/* * Copyright (c) 2006 Cyrille Berger * * 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 "kis_smudgeop.h" #include #include #include #include #include #include #include #include #include #include #include "kis_colorspace_factory_registry.h" #include "kcurve.h" #include "kis_brush.h" #include "kis_global.h" #include "kis_paint_device.h" #include "kis_layer.h" #include "kis_meta_registry.h" #include "kis_painter.h" #include "kis_types.h" #include "kis_paintop.h" #include "kis_input_device.h" #include "kis_selection.h" #include "kis_dlgbrushcurvecontrol.h" KisPaintOp * KisSmudgeOpFactory::createOp(const KisPaintOpSettings *settings, KisPainter * painter) { const KisSmudgeOpSettings *brushopSettings = dynamic_cast(settings); Q_ASSERT(settings == 0 || brushopSettings != 0); KisPaintOp * op = new KisSmudgeOp(brushopSettings, painter); Q_CHECK_PTR(op); return op; } KisSmudgeOpSettings::KisSmudgeOpSettings(TQWidget *parent, bool isTablet) : super(parent) { m_optionsWidget = new TQWidget(parent, "brush option widget"); TQHBoxLayout * l = new TQHBoxLayout(m_optionsWidget); l->setAutoAdd(true); m_rateLabel = new TQLabel(i18n("Rate: "), m_optionsWidget); m_rateSlider = new TQSlider(0,100,1, 50, Qt::Horizontal, m_optionsWidget); if(isTablet) { m_pressureVariation = new TQLabel(i18n("Pressure variation: "), m_optionsWidget); m_size = new TQCheckBox(i18n("Size"), m_optionsWidget); m_size->setChecked(true); m_opacity = new TQCheckBox(i18n("Opacity"), m_optionsWidget); m_rate = new TQCheckBox(i18n("Rate"), m_optionsWidget); m_curveControl = new WdgBrushCurveControl(m_optionsWidget); // We abuse the darken curve here for rate m_curveControl->tabWidget->setTabLabel(m_curveControl->tabWidget->page(2), i18n("Rate")); m_curveControl->tabWidget->setTabToolTip(m_curveControl->tabWidget->page(2), i18n("Modifies the rate. Bottom is 0% of the rate top is 100% of the original rate.")); TQToolButton* moreButton = new TQToolButton(TQt::UpArrow, m_optionsWidget); moreButton->tqsetSizePolicy(TQSizePolicy::Expanding, TQSizePolicy::Expanding); moreButton->setMinimumSize(TQSize(24,24)); // Bah, I had hoped the above line would make this unneeded connect(moreButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotCustomCurves())); } else { m_pressureVariation = 0; m_size = 0; m_rate = 0; m_opacity = 0; m_curveControl = 0; } m_customRate = false; m_customSize = false; m_customOpacity = false; // the curves will get filled in when the slot gets accepted } void KisSmudgeOpSettings::slotCustomCurves() { if (m_curveControl->exec() == TQDialog::Accepted) { m_customRate = m_curveControl->darkenCheckbox->isChecked(); m_customSize = m_curveControl->sizeCheckbox->isChecked(); m_customOpacity = m_curveControl->opacityCheckbox->isChecked(); if (m_customRate) { transferCurve(m_curveControl->darkenCurve, m_rateCurve); } if (m_customSize) { transferCurve(m_curveControl->sizeCurve, m_sizeCurve); } if (m_customOpacity) { transferCurve(m_curveControl->opacityCurve, m_opacityCurve); } } } void KisSmudgeOpSettings::transferCurve(KCurve* curve, double* target) { double value; for (int i = 0; i < 256; i++) { value = curve->getCurveValue( i / 255.0); if (value < PRESSURE_MIN) target[i] = PRESSURE_MIN; else if (value > PRESSURE_MAX) target[i] = PRESSURE_MAX; else target[i] = value; } } int KisSmudgeOpSettings::rate() const { return m_rateSlider->value(); } bool KisSmudgeOpSettings::varyRate() const { return m_rate ? m_rate->isChecked() : false; } bool KisSmudgeOpSettings::varySize() const { return m_size ? m_size->isChecked() : true; } bool KisSmudgeOpSettings::varyOpacity() const { return m_opacity ? m_opacity->isChecked() : false; } KisPaintOpSettings* KisSmudgeOpFactory::settings(TQWidget * parent, const KisInputDevice& inputDevice) { if (inputDevice == KisInputDevice::mouse()) { // No options for mouse, only tablet devices return new KisSmudgeOpSettings(parent, false); } else { return new KisSmudgeOpSettings(parent, true); } } KisSmudgeOp::KisSmudgeOp(const KisSmudgeOpSettings *settings, KisPainter *painter) : super(painter) , m_firstRun(true) , m_rate(50) , m_pressureSize(true) , m_pressureRate(false) , m_pressureOpacity(false) , m_customRate(false) , m_customSize(false) , m_customOpacity(false) , m_target(0) , m_srcdev(0) { if (settings != 0) { m_rate = settings->rate(); m_pressureRate = settings->varyRate(); m_pressureSize = settings->varySize(); m_pressureOpacity = settings->varyOpacity(); m_customRate = settings->customRate(); m_customSize = settings->customSize(); m_customOpacity = settings->customOpacity(); if (m_customSize) { memcpy(m_sizeCurve, settings->sizeCurve(), 256 * sizeof(double)); } if (m_customOpacity) { memcpy(m_opacityCurve, settings->opacityCurve(), 256 * sizeof(double)); } if (m_customRate) { memcpy(m_rateCurve, settings->rateCurve(), 256 * sizeof(double)); } } KisPaintDeviceSP device = m_painter->device(); m_srcdev = new KisPaintDevice(device->colorSpace(), "duplicate source dev"); m_target = new KisPaintDevice(device->colorSpace(), "duplicate target dev"); } KisSmudgeOp::~KisSmudgeOp() { } void KisSmudgeOp::paintAt(const KisPoint &pos, const KisPaintInformation& info) { KisPaintInformation adjustedInfo(info); if (!m_pressureSize) adjustedInfo.pressure = PRESSURE_DEFAULT; else if (m_customSize) adjustedInfo.pressure = scaleToCurve(adjustedInfo.pressure, m_sizeCurve); // Painting should be implemented according to the following algorithm: // retrieve brush // if brush == mask // retrieve mask // else if brush == image // retrieve image // subsample (mask | image) for position -- pos should be double! // apply filters to mask (colour | gradient | pattern | etc. // composite filtered mask into temporary layer // composite temporary layer into target layer // @see: doc/brush.txt if (!m_painter->device()) return; KisBrush *brush = m_painter->brush(); Q_ASSERT(brush); if (!brush) return; if (! brush->canPaintFor(adjustedInfo) ) return; KisPaintDeviceSP device = m_painter->device(); KisPoint hotSpot = brush->hotSpot(adjustedInfo); KisPoint pt = pos - hotSpot; // Split the coordinates into integer plus fractional parts. The integer // is where the dab will be positioned and the fractional part determines // the sub-pixel positioning. TQ_INT32 x; double xFraction; TQ_INT32 y; double yFraction; splitCoordinate(pt.x(), &x, &xFraction); splitCoordinate(pt.y(), &y, &yFraction); KisPaintDeviceSP dab = 0; TQ_UINT8 origOpacity = m_painter->opacity(); if (m_pressureOpacity) { if (!m_customOpacity) m_painter->setOpacity((TQ_INT8)(origOpacity * info.pressure)); else m_painter->setOpacity((TQ_INT8)(origOpacity * scaleToCurve(info.pressure, m_opacityCurve))); } if (brush->brushType() == IMAGE || brush->brushType() == PIPE_IMAGE) { dab = brush->image(device->colorSpace(), adjustedInfo, xFraction, yFraction); dab->convertTo(KisMetaRegistry::instance()->csRegistry()->getAlpha8()); } else { KisAlphaMaskSP mask = brush->mask(adjustedInfo, xFraction, yFraction); dab = computeDab(mask, KisMetaRegistry::instance()->csRegistry()->getAlpha8()); } m_painter->setPressure(adjustedInfo.pressure); TQRect dabRect = TQRect(0, 0, brush->maskWidth(adjustedInfo), brush->maskHeight(adjustedInfo)); TQRect dstRect = TQRect(x, y, dabRect.width(), dabRect.height()); KisImage * image = device->image(); if (image != 0) { dstRect &= image->bounds(); } TQ_INT32 sw = dab->extent().width(); TQ_INT32 sh = dab->extent().height(); KisPainter copyPainter(m_srcdev); int opacity = OPACITY_OPAQUE; if(!m_firstRun) { opacity = rate(); if (m_pressureRate) { if (m_customRate) { opacity = CLAMP((TQ_UINT8)(double(opacity) * scaleToCurve(info.pressure, m_rateCurve)), OPACITY_TRANSPARENT, OPACITY_OPAQUE); } else { opacity = CLAMP((TQ_UINT8)(double(opacity) * info.pressure), OPACITY_TRANSPARENT, OPACITY_OPAQUE); } } opacity = OPACITY_OPAQUE - opacity; } else { m_firstRun = false; } copyPainter.bitBlt(0, 0, COMPOSITE_OVER, device, opacity, pt.x(), pt.y(), sw, sh); copyPainter.end(); m_target = new KisPaintDevice(device->colorSpace(), "duplicate target dev"); copyPainter.begin(m_target); copyPainter.bltMask(0, 0, COMPOSITE_OVER, m_srcdev, dab, OPACITY_OPAQUE, 0, 0, sw, sh); copyPainter.end(); if (dstRect.isNull() || dstRect.isEmpty() || !dstRect.isValid()) return; TQ_INT32 sx = dstRect.x() - x; TQ_INT32 sy = dstRect.y() - y; sw = dstRect.width(); sh = dstRect.height(); if (m_source->hasSelection()) { m_painter->bltSelection(dstRect.x(), dstRect.y(), m_painter->compositeOp(), m_target, m_source->selection(), m_painter->opacity(), sx, sy, sw, sh); } else { m_painter->bitBlt(dstRect.x(), dstRect.y(), m_painter->compositeOp(), m_target, m_painter->opacity(), sx, sy, sw, sh); } m_painter->addDirtyRect(dstRect); m_painter->setOpacity(origOpacity); } #include "kis_smudgeop.moc"