/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Rosegarden A MIDI and audio sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral rights of Guillaume Laurent, Chris Cannam, and Richard Bown to claim authorship of this work have been asserted. Other copyrights also apply to some parts of this work. Please see the AUTHORS file and individual file headers for details. This program 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 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "IntervalDialog.h" #include #include #include #include "misc/Strings.h" #include "base/MidiDevice.h" #include "base/NotationRules.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace Rosegarden { IntervalDialog::IntervalDialog(TQWidget *tqparent, bool askChangeKey, bool askTransposeSegmentBack) : KDialogBase(tqparent, 0, true, i18n("Specify Interval"), Ok | Cancel ) { TQVBox *vBox = makeVBoxMainWidget(); TQHBox *hBox = new TQHBox( vBox ); m_referencenote = new DiatonicPitchChooser( i18n("Reference note:"), hBox ); m_targetnote = new DiatonicPitchChooser( i18n("Target note:"), hBox ); intervalChromatic = 0; intervalDiatonic = 0; //m_intervalPitchLabel = new TQLabel( i18n("Pitch: %1").tqarg(intervalChromatic), hBox); //m_intervalOctavesLabel = new TQLabel( i18n("Octaves: %1").tqarg(intervalDiatonic / 7), hBox); //m_intervalStepsLabel = new TQLabel( i18n("Steps: %1").tqarg(intervalDiatonic % 7), hBox); m_intervalLabel = new TQLabel( i18n("a perfect unison"), vBox); m_intervalLabel->tqsetAlignment(TQt::AlignCenter); TQFont font(m_intervalLabel->font()); font.setItalic(true); m_intervalLabel->setFont(font); if (askChangeKey) { TQButtonGroup *affectKeyGroup = new TQButtonGroup(1, Qt::Horizontal, i18n("Effect on Key"), vBox); m_transposeWithinKey = new TQRadioButton(i18n("Transpose within key"), affectKeyGroup); m_transposeWithinKey->setChecked(true); m_transposeChangingKey = new TQRadioButton(i18n("Change key for selection"), affectKeyGroup); } else { m_transposeChangingKey = NULL; m_transposeWithinKey = NULL; } if (askTransposeSegmentBack) { m_transposeSegmentBack = new TQCheckBox( i18n("Adjust segment transposition in opposite direction (maintain audible pitch)"), vBox ); m_transposeSegmentBack->setTristate(false); m_transposeSegmentBack->setChecked(false); } else { m_transposeSegmentBack = NULL; } connect(m_referencenote, TQT_SIGNAL(noteChanged(int,int,int)), this, TQT_SLOT(slotSetReferenceNote(int,int,int))); connect(m_targetnote, TQT_SIGNAL(noteChanged(int,int,int)), this, TQT_SLOT(slotSetTargetNote(int,int,int))); } // number of octaves the notes are apart int IntervalDialog::getOctaveDistance() { return m_targetnote->getOctave() - m_referencenote->getOctave(); } // chromatic distance between the steps, not taking account octaves or // accidentals int IntervalDialog::getStepDistanceChromatic() { return scale_Cmajor[m_targetnote->getStep()] - scale_Cmajor[m_referencenote->getStep()]; // - getChromaticStepValue(m_referencestep->currentItem()); //return m_targetnote->getPitch() - m_referencenote->getPitch(); } // correction due to accidentals int IntervalDialog::getAccidentalCorrectionChromatic() { return m_targetnote->getAccidental() - m_referencenote->getAccidental(); } int IntervalDialog::getDiatonicDistance() { return getOctaveDistance() * 7 + m_targetnote->getStep() - m_referencenote->getStep(); } int IntervalDialog::getChromaticDistance() { return getOctaveDistance() * 12 + getStepDistanceChromatic() + getAccidentalCorrectionChromatic(); } TQString IntervalDialog::getIntervalName(int intervalDiatonic, int intervalChromatic) { // displayInterval: an intervalDiatonic of -3 will yield a displayInterval of 3 and // set the boolean 'down' to true. int displayIntervalDiatonic = intervalDiatonic; int displayIntervalChromatic = intervalChromatic; bool down = (intervalDiatonic < 0 || (intervalDiatonic == 0 && intervalChromatic < 0)); if (down) { displayIntervalDiatonic = -displayIntervalDiatonic; displayIntervalChromatic = -displayIntervalChromatic; } int octaves = displayIntervalDiatonic / 7; int deviation = displayIntervalChromatic % 12 - scale_Cmajor[displayIntervalDiatonic % 7]; // Note (hjj): // "1 octave and a diminished octave" is better than // "2 octaves and a diminished unison" if (displayIntervalDiatonic % 7 == 0) { if (octaves > 0) { deviation = (deviation < 5 ? deviation : deviation - 12); } else if (octaves < 0) { deviation = (deviation < 5 ? -deviation : 12 - deviation); } } else if (down) { // Note (hjj): // an augmented prime down, NOT a diminished prime down deviation = -deviation; } // show the step for an unison only if the octave doesn't change, any other interval // always, and augmented/dimnished unisons (modulo octaves) always. bool showStep = displayIntervalDiatonic == 0 || displayIntervalDiatonic % 7 != 0 || deviation != 0; TQString textInterval = ""; TQString textIntervalDeviated = ""; if (showStep) { switch (displayIntervalDiatonic % 7) { // First the diminished/perfect/augmented: case 0: // unison or octaves case 3: // fourth case 4: // fifth if (deviation == -1) textIntervalDeviated += i18n("a diminished"); else if (deviation == 1) textIntervalDeviated += i18n("an augmented"); else if (deviation == -2) textIntervalDeviated += i18n("a doubly diminished"); else if (deviation == 2) textIntervalDeviated += i18n("a doubly augmented"); else if (deviation == -3) textIntervalDeviated += i18n("a triply diminished"); else if (deviation == 3) textIntervalDeviated += i18n("a triply augmented"); else if (deviation == -4) textIntervalDeviated += i18n("a quadruply diminished"); else if (deviation == 4) textIntervalDeviated += i18n("a quadruply augmented"); else if (deviation == 0) textIntervalDeviated += i18n("a perfect"); else textIntervalDeviated += i18n("an (unknown, %1)").tqarg(deviation); break; // Then the major/minor: case 1: // second case 2: // third case 5: // sixth case 6: // seventh if (deviation == -1) textIntervalDeviated += i18n("a minor"); else if (deviation == 0) textIntervalDeviated += i18n("a major"); else if (deviation == -2) textIntervalDeviated += i18n("a diminished"); else if (deviation == 1) textIntervalDeviated += i18n("an augmented"); else if (deviation == -3) textIntervalDeviated += i18n("a doubly diminished"); else if (deviation == 2) textIntervalDeviated += i18n("a doubly augmented"); else if (deviation == -4) textIntervalDeviated += i18n("a triply diminished"); else if (deviation == 3) textIntervalDeviated += i18n("a triply augmented"); else if (deviation == 4) textIntervalDeviated += i18n("a quadruply augmented"); else if (deviation == 0) textIntervalDeviated += i18n("a perfect"); else textIntervalDeviated += i18n("an (unknown, %1)").tqarg(deviation); break; default: textIntervalDeviated += i18n("an (unknown)"); } switch (displayIntervalDiatonic % 7) { case 0: // Note (hjj): // "1 octave and a diminished octave" is better than // "2 octaves and a diminished unison" if (octaves > 0) { textInterval += i18n("%1 octave").tqarg(textIntervalDeviated); octaves--; } else if (octaves < 0) { textInterval += i18n("%1 octave").tqarg(textIntervalDeviated); octaves++; } else { textInterval += i18n("%1 unison").tqarg(textIntervalDeviated); } break; case 1: textInterval += i18n("%1 second").tqarg(textIntervalDeviated); break; case 2: textInterval += i18n("%1 third").tqarg(textIntervalDeviated); break; case 3: textInterval += i18n("%1 fourth").tqarg(textIntervalDeviated); break; case 4: textInterval += i18n("%1 fifth").tqarg(textIntervalDeviated); break; case 5: textInterval += i18n("%1 sixth").tqarg(textIntervalDeviated); break; case 6: textInterval += i18n("%1 seventh").tqarg(textIntervalDeviated); break; default: textInterval += i18n("%1").tqarg(textIntervalDeviated); } } if (displayIntervalChromatic != 0 || displayIntervalDiatonic != 0) { if (!down) { if (octaves != 0) { if (showStep) { return i18n("up 1 octave and %1", "up %n octaves and %1", octaves).tqarg(textInterval); } else { return i18n("up 1 octave", "up %n octaves", octaves); } } else { return i18n("up %1").tqarg(textInterval); } } else { if (octaves != 0) { if (showStep) { return i18n("down 1 octave and %1", "down %n octaves and %1", octaves).tqarg(textInterval); } else { return i18n("down 1 octave", "down %n octaves", octaves); } } else { return i18n("down %1").tqarg(textInterval); } } } else { return i18n("a perfect unison"); } } void IntervalDialog::slotSetTargetNote(int pitch, int octave, int step) { intervalChromatic = pitch - m_referencenote->getPitch(); intervalDiatonic = (octave * 7 + step) - (m_referencenote->getOctave() * 7 + m_referencenote->getStep()); m_intervalLabel->setText( getIntervalName( intervalDiatonic, intervalChromatic ) ); } void IntervalDialog::slotSetReferenceNote(int pitch, int octave, int step) { // recalculate target note based on reference note and current interval int pitch_new = pitch + intervalChromatic; int diatonic_new = (octave * 7 + step) + intervalDiatonic; int octave_new = diatonic_new / 7; int step_new = diatonic_new % 7; m_targetnote->slotSetNote( pitch_new, octave_new, step_new ); } bool IntervalDialog::getChangeKey() { if (m_transposeChangingKey == NULL) { return false; } else { return m_transposeChangingKey->isChecked(); } } bool IntervalDialog::getTransposeSegmentBack() { if (m_transposeSegmentBack == NULL) { return false; } else { return m_transposeSegmentBack->isChecked(); } } } #include "IntervalDialog.moc"