/* * Copyright (c) 2005 Bart Coppens * * 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. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include "kis_channelinfo.h" #include "kis_histogram.h" #include "kis_global.h" #include "kis_types.h" #include "kis_layer.h" #include "kis_colorspace.h" #include "kis_histogram_view.h" #include "kis_basic_histogram_producers.h" #include "kis_paint_device.h" KisHistogramView::KisHistogramView(TQWidget *tqparent, const char *name, WFlags f) : TQLabel(tqparent, name, f) { // This is needed until we can computationally scale it well. Until then, this is needed // And when we have it, it won't hurt to have it around setScaledContents(true); setFrameShape(TQFrame::Box); // Draw a box around ourselves } KisHistogramView::~KisHistogramView() { } void KisHistogramView::setPaintDevice(KisPaintDeviceSP dev) { m_cs = dev->colorSpace(); setChannels(); // Sets m_currentProducer to the first in the list if (!m_currentProducer) return; m_from = m_currentProducer->viewFrom(); m_width = m_currentProducer->viewWidth(); m_histogram = new KisHistogram(dev, m_currentProducer, LINEAR); updateHistogram(); } void KisHistogramView::setHistogram(KisHistogramSP histogram) { m_cs = 0; m_histogram = histogram; m_currentProducer = m_histogram->producer(); m_from = m_currentProducer->viewFrom(); m_width = m_currentProducer->viewWidth(); m_comboInfo.clear(); m_channelStrings.clear(); m_channels.clear(); m_channelToOffset.clear(); addProducerChannels(m_currentProducer); // Set the currently viewed channel: m_color = false; m_channels.append(m_comboInfo.at(1).channel); m_channelToOffset.append(0); updateHistogram(); } void KisHistogramView::setView(double from, double size) { m_from = from; m_width = size; if (m_from + m_width > 1.0) m_from = 1.0 - m_width; m_histogram->producer()->setView(m_from, m_width); m_histogram->updateHistogram(); updateHistogram(); } KisHistogramProducerSP KisHistogramView::currentProducer() { return m_currentProducer; } TQStringList KisHistogramView::channelStrings() { return m_channelStrings; } KisIDList KisHistogramView::listProducers() { if (m_cs) return KisHistogramProducerFactoryRegistry::instance()->listKeysCompatibleWith(m_cs); return KisIDList(); } void KisHistogramView::setCurrentChannels(const KisID& producerID, TQValueVector channels) { setCurrentChannels( KisHistogramProducerFactoryRegistry::instance()->get(producerID)->generate(), channels); } void KisHistogramView::setCurrentChannels(KisHistogramProducerSP producer, TQValueVector channels) { m_currentProducer = producer; m_currentProducer->setView(m_from, m_width); m_histogram->setProducer(m_currentProducer); m_histogram->updateHistogram(); m_histogram->setChannel(0); // Set a default channel, just being nice m_channels.clear(); m_channelToOffset.clear(); if (channels.count() == 0) { updateHistogram(); return; } TQValueVector producerChannels = m_currentProducer->channels(); for (uint i = 0; i < channels.count(); i++) { // Also makes sure the channel is actually in the producer's list for (uint j = 0; j < producerChannels.count(); j++) { if (channels.at(i)->name() == producerChannels.at(j)->name()) { m_channelToOffset.append(m_channels.count()); // The first we append maps to 0 m_channels.append(channels.at(i)); } } } updateHistogram(); } bool KisHistogramView::hasColor() { return m_color; } void KisHistogramView::setColor(bool set) { if (set != m_color) { m_color = set; updateHistogram(); } } void KisHistogramView::setActiveChannel(int channel) { ComboboxInfo info = m_comboInfo.at(channel); if (info.producer.data() != m_currentProducer.data()) { m_currentProducer = info.producer; m_currentProducer->setView(m_from, m_width); m_histogram->setProducer(m_currentProducer); m_histogram->updateHistogram(); } m_channels.clear(); m_channelToOffset.clear(); if (!m_currentProducer) { updateHistogram(); return; } if (info.isProducer) { m_color = true; m_channels = m_currentProducer->channels(); for (uint i = 0; i < m_channels.count(); i++) m_channelToOffset.append(i); m_histogram->setChannel(0); // Set a default channel, just being nice } else { m_color = false; TQValueVector channels = m_currentProducer->channels(); for (uint i = 0; i < channels.count(); i++) { KisChannelInfo* channel = channels.at(i); if (channel->name() == info.channel->name()) { m_channels.append(channel); m_channelToOffset.append(i); break; } } } updateHistogram(); } void KisHistogramView::setHistogramType(enumHistogramType type) { m_histogram->setHistogramType(type); updateHistogram(); } void KisHistogramView::setChannels() { m_comboInfo.clear(); m_channelStrings.clear(); m_channels.clear(); m_channelToOffset.clear(); KisIDList list = KisHistogramProducerFactoryRegistry::instance()->listKeysCompatibleWith(m_cs); if (list.count() == 0) { // XXX: No native histogram for this colorspace. Using converted RGB. We should have a warning KisGenericRGBHistogramProducerFactory f; addProducerChannels(f.generate()); } else { for (uint i = 0; i < list.count(); i++) { KisID id(*(list.at(i))); addProducerChannels( KisHistogramProducerFactoryRegistry::instance()->get(id)->generate() ); } } m_currentProducer = m_comboInfo.at(0).producer; m_color = false; // The currently displayed channel and its offset m_channels.append(m_comboInfo.at(1).channel); m_channelToOffset.append(0); } void KisHistogramView::addProducerChannels(KisHistogramProducerSP producer) { ComboboxInfo info; info.isProducer = true; info.producer = producer; // channel not used for a producer TQValueVector channels = info.producer->channels(); int count = channels.count(); m_comboInfo.append(info); m_channelStrings.append(producer->id() . name()); for (int j = 0; j < count; j++) { info.isProducer = false; info.channel = channels.at(j); m_comboInfo.append(info); m_channelStrings.append(TQString(" ").append(info.channel->name())); } } void KisHistogramView::updateHistogram() { TQ_UINT32 height = this->height(); int selFrom, selTo; // from - to in bins if (!m_currentProducer) { // Something's very wrong: no producer for this colorspace to update histogram with! return; } TQ_INT32 bins = m_histogram->producer()->numberOfBins(); m_pix = TQPixmap(bins, height); m_pix.fill(); TQPainter p(&m_pix); p.setBrush(TQt::black); // Draw the box of the selection, if any if (m_histogram->hasSelection()) { double width = m_histogram->selectionTo() - m_histogram->selectionFrom(); double factor = static_cast(bins) / m_histogram->producer()->viewWidth(); selFrom = static_cast(m_histogram->selectionFrom() * factor); selTo = selFrom + static_cast(width * factor); p.drawRect(selFrom, 0, selTo - selFrom, height); } else { // We don't want the drawing to think we're in a selected area selFrom = -1; selTo = 2; } TQ_INT32 i = 0; double highest = 0; bool blackOnBlack = false; // First we iterate once, so that we have the overall maximum. This is a bit inefficient, // but not too much since the histogram caches the calculations for (uint chan = 0; chan < m_channels.count(); chan++) { m_histogram->setChannel(m_channelToOffset.at(chan)); if ((double)m_histogram->calculations().getHighest() > highest) highest = (double)m_histogram->calculations().getHighest(); } for (uint chan = 0; chan < m_channels.count(); chan++) { TQColor color; m_histogram->setChannel(m_channelToOffset.at(chan)); if (m_color) { color = m_channels.at(chan)->color(); p.setPen(color); } else { color = TQt::black; } blackOnBlack = (color == TQt::black); if (m_histogram->getHistogramType() == LINEAR) { double factor = (double)height / highest; for( i=0; i= selFrom && i < selTo && blackOnBlack) { p.setPen(TQt::white); } else { p.setPen(color); } p.drawLine(i, height, i, height - int(m_histogram->getValue(i) * factor)); } } else { double factor = (double)height / (double)log(highest); for( i = 0; i < bins; ++i ) { // Same as above if (i >= selFrom && i < selTo && blackOnBlack) { p.setPen(TQt::white); } else { p.setPen(color); } p.drawLine(i, height, i, height - int(log((double)m_histogram->getValue(i)) * factor)); } } } setPixmap(m_pix); } void KisHistogramView::mousePressEvent(TQMouseEvent * e) { if (e->button() == Qt::RightButton) emit rightClicked(e->globalPos()); else TQLabel::mousePressEvent(e); } #include "kis_histogram_view.moc"