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eliminate use of uint32_t to improve compatibility with cygwin

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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@62591 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Chris Lattner
2009-01-20 18:23:14 +00:00
parent 79abedb83a
commit 9981b1f156
1 changed files with 76 additions and 76 deletions
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152
include/llvm/ADT/APInt.h
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@@ -69,7 +69,7 @@ namespace llvm {
/// ///
/// @brief Class for arbitrary precision integers. /// @brief Class for arbitrary precision integers.
class APInt { class APInt {
uint32_t BitWidth; ///< The number of bits in this APInt. unsigned BitWidth; ///< The number of bits in this APInt.
/// This union is used to store the integer value. When the /// This union is used to store the integer value. When the
/// integer bit-width <= 64, it uses VAL, otherwise it uses pVal. /// integer bit-width <= 64, it uses VAL, otherwise it uses pVal.
@@ -89,7 +89,7 @@ class APInt {
/// This constructor is used only internally for speed of construction of /// This constructor is used only internally for speed of construction of
/// temporaries. It is unsafe for general use so it is not public. /// temporaries. It is unsafe for general use so it is not public.
/// @brief Fast internal constructor /// @brief Fast internal constructor
APInt(uint64_t* val, uint32_t bits) : BitWidth(bits), pVal(val) { } APInt(uint64_t* val, unsigned bits) : BitWidth(bits), pVal(val) { }
/// @returns true if the number of bits <= 64, false otherwise. /// @returns true if the number of bits <= 64, false otherwise.
/// @brief Determine if this APInt just has one word to store value. /// @brief Determine if this APInt just has one word to store value.
@@ -99,14 +99,14 @@ class APInt {
/// @returns the word position for the specified bit position. /// @returns the word position for the specified bit position.
/// @brief Determine which word a bit is in. /// @brief Determine which word a bit is in.
static uint32_t whichWord(uint32_t bitPosition) { static unsigned whichWord(unsigned bitPosition) {
return bitPosition / APINT_BITS_PER_WORD; return bitPosition / APINT_BITS_PER_WORD;
} }
/// @returns the bit position in a word for the specified bit position /// @returns the bit position in a word for the specified bit position
/// in the APInt. /// in the APInt.
/// @brief Determine which bit in a word a bit is in. /// @brief Determine which bit in a word a bit is in.
static uint32_t whichBit(uint32_t bitPosition) { static unsigned whichBit(unsigned bitPosition) {
return bitPosition % APINT_BITS_PER_WORD; return bitPosition % APINT_BITS_PER_WORD;
} }
@@ -115,7 +115,7 @@ class APInt {
/// corresponding word. /// corresponding word.
/// @returns a uint64_t with only bit at "whichBit(bitPosition)" set /// @returns a uint64_t with only bit at "whichBit(bitPosition)" set
/// @brief Get a single bit mask. /// @brief Get a single bit mask.
static uint64_t maskBit(uint32_t bitPosition) { static uint64_t maskBit(unsigned bitPosition) {
return 1ULL << whichBit(bitPosition); return 1ULL << whichBit(bitPosition);
} }
@@ -126,7 +126,7 @@ class APInt {
/// @brief Clear unused high order bits /// @brief Clear unused high order bits
APInt& clearUnusedBits() { APInt& clearUnusedBits() {
// Compute how many bits are used in the final word // Compute how many bits are used in the final word
uint32_t wordBits = BitWidth % APINT_BITS_PER_WORD; unsigned wordBits = BitWidth % APINT_BITS_PER_WORD;
if (wordBits == 0) if (wordBits == 0)
// If all bits are used, we want to leave the value alone. This also // If all bits are used, we want to leave the value alone. This also
// avoids the undefined behavior of >> when the shift is the same size as // avoids the undefined behavior of >> when the shift is the same size as
@@ -144,13 +144,13 @@ class APInt {
/// @returns the corresponding word for the specified bit position. /// @returns the corresponding word for the specified bit position.
/// @brief Get the word corresponding to a bit position /// @brief Get the word corresponding to a bit position
uint64_t getWord(uint32_t bitPosition) const { uint64_t getWord(unsigned bitPosition) const {
return isSingleWord() ? VAL : pVal[whichWord(bitPosition)]; return isSingleWord() ? VAL : pVal[whichWord(bitPosition)];
} }
/// This is used by the constructors that take string arguments. /// This is used by the constructors that take string arguments.
/// @brief Convert a char array into an APInt /// @brief Convert a char array into an APInt
void fromString(uint32_t numBits, const char *strStart, uint32_t slen, void fromString(unsigned numBits, const char *strStart, unsigned slen,
uint8_t radix); uint8_t radix);
/// This is used by the toString method to divide by the radix. It simply /// This is used by the toString method to divide by the radix. It simply
@@ -158,18 +158,18 @@ class APInt {
/// has specific constraints on its inputs. If those constraints are not met /// has specific constraints on its inputs. If those constraints are not met
/// then it provides a simpler form of divide. /// then it provides a simpler form of divide.
/// @brief An internal division function for dividing APInts. /// @brief An internal division function for dividing APInts.
static void divide(const APInt LHS, uint32_t lhsWords, static void divide(const APInt LHS, unsigned lhsWords,
const APInt &RHS, uint32_t rhsWords, const APInt &RHS, unsigned rhsWords,
APInt *Quotient, APInt *Remainder); APInt *Quotient, APInt *Remainder);
/// out-of-line slow case for inline constructor /// out-of-line slow case for inline constructor
void initSlowCase(uint32_t numBits, uint64_t val, bool isSigned); void initSlowCase(unsigned numBits, uint64_t val, bool isSigned);
/// out-of-line slow case for inline copy constructor /// out-of-line slow case for inline copy constructor
void initSlowCase(const APInt& that); void initSlowCase(const APInt& that);
/// out-of-line slow case for shl /// out-of-line slow case for shl
APInt shlSlowCase(uint32_t shiftAmt) const; APInt shlSlowCase(unsigned shiftAmt) const;
/// out-of-line slow case for operator& /// out-of-line slow case for operator&
APInt AndSlowCase(const APInt& RHS) const; APInt AndSlowCase(const APInt& RHS) const;
@@ -190,13 +190,13 @@ class APInt {
bool EqualSlowCase(uint64_t Val) const; bool EqualSlowCase(uint64_t Val) const;
/// out-of-line slow case for countLeadingZeros /// out-of-line slow case for countLeadingZeros
uint32_t countLeadingZerosSlowCase() const; unsigned countLeadingZerosSlowCase() const;
/// out-of-line slow case for countTrailingOnes /// out-of-line slow case for countTrailingOnes
uint32_t countTrailingOnesSlowCase() const; unsigned countTrailingOnesSlowCase() const;
/// out-of-line slow case for countPopulation /// out-of-line slow case for countPopulation
uint32_t countPopulationSlowCase() const; unsigned countPopulationSlowCase() const;
public: public:
/// @name Constructors /// @name Constructors
@@ -209,7 +209,7 @@ public:
/// @param val the initial value of the APInt /// @param val the initial value of the APInt
/// @param isSigned how to treat signedness of val /// @param isSigned how to treat signedness of val
/// @brief Create a new APInt of numBits width, initialized as val. /// @brief Create a new APInt of numBits width, initialized as val.
APInt(uint32_t numBits, uint64_t val, bool isSigned = false) APInt(unsigned numBits, uint64_t val, bool isSigned = false)
: BitWidth(numBits), VAL(0) { : BitWidth(numBits), VAL(0) {
assert(BitWidth && "bitwidth too small"); assert(BitWidth && "bitwidth too small");
if (isSingleWord()) if (isSingleWord())
@@ -225,7 +225,7 @@ public:
/// @param numWords the number of words in bigVal /// @param numWords the number of words in bigVal
/// @param bigVal a sequence of words to form the initial value of the APInt /// @param bigVal a sequence of words to form the initial value of the APInt
/// @brief Construct an APInt of numBits width, initialized as bigVal[]. /// @brief Construct an APInt of numBits width, initialized as bigVal[].
APInt(uint32_t numBits, uint32_t numWords, const uint64_t bigVal[]); APInt(unsigned numBits, unsigned numWords, const uint64_t bigVal[]);
/// This constructor interprets the slen characters starting at StrStart as /// This constructor interprets the slen characters starting at StrStart as
/// a string in the given radix. The interpretation stops when the first /// a string in the given radix. The interpretation stops when the first
@@ -237,7 +237,7 @@ public:
/// @param slen the maximum number of characters to interpret /// @param slen the maximum number of characters to interpret
/// @param radix the radix to use for the conversion /// @param radix the radix to use for the conversion
/// @brief Construct an APInt from a string representation. /// @brief Construct an APInt from a string representation.
APInt(uint32_t numBits, const char strStart[], uint32_t slen, uint8_t radix); APInt(unsigned numBits, const char strStart[], unsigned slen, uint8_t radix);
/// Simply makes *this a copy of that. /// Simply makes *this a copy of that.
/// @brief Copy Constructor. /// @brief Copy Constructor.
@@ -331,7 +331,7 @@ public:
} }
/// @brief Check if this APInt has an N-bits unsigned integer value. /// @brief Check if this APInt has an N-bits unsigned integer value.
bool isIntN(uint32_t N) const { bool isIntN(unsigned N) const {
assert(N && "N == 0 ???"); assert(N && "N == 0 ???");
if (N >= getBitWidth()) if (N >= getBitWidth())
return true; return true;
@@ -344,7 +344,7 @@ public:
} }
/// @brief Check if this APInt has an N-bits signed integer value. /// @brief Check if this APInt has an N-bits signed integer value.
bool isSignedIntN(uint32_t N) const { bool isSignedIntN(unsigned N) const {
assert(N && "N == 0 ???"); assert(N && "N == 0 ???");
return getMinSignedBits() <= N; return getMinSignedBits() <= N;
} }
@@ -373,53 +373,53 @@ public:
/// @name Value Generators /// @name Value Generators
/// @{ /// @{
/// @brief Gets maximum unsigned value of APInt for specific bit width. /// @brief Gets maximum unsigned value of APInt for specific bit width.
static APInt getMaxValue(uint32_t numBits) { static APInt getMaxValue(unsigned numBits) {
return APInt(numBits, 0).set(); return APInt(numBits, 0).set();
} }
/// @brief Gets maximum signed value of APInt for a specific bit width. /// @brief Gets maximum signed value of APInt for a specific bit width.
static APInt getSignedMaxValue(uint32_t numBits) { static APInt getSignedMaxValue(unsigned numBits) {
return APInt(numBits, 0).set().clear(numBits - 1); return APInt(numBits, 0).set().clear(numBits - 1);
} }
/// @brief Gets minimum unsigned value of APInt for a specific bit width. /// @brief Gets minimum unsigned value of APInt for a specific bit width.
static APInt getMinValue(uint32_t numBits) { static APInt getMinValue(unsigned numBits) {
return APInt(numBits, 0); return APInt(numBits, 0);
} }
/// @brief Gets minimum signed value of APInt for a specific bit width. /// @brief Gets minimum signed value of APInt for a specific bit width.
static APInt getSignedMinValue(uint32_t numBits) { static APInt getSignedMinValue(unsigned numBits) {
return APInt(numBits, 0).set(numBits - 1); return APInt(numBits, 0).set(numBits - 1);
} }
/// getSignBit - This is just a wrapper function of getSignedMinValue(), and /// getSignBit - This is just a wrapper function of getSignedMinValue(), and
/// it helps code readability when we want to get a SignBit. /// it helps code readability when we want to get a SignBit.
/// @brief Get the SignBit for a specific bit width. /// @brief Get the SignBit for a specific bit width.
static APInt getSignBit(uint32_t BitWidth) { static APInt getSignBit(unsigned BitWidth) {
return getSignedMinValue(BitWidth); return getSignedMinValue(BitWidth);
} }
/// @returns the all-ones value for an APInt of the specified bit-width. /// @returns the all-ones value for an APInt of the specified bit-width.
/// @brief Get the all-ones value. /// @brief Get the all-ones value.
static APInt getAllOnesValue(uint32_t numBits) { static APInt getAllOnesValue(unsigned numBits) {
return APInt(numBits, 0).set(); return APInt(numBits, 0).set();
} }
/// @returns the '0' value for an APInt of the specified bit-width. /// @returns the '0' value for an APInt of the specified bit-width.
/// @brief Get the '0' value. /// @brief Get the '0' value.
static APInt getNullValue(uint32_t numBits) { static APInt getNullValue(unsigned numBits) {
return APInt(numBits, 0); return APInt(numBits, 0);
} }
/// Get an APInt with the same BitWidth as this APInt, just zero mask /// Get an APInt with the same BitWidth as this APInt, just zero mask
/// the low bits and right shift to the least significant bit. /// the low bits and right shift to the least significant bit.
/// @returns the high "numBits" bits of this APInt. /// @returns the high "numBits" bits of this APInt.
APInt getHiBits(uint32_t numBits) const; APInt getHiBits(unsigned numBits) const;
/// Get an APInt with the same BitWidth as this APInt, just zero mask /// Get an APInt with the same BitWidth as this APInt, just zero mask
/// the high bits. /// the high bits.
/// @returns the low "numBits" bits of this APInt. /// @returns the low "numBits" bits of this APInt.
APInt getLoBits(uint32_t numBits) const; APInt getLoBits(unsigned numBits) const;
/// Constructs an APInt value that has a contiguous range of bits set. The /// Constructs an APInt value that has a contiguous range of bits set. The
/// bits from loBit (inclusive) to hiBit (exclusive) will be set. All other /// bits from loBit (inclusive) to hiBit (exclusive) will be set. All other
@@ -431,7 +431,7 @@ public:
/// @param hiBit the index of the highest bit set. /// @param hiBit the index of the highest bit set.
/// @returns An APInt value with the requested bits set. /// @returns An APInt value with the requested bits set.
/// @brief Get a value with a block of bits set. /// @brief Get a value with a block of bits set.
static APInt getBitsSet(uint32_t numBits, uint32_t loBit, uint32_t hiBit) { static APInt getBitsSet(unsigned numBits, unsigned loBit, unsigned hiBit) {
assert(hiBit <= numBits && "hiBit out of range"); assert(hiBit <= numBits && "hiBit out of range");
assert(loBit < numBits && "loBit out of range"); assert(loBit < numBits && "loBit out of range");
if (hiBit < loBit) if (hiBit < loBit)
@@ -444,12 +444,12 @@ public:
/// @param numBits the bitwidth of the result /// @param numBits the bitwidth of the result
/// @param hiBitsSet the number of high-order bits set in the result. /// @param hiBitsSet the number of high-order bits set in the result.
/// @brief Get a value with high bits set /// @brief Get a value with high bits set
static APInt getHighBitsSet(uint32_t numBits, uint32_t hiBitsSet) { static APInt getHighBitsSet(unsigned numBits, unsigned hiBitsSet) {
assert(hiBitsSet <= numBits && "Too many bits to set!"); assert(hiBitsSet <= numBits && "Too many bits to set!");
// Handle a degenerate case, to avoid shifting by word size // Handle a degenerate case, to avoid shifting by word size
if (hiBitsSet == 0) if (hiBitsSet == 0)
return APInt(numBits, 0); return APInt(numBits, 0);
uint32_t shiftAmt = numBits - hiBitsSet; unsigned shiftAmt = numBits - hiBitsSet;
// For small values, return quickly // For small values, return quickly
if (numBits <= APINT_BITS_PER_WORD) if (numBits <= APINT_BITS_PER_WORD)
return APInt(numBits, ~0ULL << shiftAmt); return APInt(numBits, ~0ULL << shiftAmt);
@@ -460,7 +460,7 @@ public:
/// @param numBits the bitwidth of the result /// @param numBits the bitwidth of the result
/// @param loBitsSet the number of low-order bits set in the result. /// @param loBitsSet the number of low-order bits set in the result.
/// @brief Get a value with low bits set /// @brief Get a value with low bits set
static APInt getLowBitsSet(uint32_t numBits, uint32_t loBitsSet) { static APInt getLowBitsSet(unsigned numBits, unsigned loBitsSet) {
assert(loBitsSet <= numBits && "Too many bits to set!"); assert(loBitsSet <= numBits && "Too many bits to set!");
// Handle a degenerate case, to avoid shifting by word size // Handle a degenerate case, to avoid shifting by word size
if (loBitsSet == 0) if (loBitsSet == 0)
@@ -594,7 +594,7 @@ public:
/// Shifts *this left by shiftAmt and assigns the result to *this. /// Shifts *this left by shiftAmt and assigns the result to *this.
/// @returns *this after shifting left by shiftAmt /// @returns *this after shifting left by shiftAmt
/// @brief Left-shift assignment function. /// @brief Left-shift assignment function.
APInt& operator<<=(uint32_t shiftAmt) { APInt& operator<<=(unsigned shiftAmt) {
*this = shl(shiftAmt); *this = shl(shiftAmt);
return *this; return *this;
} }
@@ -669,15 +669,15 @@ public:
/// Arithmetic right-shift this APInt by shiftAmt. /// Arithmetic right-shift this APInt by shiftAmt.
/// @brief Arithmetic right-shift function. /// @brief Arithmetic right-shift function.
APInt ashr(uint32_t shiftAmt) const; APInt ashr(unsigned shiftAmt) const;
/// Logical right-shift this APInt by shiftAmt. /// Logical right-shift this APInt by shiftAmt.
/// @brief Logical right-shift function. /// @brief Logical right-shift function.
APInt lshr(uint32_t shiftAmt) const; APInt lshr(unsigned shiftAmt) const;
/// Left-shift this APInt by shiftAmt. /// Left-shift this APInt by shiftAmt.
/// @brief Left-shift function. /// @brief Left-shift function.
APInt shl(uint32_t shiftAmt) const { APInt shl(unsigned shiftAmt) const {
assert(shiftAmt <= BitWidth && "Invalid shift amount"); assert(shiftAmt <= BitWidth && "Invalid shift amount");
if (isSingleWord()) { if (isSingleWord()) {
if (shiftAmt == BitWidth) if (shiftAmt == BitWidth)
@@ -688,10 +688,10 @@ public:
} }
/// @brief Rotate left by rotateAmt. /// @brief Rotate left by rotateAmt.
APInt rotl(uint32_t rotateAmt) const; APInt rotl(unsigned rotateAmt) const;
/// @brief Rotate right by rotateAmt. /// @brief Rotate right by rotateAmt.
APInt rotr(uint32_t rotateAmt) const; APInt rotr(unsigned rotateAmt) const;
/// Arithmetic right-shift this APInt by shiftAmt. /// Arithmetic right-shift this APInt by shiftAmt.
/// @brief Arithmetic right-shift function. /// @brief Arithmetic right-shift function.
@@ -781,7 +781,7 @@ public:
/// @returns the bit value at bitPosition /// @returns the bit value at bitPosition
/// @brief Array-indexing support. /// @brief Array-indexing support.
bool operator[](uint32_t bitPosition) const; bool operator[](unsigned bitPosition) const;
/// @} /// @}
/// @name Comparison Operators /// @name Comparison Operators
@@ -910,30 +910,30 @@ public:
/// Truncate the APInt to a specified width. It is an error to specify a width /// Truncate the APInt to a specified width. It is an error to specify a width
/// that is greater than or equal to the current width. /// that is greater than or equal to the current width.
/// @brief Truncate to new width. /// @brief Truncate to new width.
APInt &trunc(uint32_t width); APInt &trunc(unsigned width);
/// This operation sign extends the APInt to a new width. If the high order /// This operation sign extends the APInt to a new width. If the high order
/// bit is set, the fill on the left will be done with 1 bits, otherwise zero. /// bit is set, the fill on the left will be done with 1 bits, otherwise zero.
/// It is an error to specify a width that is less than or equal to the /// It is an error to specify a width that is less than or equal to the
/// current width. /// current width.
/// @brief Sign extend to a new width. /// @brief Sign extend to a new width.
APInt &sext(uint32_t width); APInt &sext(unsigned width);
/// This operation zero extends the APInt to a new width. The high order bits /// This operation zero extends the APInt to a new width. The high order bits
/// are filled with 0 bits. It is an error to specify a width that is less /// are filled with 0 bits. It is an error to specify a width that is less
/// than or equal to the current width. /// than or equal to the current width.
/// @brief Zero extend to a new width. /// @brief Zero extend to a new width.
APInt &zext(uint32_t width); APInt &zext(unsigned width);
/// Make this APInt have the bit width given by \p width. The value is sign /// Make this APInt have the bit width given by \p width. The value is sign
/// extended, truncated, or left alone to make it that width. /// extended, truncated, or left alone to make it that width.
/// @brief Sign extend or truncate to width /// @brief Sign extend or truncate to width
APInt &sextOrTrunc(uint32_t width); APInt &sextOrTrunc(unsigned width);
/// Make this APInt have the bit width given by \p width. The value is zero /// Make this APInt have the bit width given by \p width. The value is zero
/// extended, truncated, or left alone to make it that width. /// extended, truncated, or left alone to make it that width.
/// @brief Zero extend or truncate to width /// @brief Zero extend or truncate to width
APInt &zextOrTrunc(uint32_t width); APInt &zextOrTrunc(unsigned width);
/// @} /// @}
/// @name Bit Manipulation Operators /// @name Bit Manipulation Operators
@@ -946,7 +946,7 @@ public:
} }
// Set all the bits in all the words. // Set all the bits in all the words.
for (uint32_t i = 0; i < getNumWords(); ++i) for (unsigned i = 0; i < getNumWords(); ++i)
pVal[i] = -1ULL; pVal[i] = -1ULL;
// Clear the unused ones // Clear the unused ones
return clearUnusedBits(); return clearUnusedBits();
@@ -954,7 +954,7 @@ public:
/// Set the given bit to 1 whose position is given as "bitPosition". /// Set the given bit to 1 whose position is given as "bitPosition".
/// @brief Set a given bit to 1. /// @brief Set a given bit to 1.
APInt& set(uint32_t bitPosition); APInt& set(unsigned bitPosition);
/// @brief Set every bit to 0. /// @brief Set every bit to 0.
APInt& clear() { APInt& clear() {
@@ -967,7 +967,7 @@ public:
/// Set the given bit to 0 whose position is given as "bitPosition". /// Set the given bit to 0 whose position is given as "bitPosition".
/// @brief Set a given bit to 0. /// @brief Set a given bit to 0.
APInt& clear(uint32_t bitPosition); APInt& clear(unsigned bitPosition);
/// @brief Toggle every bit to its opposite value. /// @brief Toggle every bit to its opposite value.
APInt& flip() { APInt& flip() {
@@ -975,7 +975,7 @@ public:
VAL ^= -1ULL; VAL ^= -1ULL;
return clearUnusedBits(); return clearUnusedBits();
} }
for (uint32_t i = 0; i < getNumWords(); ++i) for (unsigned i = 0; i < getNumWords(); ++i)
pVal[i] ^= -1ULL; pVal[i] ^= -1ULL;
return clearUnusedBits(); return clearUnusedBits();
} }
@@ -983,21 +983,21 @@ public:
/// Toggle a given bit to its opposite value whose position is given /// Toggle a given bit to its opposite value whose position is given
/// as "bitPosition". /// as "bitPosition".
/// @brief Toggles a given bit to its opposite value. /// @brief Toggles a given bit to its opposite value.
APInt& flip(uint32_t bitPosition); APInt& flip(unsigned bitPosition);
/// @} /// @}
/// @name Value Characterization Functions /// @name Value Characterization Functions
/// @{ /// @{
/// @returns the total number of bits. /// @returns the total number of bits.
uint32_t getBitWidth() const { unsigned getBitWidth() const {
return BitWidth; return BitWidth;
} }
/// Here one word's bitwidth equals to that of uint64_t. /// Here one word's bitwidth equals to that of uint64_t.
/// @returns the number of words to hold the integer value of this APInt. /// @returns the number of words to hold the integer value of this APInt.
/// @brief Get the number of words. /// @brief Get the number of words.
uint32_t getNumWords() const { unsigned getNumWords() const {
return (BitWidth + APINT_BITS_PER_WORD - 1) / APINT_BITS_PER_WORD; return (BitWidth + APINT_BITS_PER_WORD - 1) / APINT_BITS_PER_WORD;
} }
@@ -1005,14 +1005,14 @@ public:
/// bit width minus the number of leading zeros. This is used in several /// bit width minus the number of leading zeros. This is used in several
/// computations to see how "wide" the value is. /// computations to see how "wide" the value is.
/// @brief Compute the number of active bits in the value /// @brief Compute the number of active bits in the value
uint32_t getActiveBits() const { unsigned getActiveBits() const {
return BitWidth - countLeadingZeros(); return BitWidth - countLeadingZeros();
} }
/// This function returns the number of active words in the value of this /// This function returns the number of active words in the value of this
/// APInt. This is used in conjunction with getActiveData to extract the raw /// APInt. This is used in conjunction with getActiveData to extract the raw
/// value of the APInt. /// value of the APInt.
uint32_t getActiveWords() const { unsigned getActiveWords() const {
return whichWord(getActiveBits()-1) + 1; return whichWord(getActiveBits()-1) + 1;
} }
@@ -1023,7 +1023,7 @@ public:
/// example, -1 can be written as 0b1 or 0xFFFFFFFFFF. 0b1 is shorter and so /// example, -1 can be written as 0b1 or 0xFFFFFFFFFF. 0b1 is shorter and so
/// for -1, this function will always return 1. /// for -1, this function will always return 1.
/// @brief Get the minimum bit size for this signed APInt /// @brief Get the minimum bit size for this signed APInt
uint32_t getMinSignedBits() const { unsigned getMinSignedBits() const {
if (isNegative()) if (isNegative())
return BitWidth - countLeadingOnes() + 1; return BitWidth - countLeadingOnes() + 1;
return getActiveBits()+1; return getActiveBits()+1;
@@ -1055,7 +1055,7 @@ public:
/// This method determines how many bits are required to hold the APInt /// This method determines how many bits are required to hold the APInt
/// equivalent of the string given by \p str of length \p slen. /// equivalent of the string given by \p str of length \p slen.
/// @brief Get bits required for string value. /// @brief Get bits required for string value.
static uint32_t getBitsNeeded(const char* str, uint32_t slen, uint8_t radix); static unsigned getBitsNeeded(const char* str, unsigned slen, uint8_t radix);
/// countLeadingZeros - This function is an APInt version of the /// countLeadingZeros - This function is an APInt version of the
/// countLeadingZeros_{32,64} functions in MathExtras.h. It counts the number /// countLeadingZeros_{32,64} functions in MathExtras.h. It counts the number
@@ -1063,9 +1063,9 @@ public:
/// @returns BitWidth if the value is zero. /// @returns BitWidth if the value is zero.
/// @returns the number of zeros from the most significant bit to the first /// @returns the number of zeros from the most significant bit to the first
/// one bits. /// one bits.
uint32_t countLeadingZeros() const { unsigned countLeadingZeros() const {
if (isSingleWord()) { if (isSingleWord()) {
uint32_t unusedBits = APINT_BITS_PER_WORD - BitWidth; unsigned unusedBits = APINT_BITS_PER_WORD - BitWidth;
return CountLeadingZeros_64(VAL) - unusedBits; return CountLeadingZeros_64(VAL) - unusedBits;
} }
return countLeadingZerosSlowCase(); return countLeadingZerosSlowCase();
@@ -1077,7 +1077,7 @@ public:
/// @returns 0 if the high order bit is not set /// @returns 0 if the high order bit is not set
/// @returns the number of 1 bits from the most significant to the least /// @returns the number of 1 bits from the most significant to the least
/// @brief Count the number of leading one bits. /// @brief Count the number of leading one bits.
uint32_t countLeadingOnes() const; unsigned countLeadingOnes() const;
/// countTrailingZeros - This function is an APInt version of the /// countTrailingZeros - This function is an APInt version of the
/// countTrailingZeros_{32,64} functions in MathExtras.h. It counts /// countTrailingZeros_{32,64} functions in MathExtras.h. It counts
@@ -1086,7 +1086,7 @@ public:
/// @returns the number of zeros from the least significant bit to the first /// @returns the number of zeros from the least significant bit to the first
/// one bit. /// one bit.
/// @brief Count the number of trailing zero bits. /// @brief Count the number of trailing zero bits.
uint32_t countTrailingZeros() const; unsigned countTrailingZeros() const;
/// countTrailingOnes - This function is an APInt version of the /// countTrailingOnes - This function is an APInt version of the
/// countTrailingOnes_{32,64} functions in MathExtras.h. It counts /// countTrailingOnes_{32,64} functions in MathExtras.h. It counts
@@ -1095,7 +1095,7 @@ public:
/// @returns the number of ones from the least significant bit to the first /// @returns the number of ones from the least significant bit to the first
/// zero bit. /// zero bit.
/// @brief Count the number of trailing one bits. /// @brief Count the number of trailing one bits.
uint32_t countTrailingOnes() const { unsigned countTrailingOnes() const {
if (isSingleWord()) if (isSingleWord())
return CountTrailingOnes_64(VAL); return CountTrailingOnes_64(VAL);
return countTrailingOnesSlowCase(); return countTrailingOnesSlowCase();
@@ -1107,7 +1107,7 @@ public:
/// @returns 0 if the value is zero. /// @returns 0 if the value is zero.
/// @returns the number of set bits. /// @returns the number of set bits.
/// @brief Count the number of bits set. /// @brief Count the number of bits set.
uint32_t countPopulation() const { unsigned countPopulation() const {
if (isSingleWord()) if (isSingleWord())
return CountPopulation_64(VAL); return CountPopulation_64(VAL);
return countPopulationSlowCase(); return countPopulationSlowCase();
@@ -1175,10 +1175,10 @@ public:
/// @brief Converts APInt bits to a double /// @brief Converts APInt bits to a double
float bitsToFloat() const { float bitsToFloat() const {
union { union {
uint32_t I; unsigned I;
float F; float F;
} T; } T;
T.I = uint32_t((isSingleWord() ? VAL : pVal[0])); T.I = unsigned((isSingleWord() ? VAL : pVal[0]));
return T.F; return T.F;
} }
@@ -1205,7 +1205,7 @@ public:
/// @brief Converts a float to APInt bits. /// @brief Converts a float to APInt bits.
APInt& floatToBits(float V) { APInt& floatToBits(float V) {
union { union {
uint32_t I; unsigned I;
float F; float F;
} T; } T;
T.F = V; T.F = V;
@@ -1221,7 +1221,7 @@ public:
/// @{ /// @{
/// @returns the floor log base 2 of this APInt. /// @returns the floor log base 2 of this APInt.
uint32_t logBase2() const { unsigned logBase2() const {
return BitWidth - 1 - countLeadingZeros(); return BitWidth - 1 - countLeadingZeros();
} }
@@ -1413,25 +1413,25 @@ inline APInt umax(const APInt &A, const APInt &B) {
} }
/// @brief Check if the specified APInt has a N-bits unsigned integer value. /// @brief Check if the specified APInt has a N-bits unsigned integer value.
inline bool isIntN(uint32_t N, const APInt& APIVal) { inline bool isIntN(unsigned N, const APInt& APIVal) {
return APIVal.isIntN(N); return APIVal.isIntN(N);
} }
/// @brief Check if the specified APInt has a N-bits signed integer value. /// @brief Check if the specified APInt has a N-bits signed integer value.
inline bool isSignedIntN(uint32_t N, const APInt& APIVal) { inline bool isSignedIntN(unsigned N, const APInt& APIVal) {
return APIVal.isSignedIntN(N); return APIVal.isSignedIntN(N);
} }
/// @returns true if the argument APInt value is a sequence of ones /// @returns true if the argument APInt value is a sequence of ones
/// starting at the least significant bit with the remainder zero. /// starting at the least significant bit with the remainder zero.
inline bool isMask(uint32_t numBits, const APInt& APIVal) { inline bool isMask(unsigned numBits, const APInt& APIVal) {
return numBits <= APIVal.getBitWidth() && return numBits <= APIVal.getBitWidth() &&
APIVal == APInt::getLowBitsSet(APIVal.getBitWidth(), numBits); APIVal == APInt::getLowBitsSet(APIVal.getBitWidth(), numBits);
} }
/// @returns true if the argument APInt value contains a sequence of ones /// @returns true if the argument APInt value contains a sequence of ones
/// with the remainder zero. /// with the remainder zero.
inline bool isShiftedMask(uint32_t numBits, const APInt& APIVal) { inline bool isShiftedMask(unsigned numBits, const APInt& APIVal) {
return isMask(numBits, (APIVal - APInt(numBits,1)) | APIVal); return isMask(numBits, (APIVal - APInt(numBits,1)) | APIVal);
} }
@@ -1441,7 +1441,7 @@ inline APInt byteSwap(const APInt& APIVal) {
} }
/// @returns the floor log base 2 of the specified APInt value. /// @returns the floor log base 2 of the specified APInt value.
inline uint32_t logBase2(const APInt& APIVal) { inline unsigned logBase2(const APInt& APIVal) {
return APIVal.logBase2(); return APIVal.logBase2();
} }
@@ -1476,29 +1476,29 @@ inline float RoundSignedAPIntToFloat(const APInt& APIVal) {
/// RoundDoubleToAPInt - This function convert a double value to an APInt value. /// RoundDoubleToAPInt - This function convert a double value to an APInt value.
/// @brief Converts the given double value into a APInt. /// @brief Converts the given double value into a APInt.
APInt RoundDoubleToAPInt(double Double, uint32_t width); APInt RoundDoubleToAPInt(double Double, unsigned width);
/// RoundFloatToAPInt - Converts a float value into an APInt value. /// RoundFloatToAPInt - Converts a float value into an APInt value.
/// @brief Converts a float value into a APInt. /// @brief Converts a float value into a APInt.
inline APInt RoundFloatToAPInt(float Float, uint32_t width) { inline APInt RoundFloatToAPInt(float Float, unsigned width) {
return RoundDoubleToAPInt(double(Float), width); return RoundDoubleToAPInt(double(Float), width);
} }
/// Arithmetic right-shift the APInt by shiftAmt. /// Arithmetic right-shift the APInt by shiftAmt.
/// @brief Arithmetic right-shift function. /// @brief Arithmetic right-shift function.
inline APInt ashr(const APInt& LHS, uint32_t shiftAmt) { inline APInt ashr(const APInt& LHS, unsigned shiftAmt) {
return LHS.ashr(shiftAmt); return LHS.ashr(shiftAmt);
} }
/// Logical right-shift the APInt by shiftAmt. /// Logical right-shift the APInt by shiftAmt.
/// @brief Logical right-shift function. /// @brief Logical right-shift function.
inline APInt lshr(const APInt& LHS, uint32_t shiftAmt) { inline APInt lshr(const APInt& LHS, unsigned shiftAmt) {
return LHS.lshr(shiftAmt); return LHS.lshr(shiftAmt);
} }
/// Left-shift the APInt by shiftAmt. /// Left-shift the APInt by shiftAmt.
/// @brief Left-shift function. /// @brief Left-shift function.
inline APInt shl(const APInt& LHS, uint32_t shiftAmt) { inline APInt shl(const APInt& LHS, unsigned shiftAmt) {
return LHS.shl(shiftAmt); return LHS.shl(shiftAmt);
} }