/************************************************************************ ** ** @file vdimensions.cpp ** @author Roman Telezhynskyi ** @date 25 9, 2020 ** ** @brief ** @copyright ** This source code is part of the Valentina project, a pattern making ** program, whose allow create and modeling patterns of clothing. ** Copyright (C) 2020 Valentina project ** All Rights Reserved. ** ** Valentina is free software: you can redistribute it and/or modify ** it under the terms of the GNU General Public License as published by ** the Free Software Foundation, either version 3 of the License, or ** (at your option) any later version. ** ** Valentina is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with Valentina. If not, see . ** *************************************************************************/ #include "vdimensions.h" #include #include #include //--------------------------------------------------------------------------------------------------------------------- VAbstartMeasurementDimension::VAbstartMeasurementDimension(Unit units) : m_units(units) {} //--------------------------------------------------------------------------------------------------------------------- VAbstartMeasurementDimension::VAbstartMeasurementDimension(Unit units, qreal min, qreal max, qreal step) : m_units(units), m_minValue(min), m_maxValue(max), m_step(step) {} //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::IsValid() -> bool { m_error.clear(); return IsUnitsValid() && IsRangeValid() && IsStepValid() && IsBaseValid(); } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::ValidSteps() const -> QVector { const qreal stepBarrier = 8.5; const qreal s = 0.5; QVector steps; steps.reserve(qRound((stepBarrier - s) * 2 - 1)); const qreal diff = m_maxValue - m_minValue; if (qFuzzyIsNull(diff)) { steps.append(0); // only one possible value } else if (diff > 0) { qreal candidate = 1; do { const qreal step = (m_units == Unit::Mm ? candidate * 10 : candidate); qreal intpart; if (qFuzzyIsNull(std::modf(diff / step, &intpart))) { steps.append(step); } candidate += s; } while(candidate < stepBarrier); } return steps; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::ValidBases() const -> QVector { return VAbstartMeasurementDimension::ValidBases(m_minValue, m_maxValue, m_step); } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::ValidBasesList() const -> QStringList { QVector bases = ValidBases(); QStringList list; list.reserve(bases.size()); for(auto &base : bases) { list.append(QString::number(base)); } return list; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::ValidBases(qreal min, qreal max, qreal step) -> QVector { QVector validBases; if (step < 0 || min > max) { return validBases; } if (qFuzzyIsNull(step)) { step = 1; } validBases.reserve(qRound((max - min) / step)); qreal value = min; do { validBases.append(value); value += step; } while(value < max + step); return validBases; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::IsRangeValid() -> bool { bool valid = m_minValue > 0 && m_maxValue > 0 && m_minValue >= RangeMin() && m_minValue <= RangeMax() && m_minValue <= m_maxValue; if (not valid) { m_error = tr("Invalid min/max range"); } return valid; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::IsStepValid() -> bool { bool valid = ValidSteps().indexOf(m_step) != -1; if (not valid) { m_error = tr("Invalid step"); } return valid; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::IsBaseValid() -> bool { bool valid = ValidBases().indexOf(m_baseValue) != -1; if (not valid) { m_error = tr("Base value invalid"); } return valid; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::IsUnitsValid() const -> bool { return m_units == Unit::Cm || m_units == Unit::Mm || m_units == Unit::Inch; } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::DimensionName(MeasurementDimension type) -> QString { switch(type) { case MeasurementDimension::X: return tr("Height", "dimension"); case MeasurementDimension::Y: return tr("Size", "dimension"); case MeasurementDimension::W: return tr("Waist", "dimension"); case MeasurementDimension::Z: return tr("Hip", "dimension"); default: return QString(); } } //--------------------------------------------------------------------------------------------------------------------- auto VAbstartMeasurementDimension::DimensionToolTip(MeasurementDimension type, bool circumference, bool fc) -> QString { switch(type) { case MeasurementDimension::X: return tr("Height", "dimension"); case MeasurementDimension::Y: if (circumference) { return fc ? tr("Chest full circumference", "dimension") : tr("Chest half circumference", "dimension"); } else { return tr("Size"); } return circumference ? tr("Chest circumference", "dimension") : tr("Size", "dimension"); case MeasurementDimension::W: return fc ? tr("Waist full circumference", "dimension") : tr("Waist half circumference", "dimension"); case MeasurementDimension::Z: return fc ? tr("Hip full circumference", "dimension") : tr("Hip half circumference", "dimension"); default: return QString(); } } // VXMeasurementDimension //--------------------------------------------------------------------------------------------------------------------- VXMeasurementDimension::VXMeasurementDimension(Unit units) : VAbstartMeasurementDimension(units) {} //--------------------------------------------------------------------------------------------------------------------- VXMeasurementDimension::VXMeasurementDimension(Unit units, qreal min, qreal max, qreal step) : VAbstartMeasurementDimension(units, min, max, step) {} //--------------------------------------------------------------------------------------------------------------------- auto VXMeasurementDimension::Type() const -> MeasurementDimension { return MeasurementDimension::X; } //--------------------------------------------------------------------------------------------------------------------- auto VXMeasurementDimension::RangeMin() const -> int { const int rangeMinCm = 50; const int rangeMinMm = 500; const int rangeMinInch = 19; switch(m_units) { case Unit::Cm: return rangeMinCm; case Unit::Mm: return rangeMinMm; case Unit::Inch: return rangeMinInch; default: return 0; } } //--------------------------------------------------------------------------------------------------------------------- auto VXMeasurementDimension::RangeMax() const -> int { const int rangeMaxCm = 272; const int rangeMaxMm = 2720; const int rangeMaxInch = 107; switch(m_units) { case Unit::Cm: return rangeMaxCm; case Unit::Mm: return rangeMaxMm; case Unit::Inch: return rangeMaxInch; default: return 0; } } // VYMeasurementDimension //--------------------------------------------------------------------------------------------------------------------- VYMeasurementDimension::VYMeasurementDimension(Unit units) : VAbstartMeasurementDimension(units) {} //--------------------------------------------------------------------------------------------------------------------- VYMeasurementDimension::VYMeasurementDimension(Unit units, qreal min, qreal max, qreal step) : VAbstartMeasurementDimension(units, min, max, step) {} //--------------------------------------------------------------------------------------------------------------------- auto VYMeasurementDimension::Type() const -> MeasurementDimension { return MeasurementDimension::Y; } //--------------------------------------------------------------------------------------------------------------------- auto VYMeasurementDimension::RangeMin() const -> int { if (m_circumference) { const int rangeMinCm = 22; const int rangeMinMm = 220; const int rangeMinInch = 8; switch(m_units) { case Unit::Cm: return rangeMinCm; case Unit::Mm: return rangeMinMm; case Unit::Inch: return rangeMinInch; default: return 0; } } else { const int rangeMinCir = 6; return rangeMinCir; } } //--------------------------------------------------------------------------------------------------------------------- auto VYMeasurementDimension::RangeMax() const -> int { if (m_circumference) { const int rangeMaxCm = 72; const int rangeMaxMm = 720; const int rangeMaxInch = 29; switch(m_units) { case Unit::Cm: return rangeMaxCm; case Unit::Mm: return rangeMaxMm; case Unit::Inch: return rangeMaxInch; default: return 0; } } else { const int rangeMaxCir = 60; return rangeMaxCir; } } // VWMeasurementDimension //--------------------------------------------------------------------------------------------------------------------- VWMeasurementDimension::VWMeasurementDimension(Unit units) : VAbstartMeasurementDimension(units) {} //--------------------------------------------------------------------------------------------------------------------- VWMeasurementDimension::VWMeasurementDimension(Unit units, qreal min, qreal max, qreal step) : VAbstartMeasurementDimension(units, min, max, step) {} //--------------------------------------------------------------------------------------------------------------------- auto VWMeasurementDimension::Type() const -> MeasurementDimension { return MeasurementDimension::W; } //--------------------------------------------------------------------------------------------------------------------- auto VWMeasurementDimension::RangeMin() const -> int { const int rangeMinCm = 20; const int rangeMinMm = 200; const int rangeMinInch = 8; switch(m_units) { case Unit::Cm: return rangeMinCm; case Unit::Mm: return rangeMinMm; case Unit::Inch: return rangeMinInch; default: return 0; } } //--------------------------------------------------------------------------------------------------------------------- auto VWMeasurementDimension::RangeMax() const -> int { const int rangeMaxCm = 65; const int rangeMaxMm = 650; const int rangeMaxInch = 26; switch(m_units) { case Unit::Cm: return rangeMaxCm; case Unit::Mm: return rangeMaxMm; case Unit::Inch: return rangeMaxInch; default: return 0; } } // VZMeasurementDimension //--------------------------------------------------------------------------------------------------------------------- VZMeasurementDimension::VZMeasurementDimension(Unit units) : VAbstartMeasurementDimension(units) {} //--------------------------------------------------------------------------------------------------------------------- VZMeasurementDimension::VZMeasurementDimension(Unit units, qreal min, qreal max, qreal step) : VAbstartMeasurementDimension(units, min, max, step) {} //--------------------------------------------------------------------------------------------------------------------- auto VZMeasurementDimension::Type() const -> MeasurementDimension { return MeasurementDimension::Z; } //--------------------------------------------------------------------------------------------------------------------- auto VZMeasurementDimension::RangeMin() const -> int { const int rangeMinCm = 20; const int rangeMinMm = 200; const int rangeMinInch = 8; switch(m_units) { case Unit::Cm: return rangeMinCm; case Unit::Mm: return rangeMinMm; case Unit::Inch: return rangeMinInch; default: return 0; } } //--------------------------------------------------------------------------------------------------------------------- auto VZMeasurementDimension::RangeMax() const -> int { const int rangeMaxCm = 75; const int rangeMaxMm = 750; const int rangeMaxInch = 30; switch(m_units) { case Unit::Cm: return rangeMaxCm; case Unit::Mm: return rangeMaxMm; case Unit::Inch: return rangeMaxInch; default: return 0; } }