/* Copyright (C) 2013 * swift project Community / Contributors * * This file is part of swift project. It is subject to the license terms in the LICENSE file found in the top-level * directory of this distribution and at http://www.swift-project.org/license.html. No part of swift project, * including this file, may be copied, modified, propagated, or distributed except according to the terms * contained in the LICENSE file. */ #include "blackmisc/pq/units.h" namespace BlackMisc { namespace PhysicalQuantities { using BlackMisc::Math::CMathUtils; QString CAngleUnit::makeRoundedQStringWithUnit(double value, int digits, bool i18n) const { if (digits < 0) digits = this->getDisplayDigits(); QString s; if ((*this) == CAngleUnit::sexagesimalDeg()) { digits -= 4; Q_ASSERT(digits >= 0); double de = CMathUtils::trunc(value); double mi = CMathUtils::trunc((value - de) * 100.0); double se = CMathUtils::trunc((value - de - mi / 100.0) * 1000000) / 100.0; const char *fmt = value < 0 ? "-%L1 %L2 %L3" : "%L1 %L2 %L3"; s = i18n ? QCoreApplication::translate("CMeasurementUnit", fmt) : fmt; s = s.arg(fabs(de), 0, 'f', 0).arg(fabs(mi), 2, 'f', 0, '0').arg(fabs(se), 2, 'f', digits, '0'); } else if ((*this) == CAngleUnit::sexagesimalDegMin()) { digits -= 2; Q_ASSERT(digits >= 0); double de = CMathUtils::trunc(value); double mi = CMathUtils::trunc((value - de) * 100.0); const char *fmt = value < 0 ? "-%L1 %L2" : "%L1 %L2"; s = i18n ? QCoreApplication::translate("CMeasurementUnit", fmt) : fmt; s = s.arg(fabs(de), 0, 'f', 0).arg(fabs(mi), 2, 'f', digits, '0'); } else { s = this->CMeasurementUnit::makeRoundedQStringWithUnit(value, digits, i18n); } return s; } QString CTimeUnit::makeRoundedQStringWithUnit(double value, int digits, bool i18n) const { if (digits < 0) digits = this->getDisplayDigits(); QString s; if ((*this) == CTimeUnit::hms()) { digits -= 4; Q_ASSERT(digits >= 0); double hr = CMathUtils::trunc(value); double mi = CMathUtils::trunc((value - hr) * 100.0); double se = CMathUtils::trunc((value - hr - mi / 100.0) * 1000000) / 100.0; const char *fmt = value < 0 ? "-%L1h%L2m%L3s" : "%L1h%L2m%L3s"; s = i18n ? QCoreApplication::translate("CMeasurementUnit", fmt) : fmt; s = s.arg(fabs(hr), 2, 'f', 0, '0').arg(fabs(mi), 2, 'f', 0, '0').arg(fabs(se), 2, 'f', digits, '0'); } else if ((*this) == CTimeUnit::hrmin()) { digits -= 2; Q_ASSERT(digits >= 0); double hr = CMathUtils::trunc(value); double mi = CMathUtils::trunc((value - hr) * 100.0); const char *fmt = value < 0 ? "-%L1h%L2m" : "%L1h%L2m"; s = i18n ? QCoreApplication::translate("CMeasurementUnit", fmt) : fmt; s = s.arg(fabs(hr), 2, 'f', 0, '0').arg(fabs(mi), 2, 'f', digits, '0'); } else if ((*this) == CTimeUnit::minsec()) { digits -= 2; Q_ASSERT(digits >= 0); double mi = CMathUtils::trunc(value); double se = CMathUtils::trunc((value - mi) * 100.0); const char *fmt = value < 0 ? "-%L2m%L3s" : "%L2m%L3s"; s = i18n ? QCoreApplication::translate("CMeasurementUnit", fmt) : fmt; s = s.arg(fabs(mi), 2, 'f', 0, '0').arg(fabs(se), 2, 'f', digits, '0'); } else { s = this->CMeasurementUnit::makeRoundedQStringWithUnit(value, digits, i18n); } return s; } } // namespace } // namespace