/* -*- 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 "QuantizeParameters.h" #include #include #include #include "base/NotationTypes.h" #include "base/Quantizer.h" #include "base/BasicQuantizer.h" #include "base/LegatoQuantizer.h" #include "base/NotationQuantizer.h" #include "gui/editors/notation/NotationStrings.h" #include "gui/editors/notation/NotePixmapFactory.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace Rosegarden { QuantizeParameters::QuantizeParameters(TQWidget *parent, QuantizerType defaultQuantizer, bool showNotationOption, bool showAdvancedButton, TQString configCategory, TQString preamble) : TQFrame(parent), m_configCategory(configCategory), m_standardQuantizations (BasicQuantizer::getStandardQuantizations()) { m_mainLayout = new TQGridLayout(this, (!preamble.isNull()) ? 3 : 4, 2, (!preamble.isNull()) ? 10 : 0, (!preamble.isNull()) ? 5 : 4); int zero = 0; if (!preamble.isNull()) { TQLabel *label = new TQLabel(preamble, this); label->setAlignment(TQt::WordBreak); m_mainLayout->addMultiCellWidget(label, 0, 0, 0, 1); zero = 1; } TQGroupBox *quantizerBox = new TQGroupBox (1, Qt::Horizontal, i18n("Quantizer"), this); m_mainLayout->addWidget(quantizerBox, zero, 0); TQFrame *typeFrame = new TQFrame(quantizerBox); TQGridLayout *tqlayout = new TQGridLayout(typeFrame, 2, 2, 5, 3); tqlayout->addWidget(new TQLabel(i18n("Quantizer type:"), typeFrame), 0, 0); m_typeCombo = new KComboBox(typeFrame); m_typeCombo->insertItem(i18n("Grid quantizer")); m_typeCombo->insertItem(i18n("Legato quantizer")); m_typeCombo->insertItem(i18n("Heuristic notation quantizer")); tqlayout->addWidget(m_typeCombo, 0, 1); m_notationTarget = new TQCheckBox (i18n("Quantize for notation only (leave performance unchanged)"), typeFrame); tqlayout->addMultiCellWidget(m_notationTarget, 1, 1, 0, 1); if (!showNotationOption) m_notationTarget->hide(); TQHBox *parameterBox = new TQHBox(this); m_mainLayout->addWidget(parameterBox, zero + 1, 0); m_notationBox = new TQGroupBox (1, Qt::Horizontal, i18n("Notation parameters"), parameterBox); TQFrame *notationFrame = new TQFrame(m_notationBox); tqlayout = new TQGridLayout(notationFrame, 4, 2, 5, 3); tqlayout->addWidget(new TQLabel(i18n("Base grid unit:"), notationFrame), 1, 0); m_notationUnitCombo = new KComboBox(notationFrame); tqlayout->addWidget(m_notationUnitCombo, 1, 1); tqlayout->addWidget(new TQLabel(i18n("Complexity:"), notationFrame), 0, 0); m_simplicityCombo = new KComboBox(notationFrame); m_simplicityCombo->insertItem(i18n("Very high")); m_simplicityCombo->insertItem(i18n("High")); m_simplicityCombo->insertItem(i18n("Normal")); m_simplicityCombo->insertItem(i18n("Low")); m_simplicityCombo->insertItem(i18n("Very low")); tqlayout->addWidget(m_simplicityCombo, 0, 1); tqlayout->addWidget(new TQLabel(i18n("Tuplet level:"), notationFrame), 2, 0); m_maxTuplet = new KComboBox(notationFrame); m_maxTuplet->insertItem(i18n("None")); m_maxTuplet->insertItem(i18n("2-in-the-time-of-3")); m_maxTuplet->insertItem(i18n("Triplet")); /* m_maxTuplet->insertItem(i18n("4-Tuplet")); m_maxTuplet->insertItem(i18n("5-Tuplet")); m_maxTuplet->insertItem(i18n("6-Tuplet")); m_maxTuplet->insertItem(i18n("7-Tuplet")); m_maxTuplet->insertItem(i18n("8-Tuplet")); */ m_maxTuplet->insertItem(i18n("Any")); tqlayout->addWidget(m_maxTuplet, 2, 1); m_counterpoint = new TQCheckBox(i18n("Permit counterpoint"), notationFrame); tqlayout->addMultiCellWidget(m_counterpoint, 3, 3, 0, 1); m_gridBox = new TQGroupBox (1, Qt::Horizontal, i18n("Grid parameters"), parameterBox); TQFrame *gridFrame = new TQFrame(m_gridBox); tqlayout = new TQGridLayout(gridFrame, 4, 2, 5, 3); tqlayout->addWidget(new TQLabel(i18n("Base grid unit:"), gridFrame), 0, 0); m_gridUnitCombo = new KComboBox(gridFrame); tqlayout->addWidget(m_gridUnitCombo, 0, 1); m_swingLabel = new TQLabel(i18n("Swing:"), gridFrame); tqlayout->addWidget(m_swingLabel, 1, 0); m_swingCombo = new KComboBox(gridFrame); tqlayout->addWidget(m_swingCombo, 1, 1); m_iterativeLabel = new TQLabel(i18n("Iterative amount:"), gridFrame); tqlayout->addWidget(m_iterativeLabel, 2, 0); m_iterativeCombo = new KComboBox(gridFrame); tqlayout->addWidget(m_iterativeCombo, 2, 1); m_durationCheckBox = new TQCheckBox (i18n("Quantize durations as well as start times"), gridFrame); tqlayout->addMultiCellWidget(m_durationCheckBox, 3, 3, 0, 1); m_postProcessingBox = new TQGroupBox (1, Qt::Horizontal, i18n("After quantization"), this); if (!preamble.isNull()) { m_mainLayout->addMultiCellWidget(m_postProcessingBox, zero, zero + 1, 1, 1); } else { m_mainLayout->addWidget(m_postProcessingBox, zero + 3, 0); } bool advanced = true; m_advancedButton = 0; if (showAdvancedButton) { m_advancedButton = new TQPushButton(i18n("Show advanced options"), this); m_mainLayout->addWidget(m_advancedButton, zero + 2, 0, TQt::AlignLeft); TQObject::connect(m_advancedButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotAdvancedChanged())); } TQFrame *postFrame = new TQFrame(m_postProcessingBox); tqlayout = new TQGridLayout(postFrame, 4, 1, 5, 3); m_rebeam = new TQCheckBox(i18n("Re-beam"), postFrame); m_articulate = new TQCheckBox (i18n("Add articulations (staccato, tenuto, slurs)"), postFrame); m_makeViable = new TQCheckBox(i18n("Tie notes at barlines etc"), postFrame); m_deCounterpoint = new TQCheckBox(i18n("Split-and-tie overlapping chords"), postFrame); tqlayout->addWidget(m_rebeam, 0, 0); tqlayout->addWidget(m_articulate, 1, 0); tqlayout->addWidget(m_makeViable, 2, 0); tqlayout->addWidget(m_deCounterpoint, 3, 0); TQPixmap noMap = NotePixmapFactory::toTQPixmap (NotePixmapFactory::makeToolbarPixmap("menu-no-note")); int defaultType = 0; timeT defaultUnit = Note(Note::Demisemiquaver).getDuration(); if (!m_configCategory) { if (defaultQuantizer == Notation) m_configCategory = "Quantize Dialog Notation"; else m_configCategory = "Quantize Dialog Grid"; } int defaultSwing = 0; int defaultIterate = 100; if (!m_configCategory.isNull()) { KConfig *config = kapp->config(); config->setGroup(m_configCategory); defaultType = config->readNumEntry("quantizetype", (defaultQuantizer == Notation) ? 2 : (defaultQuantizer == Legato) ? 1 : 0); defaultUnit = config->readNumEntry("quantizeunit", defaultUnit); defaultSwing = config->readNumEntry("quantizeswing", defaultSwing); defaultIterate = config->readNumEntry("quantizeiterate", defaultIterate); m_notationTarget->setChecked (config->readBoolEntry("quantizenotationonly", defaultQuantizer == Notation)); m_durationCheckBox->setChecked (config->readBoolEntry("quantizedurations", false)); m_simplicityCombo->setCurrentItem (config->readNumEntry("quantizesimplicity", 13) - 11); m_maxTuplet->setCurrentItem (config->readNumEntry("quantizemaxtuplet", 3) - 1); m_counterpoint->setChecked (config->readBoolEntry("quantizecounterpoint", false)); m_rebeam->setChecked (config->readBoolEntry("quantizerebeam", true)); m_makeViable->setChecked (config->readBoolEntry("quantizemakeviable", false)); m_deCounterpoint->setChecked (config->readBoolEntry("quantizedecounterpoint", false)); m_articulate->setChecked (config->readBoolEntry("quantizearticulate", true)); advanced = config->readBoolEntry("quantizeshowadvanced", false); } else { defaultType = (defaultQuantizer == Notation) ? 2 : (defaultQuantizer == Legato) ? 1 : 0; m_notationTarget->setChecked(defaultQuantizer == Notation); m_durationCheckBox->setChecked(false); m_simplicityCombo->setCurrentItem(2); m_maxTuplet->setCurrentItem(2); m_counterpoint->setChecked(false); m_rebeam->setChecked(true); m_makeViable->setChecked(defaultQuantizer == Notation); m_deCounterpoint->setChecked(defaultQuantizer == Notation); m_articulate->setChecked(true); advanced = false; } if (!preamble.isNull() || advanced) { m_postProcessingBox->show(); } else { m_postProcessingBox->hide(); } for (unsigned int i = 0; i < m_standardQuantizations.size(); ++i) { timeT time = m_standardQuantizations[i]; timeT error = 0; TQPixmap pmap = NotePixmapFactory::toTQPixmap (NotePixmapFactory::makeNoteMenuPixmap(time, error)); TQString label = NotationStrings::makeNoteMenuLabel(time, false, error); if (error == 0) { m_gridUnitCombo->insertItem(pmap, label); m_notationUnitCombo->insertItem(pmap, label); } else { m_gridUnitCombo->insertItem(noMap, TQString("%1").tqarg(time)); m_notationUnitCombo->insertItem(noMap, TQString("%1").tqarg(time)); } if (m_standardQuantizations[i] == defaultUnit) { m_gridUnitCombo->setCurrentItem(m_gridUnitCombo->count() - 1); m_notationUnitCombo->setCurrentItem (m_notationUnitCombo->count() - 1); } } for (int i = -100; i <= 200; i += 10) { m_swingCombo->insertItem(i == 0 ? i18n("None") : TQString("%1%").tqarg(i)); if (i == defaultSwing) m_swingCombo->setCurrentItem(m_swingCombo->count() - 1); } for (int i = 10; i <= 100; i += 10) { m_iterativeCombo->insertItem(i == 100 ? i18n("Full quantize") : TQString("%1%").tqarg(i)); if (i == defaultIterate) m_iterativeCombo->setCurrentItem(m_iterativeCombo->count() - 1); } switch (defaultType) { case 0: // grid m_gridBox->show(); m_swingLabel->show(); m_swingCombo->show(); m_iterativeLabel->show(); m_iterativeCombo->show(); m_notationBox->hide(); m_durationCheckBox->show(); m_typeCombo->setCurrentItem(0); break; case 1: // legato m_gridBox->show(); m_swingLabel->hide(); m_swingCombo->hide(); m_iterativeLabel->hide(); m_iterativeCombo->hide(); m_notationBox->hide(); m_durationCheckBox->hide(); m_typeCombo->setCurrentItem(1); case 2: // notation m_gridBox->hide(); m_notationBox->show(); m_typeCombo->setCurrentItem(2); break; } connect(m_typeCombo, TQT_SIGNAL(activated(int)), TQT_SLOT(slotTypeChanged(int))); } Quantizer * QuantizeParameters::getQuantizer() const { //!!! Excessive duplication with // EventQuantizeCommand::makeQuantizer in editcommands.cpp int type = m_typeCombo->currentItem(); timeT unit = 0; if (type == 0 || type == 1) { unit = m_standardQuantizations[m_gridUnitCombo->currentItem()]; } else { unit = m_standardQuantizations[m_notationUnitCombo->currentItem()]; } Quantizer *quantizer = 0; int swing = m_swingCombo->currentItem(); swing *= 10; swing -= 100; int iterate = m_iterativeCombo->currentItem(); iterate *= 10; iterate += 10; if (type == 0) { if (m_notationTarget->isChecked()) { quantizer = new BasicQuantizer (Quantizer::RawEventData, Quantizer::NotationPrefix, unit, m_durationCheckBox->isChecked(), swing, iterate); } else { quantizer = new BasicQuantizer (Quantizer::RawEventData, Quantizer::RawEventData, unit, m_durationCheckBox->isChecked(), swing, iterate); } } else if (type == 1) { if (m_notationTarget->isChecked()) { quantizer = new LegatoQuantizer (Quantizer::RawEventData, Quantizer::NotationPrefix, unit); } else { quantizer = new LegatoQuantizer (Quantizer::RawEventData, Quantizer::RawEventData, unit); } } else { NotationQuantizer *nq; if (m_notationTarget->isChecked()) { nq = new NotationQuantizer(); } else { nq = new NotationQuantizer (Quantizer::RawEventData, Quantizer::RawEventData); } nq->setUnit(unit); nq->setSimplicityFactor(m_simplicityCombo->currentItem() + 11); nq->setMaxTuplet(m_maxTuplet->currentItem() + 1); nq->setContrapuntal(m_counterpoint->isChecked()); nq->setArticulate(m_articulate->isChecked()); quantizer = nq; } if (!m_configCategory.isNull()) { KConfig *config = kapp->config(); config->setGroup(m_configCategory); config->writeEntry("quantizetype", type); config->writeEntry("quantizeunit", unit); config->writeEntry("quantizeswing", swing); config->writeEntry("quantizeiterate", iterate); config->writeEntry("quantizenotationonly", m_notationTarget->isChecked()); if (type == 0) { config->writeEntry("quantizedurations", m_durationCheckBox->isChecked()); } else { config->writeEntry("quantizesimplicity", m_simplicityCombo->currentItem() + 11); config->writeEntry("quantizemaxtuplet", m_maxTuplet->currentItem() + 1); config->writeEntry("quantizecounterpoint", m_counterpoint->isChecked()); config->writeEntry("quantizearticulate", m_articulate->isChecked()); } config->writeEntry("quantizerebeam", m_rebeam->isChecked()); config->writeEntry("quantizemakeviable", m_makeViable->isChecked()); config->writeEntry("quantizedecounterpoint", m_deCounterpoint->isChecked()); } return quantizer; } void QuantizeParameters::slotAdvancedChanged() { if (m_postProcessingBox->isVisible()) { if (m_advancedButton) m_advancedButton->setText(i18n("Show Advanced Options")); m_postProcessingBox->hide(); } else { if (m_advancedButton) m_advancedButton->setText(i18n("Hide Advanced Options")); m_postProcessingBox->show(); } adjustSize(); } void QuantizeParameters::showAdvanced(bool show) { if (show) { m_postProcessingBox->show(); } else { m_postProcessingBox->hide(); } adjustSize(); } void QuantizeParameters::slotTypeChanged(int index) { if (index == 0) { m_gridBox->show(); m_swingLabel->show(); m_swingCombo->show(); m_iterativeLabel->show(); m_iterativeCombo->show(); m_durationCheckBox->show(); m_notationBox->hide(); } else if (index == 1) { m_gridBox->show(); m_swingLabel->hide(); m_swingCombo->hide(); m_iterativeLabel->hide(); m_iterativeCombo->hide(); m_durationCheckBox->hide(); m_notationBox->hide(); } else { m_gridBox->hide(); m_notationBox->show(); } } } #include "QuantizeParameters.moc"