//
//===----------------------------------------------------------------------===//
-#define DEBUG_TYPE "apint"
#include "llvm/ADT/APInt.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/Hashing.h"
#include <limits>
using namespace llvm;
+#define DEBUG_TYPE "apint"
+
/// A utility function for allocating memory, checking for allocation failures,
/// and ensuring the contents are zeroed.
inline static uint64_t* getClearedMemory(unsigned numWords) {
else setBit(bitPosition);
}
-bool APInt::extractBit(unsigned bitPosition) const {
- assert(bitPosition < BitWidth && "Out of the bit-width range!");
- if (isSingleWord())
- return VAL & maskBit(bitPosition);
- else
- return pVal[whichWord(bitPosition)] & maskBit(bitPosition);
-}
-
unsigned APInt::getBitsNeeded(StringRef str, uint8_t radix) {
assert(!str.empty() && "Invalid string length");
assert((radix == 10 || radix == 8 || radix == 16 || radix == 2 ||
// to include in this word.
val[breakWord] = pVal[breakWord+offset] >> wordShift;
- // Deal with sign extenstion in the break word, and possibly the word before
+ // Deal with sign extension in the break word, and possibly the word before
// it.
if (isNegative()) {
if (wordShift > bitsInWord) {
// Allocate space for the temporary values we need either on the stack, if
// it will fit, or on the heap if it won't.
unsigned SPACE[128];
- unsigned *U = 0;
- unsigned *V = 0;
- unsigned *Q = 0;
- unsigned *R = 0;
+ unsigned *U = nullptr;
+ unsigned *V = nullptr;
+ unsigned *Q = nullptr;
+ unsigned *R = nullptr;
if ((Remainder?4:3)*n+2*m+1 <= 128) {
U = &SPACE[0];
V = &SPACE[m+n+1];
// We have to compute it the hard way. Invoke the Knuth divide algorithm.
APInt Quotient(1,0); // to hold result.
- divide(*this, lhsWords, RHS, rhsWords, &Quotient, 0);
+ divide(*this, lhsWords, RHS, rhsWords, &Quotient, nullptr);
return Quotient;
}
// We have to compute it the hard way. Invoke the Knuth divide algorithm.
APInt Remainder(1,0);
- divide(*this, lhsWords, RHS, rhsWords, 0, &Remainder);
+ divide(*this, lhsWords, RHS, rhsWords, nullptr, &Remainder);
return Remainder;
}