void* decSinglePower (void* _0, const void* _1, const void* _2, decContext* ctx) noexcept { decNumber _0num; decNumber _1num; decNumber _2num; decSingleToNumber (_1, &_1num); decSingleToNumber (_2, &_2num); decNumberPower (&_0num, &_1num, &_2num, ctx); return decSingleFromNumber (_0, &_0num, ctx); }
void* decSingleScaleB (decSingle* _0, const decSingle* _1, const decSingle* _2, decContext* ctx) noexcept { decNumber _0num; decNumber _1num; decNumber _2num; decSingleToNumber (_1, &_1num); decSingleToNumber (_2, &_2num); decNumberScaleB (&_0num, &_1num, &_2num, ctx); return decSingleFromNumber (_0, &_0num, ctx); }
void* decSingleFMA (decSingle* _0, const decSingle* _1, const decSingle* _2, const decSingle* _3, decContext* ctx) noexcept { decNumber _0num; decNumber _1num; decNumber _2num; decNumber _3num; decSingleToNumber (_1, &_1num); decSingleToNumber (_2, &_2num); decSingleToNumber (_3, &_3num); decNumberFMA (&_0num, &_1num, &_2num, &_3num, ctx); return decSingleFromNumber (_0, &_0num, ctx); }
uint32_t decSingleIsNormal (const decSingle* _0) noexcept { decNumber _0num; decSingleToNumber (_0, &_0num); std::decimal::decimal32::context ctx; return decNumberIsNormal (&_0num, (decContext*)&ctx); }
void* decSingleLogB (decSingle* _0, const decSingle* _1, decContext* ctx) noexcept { decNumber _0num; decNumber _1num; decSingleToNumber (_1, &_1num); decNumberLogB (&_0num, &_1num, ctx); return decSingleFromNumber (_0, &_0num, ctx); }
void* decSingleSquareRoot (void* _0, const void* _1, decContext* ctx) noexcept { decNumber _0num; decNumber _1num; decSingleToNumber (_1, &_1num); decNumberSquareRoot (&_0num, &_1num, ctx); return decSingleFromNumber (_0, &_0num, ctx); }
void* decSingleToIntegralValue (decSingle* _0, const decSingle* _1, decContext* ctx, int32_t rnd) noexcept { decNumber _0num; decNumber _1num; decSingleToNumber (_1, &_1num); enum rounding prev_rnd = ctx->round; ctx->round = (enum rounding)rnd; decNumberToIntegralValue (&_0num, &_1num, ctx); ctx->round = prev_rnd; return decSingleFromNumber (_0, &_0num, ctx); }
QDecNumber::QDecNumber(const QDecSingle& s) { decSingleToNumber(s.data(), &m_data); }
uint32_t decSingleIsInfinite (const decSingle* _0) noexcept { decNumber _0num; decSingleToNumber (_0, &_0num); return decNumberIsInfinite (&_0num); }
QDecNumber QDecSingle::toQDecNumber() const { decNumber n; return decSingleToNumber(&m_data, &n); }