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Lines Matching refs:integerPartWidth

33 COMPILE_TIME_ASSERT(integerPartWidth % 4 == 0);
75        power * 815 / (351 * integerPartWidth) + 1
87                                                 / (351 * integerPartWidth));
95   return ((bits) + integerPartWidth - 1) / integerPartWidth;
348   if (bits <= partCount * integerPartWidth &&
413   count = bits / integerPartWidth;
414   partBits = bits % integerPartWidth + 1;
416   part = parts[count] & (~(integerPart) 0 >> (integerPartWidth - partBits));
526   assert(count != 0 && count <= integerPartWidth / 4);
528   part >>= (integerPartWidth - 4 * count);
1625   fs = V.convertToInteger(x, parts * integerPartWidth, true,
1630   fs = V.convertFromZeroExtendedInteger(x, parts * integerPartWidth, true,
1665     fs = V.convertToInteger(x, parts * integerPartWidth, true,
1670     fs = V.convertFromZeroExtendedInteger(x, parts * integerPartWidth, true,
2167       APInt::tcExtractBit(src, srcCount * integerPartWidth - 1)) {
2217   bitPos = partsCount * integerPartWidth;
2249         hex_value <<= bitPos % integerPartWidth;
2250         significand[bitPos / integerPartWidth] |= hex_value;
2284     expAdjustment -= partsCount * integerPartWidth;
2315     calcSemantics.precision = parts * integerPartWidth - 1;
2607   shift = integerPartWidth - valueBits % integerPartWidth;
2635   count = (valueBits + integerPartWidth - 1) / integerPartWidth;
2640     /* Put the most significant integerPartWidth bits in "part".  */
2647       part |= significand[count - 1] >> (integerPartWidth - shift);
2650     unsigned int curDigits = integerPartWidth / 4;
2706 // Current implementation requires integerPartWidth==64, which is correct at
3232   if (Sem.precision % integerPartWidth != 0)
3234       (((integerPart) 1) << (Sem.precision % integerPartWidth)) - 1;
3264     (((integerPart) 1) << ((Sem.precision - 1) % integerPartWidth));