#include "llvm/Support/MathExtras.h"
#include "llvm/Support/raw_ostream.h"
#include <cmath>
-#include <limits>
-#include <cstring>
#include <cstdlib>
+#include <cstring>
+#include <limits>
using namespace llvm;
/// A utility function for allocating memory, checking for allocation failures,
return APInt(val, getBitWidth()).clearUnusedBits();
}
-bool APInt::operator !() const {
- if (isSingleWord())
- return !VAL;
-
- for (unsigned i = 0; i < getNumWords(); ++i)
- if (pVal[i])
- return false;
- return true;
-}
-
APInt APInt::operator*(const APInt& RHS) const {
assert(BitWidth == RHS.BitWidth && "Bit widths must be the same");
if (isSingleWord())
return Result.clearUnusedBits();
}
-bool APInt::operator[](unsigned bitPosition) const {
- assert(bitPosition < getBitWidth() && "Bit position out of bounds!");
- return (maskBit(bitPosition) &
- (isSingleWord() ? VAL : pVal[whichWord(bitPosition)])) != 0;
-}
-
bool APInt::EqualSlowCase(const APInt& RHS) const {
// Get some facts about the number of bits used in the two operands.
unsigned n1 = getActiveBits();
// If all the bits were shifted out, the result is 0. This avoids issues
// with shifting by the size of the integer type, which produces undefined
// results. We define these "undefined results" to always be 0.
- if (shiftAmt == BitWidth)
+ if (shiftAmt >= BitWidth)
return APInt(BitWidth, 0);
// If none of the bits are shifted out, the result is *this. This avoids
APInt signedMin = APInt::getSignedMinValue(d.getBitWidth());
APInt signedMax = APInt::getSignedMaxValue(d.getBitWidth());
- nc = allOnes - (-d).urem(d);
+ nc = allOnes - (allOnes - d).urem(d);
p = d.getBitWidth() - 1; // initialize p
q1 = signedMin.udiv(nc); // initialize q1 = 2p/nc
r1 = signedMin - q1*nc; // initialize r1 = rem(2p,nc)
return Quotient;
}
+APInt APInt::sdiv(const APInt &RHS) const {
+ if (isNegative()) {
+ if (RHS.isNegative())
+ return (-(*this)).udiv(-RHS);
+ return -((-(*this)).udiv(RHS));
+ }
+ if (RHS.isNegative())
+ return -(this->udiv(-RHS));
+ return this->udiv(RHS);
+}
+
APInt APInt::urem(const APInt& RHS) const {
assert(BitWidth == RHS.BitWidth && "Bit widths must be the same");
if (isSingleWord()) {
return Remainder;
}
+APInt APInt::srem(const APInt &RHS) const {
+ if (isNegative()) {
+ if (RHS.isNegative())
+ return -((-(*this)).urem(-RHS));
+ return -((-(*this)).urem(RHS));
+ }
+ if (RHS.isNegative())
+ return this->urem(-RHS);
+ return this->urem(RHS);
+}
+
void APInt::udivrem(const APInt &LHS, const APInt &RHS,
APInt &Quotient, APInt &Remainder) {
// Get some size facts about the dividend and divisor
divide(LHS, lhsWords, RHS, rhsWords, &Quotient, &Remainder);
}
+void APInt::sdivrem(const APInt &LHS, const APInt &RHS,
+ APInt &Quotient, APInt &Remainder) {
+ if (LHS.isNegative()) {
+ if (RHS.isNegative())
+ APInt::udivrem(-LHS, -RHS, Quotient, Remainder);
+ else {
+ APInt::udivrem(-LHS, RHS, Quotient, Remainder);
+ Quotient = -Quotient;
+ }
+ Remainder = -Remainder;
+ } else if (RHS.isNegative()) {
+ APInt::udivrem(LHS, -RHS, Quotient, Remainder);
+ Quotient = -Quotient;
+ } else {
+ APInt::udivrem(LHS, RHS, Quotient, Remainder);
+ }
+}
+
APInt APInt::sadd_ov(const APInt &RHS, bool &Overflow) const {
APInt Res = *this+RHS;
Overflow = isNonNegative() == RHS.isNonNegative() &&
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