/* FrameCd.cpp * * Copyright (C) 2013 Jim Evins * * This file is part of gLabels-qt. * * gLabels-qt 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. * * gLabels-qt 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 gLabels-qt. If not, see . */ #include "FrameCd.h" #include #include "StrUtil.h" #include "privateConstants.h" namespace libglabels { const QString FrameCd::sizeDescription( const Units *units ) const { if ( units->id() == "in" ) { QString dStr = StrUtil::formatFraction( 2 * mR1 * units->unitsPerPoint() ); return QString().sprintf( "%s %s %s", qPrintable(dStr), qPrintable(units->name()), qPrintable(tr("diameter")) ); } else { return QString().sprintf( "%.5g %s %s", 2 * mR1 * units->unitsPerPoint(), qPrintable(units->name()), qPrintable(tr("diameter")) ); } } bool FrameCd::isSimilarTo( Frame *other ) const { if ( FrameCd *otherCd = dynamic_cast(other) ) { if ( (fabs( mW - otherCd->mW ) <= Constants::EPSILON) && (fabs( mH - otherCd->mH ) <= Constants::EPSILON) && (fabs( mR1 - otherCd->mR1 ) <= Constants::EPSILON) && (fabs( mR2 - otherCd->mR2 ) <= Constants::EPSILON) ) { return true; } } return false; } void FrameCd::initPath() { // // First the un-rotated path // { // Outer path (may be clipped in the case business card type CD) double theta1 = acos( w() / (2*mR1) ) * 180/M_PI; double theta2 = asin( h() / (2*mR1) ) * 180/M_PI; mPath.arcMoveTo( 0, 0, 2*mR1, 2*mR1, theta1 ); mPath.arcTo( 0, 0, 2*mR1, 2*mR1, theta1, theta2-theta1 ); mPath.arcTo( 0, 0, 2*mR1, 2*mR1, 180-theta2, theta2-theta1 ); mPath.arcTo( 0, 0, 2*mR1, 2*mR1, 180+theta1, theta2-theta1 ); mPath.arcTo( 0, 0, 2*mR1, 2*mR1, 360-theta2, theta2-theta1 ); mPath.closeSubpath(); // Inner path (hole) mPath.addEllipse( mR1-mR2, mR1-mR2, 2*mR2, 2*mR2 ); // Translate to account for offset with clipped business card CDs mPath.translate( w()/2 - mR1, h()/2 - mR1 ); } // // Next, the rotated path // { // Outer path (may be clipped in the case business card type CD) double theta1 = acos( h() / (2*mR1) ) * 180/M_PI; double theta2 = asin( w() / (2*mR1) ) * 180/M_PI; mRotatedPath.arcMoveTo( 0, 0, 2*mR1, 2*mR1, theta1 ); mRotatedPath.arcTo( 0, 0, 2*mR1, 2*mR1, theta1, theta2-theta1 ); mRotatedPath.arcTo( 0, 0, 2*mR1, 2*mR1, 180-theta2, theta2-theta1 ); mRotatedPath.arcTo( 0, 0, 2*mR1, 2*mR1, 180+theta1, theta2-theta1 ); mRotatedPath.arcTo( 0, 0, 2*mR1, 2*mR1, 360-theta2, theta2-theta1 ); mRotatedPath.closeSubpath(); // Inner path (hole) mRotatedPath.addEllipse( mR1-mR2, mR1-mR2, 2*mR2, 2*mR2 ); // Translate to account for offset with clipped business card CDs mRotatedPath.translate( h()/2 - mR1, w()/2 - mR1 ); } } QGraphicsItem* FrameCd::createMarginGraphicsItem( double size, const QPen& pen ) const { double r1 = mR1 - size; double r2 = mR2 + size; QPainterPath path; // Outer path (may be clipped in the case business card type CD) double theta1 = acos( (mW-2*size) / (2*r1) ) * 180/M_PI; double theta2 = asin( (mH-2*size) / (2*r1) ) * 180/M_PI; path.arcMoveTo( 0, 0, 2*r1, 2*r1, theta1 ); path.arcTo( 0, 0, 2*r1, 2*r1, theta1, theta2-theta1 ); path.arcTo( 0, 0, 2*r1, 2*r1, 180-theta2, theta2-theta1 ); path.arcTo( 0, 0, 2*r1, 2*r1, 180+theta1, theta2-theta1 ); path.arcTo( 0, 0, 2*r1, 2*r1, 360-theta2, theta2-theta1 ); path.closeSubpath(); // Inner path (hole) path.addEllipse( r1-r2, r1-r2, 2*r2, 2*r2 ); // Translate to account for offset with clipped business card CDs (applies to element already drawn) path.translate( mW/2 - r1, mH/2 - r1 ); QGraphicsPathItem* item = new QGraphicsPathItem( path ); item->setPen( pen ); return item; } }