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//===-- Value.cpp - Implement the Value class -----------------------------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the Value and User classes.
//
//===----------------------------------------------------------------------===//

#include "llvm/Constant.h"
#include "llvm/Constants.h"
#include "llvm/DerivedTypes.h"
#include "llvm/InstrTypes.h"
#include "llvm/Instructions.h"
#include "llvm/Module.h"
#include "llvm/ValueSymbolTable.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/LeakDetector.h"
#include <algorithm>
using namespace llvm;

//===----------------------------------------------------------------------===//
//                                Value Class
//===----------------------------------------------------------------------===//

static inline const Type *checkType(const Type *Ty) {
  assert(Ty && "Value defined with a null type: Error!");
  return Ty;
}

Value::Value(const Type *ty, unsigned scid)
  : SubclassID(scid), SubclassData(0), VTy(checkType(ty)),
    UseList(0), Name(0) {
  if (isa<CallInst>(this) || isa<InvokeInst>(this))
    assert((VTy->isFirstClassType() || VTy == Type::VoidTy ||
            isa<OpaqueType>(ty) || VTy->getTypeID() == Type::StructTyID) &&
           "invalid CallInst  type!");
  else if (!isa<Constant>(this) && !isa<BasicBlock>(this))
    assert((VTy->isFirstClassType() || VTy == Type::VoidTy ||
           isa<OpaqueType>(ty)) &&
           "Cannot create non-first-class values except for constants!");
}

Value::~Value() {
#ifndef NDEBUG      // Only in -g mode...
  // Check to make sure that there are no uses of this value that are still
  // around when the value is destroyed.  If there are, then we have a dangling
  // reference and something is wrong.  This code is here to print out what is
  // still being referenced.  The value in question should be printed as
  // a <badref>
  //
  if (!use_empty()) {
    DOUT << "While deleting: " << *VTy << " %" << getNameStr() << "\n";
    for (use_iterator I = use_begin(), E = use_end(); I != E; ++I)
      DOUT << "Use still stuck around after Def is destroyed:"
           << **I << "\n";
  }
#endif
  assert(use_empty() && "Uses remain when a value is destroyed!");

  // If this value is named, destroy the name.  This should not be in a symtab
  // at this point.
  if (Name)
    Name->Destroy();
  
  // There should be no uses of this object anymore, remove it.
  LeakDetector::removeGarbageObject(this);
}

/// hasNUses - Return true if this Value has exactly N users.
///
bool Value::hasNUses(unsigned N) const {
  use_const_iterator UI = use_begin(), E = use_end();

  for (; N; --N, ++UI)
    if (UI == E) return false;  // Too few.
  return UI == E;
}

/// hasNUsesOrMore - Return true if this value has N users or more.  This is
/// logically equivalent to getNumUses() >= N.
///
bool Value::hasNUsesOrMore(unsigned N) const {
  use_const_iterator UI = use_begin(), E = use_end();

  for (; N; --N, ++UI)
    if (UI == E) return false;  // Too few.

  return true;
}

/// isUsedInBasicBlock - Return true if this value is used in the specified
/// basic block.
bool Value::isUsedInBasicBlock(const BasicBlock *BB) const {
  for (use_const_iterator I = use_begin(), E = use_end(); I != E; ++I) {
    const Instruction *User = dyn_cast<Instruction>(*I);
    if (User && User->getParent() == BB)
      return true;
  }
  return false;
}


/// getNumUses - This method computes the number of uses of this Value.  This
/// is a linear time operation.  Use hasOneUse or hasNUses to check for specific
/// values.
unsigned Value::getNumUses() const {
  return (unsigned)std::distance(use_begin(), use_end());
}

static bool getSymTab(Value *V, ValueSymbolTable *&ST) {
  ST = 0;
  if (Instruction *I = dyn_cast<Instruction>(V)) {
    if (BasicBlock *P = I->getParent())
      if (Function *PP = P->getParent())
        ST = &PP->getValueSymbolTable();
  } else if (BasicBlock *BB = dyn_cast<BasicBlock>(V)) {
    if (Function *P = BB->getParent()) 
      ST = &P->getValueSymbolTable();
  } else if (GlobalValue *GV = dyn_cast<GlobalValue>(V)) {
    if (Module *P = GV->getParent()) 
      ST = &P->getValueSymbolTable();
  } else if (Argument *A = dyn_cast<Argument>(V)) {
    if (Function *P = A->getParent()) 
      ST = &P->getValueSymbolTable();
  } else {
    assert(isa<Constant>(V) && "Unknown value type!");
    return true;  // no name is setable for this.
  }
  return false;
}

/// getNameStart - Return a pointer to a null terminated string for this name.
/// Note that names can have null characters within the string as well as at
/// their end.  This always returns a non-null pointer.
const char *Value::getNameStart() const {
  if (Name == 0) return "";
  return Name->getKeyData();
}

/// getNameLen - Return the length of the string, correctly handling nul
/// characters embedded into them.
unsigned Value::getNameLen() const {
  return Name ? Name->getKeyLength() : 0;
}

/// isName - Return true if this value has the name specified by the provided
/// nul terminated string.
bool Value::isName(const char *N) const {
  unsigned InLen = strlen(N);
  return InLen == getNameLen() && memcmp(getNameStart(), N, InLen) == 0;
}


std::string Value::getNameStr() const {
  if (Name == 0) return "";
  return std::string(Name->getKeyData(),
                     Name->getKeyData()+Name->getKeyLength());
}

void Value::setName(const std::string &name) {
  setName(&name[0], name.size());
}

void Value::setName(const char *Name) {
  setName(Name, Name ? strlen(Name) : 0);
}

void Value::setName(const char *NameStr, unsigned NameLen) {
  if (NameLen == 0 && !hasName()) return;
  assert(getType() != Type::VoidTy && "Cannot assign a name to void values!");
  
  // Get the symbol table to update for this object.
  ValueSymbolTable *ST;
  if (getSymTab(this, ST))
    return;  // Cannot set a name on this value (e.g. constant).

  if (!ST) { // No symbol table to update?  Just do the change.
    if (NameLen == 0) {
      // Free the name for this value.
      Name->Destroy();
      Name = 0;
      return;
    }
    
    if (Name) {
      // Name isn't changing?
      if (NameLen == Name->getKeyLength() &&
          !memcmp(Name->getKeyData(), NameStr, NameLen))
        return;
      Name->Destroy();
    }
    
    // NOTE: Could optimize for the case the name is shrinking to not deallocate
    // then reallocated.
      
    // Create the new name.
    Name = ValueName::Create(NameStr, NameStr+NameLen);
    Name->setValue(this);
    return;
  }
  
  // NOTE: Could optimize for the case the name is shrinking to not deallocate
  // then reallocated.
  if (hasName()) {
    // Name isn't changing?
    if (NameLen == Name->getKeyLength() &&
        !memcmp(Name->getKeyData(), NameStr, NameLen))
      return;

    // Remove old name.
    ST->removeValueName(Name);
    Name->Destroy();
    Name = 0;

    if (NameLen == 0)
      return;
  }

  // Name is changing to something new.
  Name = ST->createValueName(NameStr, NameLen, this);
}


/// takeName - transfer the name from V to this value, setting V's name to
/// empty.  It is an error to call V->takeName(V). 
void Value::takeName(Value *V) {
  ValueSymbolTable *ST = 0;
  // If this value has a name, drop it.
  if (hasName()) {
    // Get the symtab this is in.
    if (getSymTab(this, ST)) {
      // We can't set a name on this value, but we need to clear V's name if
      // it has one.
      if (V->hasName()) V->setName(0, 0);
      return;  // Cannot set a name on this value (e.g. constant).
    }
    
    // Remove old name.
    if (ST)
      ST->removeValueName(Name);
    Name->Destroy();
    Name = 0;
  } 
  
  // Now we know that this has no name.
  
  // If V has no name either, we're done.
  if (!V->hasName()) return;
   
  // Get this's symtab if we didn't before.
  if (!ST) {
    if (getSymTab(this, ST)) {
      // Clear V's name.
      V->setName(0, 0);
      return;  // Cannot set a name on this value (e.g. constant).
    }
  }
  
  // Get V's ST, this should always succed, because V has a name.
  ValueSymbolTable *VST;
  bool Failure = getSymTab(V, VST);
  assert(!Failure && "V has a name, so it should have a ST!"); Failure=Failure;
  
  // If these values are both in the same symtab, we can do this very fast.
  // This works even if both values have no symtab yet.
  if (ST == VST) {
    // Take the name!
    Name = V->Name;
    V->Name = 0;
    Name->setValue(this);
    return;
  }
  
  // Otherwise, things are slightly more complex.  Remove V's name from VST and
  // then reinsert it into ST.
  
  if (VST)
    VST->removeValueName(V->Name);
  Name = V->Name;
  V->Name = 0;
  Name->setValue(this);
  
  if (ST)
    ST->reinsertValue(this);
}


// uncheckedReplaceAllUsesWith - This is exactly the same as replaceAllUsesWith,
// except that it doesn't have all of the asserts.  The asserts fail because we
// are half-way done resolving types, which causes some types to exist as two
// different Type*'s at the same time.  This is a sledgehammer to work around
// this problem.
//
void Value::uncheckedReplaceAllUsesWith(Value *New) {
  while (!use_empty()) {
    Use &U = *UseList;
    // Must handle Constants specially, we cannot call replaceUsesOfWith on a
    // constant because they are uniqued.
    if (Constant *C = dyn_cast<Constant>(U.getUser())) {
      if (!isa<GlobalValue>(C)) {
        C->replaceUsesOfWithOnConstant(this, New, &U);
        continue;
      }
    }
    
    U.set(New);
  }
}

void Value::replaceAllUsesWith(Value *New) {
  assert(New && "Value::replaceAllUsesWith(<null>) is invalid!");
  assert(New != this && "this->replaceAllUsesWith(this) is NOT valid!");
  assert(New->getType() == getType() &&
         "replaceAllUses of value with new value of different type!");

  uncheckedReplaceAllUsesWith(New);
}

Value *Value::stripPointerCasts() {
  if (!isa<PointerType>(getType()))
    return this;

  if (ConstantExpr *CE = dyn_cast<ConstantExpr>(this)) {
    if (CE->getOpcode() == Instruction::BitCast) {
      return CE->getOperand(0)->stripPointerCasts();
    } else if (CE->getOpcode() == Instruction::GetElementPtr) {
      for (unsigned i = 1, e = CE->getNumOperands(); i != e; ++i)
        if (!CE->getOperand(i)->isNullValue())
          return this;
      return CE->getOperand(0)->stripPointerCasts();
    }
  } else if (BitCastInst *CI = dyn_cast<BitCastInst>(this)) {
    return CI->getOperand(0)->stripPointerCasts();
  } else if (GetElementPtrInst *GEP = dyn_cast<GetElementPtrInst>(this)) {
    if (GEP->hasAllZeroIndices())
      return GEP->getOperand(0)->stripPointerCasts();
  }
  return this;
}

Value *Value::getUnderlyingObject() {
  if (!isa<PointerType>(getType()))
    return this;

  if (Instruction *I = dyn_cast<Instruction>(this)) {
    if (isa<BitCastInst>(I) || isa<GetElementPtrInst>(I))
      return I->getOperand(0)->getUnderlyingObject();
  } else if (ConstantExpr *CE = dyn_cast<ConstantExpr>(this)) {
    if (CE->getOpcode() == Instruction::BitCast ||
        CE->getOpcode() == Instruction::GetElementPtr)
      return CE->getOperand(0)->getUnderlyingObject();
  }
  return this;
}

//===----------------------------------------------------------------------===//
//                                 User Class
//===----------------------------------------------------------------------===//

// replaceUsesOfWith - Replaces all references to the "From" definition with
// references to the "To" definition.
//
void User::replaceUsesOfWith(Value *From, Value *To) {
  if (From == To) return;   // Duh what?

  assert((!isa<Constant>(this) || isa<GlobalValue>(this)) &&
         "Cannot call User::replaceUsesofWith on a constant!");

  for (unsigned i = 0, E = getNumOperands(); i != E; ++i)
    if (getOperand(i) == From) {  // Is This operand is pointing to oldval?
      // The side effects of this setOperand call include linking to
      // "To", adding "this" to the uses list of To, and
      // most importantly, removing "this" from the use list of "From".
      setOperand(i, To); // Fix it now...
    }
}

void *User::operator new(size_t s, unsigned Us) {
  void *Storage = ::operator new(s + sizeof(Use) * Us);
  Use *Start = static_cast<Use*>(Storage);
  Use *End = Start + Us;
  User *Obj = reinterpret_cast<User*>(End);
  Obj->OperandList = Start;
  Obj->NumOperands = Us;
  Use::initTags(Start, End);
  return Obj;
}

void User::operator delete(void *Usr) {
  User *Start = static_cast<User*>(Usr);
  Use *Storage = static_cast<Use*>(Usr) - Start->NumOperands;
  ::operator delete(Storage == Start->OperandList
                    ? Storage
                    : Usr);
}