--- /dev/null
+//===-- 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 <string>
+
+namespace llvm {
+
+//===----------------------------------------------------------------------===//
+// 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.
+///
+class APInt {
+ /// Friend Functions of APInt Declared here. For detailed comments,
+ /// see bottom of this file.
+ friend bool isIntN(unsigned N, const APInt& APIVal);
+ friend APInt ByteSwap(const APInt& APIVal);
+ friend APInt LogBase2(const APInt& APIVal);
+ friend double APIntToDouble(const APInt& APIVal);
+ friend float APIntToFloat(const APInt& APIVal);
+
+ unsigned bitsnum; ///< The number of bits.
+ bool isSigned; ///< The sign flag for this APInt.
+
+ /// This union is used to store the integer value. When the
+ /// integer bit-width <= 64, it is used as an uint64_t;
+ /// otherwise it uses an uint64_t array.
+ 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 constant we needed for APInt.
+ enum {
+ APINT_BITS_PER_WORD = sizeof(uint64_t) * 8
+ };
+
+ /// @returns the number of words to hold the integer value of this APInt.
+ /// Here one word's bitwidth equals to that of uint64_t.
+ /// @brief Get the number of the words.
+ inline unsigned numWords() const {
+ return bitsnum < 1 ? 0 : (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.
+ /// Note: the bitPosition and the return value are zero-based.
+ static inline unsigned whichWord(unsigned bitPosition)
+ { return bitPosition / APINT_BITS_PER_WORD; }
+
+ /// @returns the byte position for the specified bit position.
+ /// Note: the bitPosition and the return value are zero-based.
+ static inline unsigned whichByte(unsigned bitPosition);
+
+ /// @returns the bit position in a word for the specified bit position
+ /// in APInt.
+ /// Note: the bitPosition and the return value are zero-based.
+ 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.
+ /// Note: the bitPosition and the return value are zero-based.
+ 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[numWords() - 1] &= ~uint64_t(0ULL) >>
+ (APINT_BITS_PER_WORD - (whichBit(bitsnum - 1) + 1));
+ }
+
+ /// @returns the corresponding word for the specified bit position.
+ /// Note: the bitPosition is zero-based.
+ inline uint64_t& getWord(unsigned bitPosition);
+
+ /// @returns the corresponding word for the specified bit position.
+ /// This is a constant version.
+ /// Note: the bitPosition is zero-based.
+ inline uint64_t getWord(unsigned bitPosition) const;
+
+ /// mul_1 - This function performs the multiplication operation on a
+ /// large integer (represented as a integer array) and a uint64_t integer.
+ /// @returns the carry of the multiplication.
+ static uint64_t mul_1(uint64_t dest[], uint64_t x[],
+ unsigned len, uint64_t y);
+
+ /// mul - This function performs the multiplication operation on two large
+ /// integers (represented as integer arrays).
+ static void mul(uint64_t dest[], uint64_t x[], unsigned xlen,
+ uint64_t y[], unsigned ylen);
+
+ /// add_1 - This function performs the addition operation on a large integer
+ /// and a uint64_t integer.
+ /// @returns the carry of the addtion.
+ static uint64_t add_1(uint64_t dest[], uint64_t x[],
+ unsigned len, uint64_t y);
+
+ /// add - This function performs the addtion operation on two large integers.
+ static uint64_t add(uint64_t dest[], uint64_t x[],
+ uint64_t y[], unsigned len);
+
+ /// sub_1 - This function performs the subtraction operation on a large
+ /// integer and a uint64_t integer.
+ static uint64_t sub_1(uint64_t x[], unsigned len, uint64_t y);
+
+ /// sub - This function performs the subtraction operation on two large
+ /// integers.
+ static uint64_t sub(uint64_t dest[], uint64_t x[],
+ uint64_t y[], unsigned len);
+
+ /// unitDiv - This function divides uint64_t N by unsigned D.
+ /// @returns (remainder << 32) + quotient.
+ /// @assumes (N >> 32) < D.
+ static uint64_t unitDiv(uint64_t N, unsigned D);
+
+ /// subMul - This function subtract x[len-1 : 0] * y from
+ /// dest[offset+len-1 : offset].
+ /// @returns the most significant word of the product, minus borrow-out from
+ /// the subtraction.
+ static unsigned subMul(unsigned dest[], unsigned offset,
+ unsigned x[], unsigned len, unsigned y);
+
+ /// div - This function divides the large integer zds[] by y[].
+ /// The remainder ends up in zds[ny-1 : 0].
+ /// The quotient ends up in zds[ny : nx].
+ /// @assumes nx > ny and (int)y[ny-1] < 0.
+ static void div(unsigned zds[], unsigned nx, unsigned y[], unsigned ny);
+
+ /// lshift - This function shifts x[len-1 : 0] by shiftAmt, and store the
+ /// "len" least significant words of the result in
+ /// dest[d_offset+len-1 : d_offset].
+ /// @returns the bits shifted out from the most significant digit.
+ static uint64_t lshift(uint64_t dest[], unsigned d_offset,
+ uint64_t x[], unsigned len, unsigned shiftAmt);
+
+public:
+ /// Create a new APInt of numBits bit-width, and initalized as val.
+ APInt(uint64_t val = 0, unsigned numBits = APINT_BITS_PER_WORD,
+ bool sign = false);
+
+ /// Create a new APInt of numBits bit-width, and initalized as bigVal[].
+ APInt(unsigned numBits, uint64_t bigVal[], bool sign = false);
+
+ /// Create a new APInt by translating the string represented integer value.
+ APInt(std::string& Val, uint8_t radix = 10, bool sign = false);
+
+ /// Copy Constructor.
+ APInt(const APInt& API);
+
+ /// Destructor.
+ ~APInt();
+
+ /// @brief Copy assignment operator. Create a new object from the given
+ /// APInt one by initialization.
+ APInt& operator=(const APInt& RHS);
+
+ /// @brief Assignment operator. Assigns a common case integer value to
+ /// the APInt.
+ APInt& operator=(uint64_t RHS);
+
+ /// @brief Postfix increment operator. Increments the APInt by one.
+ const APInt operator++(int);
+
+ /// @brief Prefix increment operator. Increments the APInt by one.
+ APInt& operator++();
+
+ /// @brief Postfix decrement operator. Decrements the APInt by one.
+ const APInt operator--(int);
+
+ /// @brief Prefix decrement operator. Decrements the APInt by one.
+ APInt& operator--();
+
+ /// @brief Bitwise AND assignment operator. Performs bitwise AND operation on
+ /// this APInt and the given APInt& RHS, assigns the result to this APInt.
+ APInt& operator&=(const APInt& RHS);
+
+ /// @brief Bitwise OR assignment operator. Performs bitwise OR operation on
+ /// this APInt and the given APInt& RHS, assigns the result to this APInt.
+ APInt& operator|=(const APInt& RHS);
+
+ /// @brief Bitwise XOR assignment operator. Performs bitwise XOR operation on
+ /// this APInt and the given APInt& RHS, assigns the result to this APInt.
+ APInt& operator^=(const APInt& RHS);
+
+ /// @brief Left-shift assignment operator. Left-shift the APInt by shiftAmt
+ /// and assigns the result to this APInt.
+ APInt& operator<<=(unsigned shiftAmt);
+
+ /// @brief Right-shift assignment operator. Right-shift the APInt by shiftAmt
+ /// and assigns the result to this APInt.
+ APInt& operator>>=(unsigned shiftAmt);
+
+ /// @brief Bitwise complement operator. Performs a bitwise complement
+ /// operation on this APInt.
+ APInt operator~() const;
+
+ /// @brief Multiplication assignment operator. Multiplies this APInt by the
+ /// given APInt& RHS and assigns the result to this APInt.
+ APInt& operator*=(const APInt& RHS);
+
+ /// @brief Division assignment operator. Divides this APInt by the given APInt
+ /// &RHS and assigns the result to this APInt.
+ APInt& operator/=(const APInt& RHS);
+
+ /// @brief Addition assignment operator. Adds this APInt by the given APInt&
+ /// RHS and assigns the result to this APInt.
+ APInt& operator+=(const APInt& RHS);
+
+ /// @brief Subtraction assignment operator. Subtracts this APInt by the given
+ /// APInt &RHS and assigns the result to this APInt.
+ APInt& operator-=(const APInt& RHS);
+
+ /// @brief Remainder assignment operator. Yields the remainder from the
+ /// division of this APInt by the given APInt& RHS and assigns the remainder
+ /// to this APInt.
+ APInt& operator%=(const APInt& RHS);
+
+ /// @brief Bitwise AND operator. Performs bitwise AND operation on this APInt
+ /// and the given APInt& RHS.
+ APInt operator&(const APInt& RHS) const;
+
+ /// @brief Bitwise OR operator. Performs bitwise OR operation on this APInt
+ /// and the given APInt& RHS.
+ APInt operator|(const APInt& RHS) const;
+
+ /// @brief Bitwise XOR operator. Performs bitwise XOR operation on this APInt
+ /// and the given APInt& RHS.
+ APInt operator^(const APInt& RHS) const;
+
+ /// @brief Logical AND operator. Performs logical AND operation on this APInt
+ /// and the given APInt& RHS.
+ bool operator&&(const APInt& RHS) const;
+
+ /// @brief Logical OR operator. Performs logical OR operation on this APInt
+ /// and the given APInt& RHS.
+ bool operator||(const APInt& RHS) const;
+
+ /// @brief Logical negation operator. Performs logical negation operation on
+ /// this APInt.
+ bool operator !() const;
+
+ /// @brief Multiplication operator. Multiplies this APInt by the given APInt&
+ /// RHS.
+ APInt operator*(const APInt& RHS) const;
+
+ /// @brief Division operator. Divides this APInt by the given APInt& RHS.
+ APInt operator/(const APInt& RHS) const;
+
+ /// @brief Remainder operator. Yields the remainder from the division of this
+ /// APInt and the given APInt& RHS.
+ APInt operator%(const APInt& RHS) const;
+
+ /// @brief Addition operator. Adds this APInt by the given APInt& RHS.
+ APInt operator+(const APInt& RHS) const;
+
+ /// @brief Subtraction operator. Subtracts this APInt by the given APInt& RHS
+ APInt operator-(const APInt& RHS) const;
+
+ /// @brief Left-shift operator. Left-shift the APInt by shiftAmt.
+ APInt operator<<(unsigned shiftAmt) const;
+
+ /// @brief Right-shift operator. Right-shift the APInt by shiftAmt.
+ APInt operator>>(unsigned shiftAmt) const;
+
+ /// @brief Array-indexing support.
+ bool operator[](unsigned bitPosition) const;
+
+ /// @brief Equality operator. Compare this APInt with the given APInt& RHS
+ /// for the validity of the equality relationship.
+ bool operator==(const APInt& RHS) const;
+
+ /// @brief Inequality operator. Compare this APInt with the given APInt& RHS
+ /// for the validity of the inequality relationship.
+ bool operator!=(const APInt& RHS) const;
+
+ /// @brief Less-than operator. Compare this APInt with the given APInt& RHS
+ /// for the validity of the less-than relationship.
+ bool operator <(const APInt& RHS) const;
+
+ /// @brief Less-than-or-equal operator. Compare this APInt with the given
+ /// APInt& RHS for the validity of the less-than-or-equal relationship.
+ bool operator<=(const APInt& RHS) const;
+
+ /// @brief Greater-than operator. Compare this APInt with the given APInt& RHS
+ /// for the validity of the greater-than relationship.
+ bool operator> (const APInt& RHS) const;
+
+ /// @brief Greater-than-or-equal operator. Compare this APInt with the given
+ /// APInt& RHS for the validity of the greater-than-or-equal relationship.
+ bool operator>=(const APInt& RHS) const;
+
+ /// @returns a uint64_t value from this APInt. If this APInt contains a single
+ /// word, just returns VAL, otherwise pVal[0].
+ inline uint64_t getValue() {
+ if (isSingleWord())
+ return isSigned ? ((int64_t(VAL) << (APINT_BITS_PER_WORD - bitsnum)) >>
+ (APINT_BITS_PER_WORD - bitsnum)) :
+ VAL;
+ else
+ return pVal[0];
+ }
+
+ /// @returns the largest value for an APInt of the specified bit-width and
+ /// if isSign == true, it should be largest signed value, otherwise largest
+ /// unsigned value.
+ /// @brief Gets max value of the APInt with bitwidth <= 64.
+ static APInt getMaxValue(unsigned numBits, bool isSign);
+
+ /// @returns the smallest value for an APInt of the given bit-width and
+ /// if isSign == true, it should be smallest signed value, otherwise zero.
+ /// @brief Gets min value of the APInt with bitwidth <= 64.
+ static APInt getMinValue(unsigned numBits, bool isSign);
+
+ /// @returns the all-ones value for an APInt of the specified bit-width.
+ /// @brief Get the all-ones value.
+ static APInt getAllOnesValue(unsigned numBits);
+
+ /// @brief Set every bit to 1.
+ APInt& set();
+
+ /// Set the given bit to 1 whose poition is given as "bitPosition".
+ /// @brief Set a given bit to 1.
+ APInt& set(unsigned bitPosition);
+
+ /// @returns the '0' value for an APInt of the specified bit-width.
+ /// @brief Get the '0' value.
+ static APInt getNullValue(unsigned numBits);
+
+ /// @brief Set every bit to 0.
+ APInt& clear();
+
+ /// Set the given bit to 0 whose position is given as "bitPosition".
+ /// @brief Set a given bit to 0.
+ APInt& clear(unsigned bitPosition);
+
+ /// @brief Toggle every bit to its opposite value.
+ APInt& flip();
+
+ /// Toggle a given bit to its opposite value whose position is given
+ /// as "bitPosition".
+ /// @brief Toggles a given bit to its opposite value.
+ APInt& flip(unsigned bitPosition);
+
+ /// @returns a character interpretation of the APInt.
+ std::string to_string(uint8_t radix = 10) const;
+
+ /// @returns the high "numBits" bits of this APInt.
+ APInt HiBits(unsigned numBits) const;
+
+ /// @returns the low "numBits" bits of this APInt.
+ APInt LoBits(unsigned numBits) const;
+
+ /// @returns true if the argument APInt value is a power of two > 0.
+ inline const bool isPowerOf2() const {
+ return *this && !(*this & (*this - 1));
+ }
+
+ /// @returns the number of zeros from the most significant bit to the first
+ /// one bits.
+ unsigned CountLeadingZeros() const;
+
+ /// @returns the number of zeros from the least significant bit to the first
+ /// one bit.
+ unsigned CountTrailingZeros() const;
+
+ /// @returns the number of set bits.
+ unsigned CountPopulation() const;
+
+ /// @returns the total number of bits.
+ inline unsigned getNumBits() const
+ { return bitsnum; }
+
+};
+
+/// @brief Check if the specified APInt has a N-bits integer value.
+inline bool isIntN(unsigned N, const APInt& APIVal) {
+ if (APIVal.isSingleWord()) {
+ APInt Tmp(N, APIVal.VAL);
+ return Tmp == APIVal;
+ } else {
+ APInt Tmp(N, APIVal.pVal);
+ return Tmp == APIVal;
+ }
+}
+
+/// @returns true if the argument APInt value is a sequence of ones
+/// starting at the least significant bit with the remainder zero.
+inline const bool isMask(unsigned numBits, const APInt& APIVal) {
+ return APIVal && ((APIVal + 1) & APIVal) == 0;
+}
+
+/// @returns true if the argument APInt value contains a sequence of ones
+/// with the remainder zero.
+inline const bool isShiftedMask(unsigned numBits, const APInt& APIVal) {
+ return isMask(numBits, (APIVal - 1) | APIVal);
+}
+
+/// @returns a byte-swapped representation of the specified APInt Value.
+APInt ByteSwap(const APInt& APIVal);
+
+/// @returns the floor log base 2 of the specified APInt value.
+inline APInt LogBase2(const APInt& APIVal) {
+ return APIVal.numWords() * APInt::APINT_BITS_PER_WORD -
+ APIVal.CountLeadingZeros();
+}
+
+/// @returns the greatest common divisor of the two values
+/// using Euclid's algorithm.
+APInt GreatestCommonDivisor(const APInt& API1, const APInt& API2);
+
+/// @returns the bit equivalent double.
+/// If the APInt numBits > 64, truncated first and then convert to double.
+inline double APIntToDouble(const APInt& APIVal) {
+ uint64_t value = APIVal.isSingleWord() ? APIVal.VAL : APIVal.pVal[0];
+ union {
+ uint64_t I;
+ double D;
+ } T;
+ T.I = value;
+ return T.D;
+}
+
+/// @returns the bit equivalent float.
+/// If the APInt numBits > 32, truncated first and then convert to double.
+inline float APIntToFloat(const APInt& APIVal) {
+ unsigned value = APIVal.isSingleWord() ? APIVal.VAL : APIVal.pVal[0];
+ union {
+ unsigned I;
+ float F;
+ } T;
+ T.I = value;
+ return T.F;
+}
+
+/// @returns the bit equivalent APInt.
+inline APInt DoubleToAPInt(double Double) {
+ union {
+ uint64_t L;
+ double D;
+ } T;
+ T.D = Double;
+ return APInt(T.L);
+}
+
+/// @returns the bit equivalent APInt.
+inline APInt FloatToAPInt(float Float) {
+ union {
+ uint32_t I;
+ float F;
+ } T;
+ T.F = Float;
+ return APInt(uint64_t(T.I));
+}
+
+} // End of llvm namespace
+
+#endif
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