset(); }
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iterator_range<IterTy> args() const {
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return iterator_range<IterTy>(arg_begin(), arg_end());
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}
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bool arg_empty() const { return arg_end() == arg_begin(); }
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unsigned arg_size() const { return unsigned(arg_end() - arg_begin()); }
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/// getType - Return the type of the instruction that generated this call site
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///
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Type *getType() const { return (*this)->getType(); }
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/// getCaller - Return the caller function for this call site
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///
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FunTy *getCaller() const { return (*this)->getParent()->getParent(); }
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/// \brief Tests if this call site must be tail call optimized. Only a
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/// CallInst can be tail call optimized.
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bool isMustTailCall() const {
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return isCall() && cast<CallInst>(getInstruction())->isMustTailCall();
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}
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/// \brief Tests if this call site is marked as a tail call.
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bool isTailCall() const {
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return isCall() && cast<CallInst>(getInstruction())->isTailCall();
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}
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#define CALLSITE_DELEGATE_GETTER(METHOD) \
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InstrTy *II = getInstruction(); \
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return isCall() \
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? cast<CallInst>(II)->METHOD \
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: cast<InvokeInst>(II)->METHOD
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#define CALLSITE_DELEGATE_SETTER(METHOD) \
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InstrTy *II = getInstruction(); \
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if (isCall()) \
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cast<CallInst>(II)->METHOD; \
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else \
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cast<InvokeInst>(II)->METHOD
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unsigned getNumArgOperands() const {
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CALLSITE_DELEGATE_GETTER(getNumArgOperands());
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}
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ValTy *getArgOperand(unsigned i) const {
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CALLSITE_DELEGATE_GETTER(getArgOperand(i));
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}
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bool isInlineAsm() const {
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if (isCall())
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return cast<CallInst>(getInstruction())->isInlineAsm();
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return false;
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}
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/// getCallingConv/setCallingConv - get or set the calling convention of the
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/// call.
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CallingConv::ID getCallingConv() const {
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CALLSITE_DELEGATE_GETTER(getCallingConv());
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}
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void setCallingConv(CallingConv::ID CC) {
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CALLSITE_DELEGATE_SETTER(setCallingConv(CC));
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}
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FunctionType *getFunctionType() const {
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CALLSITE_DELEGATE_GETTER(getFunctionType());
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}
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void mutateFunctionType(FunctionType *Ty) const {
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CALLSITE_DELEGATE_SETTER(mutateFunctionType(Ty));
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}
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/// getAttributes/setAttributes - get or set the parameter attributes of
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/// the call.
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const AttributeSet &getAttributes() const {
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CALLSITE_DELEGATE_GETTER(getAttributes());
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}
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void setAttributes(const AttributeSet &PAL) {
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CALLSITE_DELEGATE_SETTER(setAttributes(PAL));
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}
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/// \brief Return true if this function has the given attribute.
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bool hasFnAttr(Attribute::AttrKind A) const {
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CALLSITE_DELEGATE_GETTER(hasFnAttr(A));
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}
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/// \brief Return true if the call or the callee has the given attribute.
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bool paramHasAttr(unsigned i, Attribute::AttrKind A) const {
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CALLSITE_DELEGATE_GETTER(paramHasAttr(i, A));
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}
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/// @brief Extract the alignment for a call or parameter (0=unknown).
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uint16_t getParamAlignment(uint16_t i) const {
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CALLSITE_DELEGATE_GETTER(getParamAlignment(i));
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}
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/// @brief Extract the number of dereferenceable bytes for a call or
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/// parameter (0=unknown).
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uint64_t getDereferenceableBytes(uint16_t i) const {
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CALLSITE_DELEGATE_GETTER(getDereferenceableBytes(i));
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}
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/// @brief Extract the number of dereferenceable_or_null bytes for a call or
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/// parameter (0=unknown).
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uint64_t getDereferenceableOrNullBytes(uint16_t i) const {
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CALLSITE_DELEGATE_GETTER(getDereferenceableOrNullBytes(i));
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}
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/// \brief Return true if the call should not be treated as a call to a
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/// builtin.
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bool isNoBuiltin() const {
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CALLSITE_DELEGATE_GETTER(isNoBuiltin());
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}
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/// @brief Return true if the call should not be inlined.
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bool isNoInline() const {
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CALLSITE_DELEGATE_GETTER(isNoInline());
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}
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void setIsNoInline(bool Value = true) {
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CALLSITE_DELEGATE_SETTER(setIsNoInline(Value));
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}
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/// @brief Determine if the call does not access memory.
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bool doesNotAccessMemory() const {
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CALLSITE_DELEGATE_GETTER(doesNotAccessMemory());
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}
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void setDoesNotAccessMemory() {
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CALLSITE_DELEGATE_SETTER(setDoesNotAccessMemory());
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}
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/// @brief Determine if the call does not access or only reads memory.
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bool onlyReadsMemory() const {
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CALLSITE_DELEGATE_GETTER(onlyReadsMemory());
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}
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void setOnlyReadsMemory() {
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CALLSITE_DELEGATE_SETTER(setOnlyReadsMemory());
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}
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/// @brief Determine if the call can access memmory only using pointers based
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/// on its arguments.
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bool onlyAccessesArgMemory() const {
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CALLSITE_DELEGATE_GETTER(onlyAccessesArgMemory());
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}
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void setOnlyAccessesArgMemory() {
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CALLSITE_DELEGATE_SETTER(setOnlyAccessesArgMemory());
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}
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/// @brief Determine if the call cannot return.
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bool doesNotReturn() const {
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CALLSITE_DELEGATE_GETTER(doesNotReturn());
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}
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void setDoesNotReturn() {
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CALLSITE_DELEGATE_SETTER(setDoesNotReturn());
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}
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/// @brief Determine if the call cannot unwind.
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bool doesNotThrow() const {
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CALLSITE_DELEGATE_GETTER(doesNotThrow());
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}
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void setDoesNotThrow() {
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CALLSITE_DELEGATE_SETTER(setDoesNotThrow());
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}
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#undef CALLSITE_DELEGATE_GETTER
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#undef CALLSITE_DELEGATE_SETTER
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/// @brief Determine whether this argument is not captured.
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bool doesNotCapture(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::NoCapture);
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}
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/// @brief Determine whether this argument is passed by value.
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bool isByValArgument(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::ByVal);
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}
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/// @brief Determine whether this argument is passed in an alloca.
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bool isInAllocaArgument(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::InAlloca);
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}
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/// @brief Determine whether this argument is passed by value or in an alloca.
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bool isByValOrInAllocaArgument(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::ByVal) ||
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paramHasAttr(ArgNo + 1, Attribute::InAlloca);
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}
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/// @brief Determine if there are is an inalloca argument. Only the last
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/// argument can have the inalloca attribute.
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bool hasInAllocaArgument() const {
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return paramHasAttr(arg_size(), Attribute::InAlloca);
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}
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bool doesNotAccessMemory(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::ReadNone);
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}
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bool onlyReadsMemory(unsigned ArgNo) const {
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return paramHasAttr(ArgNo + 1, Attribute::ReadOnly) ||
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paramHasAttr(ArgNo + 1, Attribute::ReadNone);
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}
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/// @brief Return true if the return value is known to be not null.
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/// This may be because it has the nonnull attribute, or because at least
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/// one byte is dereferenceable and the pointer is in addrspace(0).
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bool isReturnNonNull() const {
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if (paramHasAttr(0, Attribute::NonNull))
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return true;
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else if (getDereferenceableBytes(0) > 0 &&
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getType()->getPointerAddressSpace() == 0)
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return true;
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return false;
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}
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/// hasArgument - Returns true if this CallSite passes the given Value* as an
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/// argument to the called function.
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bool hasArgument(const Value *Arg) const {
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for (arg_iterator AI = this->arg_begin(), E = this->arg_end(); AI != E;
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++AI)
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if (AI->get() == Arg)
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return true;
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return false;
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}
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private:
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unsigned getArgumentEndOffset() const {
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if (isCall())
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return 1; // Skip Callee
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else
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return 3; // Skip BB, BB, Callee
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}
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IterTy getCallee() const {
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if (isCall()) // Skip Callee
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return cast<CallInst>(getInstruction())->op_end() - 1;
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else // Skip BB, BB, Callee
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return cast<InvokeInst>(getInstruction())->op_end() - 3;
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}
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};
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class CallSite : public CallSiteBase<Function, BasicBlock, Value, User,
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Instruction, CallInst, InvokeInst,
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User::op_iterator> {
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public:
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CallSite() {}
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CallSite(CallSiteBase B) : CallSiteBase(B) {}
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CallSite(CallInst *CI) : CallSiteBase(CI) {}
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CallSite(InvokeInst *II) : CallSiteBase(II) {}
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explicit CallSite(Instruction *II) : CallSiteBase(II) {}
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explicit CallSite(Value *V) : CallSiteBase(V) {}
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bool operator==(const CallSite &CS) const { return I == CS.I; }
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bool operator!=(const CallSite &CS) const { return I != CS.I; }
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bool operator<(const CallSite &CS) const {
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return getInstruction() < CS.getInstruction();
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}
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private:
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User::op_iterator getCallee() const;
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};
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/// ImmutableCallSite - establish a view to a call site for examination
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class ImmutableCallSite : public CallSiteBase<> {
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public:
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ImmutableCallSite() {}
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ImmutableCallSite(const CallInst *CI) : CallSiteBase(CI) {}
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ImmutableCallSite(const InvokeInst *II) : CallSiteBase(II) {}
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explicit ImmutableCallSite(const Instruction *II) : CallSiteBase(II) {}
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explicit ImmutableCallSite(const Value *V) : CallSiteBase(V) {}
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ImmutableCallSite(CallSite CS) : CallSiteBase(CS.getInstruction()) {}
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};
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} // End llvm namespace
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#endif
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