diff --git a/libs/image/layerstyles/kis_ls_utils.cpp b/libs/image/layerstyles/kis_ls_utils.cpp index 1f0f0442e6..9cdae6b0ca 100644 --- a/libs/image/layerstyles/kis_ls_utils.cpp +++ b/libs/image/layerstyles/kis_ls_utils.cpp @@ -1,589 +1,588 @@ /* * Copyright (c) 2015 Dmitry Kazakov * * 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_ls_utils.h" #include #include #include #include "psd.h" #include "kis_default_bounds.h" #include "kis_pixel_selection.h" #include "kis_random_accessor_ng.h" #include "kis_iterator_ng.h" #include "kis_convolution_kernel.h" #include "kis_convolution_painter.h" #include "kis_gaussian_kernel.h" #include "kis_fill_painter.h" #include "kis_gradient_painter.h" #include "kis_layer_style_filter_environment.h" #include "kis_selection_filters.h" #include "kis_multiple_projection.h" -#include "kis_pixel_selection.h" #include "kis_default_bounds_base.h" namespace KisLsUtils { QRect growSelectionUniform(KisPixelSelectionSP selection, int growSize, const QRect &applyRect) { QRect changeRect = applyRect; if (growSize > 0) { KisGrowSelectionFilter filter(growSize, growSize); changeRect = filter.changeRect(applyRect, selection->defaultBounds()); filter.process(selection, applyRect); } else if (growSize < 0) { KisShrinkSelectionFilter filter(qAbs(growSize), qAbs(growSize), false); changeRect = filter.changeRect(applyRect, selection->defaultBounds()); filter.process(selection, applyRect); } return changeRect; } KisSelectionSP selectionFromAlphaChannel(KisPaintDeviceSP device, const QRect &srcRect) { const KoColorSpace *cs = device->colorSpace(); KisSelectionSP baseSelection = new KisSelection(new KisSelectionEmptyBounds(0)); KisPixelSelectionSP selection = baseSelection->pixelSelection(); KisSequentialConstIterator srcIt(device, srcRect); KisSequentialIterator dstIt(selection, srcRect); while (srcIt.nextPixel() && dstIt.nextPixel()) { quint8 *dstPtr = dstIt.rawData(); const quint8* srcPtr = srcIt.rawDataConst(); *dstPtr = cs->opacityU8(srcPtr); } return baseSelection; } void findEdge(KisPixelSelectionSP selection, const QRect &applyRect, const bool edgeHidden) { KisSequentialIterator dstIt(selection, applyRect); if (edgeHidden) { while(dstIt.nextPixel()) { quint8 *pixelPtr = dstIt.rawData(); *pixelPtr = (*pixelPtr < 24) ? *pixelPtr * 10 : 0xFF; } } else { while(dstIt.nextPixel()) { quint8 *pixelPtr = dstIt.rawData(); *pixelPtr = 0xFF; } } } QRect growRectFromRadius(const QRect &rc, int radius) { int halfSize = KisGaussianKernel::kernelSizeFromRadius(radius) / 2; return rc.adjusted(-halfSize, -halfSize, halfSize, halfSize); } void applyGaussianWithTransaction(KisPixelSelectionSP selection, const QRect &applyRect, qreal radius) { KisGaussianKernel::applyGaussian(selection, applyRect, radius, radius, QBitArray(), 0, true); } namespace Private { void getGradientTable(const KoAbstractGradient *gradient, QVector *table, const KoColorSpace *colorSpace) { KIS_ASSERT_RECOVER_RETURN(table->size() == 256); for (int i = 0; i < 256; i++) { gradient->colorAt(((*table)[i]), qreal(i) / 255.0); (*table)[i].convertTo(colorSpace); } } struct LinearGradientIndex { int popOneIndex(int selectionAlpha) { return 255 - selectionAlpha; } bool nextPixel() { return true; } }; struct JitterGradientIndex { JitterGradientIndex(const QRect &applyRect, int jitter, const KisLayerStyleFilterEnvironment *env) : randomSelection(env->cachedRandomSelection(applyRect)), noiseIt(randomSelection, applyRect), m_jitterCoeff(jitter * 255 / 100) { } int popOneIndex(int selectionAlpha) { int gradientIndex = 255 - selectionAlpha; gradientIndex += m_jitterCoeff * *noiseIt.rawDataConst() >> 8; gradientIndex &= 0xFF; return gradientIndex; } bool nextPixel() { return noiseIt.nextPixel(); } private: KisPixelSelectionSP randomSelection; KisSequentialConstIterator noiseIt; int m_jitterCoeff; }; template void applyGradientImpl(KisPaintDeviceSP device, KisPixelSelectionSP selection, const QRect &applyRect, const QVector &table, bool edgeHidden, IndexFetcher &indexFetcher) { KIS_ASSERT_RECOVER_RETURN( *table.first().colorSpace() == *device->colorSpace()); const KoColorSpace *cs = device->colorSpace(); const int pixelSize = cs->pixelSize(); KisSequentialConstIterator selIt(selection, applyRect); KisSequentialIterator dstIt(device, applyRect); if (edgeHidden) { while (selIt.nextPixel() && dstIt.nextPixel() && indexFetcher.nextPixel()) { quint8 selAlpha = *selIt.rawDataConst(); int gradientIndex = indexFetcher.popOneIndex(selAlpha); const KoColor &color = table[gradientIndex]; quint8 tableAlpha = color.opacityU8(); memcpy(dstIt.rawData(), color.data(), pixelSize); if (selAlpha < 24 && tableAlpha == 255) { tableAlpha = int(selAlpha) * 10 * tableAlpha >> 8; cs->setOpacity(dstIt.rawData(), tableAlpha, 1); } } } else { while (selIt.nextPixel() && dstIt.nextPixel() && indexFetcher.nextPixel()) { int gradientIndex = indexFetcher.popOneIndex(*selIt.rawDataConst()); const KoColor &color = table[gradientIndex]; memcpy(dstIt.rawData(), color.data(), pixelSize); } } } void applyGradient(KisPaintDeviceSP device, KisPixelSelectionSP selection, const QRect &applyRect, const QVector &table, bool edgeHidden, int jitter, const KisLayerStyleFilterEnvironment *env) { if (!jitter) { LinearGradientIndex fetcher; applyGradientImpl(device, selection, applyRect, table, edgeHidden, fetcher); } else { JitterGradientIndex fetcher(applyRect, jitter, env); applyGradientImpl(device, selection, applyRect, table, edgeHidden, fetcher); } } } const int noiseNeedBorder = 8; void applyNoise(KisPixelSelectionSP selection, const QRect &applyRect, int noise, const psd_layer_effects_context *context, const KisLayerStyleFilterEnvironment *env) { Q_UNUSED(context); const QRect overlayRect = kisGrowRect(applyRect, noiseNeedBorder); KisPixelSelectionSP randomSelection = env->cachedRandomSelection(overlayRect); KisPixelSelectionSP randomOverlay = new KisPixelSelection(); KisSequentialConstIterator noiseIt(randomSelection, overlayRect); KisSequentialConstIterator srcIt(selection, overlayRect); KisRandomAccessorSP dstIt = randomOverlay->createRandomAccessorNG(overlayRect.x(), overlayRect.y()); while (noiseIt.nextPixel() && srcIt.nextPixel()) { int itX = noiseIt.x(); int itY = noiseIt.y(); int x = itX + (*noiseIt.rawDataConst() >> 4) - 8; int y = itY + (*noiseIt.rawDataConst() & 0x0F) - 8; x = (x + itX) >> 1; y = (y + itY) >> 1; dstIt->moveTo(x, y); quint8 dstAlpha = *dstIt->rawData(); quint8 srcAlpha = *srcIt.rawDataConst(); int value = qMin(255, dstAlpha + srcAlpha); *dstIt->rawData() = value; } noise = noise * 255 / 100; KisPainter gc(selection); gc.setOpacity(noise); gc.setCompositeOp(COMPOSITE_COPY); gc.bitBlt(applyRect.topLeft(), randomOverlay, applyRect); } //const int FULL_PERCENT_RANGE = 100; void adjustRange(KisPixelSelectionSP selection, const QRect &applyRect, const int range) { KIS_ASSERT_RECOVER_RETURN(range >= 1 && range <= 100); quint8 rangeTable[256]; for(int i = 0; i < 256; i ++) { quint8 value = i * 100 / range; rangeTable[i] = qMin(value, quint8(255)); } KisSequentialIterator dstIt(selection, applyRect); while (dstIt.nextPixel()) { quint8 *pixelPtr = dstIt.rawData(); *pixelPtr = rangeTable[*pixelPtr]; } } void applyContourCorrection(KisPixelSelectionSP selection, const QRect &applyRect, const quint8 *lookup_table, bool antiAliased, bool edgeHidden) { quint8 contour[PSD_LOOKUP_TABLE_SIZE] = { 0x00, 0x0b, 0x16, 0x21, 0x2c, 0x37, 0x42, 0x4d, 0x58, 0x63, 0x6e, 0x79, 0x84, 0x8f, 0x9a, 0xa5, 0xb0, 0xbb, 0xc6, 0xd1, 0xdc, 0xf2, 0xfd, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}; if (edgeHidden) { if (antiAliased) { for (int i = 0; i < PSD_LOOKUP_TABLE_SIZE; i++) { contour[i] = contour[i] * lookup_table[i] >> 8; } } else { for (int i = 0; i < PSD_LOOKUP_TABLE_SIZE; i++) { contour[i] = contour[i] * lookup_table[(int)((int)(i / 2.55) * 2.55 + 0.5)] >> 8; } } } else { if (antiAliased) { for (int i = 0; i < PSD_LOOKUP_TABLE_SIZE; i++) { contour[i] = lookup_table[i]; } } else { for (int i = 0; i < PSD_LOOKUP_TABLE_SIZE; i++) { contour[i] = lookup_table[(int)((int)(i / 2.55) * 2.55 + 0.5)]; } } } KisSequentialIterator dstIt(selection, applyRect); while (dstIt.nextPixel()) { quint8 *pixelPtr = dstIt.rawData(); *pixelPtr = contour[*pixelPtr]; } } void knockOutSelection(KisPixelSelectionSP selection, KisPixelSelectionSP knockOutSelection, const QRect &srcRect, const QRect &dstRect, const QRect &totalNeedRect, const bool knockOutInverted) { KIS_ASSERT_RECOVER_RETURN(knockOutSelection); QRect knockOutRect = !knockOutInverted ? srcRect : totalNeedRect; knockOutRect &= dstRect; KisPainter gc(selection); gc.setCompositeOp(COMPOSITE_ERASE); gc.bitBlt(knockOutRect.topLeft(), knockOutSelection, knockOutRect); } void fillPattern(KisPaintDeviceSP fillDevice, const QRect &applyRect, KisLayerStyleFilterEnvironment *env, int scale, KoPattern *pattern, int horizontalPhase, int verticalPhase, bool alignWithLayer) { if (scale != 100) { warnKrita << "KisLsOverlayFilter::applyOverlay(): Pattern scaling is NOT implemented!"; } KIS_SAFE_ASSERT_RECOVER_RETURN(pattern); QSize psize(pattern->width(), pattern->height()); QPoint patternOffset(qreal(psize.width()) * horizontalPhase / 100, qreal(psize.height()) * verticalPhase / 100); const QRect boundsRect = alignWithLayer ? env->layerBounds() : env->defaultBounds(); patternOffset += boundsRect.topLeft(); patternOffset.rx() %= psize.width(); patternOffset.ry() %= psize.height(); QRect fillRect = applyRect | applyRect.translated(patternOffset); KisFillPainter gc(fillDevice); gc.fillRect(fillRect.x(), fillRect.y(), fillRect.width(), fillRect.height(), pattern, -patternOffset); gc.end(); } void fillOverlayDevice(KisPaintDeviceSP fillDevice, const QRect &applyRect, const psd_layer_effects_overlay_base *config, KisLayerStyleFilterEnvironment *env) { if (config->fillType() == psd_fill_solid_color) { KoColor color(config->color(), fillDevice->colorSpace()); fillDevice->setDefaultPixel(color); } else if (config->fillType() == psd_fill_pattern) { fillPattern(fillDevice, applyRect, env, config->scale(), config->pattern(), config->horizontalPhase(), config->verticalPhase(), config->alignWithLayer()); } else if (config->fillType() == psd_fill_gradient) { const QRect boundsRect = config->alignWithLayer() ? env->layerBounds() : env->defaultBounds(); QPoint center = boundsRect.center(); center += QPoint(boundsRect.width() * config->gradientXOffset() / 100, boundsRect.height() * config->gradientYOffset() / 100); int width = (boundsRect.width() * config->scale() + 100) / 200; int height = (boundsRect.height() * config->scale() + 100) / 200; /* copy paste from libpsd */ int angle = config->angle(); int corner_angle = (int)(atan((qreal)boundsRect.height() / boundsRect.width()) * 180 / M_PI + 0.5); int sign_x = 1; int sign_y = 1; if(angle < 0) { angle += 360; } if (angle >= 90 && angle < 180) { angle = 180 - angle; sign_x = -1; } else if (angle >= 180 && angle < 270) { angle = angle - 180; sign_x = -1; sign_y = -1; } else if (angle >= 270 && angle <= 360) { angle = 360 - angle; sign_y = -1; } int radius_x = 0; int radius_y = 0; if (angle <= corner_angle) { radius_x = width; radius_y = (int)(radius_x * tan(kisDegreesToRadians(qreal(angle))) + 0.5); } else { radius_y = height; radius_x = (int)(radius_y / tan(kisDegreesToRadians(qreal(angle))) + 0.5); } int radius_corner = (int)(std::sqrt((qreal)(radius_x * radius_x + radius_y * radius_y)) + 0.5); /* end of copy paste from libpsd */ KisGradientPainter gc(fillDevice); gc.setGradient(config->gradient().data()); QPointF gradStart; QPointF gradEnd; KisGradientPainter::enumGradientRepeat repeat = KisGradientPainter::GradientRepeatNone; QPoint rectangularOffset(sign_x * radius_x, -sign_y * radius_y); switch(config->style()) { case psd_gradient_style_linear: gc.setGradientShape(KisGradientPainter::GradientShapeLinear); repeat = KisGradientPainter::GradientRepeatNone; gradStart = center - rectangularOffset; gradEnd = center + rectangularOffset; break; case psd_gradient_style_radial: gc.setGradientShape(KisGradientPainter::GradientShapeRadial); repeat = KisGradientPainter::GradientRepeatNone; gradStart = center; gradEnd = center + QPointF(radius_corner, 0); break; case psd_gradient_style_angle: gc.setGradientShape(KisGradientPainter::GradientShapeConical); repeat = KisGradientPainter::GradientRepeatNone; gradStart = center; gradEnd = center + rectangularOffset; break; case psd_gradient_style_reflected: gc.setGradientShape(KisGradientPainter::GradientShapeLinear); repeat = KisGradientPainter::GradientRepeatAlternate; gradStart = center - rectangularOffset; gradEnd = center; break; case psd_gradient_style_diamond: gc.setGradientShape(KisGradientPainter::GradientShapeBiLinear); repeat = KisGradientPainter::GradientRepeatNone; gradStart = center - rectangularOffset; gradEnd = center + rectangularOffset; break; default: qFatal("Gradient Overlay: unknown switch case!"); break; } gc.paintGradient(gradStart, gradEnd, repeat, 0.0, config->reverse(), applyRect); } } void applyFinalSelection(const QString &projectionId, KisSelectionSP baseSelection, KisPaintDeviceSP srcDevice, KisMultipleProjection *dst, const QRect &/*srcRect*/, const QRect &dstRect, const psd_layer_effects_context */*context*/, const psd_layer_effects_shadow_base *config, const KisLayerStyleFilterEnvironment *env) { const KoColor effectColor(config->color(), srcDevice->colorSpace()); const QRect effectRect(dstRect); const QString compositeOp = config->blendMode(); const quint8 opacityU8 = 255.0 / 100.0 * config->opacity(); KisPaintDeviceSP dstDevice = dst->getProjection(projectionId, compositeOp, opacityU8, QBitArray(), srcDevice); if (config->fillType() == psd_fill_solid_color) { KisFillPainter gc(dstDevice); gc.setCompositeOp(COMPOSITE_COPY); gc.setSelection(baseSelection); gc.fillSelection(effectRect, effectColor); gc.end(); } else if (config->fillType() == psd_fill_gradient) { if (!config->gradient()) { warnKrita << "KisLsUtils::applyFinalSelection: Gradient object is null! Skipping..."; return; } QVector table(256); Private::getGradientTable(config->gradient().data(), &table, dstDevice->colorSpace()); Private::applyGradient(dstDevice, baseSelection->pixelSelection(), effectRect, table, true, config->jitter(), env); } //dstDevice->convertToQImage(0, QRect(0,0,300,300)).save("6_device_shadow.png"); } bool checkEffectEnabled(const psd_layer_effects_shadow_base *config, KisMultipleProjection *dst) { bool result = config->effectEnabled(); if (!result) { dst->freeAllProjections(); } return result; } } diff --git a/libs/ui/dialogs/kis_dlg_preferences.cc b/libs/ui/dialogs/kis_dlg_preferences.cc index e4350d8cc0..08e661d598 100644 --- a/libs/ui/dialogs/kis_dlg_preferences.cc +++ b/libs/ui/dialogs/kis_dlg_preferences.cc @@ -1,1754 +1,1753 @@ /* * preferencesdlg.cc - part of KImageShop * * Copyright (c) 1999 Michael Koch * Copyright (c) 2003-2011 Boudewijn Rempt * * 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_dlg_preferences.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include -#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "KoID.h" #include #include #include #include #include #include #include "kis_action_registry.h" #include #include #include "kis_clipboard.h" #include "widgets/kis_cmb_idlist.h" #include "KoColorSpace.h" #include "KoColorSpaceRegistry.h" #include "KoColorConversionTransformation.h" #include "kis_cursor.h" #include "kis_config.h" #include "kis_canvas_resource_provider.h" #include "kis_preference_set_registry.h" #include "kis_color_manager.h" #include "KisProofingConfiguration.h" #include "kis_image_config.h" #include "slider_and_spin_box_sync.h" // for the performance update #include #include #include "input/config/kis_input_configuration_page.h" #include "input/wintab/drawpile_tablettester/tablettester.h" #ifdef Q_OS_WIN #include "config_use_qt_tablet_windows.h" # ifndef USE_QT_TABLET_WINDOWS # include # endif #include "config-high-dpi-scale-factor-rounding-policy.h" #endif struct BackupSuffixValidator : public QValidator { BackupSuffixValidator(QObject *parent) : QValidator(parent) , invalidCharacters(QStringList() << "0" << "1" << "2" << "3" << "4" << "5" << "6" << "7" << "8" << "9" << "/" << "\\" << ":" << ";" << " ") {} ~BackupSuffixValidator() override {} const QStringList invalidCharacters; State validate(QString &line, int &/*pos*/) const override { Q_FOREACH(const QString invalidChar, invalidCharacters) { if (line.contains(invalidChar)) { return Invalid; } } return Acceptable; } }; GeneralTab::GeneralTab(QWidget *_parent, const char *_name) : WdgGeneralSettings(_parent, _name) { KisConfig cfg(true); // // Cursor Tab // m_cmbCursorShape->addItem(i18n("No Cursor")); m_cmbCursorShape->addItem(i18n("Tool Icon")); m_cmbCursorShape->addItem(i18n("Arrow")); m_cmbCursorShape->addItem(i18n("Small Circle")); m_cmbCursorShape->addItem(i18n("Crosshair")); m_cmbCursorShape->addItem(i18n("Triangle Righthanded")); m_cmbCursorShape->addItem(i18n("Triangle Lefthanded")); m_cmbCursorShape->addItem(i18n("Black Pixel")); m_cmbCursorShape->addItem(i18n("White Pixel")); m_cmbCursorShape->setCurrentIndex(cfg.newCursorStyle()); m_cmbOutlineShape->addItem(i18n("No Outline")); m_cmbOutlineShape->addItem(i18n("Circle Outline")); m_cmbOutlineShape->addItem(i18n("Preview Outline")); m_cmbOutlineShape->addItem(i18n("Tilt Outline")); m_cmbOutlineShape->setCurrentIndex(cfg.newOutlineStyle()); m_showOutlinePainting->setChecked(cfg.showOutlineWhilePainting()); m_changeBrushOutline->setChecked(!cfg.forceAlwaysFullSizedOutline()); KoColor cursorColor(KoColorSpaceRegistry::instance()->rgb8()); cursorColor.fromQColor(cfg.getCursorMainColor()); cursorColorBtutton->setColor(cursorColor); // // Window Tab // m_cmbMDIType->setCurrentIndex(cfg.readEntry("mdi_viewmode", (int)QMdiArea::TabbedView)); m_backgroundimage->setText(cfg.getMDIBackgroundImage()); connect(m_bnFileName, SIGNAL(clicked()), SLOT(getBackgroundImage())); connect(clearBgImageButton, SIGNAL(clicked()), SLOT(clearBackgroundImage())); QString xml = cfg.getMDIBackgroundColor(); KoColor mdiColor = KoColor::fromXML(xml); m_mdiColor->setColor(mdiColor); m_chkRubberBand->setChecked(cfg.readEntry("mdi_rubberband", cfg.useOpenGL())); m_chkCanvasMessages->setChecked(cfg.showCanvasMessages()); const QString configPath = QStandardPaths::writableLocation(QStandardPaths::GenericConfigLocation); QSettings kritarc(configPath + QStringLiteral("/kritadisplayrc"), QSettings::IniFormat); m_chkHiDPI->setChecked(kritarc.value("EnableHiDPI", true).toBool()); #ifdef HAVE_HIGH_DPI_SCALE_FACTOR_ROUNDING_POLICY m_chkHiDPIFractionalScaling->setChecked(kritarc.value("EnableHiDPIFractionalScaling", true).toBool()); #else m_chkHiDPIFractionalScaling->setVisible(false); #endif chkUsageLogging->setChecked(kritarc.value("LogUsage", true).toBool()); m_chkSingleApplication->setChecked(kritarc.value("EnableSingleApplication", true).toBool()); // // Tools tab // m_radioToolOptionsInDocker->setChecked(cfg.toolOptionsInDocker()); cmbFlowMode->setCurrentIndex((int)!cfg.readEntry("useCreamyAlphaDarken", true)); m_chkSwitchSelectionCtrlAlt->setChecked(cfg.switchSelectionCtrlAlt()); chkEnableTouch->setChecked(!cfg.disableTouchOnCanvas()); chkEnableTouchRotation->setChecked(!cfg.disableTouchRotation()); chkEnableTranformToolAfterPaste->setChecked(cfg.activateTransformToolAfterPaste()); m_groupBoxKineticScrollingSettings->setChecked(cfg.kineticScrollingEnabled()); m_cmbKineticScrollingGesture->addItem(i18n("On Touch Drag")); m_cmbKineticScrollingGesture->addItem(i18n("On Click Drag")); m_cmbKineticScrollingGesture->addItem(i18n("On Middle-Click Drag")); //m_cmbKineticScrollingGesture->addItem(i18n("On Right Click Drag")); m_cmbKineticScrollingGesture->setCurrentIndex(cfg.kineticScrollingGesture()); m_kineticScrollingSensitivitySlider->setRange(0, 100); m_kineticScrollingSensitivitySlider->setValue(cfg.kineticScrollingSensitivity()); m_chkKineticScrollingHideScrollbars->setChecked(cfg.kineticScrollingHiddenScrollbars()); // // File handling // int autosaveInterval = cfg.autoSaveInterval(); //convert to minutes m_autosaveSpinBox->setValue(autosaveInterval / 60); m_autosaveCheckBox->setChecked(autosaveInterval > 0); chkHideAutosaveFiles->setChecked(cfg.readEntry("autosavefileshidden", true)); m_chkCompressKra->setChecked(cfg.compressKra()); chkZip64->setChecked(cfg.useZip64()); m_backupFileCheckBox->setChecked(cfg.backupFile()); cmbBackupFileLocation->setCurrentIndex(cfg.readEntry("backupfilelocation", 0)); txtBackupFileSuffix->setText(cfg.readEntry("backupfilesuffix", "~")); QValidator *validator = new BackupSuffixValidator(txtBackupFileSuffix); txtBackupFileSuffix->setValidator(validator); intNumBackupFiles->setValue(cfg.readEntry("numberofbackupfiles", 1)); // // Miscellaneous // cmbStartupSession->addItem(i18n("Open default window")); cmbStartupSession->addItem(i18n("Load previous session")); cmbStartupSession->addItem(i18n("Show session manager")); cmbStartupSession->setCurrentIndex(cfg.sessionOnStartup()); chkSaveSessionOnQuit->setChecked(cfg.saveSessionOnQuit(false)); m_chkConvertOnImport->setChecked(cfg.convertToImageColorspaceOnImport()); m_undoStackSize->setValue(cfg.undoStackLimit()); m_favoritePresetsSpinBox->setValue(cfg.favoritePresets()); chkShowRootLayer->setChecked(cfg.showRootLayer()); KConfigGroup group = KSharedConfig::openConfig()->group("File Dialogs"); bool dontUseNative = true; #ifdef Q_OS_UNIX if (qgetenv("XDG_CURRENT_DESKTOP") == "KDE") { dontUseNative = false; } #endif #ifdef Q_OS_WIN dontUseNative = false; #endif m_chkNativeFileDialog->setChecked(!group.readEntry("DontUseNativeFileDialog", dontUseNative)); intMaxBrushSize->setValue(cfg.readEntry("maximumBrushSize", 1000)); } void GeneralTab::setDefault() { KisConfig cfg(true); m_cmbCursorShape->setCurrentIndex(cfg.newCursorStyle(true)); m_cmbOutlineShape->setCurrentIndex(cfg.newOutlineStyle(true)); chkShowRootLayer->setChecked(cfg.showRootLayer(true)); m_autosaveCheckBox->setChecked(cfg.autoSaveInterval(true) > 0); //convert to minutes m_autosaveSpinBox->setValue(cfg.autoSaveInterval(true) / 60); chkHideAutosaveFiles->setChecked(true); m_undoStackSize->setValue(cfg.undoStackLimit(true)); m_backupFileCheckBox->setChecked(cfg.backupFile(true)); cmbBackupFileLocation->setCurrentIndex(0); txtBackupFileSuffix->setText("~"); intNumBackupFiles->setValue(1); m_showOutlinePainting->setChecked(cfg.showOutlineWhilePainting(true)); m_changeBrushOutline->setChecked(!cfg.forceAlwaysFullSizedOutline(true)); m_chkNativeFileDialog->setChecked(false); intMaxBrushSize->setValue(1000); m_cmbMDIType->setCurrentIndex((int)QMdiArea::TabbedView); m_chkRubberBand->setChecked(cfg.useOpenGL(true)); m_favoritePresetsSpinBox->setValue(cfg.favoritePresets(true)); KoColor mdiColor; mdiColor.fromXML(cfg.getMDIBackgroundColor(true)); m_mdiColor->setColor(mdiColor); m_backgroundimage->setText(cfg.getMDIBackgroundImage(true)); m_chkCanvasMessages->setChecked(cfg.showCanvasMessages(true)); m_chkCompressKra->setChecked(cfg.compressKra(true)); chkZip64->setChecked(cfg.useZip64(true)); m_chkHiDPI->setChecked(false); m_chkSingleApplication->setChecked(true); m_chkHiDPI->setChecked(true); #ifdef HAVE_HIGH_DPI_SCALE_FACTOR_ROUNDING_POLICY m_chkHiDPIFractionalScaling->setChecked(true); #endif chkUsageLogging->setChecked(true); m_radioToolOptionsInDocker->setChecked(cfg.toolOptionsInDocker(true)); cmbFlowMode->setCurrentIndex(0); m_groupBoxKineticScrollingSettings->setChecked(cfg.kineticScrollingEnabled(true)); m_cmbKineticScrollingGesture->setCurrentIndex(cfg.kineticScrollingGesture(true)); m_kineticScrollingSensitivitySlider->setValue(cfg.kineticScrollingSensitivity(true)); m_chkKineticScrollingHideScrollbars->setChecked(cfg.kineticScrollingHiddenScrollbars(true)); m_chkSwitchSelectionCtrlAlt->setChecked(cfg.switchSelectionCtrlAlt(true)); chkEnableTouch->setChecked(!cfg.disableTouchOnCanvas(true)); chkEnableTouchRotation->setChecked(!cfg.disableTouchRotation(true)); chkEnableTranformToolAfterPaste->setChecked(cfg.activateTransformToolAfterPaste(true)); m_chkConvertOnImport->setChecked(cfg.convertToImageColorspaceOnImport(true)); KoColor cursorColor(KoColorSpaceRegistry::instance()->rgb8()); cursorColor.fromQColor(cfg.getCursorMainColor(true)); cursorColorBtutton->setColor(cursorColor); } CursorStyle GeneralTab::cursorStyle() { return (CursorStyle)m_cmbCursorShape->currentIndex(); } OutlineStyle GeneralTab::outlineStyle() { return (OutlineStyle)m_cmbOutlineShape->currentIndex(); } KisConfig::SessionOnStartup GeneralTab::sessionOnStartup() const { return (KisConfig::SessionOnStartup)cmbStartupSession->currentIndex(); } bool GeneralTab::saveSessionOnQuit() const { return chkSaveSessionOnQuit->isChecked(); } bool GeneralTab::showRootLayer() { return chkShowRootLayer->isChecked(); } int GeneralTab::autoSaveInterval() { //convert to seconds return m_autosaveCheckBox->isChecked() ? m_autosaveSpinBox->value() * 60 : 0; } int GeneralTab::undoStackSize() { return m_undoStackSize->value(); } bool GeneralTab::showOutlineWhilePainting() { return m_showOutlinePainting->isChecked(); } int GeneralTab::mdiMode() { return m_cmbMDIType->currentIndex(); } int GeneralTab::favoritePresets() { return m_favoritePresetsSpinBox->value(); } bool GeneralTab::showCanvasMessages() { return m_chkCanvasMessages->isChecked(); } bool GeneralTab::compressKra() { return m_chkCompressKra->isChecked(); } bool GeneralTab::useZip64() { return chkZip64->isChecked(); } bool GeneralTab::toolOptionsInDocker() { return m_radioToolOptionsInDocker->isChecked(); } bool GeneralTab::kineticScrollingEnabled() { return m_groupBoxKineticScrollingSettings->isChecked(); } int GeneralTab::kineticScrollingGesture() { return m_cmbKineticScrollingGesture->currentIndex(); } int GeneralTab::kineticScrollingSensitivity() { return m_kineticScrollingSensitivitySlider->value(); } bool GeneralTab::kineticScrollingHiddenScrollbars() { return m_chkKineticScrollingHideScrollbars->isChecked(); } bool GeneralTab::switchSelectionCtrlAlt() { return m_chkSwitchSelectionCtrlAlt->isChecked(); } bool GeneralTab::convertToImageColorspaceOnImport() { return m_chkConvertOnImport->isChecked(); } void GeneralTab::getBackgroundImage() { KoFileDialog dialog(this, KoFileDialog::OpenFile, "BackgroundImages"); dialog.setCaption(i18n("Select a Background Image")); dialog.setDefaultDir(QStandardPaths::writableLocation(QStandardPaths::PicturesLocation)); dialog.setImageFilters(); QString fn = dialog.filename(); // dialog box was canceled or somehow no file was selected if (fn.isEmpty()) { return; } QImage image(fn); if (image.isNull()) { QMessageBox::warning(this, i18nc("@title:window", "Krita"), i18n("%1 is not a valid image file!", fn)); } else { m_backgroundimage->setText(fn); } } void GeneralTab::clearBackgroundImage() { // clearing the background image text will implicitly make the background color be used m_backgroundimage->setText(""); } #include "kactioncollection.h" #include "KisActionsSnapshot.h" ShortcutSettingsTab::ShortcutSettingsTab(QWidget *parent, const char *name) : QWidget(parent) { setObjectName(name); QGridLayout * l = new QGridLayout(this); l->setMargin(0); m_page = new WdgShortcutSettings(this); l->addWidget(m_page, 0, 0); m_snapshot.reset(new KisActionsSnapshot); KActionCollection *collection = KisPart::instance()->currentMainwindow()->actionCollection(); Q_FOREACH (QAction *action, collection->actions()) { m_snapshot->addAction(action->objectName(), action); } QMap sortedCollections = m_snapshot->actionCollections(); for (auto it = sortedCollections.constBegin(); it != sortedCollections.constEnd(); ++it) { m_page->addCollection(it.value(), it.key()); } } ShortcutSettingsTab::~ShortcutSettingsTab() { } void ShortcutSettingsTab::setDefault() { m_page->allDefault(); } void ShortcutSettingsTab::saveChanges() { m_page->save(); KisActionRegistry::instance()->settingsPageSaved(); } void ShortcutSettingsTab::cancelChanges() { m_page->undo(); } ColorSettingsTab::ColorSettingsTab(QWidget *parent, const char *name) : QWidget(parent) { setObjectName(name); // XXX: Make sure only profiles that fit the specified color model // are shown in the profile combos QGridLayout * l = new QGridLayout(this); l->setMargin(0); m_page = new WdgColorSettings(this); l->addWidget(m_page, 0, 0); KisConfig cfg(true); m_page->chkUseSystemMonitorProfile->setChecked(cfg.useSystemMonitorProfile()); connect(m_page->chkUseSystemMonitorProfile, SIGNAL(toggled(bool)), this, SLOT(toggleAllowMonitorProfileSelection(bool))); m_page->cmbWorkingColorSpace->setIDList(KoColorSpaceRegistry::instance()->listKeys()); m_page->cmbWorkingColorSpace->setCurrent(cfg.workingColorSpace()); m_page->bnAddColorProfile->setIcon(KisIconUtils::loadIcon("document-open")); m_page->bnAddColorProfile->setToolTip( i18n("Open Color Profile") ); connect(m_page->bnAddColorProfile, SIGNAL(clicked()), SLOT(installProfile())); QFormLayout *monitorProfileGrid = new QFormLayout(m_page->monitorprofileholder); for(int i = 0; i < QGuiApplication::screens().count(); ++i) { QLabel *lbl = new QLabel(i18nc("The number of the screen", "Screen %1:", i + 1)); m_monitorProfileLabels << lbl; KisSqueezedComboBox *cmb = new KisSqueezedComboBox(); cmb->setSizePolicy(QSizePolicy::MinimumExpanding, QSizePolicy::Fixed); monitorProfileGrid->addRow(lbl, cmb); m_monitorProfileWidgets << cmb; } // disable if not Linux as KisColorManager is not yet implemented outside Linux #ifndef Q_OS_LINUX m_page->chkUseSystemMonitorProfile->setChecked(false); m_page->chkUseSystemMonitorProfile->setDisabled(true); m_page->chkUseSystemMonitorProfile->setHidden(true); #endif refillMonitorProfiles(KoID("RGBA")); for(int i = 0; i < QApplication::screens().count(); ++i) { if (m_monitorProfileWidgets[i]->contains(cfg.monitorProfile(i))) { m_monitorProfileWidgets[i]->setCurrent(cfg.monitorProfile(i)); } } m_page->chkBlackpoint->setChecked(cfg.useBlackPointCompensation()); m_page->chkAllowLCMSOptimization->setChecked(cfg.allowLCMSOptimization()); m_page->chkForcePaletteColor->setChecked(cfg.forcePaletteColors()); KisImageConfig cfgImage(true); KisProofingConfigurationSP proofingConfig = cfgImage.defaultProofingconfiguration(); m_page->sldAdaptationState->setMaximum(20); m_page->sldAdaptationState->setMinimum(0); m_page->sldAdaptationState->setValue((int)proofingConfig->adaptationState*20); //probably this should become the screenprofile? KoColor ga(KoColorSpaceRegistry::instance()->rgb8()); ga.fromKoColor(proofingConfig->warningColor); m_page->gamutAlarm->setColor(ga); const KoColorSpace *proofingSpace = KoColorSpaceRegistry::instance()->colorSpace(proofingConfig->proofingModel, proofingConfig->proofingDepth, proofingConfig->proofingProfile); if (proofingSpace) { m_page->proofingSpaceSelector->setCurrentColorSpace(proofingSpace); } m_page->cmbProofingIntent->setCurrentIndex((int)proofingConfig->intent); m_page->ckbProofBlackPoint->setChecked(proofingConfig->conversionFlags.testFlag(KoColorConversionTransformation::BlackpointCompensation)); m_pasteBehaviourGroup.addButton(m_page->radioPasteWeb, PASTE_ASSUME_WEB); m_pasteBehaviourGroup.addButton(m_page->radioPasteMonitor, PASTE_ASSUME_MONITOR); m_pasteBehaviourGroup.addButton(m_page->radioPasteAsk, PASTE_ASK); QAbstractButton *button = m_pasteBehaviourGroup.button(cfg.pasteBehaviour()); Q_ASSERT(button); if (button) { button->setChecked(true); } m_page->cmbMonitorIntent->setCurrentIndex(cfg.monitorRenderIntent()); toggleAllowMonitorProfileSelection(cfg.useSystemMonitorProfile()); } void ColorSettingsTab::installProfile() { KoFileDialog dialog(this, KoFileDialog::OpenFiles, "OpenDocumentICC"); dialog.setCaption(i18n("Install Color Profiles")); dialog.setDefaultDir(QStandardPaths::writableLocation(QStandardPaths::HomeLocation)); dialog.setMimeTypeFilters(QStringList() << "application/vnd.iccprofile", "application/vnd.iccprofile"); QStringList profileNames = dialog.filenames(); KoColorSpaceEngine *iccEngine = KoColorSpaceEngineRegistry::instance()->get("icc"); Q_ASSERT(iccEngine); QString saveLocation = KoResourcePaths::saveLocation("icc_profiles"); Q_FOREACH (const QString &profileName, profileNames) { if (!QFile::copy(profileName, saveLocation + QFileInfo(profileName).fileName())) { qWarning() << "Could not install profile!" << saveLocation + QFileInfo(profileName).fileName(); continue; } iccEngine->addProfile(saveLocation + QFileInfo(profileName).fileName()); } KisConfig cfg(true); refillMonitorProfiles(KoID("RGBA")); for(int i = 0; i < QApplication::screens().count(); ++i) { if (m_monitorProfileWidgets[i]->contains(cfg.monitorProfile(i))) { m_monitorProfileWidgets[i]->setCurrent(cfg.monitorProfile(i)); } } } void ColorSettingsTab::toggleAllowMonitorProfileSelection(bool useSystemProfile) { KisConfig cfg(true); if (useSystemProfile) { QStringList devices = KisColorManager::instance()->devices(); if (devices.size() == QApplication::screens().count()) { for(int i = 0; i < QApplication::screens().count(); ++i) { m_monitorProfileWidgets[i]->clear(); QString monitorForScreen = cfg.monitorForScreen(i, devices[i]); Q_FOREACH (const QString &device, devices) { m_monitorProfileLabels[i]->setText(i18nc("The display/screen we got from Qt", "Screen %1:", i + 1)); m_monitorProfileWidgets[i]->addSqueezedItem(KisColorManager::instance()->deviceName(device), device); if (devices[i] == monitorForScreen) { m_monitorProfileWidgets[i]->setCurrentIndex(i); } } } } } else { refillMonitorProfiles(KoID("RGBA")); for(int i = 0; i < QApplication::screens().count(); ++i) { if (m_monitorProfileWidgets[i]->contains(cfg.monitorProfile(i))) { m_monitorProfileWidgets[i]->setCurrent(cfg.monitorProfile(i)); } } } } void ColorSettingsTab::setDefault() { m_page->cmbWorkingColorSpace->setCurrent("RGBA"); refillMonitorProfiles(KoID("RGBA")); KisConfig cfg(true); KisImageConfig cfgImage(true); KisProofingConfigurationSP proofingConfig = cfgImage.defaultProofingconfiguration(); const KoColorSpace *proofingSpace = KoColorSpaceRegistry::instance()->colorSpace(proofingConfig->proofingModel,proofingConfig->proofingDepth,proofingConfig->proofingProfile); if (proofingSpace) { m_page->proofingSpaceSelector->setCurrentColorSpace(proofingSpace); } m_page->cmbProofingIntent->setCurrentIndex((int)proofingConfig->intent); m_page->ckbProofBlackPoint->setChecked(proofingConfig->conversionFlags.testFlag(KoColorConversionTransformation::BlackpointCompensation)); m_page->sldAdaptationState->setValue(0); //probably this should become the screenprofile? KoColor ga(KoColorSpaceRegistry::instance()->rgb8()); ga.fromKoColor(proofingConfig->warningColor); m_page->gamutAlarm->setColor(ga); m_page->chkBlackpoint->setChecked(cfg.useBlackPointCompensation(true)); m_page->chkAllowLCMSOptimization->setChecked(cfg.allowLCMSOptimization(true)); m_page->chkForcePaletteColor->setChecked(cfg.forcePaletteColors(true)); m_page->cmbMonitorIntent->setCurrentIndex(cfg.monitorRenderIntent(true)); m_page->chkUseSystemMonitorProfile->setChecked(cfg.useSystemMonitorProfile(true)); QAbstractButton *button = m_pasteBehaviourGroup.button(cfg.pasteBehaviour(true)); Q_ASSERT(button); if (button) { button->setChecked(true); } } void ColorSettingsTab::refillMonitorProfiles(const KoID & colorSpaceId) { for (int i = 0; i < QApplication::screens().count(); ++i) { m_monitorProfileWidgets[i]->clear(); } QMap profileList; Q_FOREACH(const KoColorProfile *profile, KoColorSpaceRegistry::instance()->profilesFor(colorSpaceId.id())) { profileList[profile->name()] = profile; } Q_FOREACH (const KoColorProfile *profile, profileList.values()) { //qDebug() << "Profile" << profile->name() << profile->isSuitableForDisplay() << csf->defaultProfile(); if (profile->isSuitableForDisplay()) { for (int i = 0; i < QApplication::screens().count(); ++i) { m_monitorProfileWidgets[i]->addSqueezedItem(profile->name()); } } } for (int i = 0; i < QApplication::screens().count(); ++i) { m_monitorProfileLabels[i]->setText(i18nc("The number of the screen", "Screen %1:", i + 1)); m_monitorProfileWidgets[i]->setCurrent(KoColorSpaceRegistry::instance()->defaultProfileForColorSpace(colorSpaceId.id())); } } //--------------------------------------------------------------------------------------------------- void TabletSettingsTab::setDefault() { KisCubicCurve curve; curve.fromString(DEFAULT_CURVE_STRING); m_page->pressureCurve->setCurve(curve); m_page->chkUseRightMiddleClickWorkaround->setChecked( KisConfig(true).useRightMiddleTabletButtonWorkaround(true)); #if defined Q_OS_WIN && (!defined USE_QT_TABLET_WINDOWS || defined QT_HAS_WINTAB_SWITCH) #ifdef USE_QT_TABLET_WINDOWS // ask Qt if WinInk is actually available const bool isWinInkAvailable = true; #else const bool isWinInkAvailable = KisTabletSupportWin8::isAvailable(); #endif if (isWinInkAvailable) { KisConfig cfg(true); m_page->radioWintab->setChecked(!cfg.useWin8PointerInput(true)); m_page->radioWin8PointerInput->setChecked(cfg.useWin8PointerInput(true)); } else { m_page->radioWintab->setChecked(true); m_page->radioWin8PointerInput->setChecked(false); } #else m_page->grpTabletApi->setVisible(false); #endif } TabletSettingsTab::TabletSettingsTab(QWidget* parent, const char* name): QWidget(parent) { setObjectName(name); QGridLayout * l = new QGridLayout(this); l->setMargin(0); m_page = new WdgTabletSettings(this); l->addWidget(m_page, 0, 0); KisConfig cfg(true); KisCubicCurve curve; curve.fromString( cfg.pressureTabletCurve() ); m_page->pressureCurve->setMaximumSize(QSize(QWIDGETSIZE_MAX, QWIDGETSIZE_MAX)); m_page->pressureCurve->setCurve(curve); m_page->chkUseRightMiddleClickWorkaround->setChecked( cfg.useRightMiddleTabletButtonWorkaround()); #if defined Q_OS_WIN && (!defined USE_QT_TABLET_WINDOWS || defined QT_HAS_WINTAB_SWITCH) #ifdef USE_QT_TABLET_WINDOWS // ask Qt if WinInk is actually available const bool isWinInkAvailable = true; #else const bool isWinInkAvailable = KisTabletSupportWin8::isAvailable(); #endif if (isWinInkAvailable) { m_page->radioWintab->setChecked(!cfg.useWin8PointerInput()); m_page->radioWin8PointerInput->setChecked(cfg.useWin8PointerInput()); } else { m_page->radioWintab->setChecked(true); m_page->radioWin8PointerInput->setChecked(false); m_page->grpTabletApi->setVisible(false); } #ifdef USE_QT_TABLET_WINDOWS connect(m_page->btnResolutionSettings, SIGNAL(clicked()), SLOT(slotResolutionSettings())); connect(m_page->radioWintab, SIGNAL(toggled(bool)), m_page->btnResolutionSettings, SLOT(setEnabled(bool))); m_page->btnResolutionSettings->setEnabled(m_page->radioWintab->isChecked()); #else m_page->btnResolutionSettings->setVisible(false); #endif #else m_page->grpTabletApi->setVisible(false); #endif connect(m_page->btnTabletTest, SIGNAL(clicked()), SLOT(slotTabletTest())); } void TabletSettingsTab::slotTabletTest() { TabletTestDialog tabletTestDialog(this); tabletTestDialog.exec(); } #if defined Q_OS_WIN && defined USE_QT_TABLET_WINDOWS #include "KisDlgCustomTabletResolution.h" #endif void TabletSettingsTab::slotResolutionSettings() { #if defined Q_OS_WIN && defined USE_QT_TABLET_WINDOWS KisDlgCustomTabletResolution dlg(this); dlg.exec(); #endif } //--------------------------------------------------------------------------------------------------- #include "kis_acyclic_signal_connector.h" int getTotalRAM() { return KisImageConfig(true).totalRAM(); } int PerformanceTab::realTilesRAM() { return intMemoryLimit->value() - intPoolLimit->value(); } PerformanceTab::PerformanceTab(QWidget *parent, const char *name) : WdgPerformanceSettings(parent, name) { KisImageConfig cfg(true); const double totalRAM = cfg.totalRAM(); lblTotalMemory->setText(KFormat().formatByteSize(totalRAM * 1024 * 1024, 0, KFormat::IECBinaryDialect, KFormat::UnitMegaByte)); sliderMemoryLimit->setSuffix(i18n(" %")); sliderMemoryLimit->setRange(1, 100, 2); sliderMemoryLimit->setSingleStep(0.01); sliderPoolLimit->setSuffix(i18n(" %")); sliderPoolLimit->setRange(0, 20, 2); sliderMemoryLimit->setSingleStep(0.01); sliderUndoLimit->setSuffix(i18n(" %")); sliderUndoLimit->setRange(0, 50, 2); sliderMemoryLimit->setSingleStep(0.01); intMemoryLimit->setMinimumWidth(80); intPoolLimit->setMinimumWidth(80); intUndoLimit->setMinimumWidth(80); SliderAndSpinBoxSync *sync1 = new SliderAndSpinBoxSync(sliderMemoryLimit, intMemoryLimit, getTotalRAM); sync1->slotParentValueChanged(); m_syncs << sync1; SliderAndSpinBoxSync *sync2 = new SliderAndSpinBoxSync(sliderPoolLimit, intPoolLimit, std::bind(&KisIntParseSpinBox::value, intMemoryLimit)); connect(intMemoryLimit, SIGNAL(valueChanged(int)), sync2, SLOT(slotParentValueChanged())); sync2->slotParentValueChanged(); m_syncs << sync2; SliderAndSpinBoxSync *sync3 = new SliderAndSpinBoxSync(sliderUndoLimit, intUndoLimit, std::bind(&PerformanceTab::realTilesRAM, this)); connect(intPoolLimit, SIGNAL(valueChanged(int)), sync3, SLOT(slotParentValueChanged())); sync3->slotParentValueChanged(); m_syncs << sync3; sliderSwapSize->setSuffix(i18n(" GiB")); sliderSwapSize->setRange(1, 64); intSwapSize->setRange(1, 64); KisAcyclicSignalConnector *swapSizeConnector = new KisAcyclicSignalConnector(this); swapSizeConnector->connectForwardInt(sliderSwapSize, SIGNAL(valueChanged(int)), intSwapSize, SLOT(setValue(int))); swapSizeConnector->connectBackwardInt(intSwapSize, SIGNAL(valueChanged(int)), sliderSwapSize, SLOT(setValue(int))); lblSwapFileLocation->setText(cfg.swapDir()); connect(bnSwapFile, SIGNAL(clicked()), SLOT(selectSwapDir())); sliderThreadsLimit->setRange(1, QThread::idealThreadCount()); sliderFrameClonesLimit->setRange(1, QThread::idealThreadCount()); sliderFpsLimit->setRange(20, 300); sliderFpsLimit->setSuffix(i18n(" fps")); connect(sliderThreadsLimit, SIGNAL(valueChanged(int)), SLOT(slotThreadsLimitChanged(int))); connect(sliderFrameClonesLimit, SIGNAL(valueChanged(int)), SLOT(slotFrameClonesLimitChanged(int))); intCachedFramesSizeLimit->setRange(1, 10000); intCachedFramesSizeLimit->setSuffix(i18n(" px")); intCachedFramesSizeLimit->setSingleStep(1); intCachedFramesSizeLimit->setPageStep(1000); intRegionOfInterestMargin->setRange(1, 100); intRegionOfInterestMargin->setSuffix(i18n(" %")); intRegionOfInterestMargin->setSingleStep(1); intRegionOfInterestMargin->setPageStep(10); connect(chkCachedFramesSizeLimit, SIGNAL(toggled(bool)), intCachedFramesSizeLimit, SLOT(setEnabled(bool))); connect(chkUseRegionOfInterest, SIGNAL(toggled(bool)), intRegionOfInterestMargin, SLOT(setEnabled(bool))); #ifndef Q_OS_WIN // AVX workaround is needed on Windows+GCC only chkDisableAVXOptimizations->setVisible(false); #endif load(false); } PerformanceTab::~PerformanceTab() { qDeleteAll(m_syncs); } void PerformanceTab::load(bool requestDefault) { KisImageConfig cfg(true); sliderMemoryLimit->setValue(cfg.memoryHardLimitPercent(requestDefault)); sliderPoolLimit->setValue(cfg.memoryPoolLimitPercent(requestDefault)); sliderUndoLimit->setValue(cfg.memorySoftLimitPercent(requestDefault)); chkPerformanceLogging->setChecked(cfg.enablePerfLog(requestDefault)); chkProgressReporting->setChecked(cfg.enableProgressReporting(requestDefault)); sliderSwapSize->setValue(cfg.maxSwapSize(requestDefault) / 1024); lblSwapFileLocation->setText(cfg.swapDir(requestDefault)); m_lastUsedThreadsLimit = cfg.maxNumberOfThreads(requestDefault); m_lastUsedClonesLimit = cfg.frameRenderingClones(requestDefault); sliderThreadsLimit->setValue(m_lastUsedThreadsLimit); sliderFrameClonesLimit->setValue(m_lastUsedClonesLimit); sliderFpsLimit->setValue(cfg.fpsLimit(requestDefault)); { KisConfig cfg2(true); chkOpenGLFramerateLogging->setChecked(cfg2.enableOpenGLFramerateLogging(requestDefault)); chkBrushSpeedLogging->setChecked(cfg2.enableBrushSpeedLogging(requestDefault)); chkDisableVectorOptimizations->setChecked(cfg2.enableAmdVectorizationWorkaround(requestDefault)); #ifdef Q_OS_WIN chkDisableAVXOptimizations->setChecked(cfg2.disableAVXOptimizations(requestDefault)); #endif chkBackgroundCacheGeneration->setChecked(cfg2.calculateAnimationCacheInBackground(requestDefault)); } if (cfg.useOnDiskAnimationCacheSwapping(requestDefault)) { optOnDisk->setChecked(true); } else { optInMemory->setChecked(true); } chkCachedFramesSizeLimit->setChecked(cfg.useAnimationCacheFrameSizeLimit(requestDefault)); intCachedFramesSizeLimit->setValue(cfg.animationCacheFrameSizeLimit(requestDefault)); intCachedFramesSizeLimit->setEnabled(chkCachedFramesSizeLimit->isChecked()); chkUseRegionOfInterest->setChecked(cfg.useAnimationCacheRegionOfInterest(requestDefault)); intRegionOfInterestMargin->setValue(cfg.animationCacheRegionOfInterestMargin(requestDefault) * 100.0); intRegionOfInterestMargin->setEnabled(chkUseRegionOfInterest->isChecked()); } void PerformanceTab::save() { KisImageConfig cfg(false); cfg.setMemoryHardLimitPercent(sliderMemoryLimit->value()); cfg.setMemorySoftLimitPercent(sliderUndoLimit->value()); cfg.setMemoryPoolLimitPercent(sliderPoolLimit->value()); cfg.setEnablePerfLog(chkPerformanceLogging->isChecked()); cfg.setEnableProgressReporting(chkProgressReporting->isChecked()); cfg.setMaxSwapSize(sliderSwapSize->value() * 1024); cfg.setSwapDir(lblSwapFileLocation->text()); cfg.setMaxNumberOfThreads(sliderThreadsLimit->value()); cfg.setFrameRenderingClones(sliderFrameClonesLimit->value()); cfg.setFpsLimit(sliderFpsLimit->value()); { KisConfig cfg2(true); cfg2.setEnableOpenGLFramerateLogging(chkOpenGLFramerateLogging->isChecked()); cfg2.setEnableBrushSpeedLogging(chkBrushSpeedLogging->isChecked()); cfg2.setEnableAmdVectorizationWorkaround(chkDisableVectorOptimizations->isChecked()); #ifdef Q_OS_WIN cfg2.setDisableAVXOptimizations(chkDisableAVXOptimizations->isChecked()); #endif cfg2.setCalculateAnimationCacheInBackground(chkBackgroundCacheGeneration->isChecked()); } cfg.setUseOnDiskAnimationCacheSwapping(optOnDisk->isChecked()); cfg.setUseAnimationCacheFrameSizeLimit(chkCachedFramesSizeLimit->isChecked()); cfg.setAnimationCacheFrameSizeLimit(intCachedFramesSizeLimit->value()); cfg.setUseAnimationCacheRegionOfInterest(chkUseRegionOfInterest->isChecked()); cfg.setAnimationCacheRegionOfInterestMargin(intRegionOfInterestMargin->value() / 100.0); } void PerformanceTab::selectSwapDir() { KisImageConfig cfg(true); QString swapDir = cfg.swapDir(); swapDir = QFileDialog::getExistingDirectory(0, i18nc("@title:window", "Select a swap directory"), swapDir); if (swapDir.isEmpty()) { return; } lblSwapFileLocation->setText(swapDir); } void PerformanceTab::slotThreadsLimitChanged(int value) { KisSignalsBlocker b(sliderFrameClonesLimit); sliderFrameClonesLimit->setValue(qMin(m_lastUsedClonesLimit, value)); m_lastUsedThreadsLimit = value; } void PerformanceTab::slotFrameClonesLimitChanged(int value) { KisSignalsBlocker b(sliderThreadsLimit); sliderThreadsLimit->setValue(qMax(m_lastUsedThreadsLimit, value)); m_lastUsedClonesLimit = value; } //--------------------------------------------------------------------------------------------------- #include "KoColor.h" #include "opengl/KisOpenGLModeProber.h" #include "opengl/KisScreenInformationAdapter.h" #include #include QString colorSpaceString(KisSurfaceColorSpace cs, int depth) { const QString csString = #ifdef HAVE_HDR cs == KisSurfaceColorSpace::bt2020PQColorSpace ? "Rec. 2020 PQ" : cs == KisSurfaceColorSpace::scRGBColorSpace ? "Rec. 709 Linear" : #endif cs == KisSurfaceColorSpace::sRGBColorSpace ? "sRGB" : cs == KisSurfaceColorSpace::DefaultColorSpace ? "sRGB" : "Unknown Color Space"; return QString("%1 (%2 bit)").arg(csString).arg(depth); } int formatToIndex(KisConfig::RootSurfaceFormat fmt) { return fmt == KisConfig::BT2020_PQ ? 1 : fmt == KisConfig::BT709_G10 ? 2 : 0; } KisConfig::RootSurfaceFormat indexToFormat(int value) { return value == 1 ? KisConfig::BT2020_PQ : value == 2 ? KisConfig::BT709_G10 : KisConfig::BT709_G22; } DisplaySettingsTab::DisplaySettingsTab(QWidget *parent, const char *name) : WdgDisplaySettings(parent, name) { KisConfig cfg(true); const QString rendererOpenGLText = i18nc("canvas renderer", "OpenGL"); const QString rendererSoftwareText = i18nc("canvas renderer", "Software Renderer (very slow)"); #ifdef Q_OS_WIN const QString rendererOpenGLESText = i18nc("canvas renderer", "Direct3D 11 via ANGLE"); #else const QString rendererOpenGLESText = i18nc("canvas renderer", "OpenGL ES"); #endif const KisOpenGL::OpenGLRenderer renderer = KisOpenGL::getCurrentOpenGLRenderer(); lblCurrentRenderer->setText(renderer == KisOpenGL::RendererOpenGLES ? rendererOpenGLESText : renderer == KisOpenGL::RendererDesktopGL ? rendererOpenGLText : renderer == KisOpenGL::RendererSoftware ? rendererSoftwareText : i18nc("canvas renderer", "Unknown")); cmbPreferredRenderer->clear(); const KisOpenGL::OpenGLRenderers supportedRenderers = KisOpenGL::getSupportedOpenGLRenderers(); const bool onlyOneRendererSupported = supportedRenderers == KisOpenGL::RendererDesktopGL || supportedRenderers == KisOpenGL::RendererOpenGLES || supportedRenderers == KisOpenGL::RendererSoftware; if (!onlyOneRendererSupported) { QString qtPreferredRendererText; if (KisOpenGL::getQtPreferredOpenGLRenderer() == KisOpenGL::RendererOpenGLES) { qtPreferredRendererText = rendererOpenGLESText; } else if (KisOpenGL::getQtPreferredOpenGLRenderer() == KisOpenGL::RendererSoftware) { qtPreferredRendererText = rendererSoftwareText; } else { qtPreferredRendererText = rendererOpenGLText; } cmbPreferredRenderer->addItem(i18nc("canvas renderer", "Auto (%1)", qtPreferredRendererText), KisOpenGL::RendererAuto); cmbPreferredRenderer->setCurrentIndex(0); } else { cmbPreferredRenderer->setEnabled(false); } if (supportedRenderers & KisOpenGL::RendererDesktopGL) { cmbPreferredRenderer->addItem(rendererOpenGLText, KisOpenGL::RendererDesktopGL); if (KisOpenGL::getUserPreferredOpenGLRendererConfig() == KisOpenGL::RendererDesktopGL) { cmbPreferredRenderer->setCurrentIndex(cmbPreferredRenderer->count() - 1); } } #ifdef Q_OS_WIN if (supportedRenderers & KisOpenGL::RendererOpenGLES) { cmbPreferredRenderer->addItem(rendererOpenGLESText, KisOpenGL::RendererOpenGLES); if (KisOpenGL::getUserPreferredOpenGLRendererConfig() == KisOpenGL::RendererOpenGLES) { cmbPreferredRenderer->setCurrentIndex(cmbPreferredRenderer->count() - 1); } } if (supportedRenderers & KisOpenGL::RendererSoftware) { cmbPreferredRenderer->addItem(rendererSoftwareText, KisOpenGL::RendererSoftware); if (KisOpenGL::getUserPreferredOpenGLRendererConfig() == KisOpenGL::RendererSoftware) { cmbPreferredRenderer->setCurrentIndex(cmbPreferredRenderer->count() - 1); } } #endif if (!(supportedRenderers & (KisOpenGL::RendererDesktopGL | KisOpenGL::RendererOpenGLES | KisOpenGL::RendererSoftware))) { grpOpenGL->setEnabled(false); grpOpenGL->setChecked(false); chkUseTextureBuffer->setEnabled(false); chkDisableVsync->setEnabled(false); cmbFilterMode->setEnabled(false); } else { grpOpenGL->setEnabled(true); grpOpenGL->setChecked(cfg.useOpenGL()); chkUseTextureBuffer->setEnabled(cfg.useOpenGL()); chkUseTextureBuffer->setChecked(cfg.useOpenGLTextureBuffer()); chkDisableVsync->setVisible(cfg.showAdvancedOpenGLSettings()); chkDisableVsync->setEnabled(cfg.useOpenGL()); chkDisableVsync->setChecked(cfg.disableVSync()); cmbFilterMode->setEnabled(cfg.useOpenGL()); cmbFilterMode->setCurrentIndex(cfg.openGLFilteringMode()); // Don't show the high quality filtering mode if it's not available if (!KisOpenGL::supportsLoD()) { cmbFilterMode->removeItem(3); } } lblCurrentDisplayFormat->setText(""); lblCurrentRootSurfaceFormat->setText(""); lblHDRWarning->setText(""); cmbPreferedRootSurfaceFormat->addItem(colorSpaceString(KisSurfaceColorSpace::sRGBColorSpace, 8)); #ifdef HAVE_HDR cmbPreferedRootSurfaceFormat->addItem(colorSpaceString(KisSurfaceColorSpace::bt2020PQColorSpace, 10)); cmbPreferedRootSurfaceFormat->addItem(colorSpaceString(KisSurfaceColorSpace::scRGBColorSpace, 16)); #endif cmbPreferedRootSurfaceFormat->setCurrentIndex(formatToIndex(KisConfig::BT709_G22)); slotPreferredSurfaceFormatChanged(cmbPreferedRootSurfaceFormat->currentIndex()); QOpenGLContext *context = QOpenGLContext::currentContext(); if (!context) { context = QOpenGLContext::globalShareContext(); } if (context) { #if QT_VERSION >= QT_VERSION_CHECK(5, 10, 0) QScreen *screen = QGuiApplication::screenAt(rect().center()); #else QScreen *screen = 0; #endif KisScreenInformationAdapter adapter(context); if (screen && adapter.isValid()) { KisScreenInformationAdapter::ScreenInfo info = adapter.infoForScreen(screen); if (info.isValid()) { QStringList toolTip; toolTip << i18n("Display Id: %1", info.screen->name()); toolTip << i18n("Display Name: %1 %2", info.screen->manufacturer(), info.screen->model()); toolTip << i18n("Min Luminance: %1", info.minLuminance); toolTip << i18n("Max Luminance: %1", info.maxLuminance); toolTip << i18n("Max Full Frame Luminance: %1", info.maxFullFrameLuminance); toolTip << i18n("Red Primary: %1, %2", info.redPrimary[0], info.redPrimary[1]); toolTip << i18n("Green Primary: %1, %2", info.greenPrimary[0], info.greenPrimary[1]); toolTip << i18n("Blue Primary: %1, %2", info.bluePrimary[0], info.bluePrimary[1]); toolTip << i18n("White Point: %1, %2", info.whitePoint[0], info.whitePoint[1]); lblCurrentDisplayFormat->setToolTip(toolTip.join('\n')); lblCurrentDisplayFormat->setText(colorSpaceString(info.colorSpace, info.bitsPerColor)); } else { lblCurrentDisplayFormat->setToolTip(""); lblCurrentDisplayFormat->setText(i18n("Unknown")); } } else { lblCurrentDisplayFormat->setToolTip(""); lblCurrentDisplayFormat->setText(i18n("Unknown")); qWarning() << "Failed to fetch display info:" << adapter.errorString(); } const QSurfaceFormat currentFormat = KisOpenGLModeProber::instance()->surfaceformatInUse(); #if QT_VERSION >= QT_VERSION_CHECK(5, 10, 0) KisSurfaceColorSpace colorSpace = currentFormat.colorSpace(); #else KisSurfaceColorSpace colorSpace = KisSurfaceColorSpace::DefaultColorSpace; #endif lblCurrentRootSurfaceFormat->setText(colorSpaceString(colorSpace, currentFormat.redBufferSize())); cmbPreferedRootSurfaceFormat->setCurrentIndex(formatToIndex(cfg.rootSurfaceFormat())); connect(cmbPreferedRootSurfaceFormat, SIGNAL(currentIndexChanged(int)), SLOT(slotPreferredSurfaceFormatChanged(int))); slotPreferredSurfaceFormatChanged(cmbPreferedRootSurfaceFormat->currentIndex()); } #ifndef HAVE_HDR grpHDRSettings->setVisible(false); tabWidget->removeTab(tabWidget->indexOf(tabHDR)); #endif const QStringList openglWarnings = KisOpenGL::getOpenGLWarnings(); if (openglWarnings.isEmpty()) { lblOpenGLWarnings->setVisible(false); } else { QString text(" "); text.append(i18n("Warning(s):")); text.append("
    "); Q_FOREACH (const QString &warning, openglWarnings) { text.append("
  • "); text.append(warning.toHtmlEscaped()); text.append("
    • "); } text.append("
"); lblOpenGLWarnings->setText(text); lblOpenGLWarnings->setVisible(true); } if (qApp->applicationName() == "kritasketch" || qApp->applicationName() == "kritagemini") { grpOpenGL->setVisible(false); grpOpenGL->setMaximumHeight(0); } KisImageConfig imageCfg(false); KoColor c; c.fromQColor(imageCfg.selectionOverlayMaskColor()); c.setOpacity(1.0); btnSelectionOverlayColor->setColor(c); sldSelectionOverlayOpacity->setRange(0.0, 1.0, 2); sldSelectionOverlayOpacity->setSingleStep(0.05); sldSelectionOverlayOpacity->setValue(imageCfg.selectionOverlayMaskColor().alphaF()); intCheckSize->setValue(cfg.checkSize()); chkMoving->setChecked(cfg.scrollCheckers()); KoColor ck1(KoColorSpaceRegistry::instance()->rgb8()); ck1.fromQColor(cfg.checkersColor1()); colorChecks1->setColor(ck1); KoColor ck2(KoColorSpaceRegistry::instance()->rgb8()); ck2.fromQColor(cfg.checkersColor2()); colorChecks2->setColor(ck2); KoColor cb(KoColorSpaceRegistry::instance()->rgb8()); cb.fromQColor(cfg.canvasBorderColor()); canvasBorder->setColor(cb); hideScrollbars->setChecked(cfg.hideScrollbars()); chkCurveAntialiasing->setChecked(cfg.antialiasCurves()); chkSelectionOutlineAntialiasing->setChecked(cfg.antialiasSelectionOutline()); chkChannelsAsColor->setChecked(cfg.showSingleChannelAsColor()); chkHidePopups->setChecked(cfg.hidePopups()); connect(grpOpenGL, SIGNAL(toggled(bool)), SLOT(slotUseOpenGLToggled(bool))); KoColor gridColor(KoColorSpaceRegistry::instance()->rgb8()); gridColor.fromQColor(cfg.getPixelGridColor()); pixelGridColorButton->setColor(gridColor); pixelGridDrawingThresholdBox->setValue(cfg.getPixelGridDrawingThreshold() * 100); } void DisplaySettingsTab::setDefault() { KisConfig cfg(true); cmbPreferredRenderer->setCurrentIndex(0); if (!(KisOpenGL::getSupportedOpenGLRenderers() & (KisOpenGL::RendererDesktopGL | KisOpenGL::RendererOpenGLES))) { grpOpenGL->setEnabled(false); grpOpenGL->setChecked(false); chkUseTextureBuffer->setEnabled(false); chkDisableVsync->setEnabled(false); cmbFilterMode->setEnabled(false); } else { grpOpenGL->setEnabled(true); grpOpenGL->setChecked(cfg.useOpenGL(true)); chkUseTextureBuffer->setChecked(cfg.useOpenGLTextureBuffer(true)); chkUseTextureBuffer->setEnabled(true); chkDisableVsync->setEnabled(true); chkDisableVsync->setChecked(cfg.disableVSync(true)); cmbFilterMode->setEnabled(true); cmbFilterMode->setCurrentIndex(cfg.openGLFilteringMode(true)); } chkMoving->setChecked(cfg.scrollCheckers(true)); KisImageConfig imageCfg(false); KoColor c; c.fromQColor(imageCfg.selectionOverlayMaskColor(true)); c.setOpacity(1.0); btnSelectionOverlayColor->setColor(c); sldSelectionOverlayOpacity->setValue(imageCfg.selectionOverlayMaskColor(true).alphaF()); intCheckSize->setValue(cfg.checkSize(true)); KoColor ck1(KoColorSpaceRegistry::instance()->rgb8()); ck1.fromQColor(cfg.checkersColor1(true)); colorChecks1->setColor(ck1); KoColor ck2(KoColorSpaceRegistry::instance()->rgb8()); ck2.fromQColor(cfg.checkersColor2(true)); colorChecks2->setColor(ck2); KoColor cvb(KoColorSpaceRegistry::instance()->rgb8()); cvb.fromQColor(cfg.canvasBorderColor(true)); canvasBorder->setColor(cvb); hideScrollbars->setChecked(cfg.hideScrollbars(true)); chkCurveAntialiasing->setChecked(cfg.antialiasCurves(true)); chkSelectionOutlineAntialiasing->setChecked(cfg.antialiasSelectionOutline(true)); chkChannelsAsColor->setChecked(cfg.showSingleChannelAsColor(true)); chkHidePopups->setChecked(cfg.hidePopups(true)); KoColor gridColor(KoColorSpaceRegistry::instance()->rgb8()); gridColor.fromQColor(cfg.getPixelGridColor(true)); pixelGridColorButton->setColor(gridColor); pixelGridDrawingThresholdBox->setValue(cfg.getPixelGridDrawingThreshold(true) * 100); cmbPreferedRootSurfaceFormat->setCurrentIndex(formatToIndex(KisConfig::BT709_G22)); slotPreferredSurfaceFormatChanged(cmbPreferedRootSurfaceFormat->currentIndex()); } void DisplaySettingsTab::slotUseOpenGLToggled(bool isChecked) { chkUseTextureBuffer->setEnabled(isChecked); chkDisableVsync->setEnabled(isChecked); cmbFilterMode->setEnabled(isChecked); } void DisplaySettingsTab::slotPreferredSurfaceFormatChanged(int index) { Q_UNUSED(index); QOpenGLContext *context = QOpenGLContext::currentContext(); if (context) { #if QT_VERSION >= QT_VERSION_CHECK(5, 10, 0) QScreen *screen = QGuiApplication::screenAt(rect().center()); #else QScreen *screen = 0; #endif KisScreenInformationAdapter adapter(context); if (adapter.isValid()) { KisScreenInformationAdapter::ScreenInfo info = adapter.infoForScreen(screen); if (info.isValid()) { if (cmbPreferedRootSurfaceFormat->currentIndex() != formatToIndex(KisConfig::BT709_G22) && info.colorSpace == KisSurfaceColorSpace::sRGBColorSpace) { lblHDRWarning->setText(i18n("WARNING: current display doesn't support HDR rendering")); } else { lblHDRWarning->setText(""); } } } } } //--------------------------------------------------------------------------------------------------- FullscreenSettingsTab::FullscreenSettingsTab(QWidget* parent) : WdgFullscreenSettingsBase(parent) { KisConfig cfg(true); chkDockers->setChecked(cfg.hideDockersFullscreen()); chkMenu->setChecked(cfg.hideMenuFullscreen()); chkScrollbars->setChecked(cfg.hideScrollbarsFullscreen()); chkStatusbar->setChecked(cfg.hideStatusbarFullscreen()); chkTitlebar->setChecked(cfg.hideTitlebarFullscreen()); chkToolbar->setChecked(cfg.hideToolbarFullscreen()); } void FullscreenSettingsTab::setDefault() { KisConfig cfg(true); chkDockers->setChecked(cfg.hideDockersFullscreen(true)); chkMenu->setChecked(cfg.hideMenuFullscreen(true)); chkScrollbars->setChecked(cfg.hideScrollbarsFullscreen(true)); chkStatusbar->setChecked(cfg.hideStatusbarFullscreen(true)); chkTitlebar->setChecked(cfg.hideTitlebarFullscreen(true)); chkToolbar->setChecked(cfg.hideToolbarFullscreen(true)); } //--------------------------------------------------------------------------------------------------- KisDlgPreferences::KisDlgPreferences(QWidget* parent, const char* name) : KPageDialog(parent) { Q_UNUSED(name); setWindowTitle(i18n("Configure Krita")); setStandardButtons(QDialogButtonBox::Ok | QDialogButtonBox::Cancel | QDialogButtonBox::RestoreDefaults); setFaceType(KPageDialog::List); // General KoVBox *vbox = new KoVBox(); KPageWidgetItem *page = new KPageWidgetItem(vbox, i18n("General")); page->setObjectName("general"); page->setHeader(i18n("General")); page->setIcon(KisIconUtils::loadIcon("go-home")); m_pages << page; addPage(page); m_general = new GeneralTab(vbox); // Shortcuts vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Keyboard Shortcuts")); page->setObjectName("shortcuts"); page->setHeader(i18n("Shortcuts")); page->setIcon(KisIconUtils::loadIcon("document-export")); m_pages << page; addPage(page); m_shortcutSettings = new ShortcutSettingsTab(vbox); connect(this, SIGNAL(accepted()), m_shortcutSettings, SLOT(saveChanges())); connect(this, SIGNAL(rejected()), m_shortcutSettings, SLOT(cancelChanges())); // Canvas input settings m_inputConfiguration = new KisInputConfigurationPage(); page = addPage(m_inputConfiguration, i18n("Canvas Input Settings")); page->setHeader(i18n("Canvas Input")); page->setObjectName("canvasinput"); page->setIcon(KisIconUtils::loadIcon("configure")); m_pages << page; // Display vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Display")); page->setObjectName("display"); page->setHeader(i18n("Display")); page->setIcon(KisIconUtils::loadIcon("preferences-desktop-display")); m_pages << page; addPage(page); m_displaySettings = new DisplaySettingsTab(vbox); // Color vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Color Management")); page->setObjectName("colormanagement"); page->setHeader(i18n("Color")); page->setIcon(KisIconUtils::loadIcon("preferences-desktop-color")); m_pages << page; addPage(page); m_colorSettings = new ColorSettingsTab(vbox); // Performance vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Performance")); page->setObjectName("performance"); page->setHeader(i18n("Performance")); page->setIcon(KisIconUtils::loadIcon("applications-system")); m_pages << page; addPage(page); m_performanceSettings = new PerformanceTab(vbox); // Tablet vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Tablet settings")); page->setObjectName("tablet"); page->setHeader(i18n("Tablet")); page->setIcon(KisIconUtils::loadIcon("document-edit")); m_pages << page; addPage(page); m_tabletSettings = new TabletSettingsTab(vbox); // full-screen mode vbox = new KoVBox(); page = new KPageWidgetItem(vbox, i18n("Canvas-only settings")); page->setObjectName("canvasonly"); page->setHeader(i18n("Canvas-only")); page->setIcon(KisIconUtils::loadIcon("folder-pictures")); m_pages << page; addPage(page); m_fullscreenSettings = new FullscreenSettingsTab(vbox); // Author profiles m_authorPage = new KoConfigAuthorPage(); page = addPage(m_authorPage, i18nc("@title:tab Author page", "Author" )); page->setObjectName("author"); page->setHeader(i18n("Author")); page->setIcon(KisIconUtils::loadIcon("im-user")); m_pages << page; QPushButton *restoreDefaultsButton = button(QDialogButtonBox::RestoreDefaults); restoreDefaultsButton->setText(i18nc("@action:button", "Restore Defaults")); connect(this, SIGNAL(accepted()), m_inputConfiguration, SLOT(saveChanges())); connect(this, SIGNAL(rejected()), m_inputConfiguration, SLOT(revertChanges())); KisPreferenceSetRegistry *preferenceSetRegistry = KisPreferenceSetRegistry::instance(); QStringList keys = preferenceSetRegistry->keys(); keys.sort(); Q_FOREACH(const QString &key, keys) { KisAbstractPreferenceSetFactory *preferenceSetFactory = preferenceSetRegistry->value(key); KisPreferenceSet* preferenceSet = preferenceSetFactory->createPreferenceSet(); vbox = new KoVBox(); page = new KPageWidgetItem(vbox, preferenceSet->name()); page->setHeader(preferenceSet->header()); page->setIcon(preferenceSet->icon()); addPage(page); preferenceSet->setParent(vbox); preferenceSet->loadPreferences(); connect(restoreDefaultsButton, SIGNAL(clicked(bool)), preferenceSet, SLOT(loadDefaultPreferences()), Qt::UniqueConnection); connect(this, SIGNAL(accepted()), preferenceSet, SLOT(savePreferences()), Qt::UniqueConnection); } connect(restoreDefaultsButton, SIGNAL(clicked(bool)), this, SLOT(slotDefault())); KisConfig cfg(true); QString currentPageName = cfg.readEntry("KisDlgPreferences/CurrentPage"); Q_FOREACH(KPageWidgetItem *page, m_pages) { if (page->objectName() == currentPageName) { setCurrentPage(page); break; } } } KisDlgPreferences::~KisDlgPreferences() { KisConfig cfg(true); cfg.writeEntry("KisDlgPreferences/CurrentPage", currentPage()->objectName()); } void KisDlgPreferences::showEvent(QShowEvent *event){ KPageDialog::showEvent(event); button(QDialogButtonBox::Cancel)->setAutoDefault(false); button(QDialogButtonBox::Ok)->setAutoDefault(false); button(QDialogButtonBox::RestoreDefaults)->setAutoDefault(false); button(QDialogButtonBox::Cancel)->setDefault(false); button(QDialogButtonBox::Ok)->setDefault(false); button(QDialogButtonBox::RestoreDefaults)->setDefault(false); } void KisDlgPreferences::slotDefault() { if (currentPage()->objectName() == "general") { m_general->setDefault(); } else if (currentPage()->objectName() == "shortcuts") { m_shortcutSettings->setDefault(); } else if (currentPage()->objectName() == "display") { m_displaySettings->setDefault(); } else if (currentPage()->objectName() == "colormanagement") { m_colorSettings->setDefault(); } else if (currentPage()->objectName() == "performance") { m_performanceSettings->load(true); } else if (currentPage()->objectName() == "tablet") { m_tabletSettings->setDefault(); } else if (currentPage()->objectName() == "canvasonly") { m_fullscreenSettings->setDefault(); } else if (currentPage()->objectName() == "canvasinput") { m_inputConfiguration->setDefaults(); } } bool KisDlgPreferences::editPreferences() { KisDlgPreferences* dialog; dialog = new KisDlgPreferences(); bool baccept = (dialog->exec() == Accepted); if (baccept) { // General settings KisConfig cfg(false); cfg.setNewCursorStyle(dialog->m_general->cursorStyle()); cfg.setNewOutlineStyle(dialog->m_general->outlineStyle()); cfg.setShowRootLayer(dialog->m_general->showRootLayer()); cfg.setShowOutlineWhilePainting(dialog->m_general->showOutlineWhilePainting()); cfg.setForceAlwaysFullSizedOutline(!dialog->m_general->m_changeBrushOutline->isChecked()); cfg.setSessionOnStartup(dialog->m_general->sessionOnStartup()); cfg.setSaveSessionOnQuit(dialog->m_general->saveSessionOnQuit()); KConfigGroup group = KSharedConfig::openConfig()->group("File Dialogs"); group.writeEntry("DontUseNativeFileDialog", !dialog->m_general->m_chkNativeFileDialog->isChecked()); cfg.writeEntry("maximumBrushSize", dialog->m_general->intMaxBrushSize->value()); cfg.writeEntry("mdi_viewmode", dialog->m_general->mdiMode()); cfg.setMDIBackgroundColor(dialog->m_general->m_mdiColor->color().toXML()); cfg.setMDIBackgroundImage(dialog->m_general->m_backgroundimage->text()); cfg.setAutoSaveInterval(dialog->m_general->autoSaveInterval()); cfg.writeEntry("autosavefileshidden", dialog->m_general->chkHideAutosaveFiles->isChecked()); cfg.setBackupFile(dialog->m_general->m_backupFileCheckBox->isChecked()); cfg.writeEntry("backupfilelocation", dialog->m_general->cmbBackupFileLocation->currentIndex()); cfg.writeEntry("backupfilesuffix", dialog->m_general->txtBackupFileSuffix->text()); cfg.writeEntry("numberofbackupfiles", dialog->m_general->intNumBackupFiles->value()); cfg.setShowCanvasMessages(dialog->m_general->showCanvasMessages()); cfg.setCompressKra(dialog->m_general->compressKra()); cfg.setUseZip64(dialog->m_general->useZip64()); const QString configPath = QStandardPaths::writableLocation(QStandardPaths::GenericConfigLocation); QSettings kritarc(configPath + QStringLiteral("/kritadisplayrc"), QSettings::IniFormat); kritarc.setValue("EnableHiDPI", dialog->m_general->m_chkHiDPI->isChecked()); #ifdef HAVE_HIGH_DPI_SCALE_FACTOR_ROUNDING_POLICY kritarc.setValue("EnableHiDPIFractionalScaling", dialog->m_general->m_chkHiDPIFractionalScaling->isChecked()); #endif kritarc.setValue("EnableSingleApplication", dialog->m_general->m_chkSingleApplication->isChecked()); kritarc.setValue("LogUsage", dialog->m_general->chkUsageLogging->isChecked()); cfg.setToolOptionsInDocker(dialog->m_general->toolOptionsInDocker()); cfg.writeEntry("useCreamyAlphaDarken", (bool)!dialog->m_general->cmbFlowMode->currentIndex()); cfg.setKineticScrollingEnabled(dialog->m_general->kineticScrollingEnabled()); cfg.setKineticScrollingGesture(dialog->m_general->kineticScrollingGesture()); cfg.setKineticScrollingSensitivity(dialog->m_general->kineticScrollingSensitivity()); cfg.setKineticScrollingHideScrollbars(dialog->m_general->kineticScrollingHiddenScrollbars()); cfg.setSwitchSelectionCtrlAlt(dialog->m_general->switchSelectionCtrlAlt()); cfg.setDisableTouchOnCanvas(!dialog->m_general->chkEnableTouch->isChecked()); cfg.setDisableTouchRotation(!dialog->m_general->chkEnableTouchRotation->isChecked()); cfg.setActivateTransformToolAfterPaste(dialog->m_general->chkEnableTranformToolAfterPaste->isChecked()); cfg.setConvertToImageColorspaceOnImport(dialog->m_general->convertToImageColorspaceOnImport()); cfg.setUndoStackLimit(dialog->m_general->undoStackSize()); cfg.setFavoritePresets(dialog->m_general->favoritePresets()); // Color settings cfg.setUseSystemMonitorProfile(dialog->m_colorSettings->m_page->chkUseSystemMonitorProfile->isChecked()); for (int i = 0; i < QApplication::screens().count(); ++i) { if (dialog->m_colorSettings->m_page->chkUseSystemMonitorProfile->isChecked()) { int currentIndex = dialog->m_colorSettings->m_monitorProfileWidgets[i]->currentIndex(); QString monitorid = dialog->m_colorSettings->m_monitorProfileWidgets[i]->itemData(currentIndex).toString(); cfg.setMonitorForScreen(i, monitorid); } else { cfg.setMonitorProfile(i, dialog->m_colorSettings->m_monitorProfileWidgets[i]->currentUnsqueezedText(), dialog->m_colorSettings->m_page->chkUseSystemMonitorProfile->isChecked()); } } cfg.setWorkingColorSpace(dialog->m_colorSettings->m_page->cmbWorkingColorSpace->currentItem().id()); KisImageConfig cfgImage(false); cfgImage.setDefaultProofingConfig(dialog->m_colorSettings->m_page->proofingSpaceSelector->currentColorSpace(), dialog->m_colorSettings->m_page->cmbProofingIntent->currentIndex(), dialog->m_colorSettings->m_page->ckbProofBlackPoint->isChecked(), dialog->m_colorSettings->m_page->gamutAlarm->color(), (double)dialog->m_colorSettings->m_page->sldAdaptationState->value()/20); cfg.setUseBlackPointCompensation(dialog->m_colorSettings->m_page->chkBlackpoint->isChecked()); cfg.setAllowLCMSOptimization(dialog->m_colorSettings->m_page->chkAllowLCMSOptimization->isChecked()); cfg.setForcePaletteColors(dialog->m_colorSettings->m_page->chkForcePaletteColor->isChecked()); cfg.setPasteBehaviour(dialog->m_colorSettings->m_pasteBehaviourGroup.checkedId()); cfg.setRenderIntent(dialog->m_colorSettings->m_page->cmbMonitorIntent->currentIndex()); // Tablet settings cfg.setPressureTabletCurve( dialog->m_tabletSettings->m_page->pressureCurve->curve().toString() ); cfg.setUseRightMiddleTabletButtonWorkaround( dialog->m_tabletSettings->m_page->chkUseRightMiddleClickWorkaround->isChecked()); #if defined Q_OS_WIN && (!defined USE_QT_TABLET_WINDOWS || defined QT_HAS_WINTAB_SWITCH) #ifdef USE_QT_TABLET_WINDOWS // ask Qt if WinInk is actually available const bool isWinInkAvailable = true; #else const bool isWinInkAvailable = KisTabletSupportWin8::isAvailable(); #endif if (isWinInkAvailable) { cfg.setUseWin8PointerInput(dialog->m_tabletSettings->m_page->radioWin8PointerInput->isChecked()); } #endif dialog->m_performanceSettings->save(); if (!cfg.useOpenGL() && dialog->m_displaySettings->grpOpenGL->isChecked()) cfg.setCanvasState("TRY_OPENGL"); if (dialog->m_displaySettings->grpOpenGL->isChecked()) { KisOpenGL::OpenGLRenderer renderer = static_cast( dialog->m_displaySettings->cmbPreferredRenderer->itemData( dialog->m_displaySettings->cmbPreferredRenderer->currentIndex()).toInt()); KisOpenGL::setUserPreferredOpenGLRendererConfig(renderer); } else { KisOpenGL::setUserPreferredOpenGLRendererConfig(KisOpenGL::RendererNone); } cfg.setUseOpenGLTextureBuffer(dialog->m_displaySettings->chkUseTextureBuffer->isChecked()); cfg.setOpenGLFilteringMode(dialog->m_displaySettings->cmbFilterMode->currentIndex()); cfg.setDisableVSync(dialog->m_displaySettings->chkDisableVsync->isChecked()); cfg.setRootSurfaceFormat(&kritarc, indexToFormat(dialog->m_displaySettings->cmbPreferedRootSurfaceFormat->currentIndex())); cfg.setCheckSize(dialog->m_displaySettings->intCheckSize->value()); cfg.setScrollingCheckers(dialog->m_displaySettings->chkMoving->isChecked()); cfg.setCheckersColor1(dialog->m_displaySettings->colorChecks1->color().toQColor()); cfg.setCheckersColor2(dialog->m_displaySettings->colorChecks2->color().toQColor()); cfg.setCanvasBorderColor(dialog->m_displaySettings->canvasBorder->color().toQColor()); cfg.setHideScrollbars(dialog->m_displaySettings->hideScrollbars->isChecked()); KoColor c = dialog->m_displaySettings->btnSelectionOverlayColor->color(); c.setOpacity(dialog->m_displaySettings->sldSelectionOverlayOpacity->value()); cfgImage.setSelectionOverlayMaskColor(c.toQColor()); cfg.setAntialiasCurves(dialog->m_displaySettings->chkCurveAntialiasing->isChecked()); cfg.setAntialiasSelectionOutline(dialog->m_displaySettings->chkSelectionOutlineAntialiasing->isChecked()); cfg.setShowSingleChannelAsColor(dialog->m_displaySettings->chkChannelsAsColor->isChecked()); cfg.setHidePopups(dialog->m_displaySettings->chkHidePopups->isChecked()); cfg.setHideDockersFullscreen(dialog->m_fullscreenSettings->chkDockers->checkState()); cfg.setHideMenuFullscreen(dialog->m_fullscreenSettings->chkMenu->checkState()); cfg.setHideScrollbarsFullscreen(dialog->m_fullscreenSettings->chkScrollbars->checkState()); cfg.setHideStatusbarFullscreen(dialog->m_fullscreenSettings->chkStatusbar->checkState()); cfg.setHideTitlebarFullscreen(dialog->m_fullscreenSettings->chkTitlebar->checkState()); cfg.setHideToolbarFullscreen(dialog->m_fullscreenSettings->chkToolbar->checkState()); cfg.setCursorMainColor(dialog->m_general->cursorColorBtutton->color().toQColor()); cfg.setPixelGridColor(dialog->m_displaySettings->pixelGridColorButton->color().toQColor()); cfg.setPixelGridDrawingThreshold(dialog->m_displaySettings->pixelGridDrawingThresholdBox->value() / 100); dialog->m_authorPage->apply(); } delete dialog; return baccept; } diff --git a/libs/ui/kis_node_manager.cpp b/libs/ui/kis_node_manager.cpp index e0e418c779..b4b6701bc5 100644 --- a/libs/ui/kis_node_manager.cpp +++ b/libs/ui/kis_node_manager.cpp @@ -1,1583 +1,1582 @@ /* * Copyright (C) 2007 Boudewijn Rempt * * 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_node_manager.h" #include #include #include #include -#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "KisPart.h" #include "canvas/kis_canvas2.h" #include "kis_shape_controller.h" #include "kis_canvas_resource_provider.h" #include "KisViewManager.h" #include "KisDocument.h" #include "kis_mask_manager.h" #include "kis_group_layer.h" #include "kis_layer_manager.h" #include "kis_selection_manager.h" #include "kis_node_commands_adapter.h" #include "kis_action.h" #include "kis_action_manager.h" #include "kis_processing_applicator.h" #include "kis_sequential_iterator.h" #include "kis_transaction.h" #include "kis_node_selection_adapter.h" #include "kis_node_insertion_adapter.h" #include "kis_node_juggler_compressed.h" #include "KisNodeDisplayModeAdapter.h" #include "kis_clipboard.h" #include "kis_node_dummies_graph.h" #include "kis_mimedata.h" #include "kis_layer_utils.h" #include "krita_utils.h" #include "kis_shape_layer.h" #include "processing/kis_mirror_processing_visitor.h" #include "KisView.h" #include #include #include struct KisNodeManager::Private { Private(KisNodeManager *_q, KisViewManager *v) : q(_q) , view(v) , imageView(0) , layerManager(v) , maskManager(v) , commandsAdapter(v) , nodeSelectionAdapter(new KisNodeSelectionAdapter(q)) , nodeInsertionAdapter(new KisNodeInsertionAdapter(q)) , nodeDisplayModeAdapter(new KisNodeDisplayModeAdapter()) , lastRequestedIsolatedModeStatus(false) { } KisNodeManager * q; KisViewManager * view; QPointerimageView; KisLayerManager layerManager; KisMaskManager maskManager; KisNodeCommandsAdapter commandsAdapter; QScopedPointer nodeSelectionAdapter; QScopedPointer nodeInsertionAdapter; QScopedPointer nodeDisplayModeAdapter; KisAction *showInTimeline; KisNodeList selectedNodes; QPointer nodeJuggler; KisNodeWSP previouslyActiveNode; bool activateNodeImpl(KisNodeSP node); QSignalMapper nodeCreationSignalMapper; QSignalMapper nodeConversionSignalMapper; bool lastRequestedIsolatedModeStatus; void saveDeviceAsImage(KisPaintDeviceSP device, const QString &defaultName, const QRect &bounds, qreal xRes, qreal yRes, quint8 opacity); void mergeTransparencyMaskAsAlpha(bool writeToLayers); KisNodeJugglerCompressed* lazyGetJuggler(const KUndo2MagicString &actionName); }; bool KisNodeManager::Private::activateNodeImpl(KisNodeSP node) { Q_ASSERT(view); Q_ASSERT(view->canvasBase()); Q_ASSERT(view->canvasBase()->globalShapeManager()); Q_ASSERT(imageView); if (node && node == q->activeNode()) { return false; } // Set the selection on the shape manager to the active layer // and set call KoSelection::setActiveLayer( KoShapeLayer* layer ) // with the parent of the active layer. KoSelection *selection = view->canvasBase()->globalShapeManager()->selection(); Q_ASSERT(selection); selection->deselectAll(); if (!node) { selection->setActiveLayer(0); imageView->setCurrentNode(0); maskManager.activateMask(0); layerManager.activateLayer(0); previouslyActiveNode = q->activeNode(); } else { previouslyActiveNode = q->activeNode(); KoShape * shape = view->document()->shapeForNode(node); //if (!shape) return false; KIS_SAFE_ASSERT_RECOVER_RETURN_VALUE(shape, false); selection->select(shape); KoShapeLayer * shapeLayer = dynamic_cast(shape); //if (!shapeLayer) return false; KIS_SAFE_ASSERT_RECOVER_RETURN_VALUE(shapeLayer, false); // shapeLayer->setGeometryProtected(node->userLocked()); // shapeLayer->setVisible(node->visible()); selection->setActiveLayer(shapeLayer); imageView->setCurrentNode(node); if (KisLayerSP layer = qobject_cast(node.data())) { maskManager.activateMask(0); layerManager.activateLayer(layer); } else if (KisMaskSP mask = dynamic_cast(node.data())) { maskManager.activateMask(mask); // XXX_NODE: for now, masks cannot be nested. layerManager.activateLayer(static_cast(node->parent().data())); } } return true; } KisNodeManager::KisNodeManager(KisViewManager *view) : m_d(new Private(this, view)) { connect(&m_d->layerManager, SIGNAL(sigLayerActivated(KisLayerSP)), SIGNAL(sigLayerActivated(KisLayerSP))); } KisNodeManager::~KisNodeManager() { delete m_d; } void KisNodeManager::setView(QPointerimageView) { m_d->maskManager.setView(imageView); m_d->layerManager.setView(imageView); if (m_d->imageView) { KisShapeController *shapeController = dynamic_cast(m_d->imageView->document()->shapeController()); Q_ASSERT(shapeController); shapeController->disconnect(SIGNAL(sigActivateNode(KisNodeSP)), this); m_d->imageView->image()->disconnect(this); } m_d->imageView = imageView; if (m_d->imageView) { KisShapeController *shapeController = dynamic_cast(m_d->imageView->document()->shapeController()); Q_ASSERT(shapeController); connect(shapeController, SIGNAL(sigActivateNode(KisNodeSP)), SLOT(slotNonUiActivatedNode(KisNodeSP))); connect(m_d->imageView->image(), SIGNAL(sigIsolatedModeChanged()),this, SLOT(slotUpdateIsolateModeActionImageStatusChange())); connect(m_d->imageView->image(), SIGNAL(sigRequestNodeReselection(KisNodeSP,KisNodeList)),this, SLOT(slotImageRequestNodeReselection(KisNodeSP,KisNodeList))); m_d->imageView->resourceProvider()->slotNodeActivated(m_d->imageView->currentNode()); } } #define NEW_LAYER_ACTION(id, layerType) \ { \ action = actionManager->createAction(id); \ m_d->nodeCreationSignalMapper.setMapping(action, layerType); \ connect(action, SIGNAL(triggered()), \ &m_d->nodeCreationSignalMapper, SLOT(map())); \ } #define CONVERT_NODE_ACTION_2(id, layerType, exclude) \ { \ action = actionManager->createAction(id); \ action->setExcludedNodeTypes(QStringList(exclude)); \ actionManager->addAction(id, action); \ m_d->nodeConversionSignalMapper.setMapping(action, layerType); \ connect(action, SIGNAL(triggered()), \ &m_d->nodeConversionSignalMapper, SLOT(map())); \ } #define CONVERT_NODE_ACTION(id, layerType) \ CONVERT_NODE_ACTION_2(id, layerType, layerType) void KisNodeManager::setup(KActionCollection * actionCollection, KisActionManager* actionManager) { m_d->layerManager.setup(actionManager); m_d->maskManager.setup(actionCollection, actionManager); KisAction * action = 0; action = actionManager->createAction("mirrorNodeX"); connect(action, SIGNAL(triggered()), this, SLOT(mirrorNodeX())); action = actionManager->createAction("mirrorNodeY"); connect(action, SIGNAL(triggered()), this, SLOT(mirrorNodeY())); action = actionManager->createAction("mirrorAllNodesX"); connect(action, SIGNAL(triggered()), this, SLOT(mirrorAllNodesX())); action = actionManager->createAction("mirrorAllNodesY"); connect(action, SIGNAL(triggered()), this, SLOT(mirrorAllNodesY())); action = actionManager->createAction("activateNextLayer"); connect(action, SIGNAL(triggered()), this, SLOT(activateNextNode())); action = actionManager->createAction("activatePreviousLayer"); connect(action, SIGNAL(triggered()), this, SLOT(activatePreviousNode())); action = actionManager->createAction("switchToPreviouslyActiveNode"); connect(action, SIGNAL(triggered()), this, SLOT(switchToPreviouslyActiveNode())); action = actionManager->createAction("save_node_as_image"); connect(action, SIGNAL(triggered()), this, SLOT(saveNodeAsImage())); action = actionManager->createAction("save_vector_node_to_svg"); connect(action, SIGNAL(triggered()), this, SLOT(saveVectorLayerAsImage())); action->setActivationFlags(KisAction::ACTIVE_SHAPE_LAYER); action = actionManager->createAction("duplicatelayer"); connect(action, SIGNAL(triggered()), this, SLOT(duplicateActiveNode())); action = actionManager->createAction("copy_layer_clipboard"); connect(action, SIGNAL(triggered()), this, SLOT(copyLayersToClipboard())); action = actionManager->createAction("cut_layer_clipboard"); connect(action, SIGNAL(triggered()), this, SLOT(cutLayersToClipboard())); action = actionManager->createAction("paste_layer_from_clipboard"); connect(action, SIGNAL(triggered()), this, SLOT(pasteLayersFromClipboard())); action = actionManager->createAction("create_quick_group"); connect(action, SIGNAL(triggered()), this, SLOT(createQuickGroup())); action = actionManager->createAction("create_quick_clipping_group"); connect(action, SIGNAL(triggered()), this, SLOT(createQuickClippingGroup())); action = actionManager->createAction("quick_ungroup"); connect(action, SIGNAL(triggered()), this, SLOT(quickUngroup())); action = actionManager->createAction("select_all_layers"); connect(action, SIGNAL(triggered()), this, SLOT(selectAllNodes())); action = actionManager->createAction("select_visible_layers"); connect(action, SIGNAL(triggered()), this, SLOT(selectVisibleNodes())); action = actionManager->createAction("select_locked_layers"); connect(action, SIGNAL(triggered()), this, SLOT(selectLockedNodes())); action = actionManager->createAction("select_invisible_layers"); connect(action, SIGNAL(triggered()), this, SLOT(selectInvisibleNodes())); action = actionManager->createAction("select_unlocked_layers"); connect(action, SIGNAL(triggered()), this, SLOT(selectUnlockedNodes())); action = actionManager->createAction("new_from_visible"); connect(action, SIGNAL(triggered()), this, SLOT(createFromVisible())); action = actionManager->createAction("show_in_timeline"); action->setCheckable(true); connect(action, SIGNAL(toggled(bool)), this, SLOT(slotShowHideTimeline(bool))); m_d->showInTimeline = action; NEW_LAYER_ACTION("add_new_paint_layer", "KisPaintLayer"); NEW_LAYER_ACTION("add_new_group_layer", "KisGroupLayer"); NEW_LAYER_ACTION("add_new_clone_layer", "KisCloneLayer"); NEW_LAYER_ACTION("add_new_shape_layer", "KisShapeLayer"); NEW_LAYER_ACTION("add_new_adjustment_layer", "KisAdjustmentLayer"); NEW_LAYER_ACTION("add_new_fill_layer", "KisGeneratorLayer"); NEW_LAYER_ACTION("add_new_file_layer", "KisFileLayer"); NEW_LAYER_ACTION("add_new_transparency_mask", "KisTransparencyMask"); NEW_LAYER_ACTION("add_new_filter_mask", "KisFilterMask"); NEW_LAYER_ACTION("add_new_colorize_mask", "KisColorizeMask"); NEW_LAYER_ACTION("add_new_transform_mask", "KisTransformMask"); NEW_LAYER_ACTION("add_new_selection_mask", "KisSelectionMask"); connect(&m_d->nodeCreationSignalMapper, SIGNAL(mapped(QString)), this, SLOT(createNode(QString))); CONVERT_NODE_ACTION("convert_to_paint_layer", "KisPaintLayer"); CONVERT_NODE_ACTION_2("convert_to_selection_mask", "KisSelectionMask", QStringList() << "KisSelectionMask" << "KisColorizeMask"); CONVERT_NODE_ACTION_2("convert_to_filter_mask", "KisFilterMask", QStringList() << "KisFilterMask" << "KisColorizeMask"); CONVERT_NODE_ACTION_2("convert_to_transparency_mask", "KisTransparencyMask", QStringList() << "KisTransparencyMask" << "KisColorizeMask"); CONVERT_NODE_ACTION("convert_to_animated", "animated"); CONVERT_NODE_ACTION_2("convert_to_file_layer", "KisFileLayer", QStringList() << "KisFileLayer" << "KisCloneLayer"); connect(&m_d->nodeConversionSignalMapper, SIGNAL(mapped(QString)), this, SLOT(convertNode(QString))); action = actionManager->createAction("isolate_layer"); connect(action, SIGNAL(triggered(bool)), this, SLOT(toggleIsolateMode(bool))); action = actionManager->createAction("toggle_layer_visibility"); connect(action, SIGNAL(triggered()), this, SLOT(toggleVisibility())); action = actionManager->createAction("toggle_layer_lock"); connect(action, SIGNAL(triggered()), this, SLOT(toggleLock())); action = actionManager->createAction("toggle_layer_inherit_alpha"); connect(action, SIGNAL(triggered()), this, SLOT(toggleInheritAlpha())); action = actionManager->createAction("toggle_layer_alpha_lock"); connect(action, SIGNAL(triggered()), this, SLOT(toggleAlphaLock())); action = actionManager->createAction("split_alpha_into_mask"); connect(action, SIGNAL(triggered()), this, SLOT(slotSplitAlphaIntoMask())); action = actionManager->createAction("split_alpha_write"); connect(action, SIGNAL(triggered()), this, SLOT(slotSplitAlphaWrite())); // HINT: we can save even when the nodes are not editable action = actionManager->createAction("split_alpha_save_merged"); connect(action, SIGNAL(triggered()), this, SLOT(slotSplitAlphaSaveMerged())); connect(this, SIGNAL(sigNodeActivated(KisNodeSP)), SLOT(slotUpdateIsolateModeAction())); connect(this, SIGNAL(sigNodeActivated(KisNodeSP)), SLOT(slotTryRestartIsolatedMode())); } void KisNodeManager::updateGUI() { // enable/disable all relevant actions m_d->layerManager.updateGUI(); m_d->maskManager.updateGUI(); } KisNodeSP KisNodeManager::activeNode() { if (m_d->imageView) { return m_d->imageView->currentNode(); } return 0; } KisLayerSP KisNodeManager::activeLayer() { return m_d->layerManager.activeLayer(); } const KoColorSpace* KisNodeManager::activeColorSpace() { if (m_d->maskManager.activeDevice()) { return m_d->maskManager.activeDevice()->colorSpace(); } else { Q_ASSERT(m_d->layerManager.activeLayer()); if (m_d->layerManager.activeLayer()->parentLayer()) return m_d->layerManager.activeLayer()->parentLayer()->colorSpace(); else return m_d->view->image()->colorSpace(); } } void KisNodeManager::moveNodeAt(KisNodeSP node, KisNodeSP parent, int index) { if (parent->allowAsChild(node)) { if (node->inherits("KisSelectionMask") && parent->inherits("KisLayer")) { KisSelectionMask *m = dynamic_cast(node.data()); KisLayer *l = qobject_cast(parent.data()); if (m && m->active() && l && l->selectionMask()) { l->selectionMask()->setActive(false); } } m_d->commandsAdapter.moveNode(node, parent, index); } } void KisNodeManager::moveNodesDirect(KisNodeList nodes, KisNodeSP parent, KisNodeSP aboveThis) { KUndo2MagicString actionName = kundo2_i18n("Move Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->moveNode(nodes, parent, aboveThis); } void KisNodeManager::copyNodesDirect(KisNodeList nodes, KisNodeSP parent, KisNodeSP aboveThis) { KUndo2MagicString actionName = kundo2_i18n("Copy Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->copyNode(nodes, parent, aboveThis); } void KisNodeManager::addNodesDirect(KisNodeList nodes, KisNodeSP parent, KisNodeSP aboveThis) { KUndo2MagicString actionName = kundo2_i18n("Add Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->addNode(nodes, parent, aboveThis); } void KisNodeManager::toggleIsolateActiveNode() { KisImageWSP image = m_d->view->image(); KisNodeSP activeNode = this->activeNode(); KIS_ASSERT_RECOVER_RETURN(activeNode); if (activeNode == image->isolatedModeRoot()) { toggleIsolateMode(false); } else { toggleIsolateMode(true); } } void KisNodeManager::toggleIsolateMode(bool checked) { KisImageWSP image = m_d->view->image(); KisNodeSP activeNode = this->activeNode(); if (checked && activeNode) { // Transform and colorize masks don't have pixel data... if (activeNode->inherits("KisTransformMask") || activeNode->inherits("KisColorizeMask")) return; if (!image->startIsolatedMode(activeNode)) { KisAction *action = m_d->view->actionManager()->actionByName("isolate_layer"); action->setChecked(false); } } else { image->stopIsolatedMode(); } m_d->lastRequestedIsolatedModeStatus = checked; } void KisNodeManager::slotUpdateIsolateModeActionImageStatusChange() { slotUpdateIsolateModeAction(); KisNodeSP isolatedRootNode = m_d->view->image()->isolatedModeRoot(); if (this->activeNode() && bool(isolatedRootNode) != m_d->lastRequestedIsolatedModeStatus) { slotTryRestartIsolatedMode(); } } void KisNodeManager::slotUpdateIsolateModeAction() { KisAction *action = m_d->view->actionManager()->actionByName("isolate_layer"); Q_ASSERT(action); KisNodeSP activeNode = this->activeNode(); KisNodeSP isolatedRootNode = m_d->view->image()->isolatedModeRoot(); action->setChecked(isolatedRootNode && isolatedRootNode == activeNode); } void KisNodeManager::slotTryRestartIsolatedMode() { /** * It might be that we have multiple Krita windows open. In such a case * only the currently active one should restart isolated mode */ if (!m_d->view->mainWindow()->isActiveWindow()) return; KisNodeSP isolatedRootNode = m_d->view->image()->isolatedModeRoot(); if (!isolatedRootNode && !m_d->lastRequestedIsolatedModeStatus) return; this->toggleIsolateMode(true); } KisNodeSP KisNodeManager::createNode(const QString & nodeType, bool quiet, KisPaintDeviceSP copyFrom) { if (!m_d->view->blockUntilOperationsFinished(m_d->view->image())) { return 0; } KisNodeSP activeNode = this->activeNode(); if (!activeNode) { activeNode = m_d->view->image()->root(); } KIS_ASSERT_RECOVER_RETURN_VALUE(activeNode, 0); // XXX: make factories for this kind of stuff, // with a registry if (nodeType == "KisPaintLayer") { return m_d->layerManager.addPaintLayer(activeNode); } else if (nodeType == "KisGroupLayer") { return m_d->layerManager.addGroupLayer(activeNode); } else if (nodeType == "KisAdjustmentLayer") { return m_d->layerManager.addAdjustmentLayer(activeNode); } else if (nodeType == "KisGeneratorLayer") { return m_d->layerManager.addGeneratorLayer(activeNode); } else if (nodeType == "KisShapeLayer") { return m_d->layerManager.addShapeLayer(activeNode); } else if (nodeType == "KisCloneLayer") { KisNodeList nodes = selectedNodes(); if (nodes.isEmpty()) { nodes.append(activeNode); } return m_d->layerManager.addCloneLayer(nodes); } else if (nodeType == "KisTransparencyMask") { return m_d->maskManager.createTransparencyMask(activeNode, copyFrom, false); } else if (nodeType == "KisFilterMask") { return m_d->maskManager.createFilterMask(activeNode, copyFrom, quiet, false); } else if (nodeType == "KisColorizeMask") { return m_d->maskManager.createColorizeMask(activeNode); } else if (nodeType == "KisTransformMask") { return m_d->maskManager.createTransformMask(activeNode); } else if (nodeType == "KisSelectionMask") { return m_d->maskManager.createSelectionMask(activeNode, copyFrom, false); } else if (nodeType == "KisFileLayer") { return m_d->layerManager.addFileLayer(activeNode); } return 0; } void KisNodeManager::createFromVisible() { KisLayerUtils::newLayerFromVisible(m_d->view->image(), m_d->view->image()->root()->lastChild()); } void KisNodeManager::slotShowHideTimeline(bool value) { Q_FOREACH (KisNodeSP node, selectedNodes()) { node->setUseInTimeline(value); } } KisLayerSP KisNodeManager::createPaintLayer() { KisNodeSP node = createNode("KisPaintLayer"); return dynamic_cast(node.data()); } void KisNodeManager::convertNode(const QString &nodeType) { if (!m_d->view->blockUntilOperationsFinished(m_d->view->image())) { return; } KisNodeSP activeNode = this->activeNode(); if (!activeNode) return; if (nodeType == "KisPaintLayer") { m_d->layerManager.convertNodeToPaintLayer(activeNode); } else if (nodeType == "KisSelectionMask" || nodeType == "KisFilterMask" || nodeType == "KisTransparencyMask") { KisPaintDeviceSP copyFrom = activeNode->paintDevice() ? activeNode->paintDevice() : activeNode->projection(); m_d->commandsAdapter.beginMacro(kundo2_i18n("Convert to a Selection Mask")); bool result = false; if (nodeType == "KisSelectionMask") { result = !m_d->maskManager.createSelectionMask(activeNode, copyFrom, true).isNull(); } else if (nodeType == "KisFilterMask") { result = !m_d->maskManager.createFilterMask(activeNode, copyFrom, false, true).isNull(); } else if (nodeType == "KisTransparencyMask") { result = !m_d->maskManager.createTransparencyMask(activeNode, copyFrom, true).isNull(); } m_d->commandsAdapter.endMacro(); if (!result) { m_d->view->blockUntilOperationsFinishedForced(m_d->imageView->image()); m_d->commandsAdapter.undoLastCommand(); } } else if (nodeType == "KisFileLayer") { m_d->layerManager.convertLayerToFileLayer(activeNode); } else { warnKrita << "Unsupported node conversion type:" << nodeType; } } void KisNodeManager::slotSomethingActivatedNodeImpl(KisNodeSP node) { KisDummiesFacadeBase *dummiesFacade = dynamic_cast(m_d->imageView->document()->shapeController()); KIS_SAFE_ASSERT_RECOVER_RETURN(dummiesFacade); const bool nodeVisible = !isNodeHidden(node, !m_d->nodeDisplayModeAdapter->showGlobalSelectionMask()); if (!nodeVisible) { return; } KIS_ASSERT_RECOVER_RETURN(node != activeNode()); if (m_d->activateNodeImpl(node)) { emit sigUiNeedChangeActiveNode(node); emit sigNodeActivated(node); nodesUpdated(); if (node) { bool toggled = m_d->view->actionCollection()->action("view_show_canvas_only")->isChecked(); if (toggled) { m_d->view->showFloatingMessage( activeLayer()->name(), QIcon(), 1600, KisFloatingMessage::Medium, Qt::TextSingleLine); } } } } void KisNodeManager::slotNonUiActivatedNode(KisNodeSP node) { // the node must still be in the graph, some asynchronous // signals may easily break this requirement if (node && !node->graphListener()) { node = 0; } if (node == activeNode()) return; slotSomethingActivatedNodeImpl(node); if (node) { bool toggled = m_d->view->actionCollection()->action("view_show_canvas_only")->isChecked(); if (toggled) { m_d->view->showFloatingMessage( activeLayer()->name(), QIcon(), 1600, KisFloatingMessage::Medium, Qt::TextSingleLine); } } } void KisNodeManager::slotUiActivatedNode(KisNodeSP node) { // the node must still be in the graph, some asynchronous // signals may easily break this requirement if (node && !node->graphListener()) { node = 0; } if (node) { QStringList vectorTools = QStringList() << "InteractionTool" << "KarbonPatternTool" << "KarbonGradientTool" << "KarbonCalligraphyTool" << "CreateShapesTool" << "PathTool"; QStringList pixelTools = QStringList() << "KritaShape/KisToolBrush" << "KritaShape/KisToolDyna" << "KritaShape/KisToolMultiBrush" << "KritaFill/KisToolFill" << "KritaFill/KisToolGradient"; KisSelectionMask *selectionMask = dynamic_cast(node.data()); const bool nodeHasVectorAbilities = node->inherits("KisShapeLayer") || (selectionMask && selectionMask->selection()->hasShapeSelection()); if (nodeHasVectorAbilities) { if (pixelTools.contains(KoToolManager::instance()->activeToolId())) { KoToolManager::instance()->switchToolRequested("InteractionTool"); } } else { if (vectorTools.contains(KoToolManager::instance()->activeToolId())) { KoToolManager::instance()->switchToolRequested("KritaShape/KisToolBrush"); } } } if (node == activeNode()) return; slotSomethingActivatedNodeImpl(node); } void KisNodeManager::nodesUpdated() { KisNodeSP node = activeNode(); if (!node) return; m_d->layerManager.layersUpdated(); m_d->maskManager.masksUpdated(); m_d->view->updateGUI(); m_d->view->selectionManager()->selectionChanged(); { KisSignalsBlocker b(m_d->showInTimeline); m_d->showInTimeline->setChecked(node->useInTimeline()); } } KisPaintDeviceSP KisNodeManager::activePaintDevice() { return m_d->maskManager.activeMask() ? m_d->maskManager.activeDevice() : m_d->layerManager.activeDevice(); } void KisNodeManager::nodeProperties(KisNodeSP node) { if ((selectedNodes().size() > 1 && node->inherits("KisLayer")) || node->inherits("KisLayer")) { m_d->layerManager.layerProperties(); } else if (node->inherits("KisMask")) { m_d->maskManager.maskProperties(); } } void KisNodeManager::changeCloneSource() { m_d->layerManager.changeCloneSource(); } qint32 KisNodeManager::convertOpacityToInt(qreal opacity) { /** * Scales opacity from the range 0...100 * to the integer range 0...255 */ return qMin(255, int(opacity * 2.55 + 0.5)); } void KisNodeManager::setNodeName(KisNodeSP node, const QString &name) { if (!node) return; if (node->name() == name) return; m_d->commandsAdapter.setNodeName(node, name); } void KisNodeManager::setNodeOpacity(KisNodeSP node, qint32 opacity) { if (!node) return; if (node->opacity() == opacity) return; m_d->commandsAdapter.setOpacity(node, opacity); } void KisNodeManager::setNodeCompositeOp(KisNodeSP node, const KoCompositeOp* compositeOp) { if (!node) return; if (node->compositeOp() == compositeOp) return; m_d->commandsAdapter.setCompositeOp(node, compositeOp); } void KisNodeManager::slotImageRequestNodeReselection(KisNodeSP activeNode, const KisNodeList &selectedNodes) { if (activeNode) { slotNonUiActivatedNode(activeNode); } if (!selectedNodes.isEmpty()) { slotSetSelectedNodes(selectedNodes); } } void KisNodeManager::slotSetSelectedNodes(const KisNodeList &nodes) { m_d->selectedNodes = nodes; emit sigUiNeedChangeSelectedNodes(nodes); } KisNodeList KisNodeManager::selectedNodes() { return m_d->selectedNodes; } KisNodeSelectionAdapter* KisNodeManager::nodeSelectionAdapter() const { return m_d->nodeSelectionAdapter.data(); } KisNodeInsertionAdapter* KisNodeManager::nodeInsertionAdapter() const { return m_d->nodeInsertionAdapter.data(); } KisNodeDisplayModeAdapter *KisNodeManager::nodeDisplayModeAdapter() const { return m_d->nodeDisplayModeAdapter.data(); } bool KisNodeManager::isNodeHidden(KisNodeSP node, bool isGlobalSelectionHidden) { if (node && node->isFakeNode()) { return true; } if (isGlobalSelectionHidden && dynamic_cast(node.data()) && (!node->parent() || !node->parent()->parent())) { return true; } return false; } bool KisNodeManager::trySetNodeProperties(KisNodeSP node, KisImageSP image, KisBaseNode::PropertyList properties) const { const KisPaintLayer *paintLayer = dynamic_cast(node.data()); if (paintLayer) { const auto onionSkinOn = KisLayerPropertiesIcons::getProperty(KisLayerPropertiesIcons::onionSkins, true); if (properties.contains(onionSkinOn)) { const KisPaintDeviceSP &paintDevice = paintLayer->paintDevice(); if (paintDevice && paintDevice->defaultPixel().opacityU8() == 255) { m_d->view->showFloatingMessage(i18n("Onion skins require a layer with transparent background."), QIcon()); return false; } } } KisNodePropertyListCommand::setNodePropertiesNoUndo(node, image, properties); return true; } void KisNodeManager::nodeOpacityChanged(qreal opacity) { KisNodeSP node = activeNode(); setNodeOpacity(node, convertOpacityToInt(opacity)); } void KisNodeManager::nodeCompositeOpChanged(const KoCompositeOp* op) { KisNodeSP node = activeNode(); setNodeCompositeOp(node, op); } void KisNodeManager::duplicateActiveNode() { KUndo2MagicString actionName = kundo2_i18n("Duplicate Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->duplicateNode(selectedNodes()); } KisNodeJugglerCompressed* KisNodeManager::Private::lazyGetJuggler(const KUndo2MagicString &actionName) { KisImageWSP image = view->image(); if (!nodeJuggler || (nodeJuggler && (nodeJuggler->isEnded() || !nodeJuggler->canMergeAction(actionName)))) { nodeJuggler = new KisNodeJugglerCompressed(actionName, image, q, 750); nodeJuggler->setAutoDelete(true); } return nodeJuggler; } void KisNodeManager::raiseNode() { KUndo2MagicString actionName = kundo2_i18n("Raise Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->raiseNode(selectedNodes()); } void KisNodeManager::lowerNode() { KUndo2MagicString actionName = kundo2_i18n("Lower Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->lowerNode(selectedNodes()); } void KisNodeManager::removeSingleNode(KisNodeSP node) { if (!node || !node->parent()) { return; } KisNodeList nodes; nodes << node; removeSelectedNodes(nodes); } void KisNodeManager::removeSelectedNodes(KisNodeList nodes) { KUndo2MagicString actionName = kundo2_i18n("Remove Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->removeNode(nodes); } void KisNodeManager::removeNode() { removeSelectedNodes(selectedNodes()); } void KisNodeManager::mirrorNodeX() { KisNodeSP node = activeNode(); KUndo2MagicString commandName; if (node->inherits("KisLayer")) { commandName = kundo2_i18n("Mirror Layer X"); } else if (node->inherits("KisMask")) { commandName = kundo2_i18n("Mirror Mask X"); } mirrorNode(node, commandName, Qt::Horizontal, m_d->view->selection()); } void KisNodeManager::mirrorNodeY() { KisNodeSP node = activeNode(); KUndo2MagicString commandName; if (node->inherits("KisLayer")) { commandName = kundo2_i18n("Mirror Layer Y"); } else if (node->inherits("KisMask")) { commandName = kundo2_i18n("Mirror Mask Y"); } mirrorNode(node, commandName, Qt::Vertical, m_d->view->selection()); } void KisNodeManager::mirrorAllNodesX() { KisNodeSP node = m_d->view->image()->root(); mirrorNode(node, kundo2_i18n("Mirror All Layers X"), Qt::Horizontal, m_d->view->selection()); } void KisNodeManager::mirrorAllNodesY() { KisNodeSP node = m_d->view->image()->root(); mirrorNode(node, kundo2_i18n("Mirror All Layers Y"), Qt::Vertical, m_d->view->selection()); } void KisNodeManager::activateNextNode() { KisNodeSP activeNode = this->activeNode(); if (!activeNode) return; KisNodeSP node = activeNode->nextSibling(); while (node && node->childCount() > 0) { node = node->firstChild(); } if (!node && activeNode->parent() && activeNode->parent()->parent()) { node = activeNode->parent(); } while(node && isNodeHidden(node, true)) { node = node->nextSibling(); } if (node) { slotNonUiActivatedNode(node); } } void KisNodeManager::activatePreviousNode() { KisNodeSP activeNode = this->activeNode(); if (!activeNode) return; KisNodeSP node; if (activeNode->childCount() > 0) { node = activeNode->lastChild(); } else { node = activeNode->prevSibling(); } while (!node && activeNode->parent()) { node = activeNode->parent()->prevSibling(); activeNode = activeNode->parent(); } while(node && isNodeHidden(node, true)) { node = node->prevSibling(); } if (node) { slotNonUiActivatedNode(node); } } void KisNodeManager::switchToPreviouslyActiveNode() { if (m_d->previouslyActiveNode && m_d->previouslyActiveNode->parent()) { slotNonUiActivatedNode(m_d->previouslyActiveNode); } } void KisNodeManager::mirrorNode(KisNodeSP node, const KUndo2MagicString& actionName, Qt::Orientation orientation, KisSelectionSP selection) { KisImageSignalVector emitSignals; emitSignals << ModifiedSignal; KisProcessingApplicator applicator(m_d->view->image(), node, KisProcessingApplicator::RECURSIVE, emitSignals, actionName); KisProcessingVisitorSP visitor; if (selection) { visitor = new KisMirrorProcessingVisitor(selection, orientation); } else { visitor = new KisMirrorProcessingVisitor(m_d->view->image()->bounds(), orientation); } if (!selection) { applicator.applyVisitorAllFrames(visitor, KisStrokeJobData::CONCURRENT); } else { applicator.applyVisitor(visitor, KisStrokeJobData::CONCURRENT); } applicator.end(); nodesUpdated(); } void KisNodeManager::Private::saveDeviceAsImage(KisPaintDeviceSP device, const QString &defaultName, const QRect &bounds, qreal xRes, qreal yRes, quint8 opacity) { KoFileDialog dialog(view->mainWindow(), KoFileDialog::SaveFile, "savenodeasimage"); dialog.setCaption(i18n("Export \"%1\"", defaultName)); dialog.setDefaultDir(QStandardPaths::writableLocation(QStandardPaths::PicturesLocation)); dialog.setMimeTypeFilters(KisImportExportManager::supportedMimeTypes(KisImportExportManager::Export)); QString filename = dialog.filename(); if (filename.isEmpty()) return; QUrl url = QUrl::fromLocalFile(filename); if (url.isEmpty()) return; QString mimefilter = KisMimeDatabase::mimeTypeForFile(filename, false); QScopedPointer doc(KisPart::instance()->createDocument()); KisImageSP dst = new KisImage(doc->createUndoStore(), bounds.width(), bounds.height(), device->compositionSourceColorSpace(), defaultName); dst->setResolution(xRes, yRes); doc->setCurrentImage(dst); KisPaintLayer* paintLayer = new KisPaintLayer(dst, "paint device", opacity); paintLayer->paintDevice()->makeCloneFrom(device, bounds); dst->addNode(paintLayer, dst->rootLayer(), KisLayerSP(0)); dst->initialRefreshGraph(); if (!doc->exportDocumentSync(url, mimefilter.toLatin1())) { QMessageBox::warning(0, i18nc("@title:window", "Krita"), i18n("Could not save the layer. %1", doc->errorMessage().toUtf8().data()), QMessageBox::Ok); } } void KisNodeManager::saveNodeAsImage() { KisNodeSP node = activeNode(); if (!node) { warnKrita << "BUG: Save Node As Image was called without any node selected"; return; } KisImageWSP image = m_d->view->image(); QRect saveRect = image->bounds() | node->exactBounds(); m_d->saveDeviceAsImage(node->projection(), node->name(), saveRect, image->xRes(), image->yRes(), node->opacity()); } #include "SvgWriter.h" void KisNodeManager::saveVectorLayerAsImage() { KisShapeLayerSP shapeLayer = qobject_cast(activeNode().data()); if (!shapeLayer) { return; } KoFileDialog dialog(m_d->view->mainWindow(), KoFileDialog::SaveFile, "savenodeasimage"); dialog.setCaption(i18nc("@title:window", "Export to SVG")); dialog.setDefaultDir(QStandardPaths::writableLocation(QStandardPaths::PicturesLocation)); dialog.setMimeTypeFilters(QStringList() << "image/svg+xml", "image/svg+xml"); QString filename = dialog.filename(); if (filename.isEmpty()) return; QUrl url = QUrl::fromLocalFile(filename); if (url.isEmpty()) return; const QSizeF sizeInPx = m_d->view->image()->bounds().size(); const QSizeF sizeInPt(sizeInPx.width() / m_d->view->image()->xRes(), sizeInPx.height() / m_d->view->image()->yRes()); QList shapes = shapeLayer->shapes(); std::sort(shapes.begin(), shapes.end(), KoShape::compareShapeZIndex); SvgWriter writer(shapes); if (!writer.save(filename, sizeInPt, true)) { QMessageBox::warning(qApp->activeWindow(), i18nc("@title:window", "Krita"), i18n("Could not save to svg: %1", filename)); } } void KisNodeManager::slotSplitAlphaIntoMask() { KisNodeSP node = activeNode(); // guaranteed by KisActionManager KIS_ASSERT_RECOVER_RETURN(node->hasEditablePaintDevice()); KisPaintDeviceSP srcDevice = node->paintDevice(); const KoColorSpace *srcCS = srcDevice->colorSpace(); const QRect processRect = srcDevice->exactBounds() | srcDevice->defaultBounds()->bounds(); KisPaintDeviceSP selectionDevice = new KisPaintDevice(KoColorSpaceRegistry::instance()->alpha8()); m_d->commandsAdapter.beginMacro(kundo2_i18n("Split Alpha into a Mask")); KisTransaction transaction(kundo2_noi18n("__split_alpha_channel__"), srcDevice); KisSequentialIterator srcIt(srcDevice, processRect); KisSequentialIterator dstIt(selectionDevice, processRect); while (srcIt.nextPixel() && dstIt.nextPixel()) { quint8 *srcPtr = srcIt.rawData(); quint8 *alpha8Ptr = dstIt.rawData(); *alpha8Ptr = srcCS->opacityU8(srcPtr); srcCS->setOpacity(srcPtr, OPACITY_OPAQUE_U8, 1); } m_d->commandsAdapter.addExtraCommand(transaction.endAndTake()); createNode("KisTransparencyMask", false, selectionDevice); m_d->commandsAdapter.endMacro(); } void KisNodeManager::Private::mergeTransparencyMaskAsAlpha(bool writeToLayers) { KisNodeSP node = q->activeNode(); KisNodeSP parentNode = node->parent(); // guaranteed by KisActionManager KIS_ASSERT_RECOVER_RETURN(node->inherits("KisTransparencyMask")); if (writeToLayers && !parentNode->hasEditablePaintDevice()) { QMessageBox::information(view->mainWindow(), i18nc("@title:window", "Layer %1 is not editable", parentNode->name()), i18n("Cannot write alpha channel of " "the parent layer \"%1\".\n" "The operation will be cancelled.", parentNode->name())); return; } KisPaintDeviceSP dstDevice; if (writeToLayers) { KIS_ASSERT_RECOVER_RETURN(parentNode->paintDevice()); dstDevice = parentNode->paintDevice(); } else { KisPaintDeviceSP copyDevice = parentNode->paintDevice(); if (!copyDevice) { copyDevice = parentNode->original(); } dstDevice = new KisPaintDevice(*copyDevice); } const KoColorSpace *dstCS = dstDevice->colorSpace(); KisPaintDeviceSP selectionDevice = node->paintDevice(); KIS_ASSERT_RECOVER_RETURN(selectionDevice->colorSpace()->pixelSize() == 1); const QRect processRect = selectionDevice->exactBounds() | dstDevice->exactBounds() | selectionDevice->defaultBounds()->bounds(); QScopedPointer transaction; if (writeToLayers) { commandsAdapter.beginMacro(kundo2_i18n("Write Alpha into a Layer")); transaction.reset(new KisTransaction(kundo2_noi18n("__write_alpha_channel__"), dstDevice)); } KisSequentialIterator srcIt(selectionDevice, processRect); KisSequentialIterator dstIt(dstDevice, processRect); while (srcIt.nextPixel() && dstIt.nextPixel()) { quint8 *alpha8Ptr = srcIt.rawData(); quint8 *dstPtr = dstIt.rawData(); dstCS->setOpacity(dstPtr, *alpha8Ptr, 1); } if (writeToLayers) { commandsAdapter.addExtraCommand(transaction->endAndTake()); commandsAdapter.removeNode(node); commandsAdapter.endMacro(); } else { KisImageWSP image = view->image(); QRect saveRect = image->bounds(); saveDeviceAsImage(dstDevice, parentNode->name(), saveRect, image->xRes(), image->yRes(), OPACITY_OPAQUE_U8); } } void KisNodeManager::slotSplitAlphaWrite() { m_d->mergeTransparencyMaskAsAlpha(true); } void KisNodeManager::slotSplitAlphaSaveMerged() { m_d->mergeTransparencyMaskAsAlpha(false); } void KisNodeManager::toggleLock() { KisNodeList nodes = this->selectedNodes(); KisNodeSP active = activeNode(); if (nodes.isEmpty() || !active) return; bool isLocked = active->userLocked(); for (auto &node : nodes) { node->setUserLocked(!isLocked); } } void KisNodeManager::toggleVisibility() { KisNodeList nodes = this->selectedNodes(); KisNodeSP active = activeNode(); if (nodes.isEmpty() || !active) return; bool isVisible = active->visible(); for (auto &node : nodes) { node->setVisible(!isVisible); node->setDirty(); } } void KisNodeManager::toggleAlphaLock() { KisNodeList nodes = this->selectedNodes(); KisNodeSP active = activeNode(); if (nodes.isEmpty() || !active) return; auto layer = qobject_cast(active.data()); if (!layer) { return; } bool isAlphaLocked = layer->alphaLocked(); for (auto &node : nodes) { auto layer = qobject_cast(node.data()); if (layer) { layer->setAlphaLocked(!isAlphaLocked); } } } void KisNodeManager::toggleInheritAlpha() { KisNodeList nodes = this->selectedNodes(); KisNodeSP active = activeNode(); if (nodes.isEmpty() || !active) return; auto layer = qobject_cast(active.data()); if (!layer) { return; } bool isAlphaDisabled = layer->alphaChannelDisabled(); for (auto &node : nodes) { auto layer = qobject_cast(node.data()); if (layer) { layer->disableAlphaChannel(!isAlphaDisabled); node->setDirty(); } } } void KisNodeManager::cutLayersToClipboard() { KisNodeList nodes = this->selectedNodes(); if (nodes.isEmpty()) return; KisClipboard::instance()->setLayers(nodes, m_d->view->image(), false); KUndo2MagicString actionName = kundo2_i18n("Cut Nodes"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->removeNode(nodes); } void KisNodeManager::copyLayersToClipboard() { KisNodeList nodes = this->selectedNodes(); KisClipboard::instance()->setLayers(nodes, m_d->view->image(), true); } void KisNodeManager::pasteLayersFromClipboard() { const QMimeData *data = KisClipboard::instance()->layersMimeData(); if (!data) return; KisNodeSP activeNode = this->activeNode(); KisShapeController *shapeController = dynamic_cast(m_d->imageView->document()->shapeController()); Q_ASSERT(shapeController); KisDummiesFacadeBase *dummiesFacade = dynamic_cast(m_d->imageView->document()->shapeController()); Q_ASSERT(dummiesFacade); const bool copyNode = false; KisImageSP image = m_d->view->image(); KisNodeDummy *parentDummy = dummiesFacade->dummyForNode(activeNode); KisNodeDummy *aboveThisDummy = parentDummy ? parentDummy->lastChild() : 0; KisMimeData::insertMimeLayers(data, image, shapeController, parentDummy, aboveThisDummy, copyNode, nodeInsertionAdapter()); } void KisNodeManager::createQuickGroupImpl(KisNodeJugglerCompressed *juggler, const QString &overrideGroupName, KisNodeSP *newGroup, KisNodeSP *newLastChild) { KisNodeSP active = activeNode(); if (!active) return; KisImageSP image = m_d->view->image(); QString groupName = !overrideGroupName.isEmpty() ? overrideGroupName : image->nextLayerName(); KisGroupLayerSP group = new KisGroupLayer(image.data(), groupName, OPACITY_OPAQUE_U8); KisNodeList nodes1; nodes1 << group; KisNodeList nodes2; nodes2 = KisLayerUtils::sortMergableNodes(image->root(), selectedNodes()); KisLayerUtils::filterMergableNodes(nodes2); if (nodes2.size() == 0) return; if (KisLayerUtils::checkIsChildOf(active, nodes2)) { active = nodes2.first(); } KisNodeSP parent = active->parent(); KisNodeSP aboveThis = active; juggler->addNode(nodes1, parent, aboveThis); juggler->moveNode(nodes2, group, 0); *newGroup = group; *newLastChild = nodes2.last(); } void KisNodeManager::createQuickGroup() { KUndo2MagicString actionName = kundo2_i18n("Quick Group"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); KisNodeSP parent; KisNodeSP above; createQuickGroupImpl(juggler, "", &parent, &above); } void KisNodeManager::createQuickClippingGroup() { KUndo2MagicString actionName = kundo2_i18n("Quick Clipping Group"); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); KisNodeSP parent; KisNodeSP above; KisImageSP image = m_d->view->image(); createQuickGroupImpl(juggler, image->nextLayerName(i18nc("default name for a clipping group layer", "Clipping Group")), &parent, &above); KisPaintLayerSP maskLayer = new KisPaintLayer(image.data(), i18nc("default name for quick clip group mask layer", "Mask Layer"), OPACITY_OPAQUE_U8, image->colorSpace()); maskLayer->disableAlphaChannel(true); juggler->addNode(KisNodeList() << maskLayer, parent, above); } void KisNodeManager::quickUngroup() { KisNodeSP active = activeNode(); if (!active) return; KisNodeSP parent = active->parent(); KisNodeSP aboveThis = active; KUndo2MagicString actionName = kundo2_i18n("Quick Ungroup"); if (parent && dynamic_cast(active.data())) { KisNodeList nodes = active->childNodes(QStringList(), KoProperties()); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->moveNode(nodes, parent, active); juggler->removeNode(KisNodeList() << active); } else if (parent && parent->parent()) { KisNodeSP grandParent = parent->parent(); KisNodeList allChildNodes = parent->childNodes(QStringList(), KoProperties()); KisNodeList allSelectedNodes = selectedNodes(); const bool removeParent = KritaUtils::compareListsUnordered(allChildNodes, allSelectedNodes); KisNodeJugglerCompressed *juggler = m_d->lazyGetJuggler(actionName); juggler->moveNode(allSelectedNodes, grandParent, parent); if (removeParent) { juggler->removeNode(KisNodeList() << parent); } } } void KisNodeManager::selectLayersImpl(const KoProperties &props, const KoProperties &invertedProps) { KisImageSP image = m_d->view->image(); KisNodeList nodes = KisLayerUtils::findNodesWithProps(image->root(), props, true); KisNodeList selectedNodes = this->selectedNodes(); if (KritaUtils::compareListsUnordered(nodes, selectedNodes)) { nodes = KisLayerUtils::findNodesWithProps(image->root(), invertedProps, true); } if (!nodes.isEmpty()) { slotImageRequestNodeReselection(nodes.last(), nodes); } } void KisNodeManager::selectAllNodes() { KoProperties props; selectLayersImpl(props, props); } void KisNodeManager::selectVisibleNodes() { KoProperties props; props.setProperty("visible", true); KoProperties invertedProps; invertedProps.setProperty("visible", false); selectLayersImpl(props, invertedProps); } void KisNodeManager::selectLockedNodes() { KoProperties props; props.setProperty("locked", true); KoProperties invertedProps; invertedProps.setProperty("locked", false); selectLayersImpl(props, invertedProps); } void KisNodeManager::selectInvisibleNodes() { KoProperties props; props.setProperty("visible", false); KoProperties invertedProps; invertedProps.setProperty("visible", true); selectLayersImpl(props, invertedProps); } void KisNodeManager::selectUnlockedNodes() { KoProperties props; props.setProperty("locked", false); KoProperties invertedProps; invertedProps.setProperty("locked", true); selectLayersImpl(props, invertedProps); } diff --git a/libs/widgets/KisDlgInternalColorSelector.cpp b/libs/widgets/KisDlgInternalColorSelector.cpp index 7f28ee6621..825aa4e77d 100644 --- a/libs/widgets/KisDlgInternalColorSelector.cpp +++ b/libs/widgets/KisDlgInternalColorSelector.cpp @@ -1,356 +1,354 @@ /* * Copyright (C) Wolthera van Hovell tot Westerflier , (C) 2016 * * 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 "KoColorSpaceRegistry.h" #include #include #include #include #include #include #include "kis_signal_compressor.h" #include "KoColorDisplayRendererInterface.h" #include "kis_spinbox_color_selector.h" #include "KisDlgInternalColorSelector.h" #include "ui_WdgDlgInternalColorSelector.h" #include "kis_config_notifier.h" #include "kis_color_input.h" #include "kis_icon_utils.h" #include "KisSqueezedComboBox.h" -#include "ui_WdgDlgInternalColorSelector.h" - std::function KisDlgInternalColorSelector::s_screenColorPickerFactory = 0; struct KisDlgInternalColorSelector::Private { bool allowUpdates = true; KoColor currentColor; KoColor previousColor; KoColor sRGB = KoColor(KoColorSpaceRegistry::instance()->rgb8()); const KoColorSpace *currentColorSpace; bool lockUsedCS = false; bool chooseAlpha = false; KisSignalCompressor *compressColorChanges; const KoColorDisplayRendererInterface *displayRenderer; KisHexColorInput *hexColorInput = 0; KisPaletteModel *paletteModel = 0; KisPaletteListWidget *paletteChooser = 0; KisScreenColorPickerBase *screenColorPicker = 0; }; KisDlgInternalColorSelector::KisDlgInternalColorSelector(QWidget *parent, KoColor color, Config config, const QString &caption, const KoColorDisplayRendererInterface *displayRenderer) : QDialog(parent) , m_d(new Private) { setModal(config.modal); setFocusPolicy(Qt::ClickFocus); m_ui = new Ui_WdgDlgInternalColorSelector(); m_ui->setupUi(this); setWindowTitle(caption); m_d->currentColor = color; m_d->currentColorSpace = m_d->currentColor.colorSpace(); m_d->displayRenderer = displayRenderer; m_ui->spinboxselector->slotSetColor(color); connect(m_ui->spinboxselector, SIGNAL(sigNewColor(KoColor)), this, SLOT(slotColorUpdated(KoColor))); m_ui->visualSelector->slotSetColor(color); m_ui->visualSelector->setDisplayRenderer(displayRenderer); m_ui->visualSelector->setConfig(false, config.modal); if (config.visualColorSelector) { connect(m_ui->visualSelector, SIGNAL(sigNewColor(KoColor)), this, SLOT(slotColorUpdated(KoColor))); connect(KisConfigNotifier::instance(), SIGNAL(configChanged()), m_ui->visualSelector, SLOT(configurationChanged())); } else { m_ui->visualSelector->hide(); } m_d->paletteChooser = new KisPaletteListWidget(this); m_d->paletteModel = new KisPaletteModel(this); m_ui->bnPaletteChooser->setIcon(KisIconUtils::loadIcon("hi16-palette_library")); m_ui->paletteBox->setPaletteModel(m_d->paletteModel); m_ui->paletteBox->setDisplayRenderer(displayRenderer); m_ui->cmbNameList->setCompanionView(m_ui->paletteBox); connect(m_d->paletteChooser, SIGNAL(sigPaletteSelected(KoColorSet*)), this, SLOT(slotChangePalette(KoColorSet*))); connect(m_ui->cmbNameList, SIGNAL(sigColorSelected(KoColor)), SLOT(slotColorUpdated(KoColor))); // For some bizare reason, the modal dialog doesn't like having the colorset set, so let's not. if (config.paletteBox) { //TODO: Add disable signal as well. Might be not necessary...? KConfigGroup cfg(KSharedConfig::openConfig()->group("")); QString paletteName = cfg.readEntry("internal_selector_active_color_set", QString()); KoResourceServer* rServer = KoResourceServerProvider::instance()->paletteServer(); KoColorSet *savedPal = rServer->resourceByName(paletteName); if (savedPal) { this->slotChangePalette(savedPal); } else { if (rServer->resources().count()) { savedPal = rServer->resources().first(); if (savedPal) { this->slotChangePalette(savedPal); } } } connect(m_ui->paletteBox, SIGNAL(sigColorSelected(KoColor)), this, SLOT(slotColorUpdated(KoColor))); m_ui->bnPaletteChooser->setPopupWidget(m_d->paletteChooser); } else { m_ui->paletteBox->setEnabled(false); m_ui->cmbNameList->setEnabled(false); m_ui->bnPaletteChooser->setEnabled(false); } if (config.prevNextButtons) { m_ui->currentColor->setColor(m_d->currentColor); m_ui->currentColor->setDisplayRenderer(displayRenderer); m_ui->previousColor->setColor(m_d->currentColor); m_ui->previousColor->setDisplayRenderer(displayRenderer); connect(m_ui->previousColor, SIGNAL(triggered(KoColorPatch*)), SLOT(slotSetColorFromPatch(KoColorPatch*))); } else { m_ui->currentColor->hide(); m_ui->previousColor->hide(); } if (config.hexInput) { m_d->sRGB.fromKoColor(m_d->currentColor); m_d->hexColorInput = new KisHexColorInput(this, &m_d->sRGB); m_d->hexColorInput->update(); connect(m_d->hexColorInput, SIGNAL(updated()), SLOT(slotSetColorFromHex())); m_ui->rightPane->addWidget(m_d->hexColorInput); m_d->hexColorInput->setToolTip(i18n("This is a hexcode input, for webcolors. It can only get colors in the sRGB space.")); } // KisScreenColorPicker is in the kritaui module, so dependency inversion is used to access it. m_ui->screenColorPickerWidget->setLayout(new QHBoxLayout(m_ui->screenColorPickerWidget)); if (s_screenColorPickerFactory) { m_d->screenColorPicker = s_screenColorPickerFactory(m_ui->screenColorPickerWidget); m_ui->screenColorPickerWidget->layout()->addWidget(m_d->screenColorPicker); if (config.screenColorPicker) { connect(m_d->screenColorPicker, SIGNAL(sigNewColorPicked(KoColor)),this, SLOT(slotColorUpdated(KoColor))); } else { m_d->screenColorPicker->hide(); } } m_d->compressColorChanges = new KisSignalCompressor(100 /* ms */, KisSignalCompressor::POSTPONE, this); connect(m_d->compressColorChanges, SIGNAL(timeout()), this, SLOT(endUpdateWithNewColor())); connect(m_ui->buttonBox, SIGNAL(accepted()), this, SLOT(accept()), Qt::UniqueConnection); connect(m_ui->buttonBox, SIGNAL(rejected()), this, SLOT(reject()), Qt::UniqueConnection); connect(this, SIGNAL(finished(int)), SLOT(slotFinishUp())); } KisDlgInternalColorSelector::~KisDlgInternalColorSelector() { delete m_ui; } void KisDlgInternalColorSelector::slotColorUpdated(KoColor newColor) { // not-so-nice solution: if someone calls this slot directly and that code was // triggered by our compressor signal, our compressor is technically the sender()! if (sender() == m_d->compressColorChanges) { return; } // Do not accept external updates while a color update emit is pending; // Note: Assumes external updates only come from parent(), a separate slot might be better if (m_d->allowUpdates || (QObject::sender() && QObject::sender() != this->parent())) { // Enforce palette colors KConfigGroup group(KSharedConfig::openConfig(), ""); if (group.readEntry("colorsettings/forcepalettecolors", false)) { newColor = m_ui->paletteBox->closestColor(newColor); } if (m_d->lockUsedCS){ newColor.convertTo(m_d->currentColorSpace); m_d->currentColor = newColor; } else { m_d->currentColor = newColor; } updateAllElements(QObject::sender()); } } void KisDlgInternalColorSelector::slotSetColorFromPatch(KoColorPatch *patch) { slotColorUpdated(patch->color()); } void KisDlgInternalColorSelector::colorSpaceChanged(const KoColorSpace *cs) { if (cs == m_d->currentColorSpace) { return; } m_d->currentColorSpace = KoColorSpaceRegistry::instance()->colorSpace(cs->colorModelId().id(), cs->colorDepthId().id(), cs->profile()); m_ui->spinboxselector->slotSetColorSpace(m_d->currentColorSpace); m_ui->visualSelector->slotsetColorSpace(m_d->currentColorSpace); } void KisDlgInternalColorSelector::lockUsedColorSpace(const KoColorSpace *cs) { colorSpaceChanged(cs); if (m_d->currentColor.colorSpace() != m_d->currentColorSpace) { m_d->currentColor.convertTo(m_d->currentColorSpace); } m_d->lockUsedCS = true; } void KisDlgInternalColorSelector::setDisplayRenderer(const KoColorDisplayRendererInterface *displayRenderer) { if (displayRenderer) { m_d->displayRenderer = displayRenderer; m_ui->visualSelector->setDisplayRenderer(displayRenderer); m_ui->currentColor->setDisplayRenderer(displayRenderer); m_ui->previousColor->setDisplayRenderer(displayRenderer); m_ui->paletteBox->setDisplayRenderer(displayRenderer); } else { m_d->displayRenderer = KoDumbColorDisplayRenderer::instance(); } } KoColor KisDlgInternalColorSelector::getModalColorDialog(const KoColor color, QWidget* parent, QString caption) { Config config = Config(); KisDlgInternalColorSelector dialog(parent, color, config, caption); dialog.setPreviousColor(color); dialog.exec(); return dialog.getCurrentColor(); } KoColor KisDlgInternalColorSelector::getCurrentColor() { return m_d->currentColor; } void KisDlgInternalColorSelector::chooseAlpha(bool chooseAlpha) { m_d->chooseAlpha = chooseAlpha; } void KisDlgInternalColorSelector::slotConfigurationChanged() { //m_d->canvas->displayColorConverter()-> //slotColorSpaceChanged(m_d->canvas->image()->colorSpace()); } void KisDlgInternalColorSelector::setPreviousColor(KoColor c) { m_d->previousColor = c; } void KisDlgInternalColorSelector::reject() { slotColorUpdated(m_d->previousColor); QDialog::reject(); } void KisDlgInternalColorSelector::updateAllElements(QObject *source) { //update everything!!! if (source != m_ui->spinboxselector) { m_ui->spinboxselector->slotSetColor(m_d->currentColor); } if (source != m_ui->visualSelector) { m_ui->visualSelector->slotSetColor(m_d->currentColor); } if (source != m_d->hexColorInput) { m_d->sRGB.fromKoColor(m_d->currentColor); m_d->hexColorInput->update(); } if (source != m_ui->paletteBox) { m_ui->paletteBox->selectClosestColor(m_d->currentColor); } m_ui->previousColor->setColor(m_d->previousColor); m_ui->currentColor->setColor(m_d->currentColor); if (source && source != this->parent()) { m_d->allowUpdates = false; m_d->compressColorChanges->start(); } if (m_d->screenColorPicker) { m_d->screenColorPicker->updateIcons(); } } void KisDlgInternalColorSelector::endUpdateWithNewColor() { emit signalForegroundColorChosen(m_d->currentColor); m_d->allowUpdates = true; } void KisDlgInternalColorSelector::focusInEvent(QFocusEvent *) { //setPreviousColor(); } void KisDlgInternalColorSelector::slotFinishUp() { setPreviousColor(m_d->currentColor); KConfigGroup cfg(KSharedConfig::openConfig()->group("")); if (m_d->paletteModel) { if (m_d->paletteModel->colorSet()) { cfg.writeEntry("internal_selector_active_color_set", m_d->paletteModel->colorSet()->name()); } } } void KisDlgInternalColorSelector::slotSetColorFromHex() { slotColorUpdated(m_d->sRGB); } void KisDlgInternalColorSelector::slotChangePalette(KoColorSet *set) { if (!set) { return; } m_d->paletteModel->setPalette(set); } void KisDlgInternalColorSelector::showEvent(QShowEvent *event) { updateAllElements(0); QDialog::showEvent(event); } diff --git a/plugins/filters/gaussianhighpass/gaussianhighpass_filter.cpp b/plugins/filters/gaussianhighpass/gaussianhighpass_filter.cpp index 7213791a4b..d92d48fb18 100644 --- a/plugins/filters/gaussianhighpass/gaussianhighpass_filter.cpp +++ b/plugins/filters/gaussianhighpass/gaussianhighpass_filter.cpp @@ -1,126 +1,125 @@ /* * This file is part of Krita * * Copyright (c) 2019 Miguel Lopez * * 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 //MSVC requires that Vc come first #include "gaussianhighpass_filter.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include -#include #include "kis_lod_transform.h" #include #include "wdg_gaussianhighpass.h" #include "ui_wdggaussianhighpass.h" #include "KoColorSpaceTraits.h" #include KisGaussianHighPassFilter::KisGaussianHighPassFilter() : KisFilter(id(), FiltersCategoryEdgeDetectionId, i18n("&Gaussian High Pass...")) { setSupportsPainting(true); setSupportsAdjustmentLayers(true); setSupportsThreading(true); setSupportsLevelOfDetail(true); setColorSpaceIndependence(FULLY_INDEPENDENT); } KisConfigWidget * KisGaussianHighPassFilter::createConfigurationWidget(QWidget* parent, const KisPaintDeviceSP, bool /* useForMasks */) const { return new KisWdgGaussianHighPass(parent); } KisFilterConfigurationSP KisGaussianHighPassFilter::factoryConfiguration() const { KisFilterConfigurationSP config = new KisFilterConfiguration(id().id(), 1); config->setProperty("blurAmount", 1); return config; } void KisGaussianHighPassFilter::processImpl(KisPaintDeviceSP device, const QRect& applyRect, const KisFilterConfigurationSP _config, KoUpdater * ) const { QPointer convolutionUpdater = 0; KisFilterConfigurationSP config = _config ? _config : new KisFilterConfiguration(id().id(), 1); QVariant value; KisLodTransformScalar t(device); const qreal blurAmount = t.scale(config->getProperty("blurAmount", value) ? value.toDouble() : 1.0); QBitArray channelFlags = config->channelFlags(); const QRect gaussNeedRect = this->neededRect(applyRect, config, device->defaultBounds()->currentLevelOfDetail()); KisPaintDeviceSP blur = m_cachedPaintDevice.getDevice(device); KisPainter::copyAreaOptimizedOldData(gaussNeedRect.topLeft(), device, blur, gaussNeedRect); KisGaussianKernel::applyGaussian(blur, applyRect, blurAmount, blurAmount, channelFlags, convolutionUpdater, true); // make sure we cerate an internal transaction on temp device KisPainter painter(device); painter.setCompositeOp(blur->colorSpace()->compositeOp(COMPOSITE_GRAIN_EXTRACT)); painter.bitBlt(applyRect.topLeft(), blur, applyRect); painter.end(); m_cachedPaintDevice.putDevice(blur); } QRect KisGaussianHighPassFilter::neededRect(const QRect & rect, const KisFilterConfigurationSP config, int lod) const { KisLodTransformScalar t(lod); QVariant value; const int halfSize = config->getProperty("blurAmount", value) ? KisGaussianKernel::kernelSizeFromRadius(t.scale(value.toFloat())) / 2 : 5; return rect.adjusted( -halfSize * 2, -halfSize * 2, halfSize * 2, halfSize * 2); } QRect KisGaussianHighPassFilter::changedRect(const QRect & rect, const KisFilterConfigurationSP config, int lod) const { KisLodTransformScalar t(lod); QVariant value; const int halfSize = config->getProperty("blurAmount", value) ? KisGaussianKernel::kernelSizeFromRadius(t.scale(value.toFloat())) / 2 : 5; return rect.adjusted( -halfSize, -halfSize, halfSize, halfSize); } diff --git a/plugins/filters/palettize/palettize.cpp b/plugins/filters/palettize/palettize.cpp index 57eb9a14f8..63515a5916 100644 --- a/plugins/filters/palettize/palettize.cpp +++ b/plugins/filters/palettize/palettize.cpp @@ -1,288 +1,287 @@ /* * This file is part of Krita * * Copyright (c) 2019 Carl Olsson * * 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 "palettize.h" #include #include #include #include #include #include -#include #include #include #include #include #include #include #include #include #include #include K_PLUGIN_FACTORY_WITH_JSON(PalettizeFactory, "kritapalettize.json", registerPlugin();) Palettize::Palettize(QObject *parent, const QVariantList &) : QObject(parent) { KisFilterRegistry::instance()->add(new KisFilterPalettize()); } #include "palettize.moc" KisFilterPalettize::KisFilterPalettize() : KisFilter(id(), FiltersCategoryMapId, i18n("&Palettize...")) { setColorSpaceIndependence(FULLY_INDEPENDENT); setSupportsPainting(true); setShowConfigurationWidget(true); } KisPalettizeWidget::KisPalettizeWidget(QWidget* parent) : KisConfigWidget(parent) { Q_UNUSED(m_ditherPatternWidget); setupUi(this); paletteIconWidget->setFixedSize(32, 32); KoResourceServer* paletteServer = KoResourceServerProvider::instance()->paletteServer(); QSharedPointer paletteAdapter(new KoResourceServerAdapter(paletteServer)); m_paletteWidget = new KoResourceItemChooser(paletteAdapter, this, false); paletteIconWidget->setPopupWidget(m_paletteWidget); QObject::connect(m_paletteWidget, &KoResourceItemChooser::resourceSelected, paletteIconWidget, &KisIconWidget::setResource); QObject::connect(m_paletteWidget, &KoResourceItemChooser::resourceSelected, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(colorspaceComboBox, QOverload::of(&QComboBox::currentIndexChanged), this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(ditherGroupBox, &QGroupBox::toggled, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(ditherWidget, &KisDitherWidget::sigConfigurationItemChanged, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(colorModeComboBox, QOverload::of(&QComboBox::currentIndexChanged), this, &KisConfigWidget::sigConfigurationItemChanged); offsetScaleSpinBox->setPrefix(QString("%1 ").arg(i18n("Offset Scale:"))); offsetScaleSpinBox->setRange(0.0, 1.0, 3); offsetScaleSpinBox->setSingleStep(0.125); QObject::connect(offsetScaleSpinBox, &KisDoubleSliderSpinBox::valueChanged, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(alphaGroupBox, &QGroupBox::toggled, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(alphaModeComboBox, QOverload::of(&QComboBox::currentIndexChanged), this, &KisConfigWidget::sigConfigurationItemChanged); alphaClipSpinBox->setPrefix(QString("%1 ").arg(i18n("Clip:"))); alphaClipSpinBox->setRange(0.0, 1.0, 3); alphaClipSpinBox->setSingleStep(0.125); QObject::connect(alphaClipSpinBox, &KisDoubleSliderSpinBox::valueChanged, this, &KisConfigWidget::sigConfigurationItemChanged); alphaIndexSpinBox->setPrefix(QString("%1 ").arg(i18n("Index:"))); alphaIndexSpinBox->setRange(0, 255); QObject::connect(alphaIndexSpinBox, &KisSliderSpinBox::valueChanged, this, &KisConfigWidget::sigConfigurationItemChanged); QObject::connect(m_paletteWidget, &KoResourceItemChooser::resourceSelected, [this](){ const KoColorSet* const palette = static_cast(m_paletteWidget->currentResource()); alphaIndexSpinBox->setMaximum(palette ? int(palette->colorCount() - 1) : 0); alphaIndexSpinBox->setValue(std::min(alphaIndexSpinBox->value(), alphaIndexSpinBox->maximum())); }); QObject::connect(alphaDitherWidget, &KisDitherWidget::sigConfigurationItemChanged, this, &KisConfigWidget::sigConfigurationItemChanged); } void KisPalettizeWidget::setConfiguration(const KisPropertiesConfigurationSP config) { KoColorSet* palette = KoResourceServerProvider::instance()->paletteServer()->resourceByName(config->getString("palette")); if (palette) m_paletteWidget->setCurrentResource(palette); colorspaceComboBox->setCurrentIndex(config->getInt("colorspace")); ditherGroupBox->setChecked(config->getBool("ditherEnabled")); ditherWidget->setConfiguration(*config, "dither/"); colorModeComboBox->setCurrentIndex(config->getInt("dither/colorMode")); offsetScaleSpinBox->setValue(config->getDouble("dither/offsetScale")); alphaGroupBox->setChecked(config->getBool("alphaEnabled")); alphaModeComboBox->setCurrentIndex(config->getInt("alphaMode")); alphaClipSpinBox->setValue(config->getDouble("alphaClip")); alphaIndexSpinBox->setValue(config->getInt("alphaIndex")); alphaDitherWidget->setConfiguration(*config, "alphaDither/"); } KisPropertiesConfigurationSP KisPalettizeWidget::configuration() const { KisFilterConfigurationSP config = new KisFilterConfiguration("palettize", 1); if (m_paletteWidget->currentResource()) config->setProperty("palette", QVariant(m_paletteWidget->currentResource()->name())); config->setProperty("colorspace", colorspaceComboBox->currentIndex()); config->setProperty("ditherEnabled", ditherGroupBox->isChecked()); ditherWidget->configuration(*config, "dither/"); config->setProperty("dither/colorMode", colorModeComboBox->currentIndex()); config->setProperty("dither/offsetScale", offsetScaleSpinBox->value()); config->setProperty("alphaEnabled", alphaGroupBox->isChecked()); config->setProperty("alphaMode", alphaModeComboBox->currentIndex()); config->setProperty("alphaClip", alphaClipSpinBox->value()); config->setProperty("alphaIndex", alphaIndexSpinBox->value()); alphaDitherWidget->configuration(*config, "alphaDither/"); return config; } KisConfigWidget* KisFilterPalettize::createConfigurationWidget(QWidget *parent, const KisPaintDeviceSP dev, bool useForMasks) const { Q_UNUSED(dev) Q_UNUSED(useForMasks) return new KisPalettizeWidget(parent); } KisFilterConfigurationSP KisFilterPalettize::factoryConfiguration() const { KisFilterConfigurationSP config = new KisFilterConfiguration("palettize", 1); config->setProperty("palette", "Default"); config->setProperty("colorspace", Colorspace::Lab); config->setProperty("ditherEnabled", false); KisDitherWidget::factoryConfiguration(*config, "dither/"); config->setProperty("dither/colorMode", ColorMode::PerChannelOffset); config->setProperty("dither/offsetScale", 0.125); config->setProperty("alphaEnabled", true); config->setProperty("alphaMode", AlphaMode::Clip); config->setProperty("alphaClip", 0.5); config->setProperty("alphaIndex", 0); KisDitherWidget::factoryConfiguration(*config, "alphaDither/"); return config; } void KisFilterPalettize::processImpl(KisPaintDeviceSP device, const QRect& applyRect, const KisFilterConfigurationSP config, KoUpdater* progressUpdater) const { const KoColorSet* palette = KoResourceServerProvider::instance()->paletteServer()->resourceByName(config->getString("palette")); const int searchColorspace = config->getInt("colorspace"); const bool ditherEnabled = config->getBool("ditherEnabled"); const int colorMode = config->getInt("dither/colorMode"); const double offsetScale = config->getDouble("dither/offsetScale"); const bool alphaEnabled = config->getBool("alphaEnabled"); const int alphaMode = config->getInt("alphaMode"); const double alphaClip = config->getDouble("alphaClip"); const int alphaIndex = config->getInt("alphaIndex"); const KoColorSpace* colorspace = device->colorSpace(); const KoColorSpace* workColorspace = (searchColorspace == Colorspace::Lab ? KoColorSpaceRegistry::instance()->lab16() : KoColorSpaceRegistry::instance()->rgb16("sRGB-elle-V2-srgbtrc.icc")); const quint8 colorCount = ditherEnabled && colorMode == ColorMode::NearestColors ? 2 : 1; using SearchColor = boost::geometry::model::point; struct ColorCandidate { KoColor color; quint16 index; double distance; }; using SearchEntry = std::pair; boost::geometry::index::rtree> rtree; if (palette) { // Add palette colors to search tree quint16 index = 0; for (int row = 0; row < palette->rowCount(); ++row) { for (int column = 0; column < palette->columnCount(); ++column) { KisSwatch swatch = palette->getColorGlobal(column, row); if (swatch.isValid()) { KoColor color = swatch.color().convertedTo(colorspace); KoColor workColor = swatch.color().convertedTo(workColorspace); SearchColor searchColor; memcpy(&searchColor, workColor.data(), sizeof(SearchColor)); // Don't add duplicates so won't dither between identical colors std::vector result; rtree.query(boost::geometry::index::contains(searchColor), std::back_inserter(result)); if (result.empty()) rtree.insert(SearchEntry(searchColor, {color, index, 0.0})); } ++index; } } KisDitherUtil ditherUtil; if (ditherEnabled) ditherUtil.setConfiguration(*config, "dither/"); KisDitherUtil alphaDitherUtil; if (alphaMode == AlphaMode::Dither) alphaDitherUtil.setConfiguration(*config, "alphaDither/"); KisSequentialIteratorProgress pixel(device, applyRect, progressUpdater); while (pixel.nextPixel()) { KoColor workColor(pixel.oldRawData(), colorspace); workColor.convertTo(workColorspace); // Find dither threshold double threshold = 0.5; if (ditherEnabled) { threshold = ditherUtil.threshold(QPoint(pixel.x(), pixel.y())); // Traditional per-channel ordered dithering if (colorMode == ColorMode::PerChannelOffset) { QVector normalized(int(workColorspace->channelCount())); workColorspace->normalisedChannelsValue(workColor.data(), normalized); for (int channel = 0; channel < int(workColorspace->channelCount()); ++channel) { normalized[channel] += (threshold - 0.5) * offsetScale; } workColorspace->fromNormalisedChannelsValue(workColor.data(), normalized); } } // Get candidate colors and their distances SearchColor searchColor; memcpy(reinterpret_cast(&searchColor), workColor.data(), sizeof(SearchColor)); std::vector candidateColors; candidateColors.reserve(size_t(colorCount)); double distanceSum = 0.0; for (auto it = rtree.qbegin(boost::geometry::index::nearest(searchColor, colorCount)); it != rtree.qend() && candidateColors.size() < colorCount; ++it) { ColorCandidate candidate = it->second; candidate.distance = boost::geometry::distance(searchColor, it->first); candidateColors.push_back(candidate); distanceSum += candidate.distance; } // Select color candidate quint16 selected; if (ditherEnabled && colorMode == ColorMode::NearestColors) { // Sort candidates by palette order for stable dither color ordering const bool swap = candidateColors[0].index > candidateColors[1].index; selected = swap ^ (candidateColors[swap].distance / distanceSum > threshold); } else { selected = 0; } ColorCandidate &candidate = candidateColors[selected]; // Set alpha const double oldAlpha = colorspace->opacityF(pixel.oldRawData()); double newAlpha = oldAlpha; if (alphaEnabled && !(!ditherEnabled && alphaMode == AlphaMode::Dither)) { if (alphaMode == AlphaMode::Clip) { newAlpha = oldAlpha < alphaClip? 0.0 : 1.0; } else if (alphaMode == AlphaMode::Index) { newAlpha = (candidate.index == alphaIndex ? 0.0 : 1.0); } else if (alphaMode == AlphaMode::Dither) { newAlpha = oldAlpha < alphaDitherUtil.threshold(QPoint(pixel.x(), pixel.y())) ? 0.0 : 1.0; } } colorspace->setOpacity(candidate.color.data(), newAlpha, 1); // Copy color to pixel memcpy(pixel.rawData(), candidate.color.data(), colorspace->pixelSize()); } } } diff --git a/plugins/impex/brush/kis_brush_export.cpp b/plugins/impex/brush/kis_brush_export.cpp index 2bf6d6925b..2c617e0897 100644 --- a/plugins/impex/brush/kis_brush_export.cpp +++ b/plugins/impex/brush/kis_brush_export.cpp @@ -1,252 +1,250 @@ /* * Copyright (c) 2016 Boudewijn Rempt * * 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_brush_export.h" #include #include #include #include #include #include #include #include #include #include #include -#include #include -#include #include #include #include #include #include #include #include #include #include struct KisBrushExportOptions { qreal spacing; bool mask; int brushStyle; int dimensions; qint32 ranks[KisPipeBrushParasite::MaxDim]; qint32 selectionModes[KisPipeBrushParasite::MaxDim]; QString name; }; K_PLUGIN_FACTORY_WITH_JSON(KisBrushExportFactory, "krita_brush_export.json", registerPlugin();) KisBrushExport::KisBrushExport(QObject *parent, const QVariantList &) : KisImportExportFilter(parent) { } KisBrushExport::~KisBrushExport() { } KisImportExportErrorCode KisBrushExport::convert(KisDocument *document, QIODevice *io, KisPropertiesConfigurationSP configuration) { // XXX: Loading the parasite itself was commented out -- needs investigation // KisAnnotationSP annotation = document->savingImage()->annotation("ImagePipe Parasite"); // KisPipeBrushParasite parasite; // if (annotation) { // QBuffer buf(const_cast(&annotation->annotation())); // buf.open(QBuffer::ReadOnly); // parasite.loadFromDevice(&buf); // buf.close(); // } KisBrushExportOptions exportOptions; if (document->savingImage()->dynamicPropertyNames().contains("brushspacing")) { exportOptions.spacing = document->savingImage()->property("brushspacing").toFloat(); } else { exportOptions.spacing = configuration->getInt("spacing"); } if (!configuration->getString("name").isEmpty()) { exportOptions.name = configuration->getString("name"); } else { exportOptions.name = document->savingImage()->objectName(); } exportOptions.mask = configuration->getBool("mask"); exportOptions.brushStyle = configuration->getInt("brushStyle"); exportOptions.dimensions = configuration->getInt("dimensions"); for (int i = 0; i < KisPipeBrushParasite::MaxDim; ++i) { exportOptions.selectionModes[i] = configuration->getInt("selectionMode" + QString::number(i)); exportOptions.ranks[i] = configuration->getInt("rank" + QString::number(i)); } KisGbrBrush *brush = 0; if (mimeType() == "image/x-gimp-brush") { brush = new KisGbrBrush(filename()); } else if (mimeType() == "image/x-gimp-brush-animated") { brush = new KisImagePipeBrush(filename()); } else { return ImportExportCodes::FileFormatIncorrect; } qApp->processEvents(); // For vector layers to be updated QRect rc = document->savingImage()->bounds(); brush->setSpacing(exportOptions.spacing); KisImagePipeBrush *pipeBrush = dynamic_cast(brush); if (pipeBrush) { // Create parasite. XXX: share with KisCustomBrushWidget QVector< QVector > devices; devices.push_back(QVector()); KoProperties properties; properties.setProperty("visible", true); QList layers = document->savingImage()->root()->childNodes(QStringList("KisLayer"), properties); Q_FOREACH (KisNodeSP node, layers) { // push_front to behave exactly as gimp for gih creation devices[0].push_front(node->projection().data()); } QVector modes; for (int i = 0; i < KisPipeBrushParasite::MaxDim; ++i) { switch (exportOptions.selectionModes[i]) { case 0: modes.push_back(KisParasite::Constant); break; case 1: modes.push_back(KisParasite::Random); break; case 2: modes.push_back(KisParasite::Incremental); break; case 3: modes.push_back(KisParasite::Pressure); break; case 4: modes.push_back(KisParasite::Angular); break; case 5: modes.push_back(KisParasite::Velocity); break; default: modes.push_back(KisParasite::Incremental); } } KisPipeBrushParasite parasite; parasite.dim = exportOptions.dimensions; parasite.ncells = devices.at(0).count(); int maxRanks = 0; for (int i = 0; i < KisPipeBrushParasite::MaxDim; ++i) { // ### This can mask some bugs, be careful here in the future parasite.rank[i] = exportOptions.ranks[i]; parasite.selection[i] = modes.at(i); maxRanks += exportOptions.ranks[i]; } if (maxRanks > layers.count()) { return ImportExportCodes::FileFormatIncorrect; } // XXX needs movement! parasite.setBrushesCount(); pipeBrush->setParasite(parasite); pipeBrush->setDevices(devices, rc.width(), rc.height()); if (exportOptions.mask) { QVector brushes = pipeBrush->brushes(); Q_FOREACH(KisGbrBrush* brush, brushes) { brush->setHasColor(false); } } } else { if (exportOptions.mask) { QImage image = document->savingImage()->projection()->convertToQImage(0, 0, 0, rc.width(), rc.height(), KoColorConversionTransformation::internalRenderingIntent(), KoColorConversionTransformation::internalConversionFlags()); brush->setImage(image); brush->setBrushTipImage(image); } else { brush->initFromPaintDev(document->savingImage()->projection(),0,0,rc.width(), rc.height()); } } brush->setName(exportOptions.name); // brushes are created after devices are loaded, call mask mode after that brush->setUseColorAsMask(exportOptions.mask); brush->setWidth(rc.width()); brush->setHeight(rc.height()); if (brush->saveToDevice(io)) { return ImportExportCodes::OK; } else { return ImportExportCodes::Failure; } } KisPropertiesConfigurationSP KisBrushExport::defaultConfiguration(const QByteArray &/*from*/, const QByteArray &/*to*/) const { KisPropertiesConfigurationSP cfg = new KisPropertiesConfiguration(); cfg->setProperty("spacing", 1.0); cfg->setProperty("name", ""); cfg->setProperty("mask", true); cfg->setProperty("brushStyle", 0); cfg->setProperty("dimensions", 1); for (int i = 0; i < KisPipeBrushParasite::MaxDim; ++i) { cfg->setProperty("selectionMode" + QString::number(i), 2); cfg->getInt("rank" + QString::number(i), 0); } return cfg; } KisConfigWidget *KisBrushExport::createConfigurationWidget(QWidget *parent, const QByteArray &/*from*/, const QByteArray &to) const { KisWdgOptionsBrush *wdg = new KisWdgOptionsBrush(parent); if (to == "image/x-gimp-brush") { wdg->groupBox->setVisible(false); wdg->animStyleGroup->setVisible(false); } else if (to == "image/x-gimp-brush-animated") { wdg->groupBox->setVisible(true); wdg->animStyleGroup->setVisible(true); } // preload gih name with chosen filename QFileInfo fileLocation(filename()); wdg->nameLineEdit->setText(fileLocation.completeBaseName()); return wdg; } void KisBrushExport::initializeCapabilities() { QList > supportedColorModels; supportedColorModels << QPair() << QPair(RGBAColorModelID, Integer8BitsColorDepthID) << QPair(GrayAColorModelID, Integer8BitsColorDepthID); addSupportedColorModels(supportedColorModels, "Gimp Brushes"); if (mimeType() == "image/x-gimp-brush-animated") { addCapability(KisExportCheckRegistry::instance()->get("MultiLayerCheck")->create(KisExportCheckBase::SUPPORTED)); } } #include "kis_brush_export.moc" diff --git a/plugins/tools/basictools/kis_tool_colorpicker.cc b/plugins/tools/basictools/kis_tool_colorpicker.cc index 1ceeb51f54..4795c1b243 100644 --- a/plugins/tools/basictools/kis_tool_colorpicker.cc +++ b/plugins/tools/basictools/kis_tool_colorpicker.cc @@ -1,373 +1,372 @@ /* * Copyright (c) 1999 Matthias Elter * Copyright (c) 2002 Patrick Julien * Copyright (c) 2010 Lukáš Tvrdý * Copyright (c) 2018 Emmet & Eoin O'Neill * * 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_tool_colorpicker.h" #include #include #include "kis_cursor.h" #include "KisDocument.h" #include "kis_canvas2.h" #include "KisReferenceImagesLayer.h" #include "KoCanvasBase.h" #include "kis_random_accessor_ng.h" #include "KoResourceServerProvider.h" #include #include "kis_wrapped_rect.h" #include "kis_tool_utils.h" namespace { // GUI ComboBox index constants const int SAMPLE_MERGED = 0; } KisToolColorPicker::KisToolColorPicker(KoCanvasBase *canvas) : KisTool(canvas, KisCursor::pickerCursor()), m_config(new KisToolUtils::ColorPickerConfig) { setObjectName("tool_colorpicker"); m_isActivated = false; m_optionsWidget = 0; m_pickedColor = KoColor(); } KisToolColorPicker::~KisToolColorPicker() { if (m_isActivated) { m_config->save(m_toolActivationSource == KisTool::DefaultActivation); } } void KisToolColorPicker::paint(QPainter &gc, const KoViewConverter &converter) { Q_UNUSED(gc); Q_UNUSED(converter); } void KisToolColorPicker::activate(ToolActivation activation, const QSet &shapes) { m_isActivated = true; m_toolActivationSource = activation; m_config->load(m_toolActivationSource == KisTool::DefaultActivation); updateOptionWidget(); KisTool::activate(activation, shapes); } void KisToolColorPicker::deactivate() { m_config->save(m_toolActivationSource == KisTool::DefaultActivation); m_isActivated = false; KisTool::deactivate(); } bool KisToolColorPicker::pickColor(const QPointF &pos) { // Timer check. if (m_colorPickerDelayTimer.isActive()) { return false; } else { m_colorPickerDelayTimer.setSingleShot(true); m_colorPickerDelayTimer.start(100); } QScopedPointer> imageLocker; m_pickedColor.setOpacity(0.0); // Pick from reference images. if (m_optionsWidget->cmbSources->currentIndex() == SAMPLE_MERGED) { auto *kisCanvas = dynamic_cast(canvas()); KIS_SAFE_ASSERT_RECOVER_RETURN_VALUE(kisCanvas, false); KisSharedPtr referenceImageLayer = kisCanvas->imageView()->document()->referenceImagesLayer(); if (referenceImageLayer && kisCanvas->referenceImagesDecoration()->visible()) { QColor color = referenceImageLayer->getPixel(pos); if (color.isValid()) { m_pickedColor.fromQColor(color); } } } if (m_pickedColor.opacityU8() == OPACITY_TRANSPARENT_U8) { if (!currentImage()->bounds().contains(pos.toPoint()) && !currentImage()->wrapAroundModePermitted()) { return false; } KisPaintDeviceSP dev; if (m_optionsWidget->cmbSources->currentIndex() != SAMPLE_MERGED && currentNode() && currentNode()->colorPickSourceDevice()) { dev = currentNode()->colorPickSourceDevice(); } else { imageLocker.reset(new boost::lock_guard(*currentImage())); dev = currentImage()->projection(); } KoColor previousColor = canvas()->resourceManager()->foregroundColor(); KisToolUtils::pickColor(m_pickedColor, dev, pos.toPoint(), &previousColor, m_config->radius, m_config->blend); } if (m_config->updateColor && m_pickedColor.opacityU8() != OPACITY_TRANSPARENT_U8) { KoColor publicColor = m_pickedColor; publicColor.setOpacity(OPACITY_OPAQUE_U8); // Alpha is unwanted for FG and BG colors. if (m_config->toForegroundColor) { canvas()->resourceManager()->setResource(KoCanvasResourceProvider::ForegroundColor, publicColor); } else { canvas()->resourceManager()->setResource(KoCanvasResourceProvider::BackgroundColor, publicColor); } } return true; } void KisToolColorPicker::beginPrimaryAction(KoPointerEvent *event) { bool sampleMerged = m_optionsWidget->cmbSources->currentIndex() == SAMPLE_MERGED; if (!sampleMerged) { if (!currentNode()) { QMessageBox::information(0, i18nc("@title:window", "Krita"), i18n("Cannot pick a color as no layer is active.")); event->ignore(); return; } if (!currentNode()->visible()) { QMessageBox::information(0, i18nc("@title:window", "Krita"), i18n("Cannot pick a color as the active layer is not visible.")); event->ignore(); return; } } QPoint pos = convertToImagePixelCoordFloored(event); setMode(KisTool::PAINT_MODE); bool picked = pickColor(pos); if (!picked) { // Color picking has to start in the visible part of the layer event->ignore(); return; } displayPickedColor(); } void KisToolColorPicker::continuePrimaryAction(KoPointerEvent *event) { CHECK_MODE_SANITY_OR_RETURN(KisTool::PAINT_MODE); QPoint pos = convertToImagePixelCoordFloored(event); pickColor(pos); displayPickedColor(); } -#include "kis_canvas2.h" #include "kis_display_color_converter.h" void KisToolColorPicker::endPrimaryAction(KoPointerEvent *event) { Q_UNUSED(event); CHECK_MODE_SANITY_OR_RETURN(KisTool::PAINT_MODE); if (m_config->addColorToCurrentPalette) { KisSwatch swatch; swatch.setColor(m_pickedColor); // We don't ask for a name, too intrusive here KoColorSet *palette = m_palettes.at(m_optionsWidget->cmbPalette->currentIndex()); palette->add(swatch); if (!palette->save()) { QMessageBox::critical(0, i18nc("@title:window", "Krita"), i18n("Cannot write to palette file %1. Maybe it is read-only.", palette->filename())); } } } struct PickedChannel { QString name; QString valueText; }; void KisToolColorPicker::displayPickedColor() { if (m_pickedColor.data() && m_optionsWidget) { QList channels = m_pickedColor.colorSpace()->channels(); m_optionsWidget->listViewChannels->clear(); QVector pickedChannels; for (int i = 0; i < channels.count(); ++i) { pickedChannels.append(PickedChannel()); } for (int i = 0; i < channels.count(); ++i) { PickedChannel pc; pc.name = channels[i]->name(); if (m_config->normaliseValues) { pc.valueText = m_pickedColor.colorSpace()->normalisedChannelValueText(m_pickedColor.data(), i); } else { pc.valueText = m_pickedColor.colorSpace()->channelValueText(m_pickedColor.data(), i); } pickedChannels[channels[i]->displayPosition()] = pc; } Q_FOREACH (const PickedChannel &pc, pickedChannels) { QTreeWidgetItem *item = new QTreeWidgetItem(m_optionsWidget->listViewChannels); item->setText(0, pc.name); item->setText(1, pc.valueText); } KisCanvas2 *kritaCanvas = dynamic_cast(canvas()); KoColor newColor = kritaCanvas->displayColorConverter()->applyDisplayFiltering(m_pickedColor, Float32BitsColorDepthID); QVector values(4); newColor.colorSpace()->normalisedChannelsValue(newColor.data(), values); for (int i = 0; i < values.size(); i++) { QTreeWidgetItem *item = new QTreeWidgetItem(m_optionsWidget->listViewChannels); item->setText(0, QString("DisplayCh%1").arg(i)); item->setText(1, QString::number(values[i])); } } } QWidget* KisToolColorPicker::createOptionWidget() { m_optionsWidget = new ColorPickerOptionsWidget(0); m_optionsWidget->setObjectName(toolId() + " option widget"); m_optionsWidget->listViewChannels->setSortingEnabled(false); // See https://bugs.kde.org/show_bug.cgi?id=316896 QWidget *specialSpacer = new QWidget(m_optionsWidget); specialSpacer->setObjectName("SpecialSpacer"); specialSpacer->setFixedSize(0, 0); m_optionsWidget->layout()->addWidget(specialSpacer); // Initialize blend KisSliderSpinBox m_optionsWidget->blend->setRange(0,100); m_optionsWidget->blend->setSuffix(i18n("%")); updateOptionWidget(); connect(m_optionsWidget->cbUpdateCurrentColor, SIGNAL(toggled(bool)), SLOT(slotSetUpdateColor(bool))); connect(m_optionsWidget->cbNormaliseValues, SIGNAL(toggled(bool)), SLOT(slotSetNormaliseValues(bool))); connect(m_optionsWidget->cbPalette, SIGNAL(toggled(bool)), SLOT(slotSetAddPalette(bool))); connect(m_optionsWidget->radius, SIGNAL(valueChanged(int)), SLOT(slotChangeRadius(int))); connect(m_optionsWidget->blend, SIGNAL(valueChanged(int)), SLOT(slotChangeBlend(int))); connect(m_optionsWidget->cmbSources, SIGNAL(currentIndexChanged(int)), SLOT(slotSetColorSource(int))); KoResourceServer *srv = KoResourceServerProvider::instance()->paletteServer(); if (!srv) { return m_optionsWidget; } QList palettes = srv->resources(); Q_FOREACH (KoColorSet *palette, palettes) { if (palette) { m_optionsWidget->cmbPalette->addSqueezedItem(palette->name()); m_palettes.append(palette); } } return m_optionsWidget; } void KisToolColorPicker::updateOptionWidget() { if (!m_optionsWidget) return; m_optionsWidget->cbNormaliseValues->setChecked(m_config->normaliseValues); m_optionsWidget->cbUpdateCurrentColor->setChecked(m_config->updateColor); m_optionsWidget->cmbSources->setCurrentIndex(SAMPLE_MERGED + !m_config->sampleMerged); m_optionsWidget->cbPalette->setChecked(m_config->addColorToCurrentPalette); m_optionsWidget->radius->setValue(m_config->radius); m_optionsWidget->blend->setValue(m_config->blend); } void KisToolColorPicker::setToForeground(bool newValue) { m_config->toForegroundColor = newValue; emit toForegroundChanged(); } bool KisToolColorPicker::toForeground() const { return m_config->toForegroundColor; } void KisToolColorPicker::slotSetUpdateColor(bool state) { m_config->updateColor = state; } void KisToolColorPicker::slotSetNormaliseValues(bool state) { m_config->normaliseValues = state; displayPickedColor(); } void KisToolColorPicker::slotSetAddPalette(bool state) { m_config->addColorToCurrentPalette = state; } void KisToolColorPicker::slotChangeRadius(int value) { m_config->radius = value; } void KisToolColorPicker::slotChangeBlend(int value) { m_config->blend = value; } void KisToolColorPicker::slotSetColorSource(int value) { m_config->sampleMerged = value == SAMPLE_MERGED; } void KisToolColorPicker::slotAddPalette(KoResource *resource) { KoColorSet *palette = dynamic_cast(resource); if (palette) { m_optionsWidget->cmbPalette->addSqueezedItem(palette->name()); m_palettes.append(palette); } }