path: root/include/llvm/ADT/APInt.h

//===-- llvm/Support/APInt.h - For Arbitrary Precision Integer -*- C++ -*--===//
//
//                     The LLVM Compiler Infrastructure
//
// This file was developed by Sheng Zhou and is distributed under the
// University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements a class to represent arbitrary precision integral
// constant values.
//
//===----------------------------------------------------------------------===//

#ifndef LLVM_APINT_H
#define LLVM_APINT_H

#include "llvm/Support/DataTypes.h"
#include <cassert>
#include <string>

namespace llvm {

/// Forward declaration.
class APInt;
namespace APIntOps {
  APInt UDiv(const APInt& LHS, const APInt& RHS);
  APInt URem(const APInt& LHS, const APInt& RHS);
}

//===----------------------------------------------------------------------===//
//                              APInt Class
//===----------------------------------------------------------------------===//

/// APInt - This class represents arbitrary precision constant integral values.
/// It is a functional replacement for common case unsigned integer type like 
/// "unsigned", "unsigned long" or "uint64_t", but also allows non-byte-width 
/// integer type and large integer value types such as 3-bits, 15-bits, or more
/// than 64-bits of precision. APInt provides a variety of arithmetic operators 
/// and methods to manipulate integer values of any bit-width. It supports not 
/// only all the operations of uint64_t but also bitwise manipulation.
///
/// @brief Class for arbitrary precision integers.
///
/// Note: In this class, all bit/byte/word positions are zero-based.
///
class APInt {
  unsigned BitsNum;      ///< The number of bits.

  /// This union is used to store the integer value. When the
  /// integer bit-width <= 64, it uses VAL; 
  /// otherwise it uses the pVal.
  union {
    uint64_t VAL;    ///< Used to store the <= 64 bits integer value.
    uint64_t *pVal;  ///< Used to store the >64 bits integer value.
  };

  /// This enum is just used to hold a constant we needed for APInt.
  enum {
    APINT_BITS_PER_WORD = sizeof(uint64_t) * 8
  };

  /// Here one word's bitwidth equals to that of uint64_t.
  /// @returns the number of words to hold the integer value of this APInt.
  /// @brief Get the number of words.
  inline unsigned getNumWords() const {
    return (BitsNum + APINT_BITS_PER_WORD - 1) / APINT_BITS_PER_WORD;
  }

  /// @returns true if the number of bits <= 64, false otherwise.
  /// @brief Determine if this APInt just has one word to store value.
  inline bool isSingleWord() const
  { return BitsNum <= APINT_BITS_PER_WORD; }

  /// @returns the word position for the specified bit position.
  static inline unsigned whichWord(unsigned bitPosition)
  { return bitPosition / APINT_BITS_PER_WORD; }

  /// @returns the byte position for the specified bit position.
  static inline unsigned whichByte(unsigned bitPosition)
  { return (bitPosition % APINT_BITS_PER_WORD) / 8; }

  /// @returns the bit position in a word for the specified bit position 
  /// in APInt.
  static inline unsigned whichBit(unsigned bitPosition)
  { return bitPosition % APINT_BITS_PER_WORD; }

  /// @returns a uint64_t type integer with just bit position at
  /// "whichBit(bitPosition)" setting, others zero.
  static inline uint64_t maskBit(unsigned bitPosition)
  { return (static_cast<uint64_t>(1)) << whichBit(bitPosition); }

  inline void TruncToBits() {
    if (isSingleWord())
      VAL &= ~uint64_t(0ULL) >> (APINT_BITS_PER_WORD - BitsNum);
    else
      pVal[getNumWords() - 1] &= ~uint64_t(0ULL) >> 
        (APINT_BITS_PER_WORD - (whichBit(BitsNum - 1) + 1));
  }

  /// @returns the corresponding word for the specified bit position.
  inline uint64_t& getWord(unsigned bitPosition)
  { return isSingleWord() ? VAL : pVal[whichWord(bitPosition)]; }

  /// @returns the corresponding word for the specified bit position.
  /// This is a constant version.
  inline uint64_t getWord(unsigned bitPosition) const
  { return isSingleWord() ? VAL : pVal[whichWord(bitPosition)]; }

  /// @brief Converts a char array into an integer.
  void StrToAPInt(const char *StrStart, unsigned slen, uint8_t radix);

public:
  /// @brief Create a new APInt of numBits bit-width, and initialized as val.
  APInt(uint64_t val = 0, unsigned numBits = APINT_BITS_PER_WORD);

  /// @brief Create a new APInt of numBits bit-width, and initialized as 
  /// bigVal[].
  APInt(unsigned numBits, uint64_t bigVal[]);

  /// @brief Create a new APInt by translating the string represented 
  /// integer value.
  APInt(const std::string& Val, uint8_t radix = 10);

  /// @brief Create a new APInt by translating the char array represented
  /// integer value.
  APInt(const char StrStart[], unsigned slen, uint8_t radix);

  /// @brief Copy Constructor.
  APInt(const APInt& API);

  /// @brief Destructor.
  ~APInt();

  /// @brief Copy assignment operator. 
  APInt& operator=(const APInt& RHS);

  /// Assigns an integer value to the APInt.
  /// @brief Assignment operator. 
  APInt& operator=(uint64_t RHS);

  /// Increments the APInt by one.
  /// @brief Postfix increment operator.
  inline const APInt operator++(int) {
    APInt API(*this);
    return ++API;
  }

  /// Increments the APInt by one.
  /// @brief Prefix increment operator.
  APInt& operator++();

  /// Decrements the APInt by one.
  /// @brief Postfix decrement operator. 
  inline const APInt operator--(int) {
    APInt API(*this);
    return --API;
  }

  /// Decrements the APInt by one.
  /// @brief Prefix decrement operator. 
  APInt& operator--();

  /// Performs bitwise AND operation on this APInt and the given APInt& RHS, 
  /// assigns the result to this APInt.
  /// @brief Bitwise AND assignment operator. 
  APInt& operator&=(const APInt& RHS);

  /// Performs bitwise OR operation on this APInt and the given APInt& RHS, 
  /// assigns the result to this APInt.
  /// @brief Bitwise OR assignment operator. 
  APInt& operator|=(const APInt& RHS);

  /// Performs bitwise XOR operation on this APInt and the given APInt& RHS, 
  /// assigns the result to this APInt.
  /// @brief Bitwise XOR assignment operator. 
  APInt& operator^=(const APInt& RHS);

  /// Performs a bitwise complement operation on this APInt.
  /// @brief Bitwise complement operator. 
  APInt operator~() const;

  /// Multiplies this APInt by the  given APInt& RHS and 
  /// assigns the result to this APInt.
  /// @brief Multiplication assignment operator. 
  APInt& operator*=(const APInt& RHS);

  /// Adds this APInt by the given APInt& RHS and 
  /// assigns the result to this APInt.
  /// @brief Addition assignment operator. 
  APInt& operator+=(const APInt& RHS);

  /// Subtracts this APInt by the given APInt &RHS and 
  /// assigns the result to this APInt.
  /// @brief Subtraction assignment operator. 
  APInt& operator-=(const APInt& RHS);

  /// Performs bitwise AND operation on this APInt and 
  /// the given APInt& RHS.
  /// @brief Bitwise AND operator. 
  APInt operator&(const APInt& RHS) const;

  /// Performs bitwise OR operation on this APInt and the given APInt& RHS.
  /// @brief Bitwise OR operator. 
  APInt operator|(const APInt& RHS) const;

  /// Performs bitwise XOR operation on this APInt and the given APInt& RHS.
  /// @brief Bitwise XOR operator. 
  APInt operator^(const APInt& RHS) const;

  /// Performs logical AND operation on this APInt and the given APInt& RHS.
  /// @brief Logical AND operator. 
  bool operator&&(const APInt& RHS) const;

  /// Performs logical OR operation on this APInt and the given APInt& RHS.
  /// @brief Logical OR operator. 
  bool operator||(const APInt& RHS) const;

  /// Performs logical negation operation on this APInt.
  /// @brief Logical negation operator. 
  bool operator !() const;

  /// Multiplies this APInt by the given APInt& RHS.
  /// @brief Multiplication operator. 
  APInt operator*(const APInt& RHS) const;

  /// Adds this APInt by the given APInt& RHS.
  /// @brief Addition operator. 
  APInt operator+(const APInt& RHS) const;

  /// Subtracts this APInt by the given APInt& RHS
  /// @brief Subtraction operator. 
  APInt operator-(const APInt& RHS) const;

  ///
  inline APInt operator-() const {
    return APInt(0, BitsNum) - (*this);
  }

  /// @brief Array-indexing support.
  bool operator[](unsigned bitPosition) const;

  /// Compare this APInt with the given APInt& RHS 
  /// for the validity of the equality relationship.
  /// @brief Equality operator. 
  bool operator==(const APInt& RHS) const;

  /// Compare this APInt with the given uint64_t value
  /// for the validity of the equality relationship.
  /// @brief Equality operator.
  bool operator==(uint64_t Val) const;

  /// Compare this APInt with the given APInt& RHS 
  /// for the validity of the inequality relationship.
  /// @brief Inequality operator. 
  inline bool operator!=(const APInt& RHS) const {
    return !((*this) == RHS);
  }

  /// Compare this APInt with the given uint64_t value 
  /// for the validity of the inequality relationship.
  /// @brief Inequality operator. 
  inline bool