diff --git a/libs/ui/CMakeLists.txt b/libs/ui/CMakeLists.txt index f20440b1f1..17bf3ca3f3 100644 --- a/libs/ui/CMakeLists.txt +++ b/libs/ui/CMakeLists.txt @@ -1,526 +1,527 @@ include_directories( ${CMAKE_CURRENT_SOURCE_DIR}/qtlockedfile ${EXIV2_INCLUDE_DIR} ) include_directories(SYSTEM ${EIGEN3_INCLUDE_DIR} ${OCIO_INCLUDE_DIR} ${Boost_INCLUDE_DIRS} ) add_subdirectory( tests ) if (APPLE) find_library(FOUNDATION_LIBRARY Foundation) endif () set(kritaui_LIB_SRCS canvas/kis_canvas_widget_base.cpp canvas/kis_canvas2.cpp canvas/kis_canvas_updates_compressor.cpp canvas/kis_canvas_controller.cpp canvas/kis_paintop_transformation_connector.cpp canvas/kis_display_color_converter.cpp canvas/kis_display_filter.cpp canvas/kis_exposure_gamma_correction_interface.cpp canvas/kis_tool_proxy.cpp canvas/kis_canvas_decoration.cc canvas/kis_coordinates_converter.cpp canvas/kis_grid_manager.cpp canvas/kis_grid_decoration.cpp canvas/kis_grid_config.cpp canvas/kis_prescaled_projection.cpp canvas/kis_qpainter_canvas.cpp canvas/kis_projection_backend.cpp canvas/kis_update_info.cpp canvas/kis_image_patch.cpp canvas/kis_image_pyramid.cpp canvas/kis_infinity_manager.cpp canvas/kis_change_guides_command.cpp canvas/kis_guides_decoration.cpp canvas/kis_guides_manager.cpp canvas/kis_guides_config.cpp canvas/kis_snap_config.cpp canvas/kis_snap_line_strategy.cpp dialogs/kis_about_application.cpp dialogs/kis_dlg_adj_layer_props.cc dialogs/kis_dlg_adjustment_layer.cc dialogs/kis_dlg_filter.cpp dialogs/kis_dlg_generator_layer.cpp dialogs/kis_dlg_file_layer.cpp dialogs/kis_dlg_filter.cpp dialogs/kis_dlg_stroke_selection_properties.cpp dialogs/kis_dlg_image_properties.cc dialogs/kis_dlg_layer_properties.cc dialogs/kis_dlg_preferences.cc dialogs/slider_and_spin_box_sync.cpp dialogs/kis_dlg_blacklist_cleanup.cpp dialogs/kis_dlg_layer_style.cpp dialogs/kis_dlg_png_import.cpp dialogs/kis_dlg_import_image_sequence.cpp dialogs/kis_delayed_save_dialog.cpp dialogs/kis_dlg_internal_color_selector.cpp flake/kis_node_dummies_graph.cpp flake/kis_dummies_facade_base.cpp flake/kis_dummies_facade.cpp flake/kis_node_shapes_graph.cpp flake/kis_node_shape.cpp flake/kis_shape_controller.cpp flake/kis_shape_layer.cc flake/kis_shape_layer_canvas.cpp flake/kis_shape_selection.cpp flake/kis_shape_selection_canvas.cpp flake/kis_shape_selection_model.cpp flake/kis_take_all_shapes_command.cpp brushhud/kis_uniform_paintop_property_widget.cpp brushhud/kis_brush_hud.cpp brushhud/kis_round_hud_button.cpp brushhud/kis_dlg_brush_hud_config.cpp brushhud/kis_brush_hud_properties_list.cpp brushhud/kis_brush_hud_properties_config.cpp kis_aspect_ratio_locker.cpp kis_autogradient.cc kis_bookmarked_configurations_editor.cc kis_bookmarked_configurations_model.cc kis_bookmarked_filter_configurations_model.cc kis_base_option.cpp kis_canvas_resource_provider.cpp kis_derived_resources.cpp kis_categories_mapper.cpp kis_categorized_list_model.cpp kis_categorized_item_delegate.cpp kis_clipboard.cc kis_config.cc kis_config_notifier.cpp kis_control_frame.cpp kis_composite_ops_model.cc kis_paint_ops_model.cpp kis_cursor.cc kis_cursor_cache.cpp kis_custom_pattern.cc kis_file_layer.cpp kis_safe_document_loader.cpp kis_splash_screen.cpp kis_filter_manager.cc kis_filters_model.cc kis_histogram_view.cc kis_image_manager.cc kis_image_view_converter.cpp kis_import_catcher.cc kis_layer_manager.cc kis_mask_manager.cc kis_mimedata.cpp kis_node_commands_adapter.cpp kis_node_manager.cpp kis_node_juggler_compressed.cpp kis_node_selection_adapter.cpp kis_node_insertion_adapter.cpp kis_node_model.cpp kis_node_filter_proxy_model.cpp kis_model_index_converter_base.cpp kis_model_index_converter.cpp kis_model_index_converter_show_all.cpp kis_painting_assistant.cc kis_painting_assistants_decoration.cpp kis_painting_assistants_manager.cpp kis_paintop_box.cc kis_paintop_option.cpp kis_paintop_options_model.cpp kis_paintop_settings_widget.cpp kis_popup_palette.cpp kis_png_converter.cpp kis_preference_set_registry.cpp kis_resource_server_provider.cpp kis_selection_decoration.cc kis_selection_manager.cc kis_statusbar.cc kis_zoom_manager.cc kis_favorite_resource_manager.cpp kis_workspace_resource.cpp kis_action.cpp kis_action_manager.cpp kis_view_plugin.cpp kis_canvas_controls_manager.cpp kis_tooltip_manager.cpp kis_multinode_property.cpp kis_stopgradient_editor.cpp kisexiv2/kis_exif_io.cpp kisexiv2/kis_exiv2.cpp kisexiv2/kis_iptc_io.cpp kisexiv2/kis_xmp_io.cpp opengl/kis_opengl.cpp opengl/kis_opengl_canvas2.cpp opengl/kis_opengl_canvas_debugger.cpp opengl/kis_opengl_image_textures.cpp opengl/kis_texture_tile.cpp opengl/kis_opengl_shader_loader.cpp kis_fps_decoration.cpp recorder/kis_node_query_path_editor.cc recorder/kis_recorded_action_creator.cc recorder/kis_recorded_action_creator_factory.cc recorder/kis_recorded_action_creator_factory_registry.cc recorder/kis_recorded_action_editor_factory.cc recorder/kis_recorded_action_editor_factory_registry.cc recorder/kis_recorded_filter_action_editor.cc recorder/kis_recorded_filter_action_creator.cpp recorder/kis_recorded_paint_action_editor.cc tool/kis_selection_tool_helper.cpp tool/kis_selection_tool_config_widget_helper.cpp tool/kis_rectangle_constraint_widget.cpp tool/kis_shape_tool_helper.cpp tool/kis_tool.cc tool/kis_delegated_tool_policies.cpp tool/kis_tool_freehand.cc tool/kis_speed_smoother.cpp tool/kis_painting_information_builder.cpp tool/kis_stabilized_events_sampler.cpp tool/kis_tool_freehand_helper.cpp tool/kis_tool_multihand_helper.cpp tool/kis_figure_painting_tool_helper.cpp tool/kis_recording_adapter.cpp tool/kis_tool_paint.cc tool/kis_tool_shape.cc tool/kis_tool_ellipse_base.cpp tool/kis_tool_rectangle_base.cpp tool/kis_tool_polyline_base.cpp tool/kis_tool_utils.cpp tool/kis_resources_snapshot.cpp tool/kis_smoothing_options.cpp + tool/KisStabilizerDelayedPaintHelper.cpp tool/strokes/freehand_stroke.cpp tool/strokes/kis_painter_based_stroke_strategy.cpp tool/strokes/kis_filter_stroke_strategy.cpp tool/strokes/kis_color_picker_stroke_strategy.cpp widgets/kis_cmb_composite.cc widgets/kis_cmb_contour.cpp widgets/kis_cmb_gradient.cpp widgets/kis_paintop_list_widget.cpp widgets/kis_cmb_idlist.cc widgets/kis_color_space_selector.cc widgets/kis_advanced_color_space_selector.cc widgets/kis_cie_tongue_widget.cpp widgets/kis_tone_curve_widget.cpp widgets/kis_curve_widget.cpp widgets/kis_custom_image_widget.cc widgets/kis_image_from_clipboard_widget.cpp widgets/kis_double_widget.cc widgets/kis_filter_selector_widget.cc widgets/kis_gradient_chooser.cc widgets/kis_gradient_slider_widget.cc widgets/kis_gradient_slider.cpp widgets/kis_iconwidget.cc widgets/kis_mask_widgets.cpp widgets/kis_meta_data_merge_strategy_chooser_widget.cc widgets/kis_multi_bool_filter_widget.cc widgets/kis_multi_double_filter_widget.cc widgets/kis_multi_integer_filter_widget.cc widgets/kis_multipliers_double_slider_spinbox.cpp widgets/kis_paintop_presets_popup.cpp widgets/kis_tool_options_popup.cpp widgets/kis_paintop_presets_chooser_popup.cpp widgets/kis_pattern_chooser.cc widgets/kis_popup_button.cc widgets/kis_preset_chooser.cpp widgets/kis_progress_widget.cpp widgets/kis_selection_options.cc widgets/kis_scratch_pad.cpp widgets/kis_scratch_pad_event_filter.cpp widgets/kis_preset_selector_strip.cpp widgets/kis_slider_spin_box.cpp widgets/kis_size_group.cpp widgets/kis_size_group_p.cpp widgets/kis_wdg_generator.cpp widgets/kis_workspace_chooser.cpp widgets/squeezedcombobox.cpp widgets/kis_categorized_list_view.cpp widgets/kis_widget_chooser.cpp widgets/kis_tool_button.cpp widgets/kis_floating_message.cpp widgets/kis_lod_availability_widget.cpp widgets/kis_color_label_selector_widget.cpp widgets/kis_color_filter_combo.cpp widgets/kis_elided_label.cpp widgets/kis_stopgradient_slider_widget.cpp widgets/kis_spinbox_color_selector.cpp widgets/kis_screen_color_picker.cpp widgets/kis_visual_color_selector.cpp widgets/KoDualColorButton.cpp widgets/kis_color_input.cpp widgets/kis_color_button.cpp input/kis_input_manager.cpp input/kis_input_manager_p.cpp input/kis_extended_modifiers_mapper.cpp input/kis_abstract_input_action.cpp input/kis_tool_invocation_action.cpp input/kis_pan_action.cpp input/kis_alternate_invocation_action.cpp input/kis_rotate_canvas_action.cpp input/kis_zoom_action.cpp input/kis_change_frame_action.cpp input/kis_gamma_exposure_action.cpp input/kis_show_palette_action.cpp input/kis_change_primary_setting_action.cpp input/kis_abstract_shortcut.cpp input/kis_single_action_shortcut.cpp input/kis_stroke_shortcut.cpp input/kis_shortcut_matcher.cpp input/kis_select_layer_action.cpp operations/kis_operation.cpp operations/kis_operation_configuration.cpp operations/kis_operation_registry.cpp operations/kis_operation_ui_factory.cpp operations/kis_operation_ui_widget.cpp operations/kis_filter_selection_operation.cpp actions/kis_selection_action_factories.cpp input/kis_touch_shortcut.cpp kis_document_undo_store.cpp kis_transaction_based_command.cpp kis_gui_context_command.cpp kis_gui_context_command_p.cpp input/kis_tablet_debugger.cpp input/kis_input_profile_manager.cpp input/kis_input_profile.cpp input/kis_shortcut_configuration.cpp input/config/kis_input_configuration_page.cpp input/config/kis_edit_profiles_dialog.cpp input/config/kis_input_profile_model.cpp input/config/kis_input_configuration_page_item.cpp input/config/kis_action_shortcuts_model.cpp input/config/kis_input_type_delegate.cpp input/config/kis_input_mode_delegate.cpp input/config/kis_input_button.cpp input/config/kis_input_editor_delegate.cpp input/config/kis_mouse_input_editor.cpp input/config/kis_wheel_input_editor.cpp input/config/kis_key_input_editor.cpp processing/fill_processing_visitor.cpp kis_asl_layer_style_serializer.cpp kis_psd_layer_style_resource.cpp canvas/kis_mirror_axis.cpp kis_abstract_perspective_grid.cpp KisApplication.cpp KisAutoSaveRecoveryDialog.cpp KisDetailsPane.cpp KisDocument.cpp KisNodeDelegate.cpp kis_node_view_visibility_delegate.cpp KisNodeToolTip.cpp KisNodeView.cpp kis_node_view_color_scheme.cpp KisImportExportFilter.cpp KisFilterEntry.cpp KisImportExportManager.cpp KisMainWindow.cpp KisOpenPane.cpp KisPart.cpp KisPrintJob.cpp KisTemplate.cpp KisTemplateCreateDia.cpp KisTemplateGroup.cpp KisTemplates.cpp KisTemplatesPane.cpp KisTemplateTree.cpp KisUndoStackAction.cpp KisView.cpp thememanager.cpp kis_mainwindow_observer.cpp KisViewManager.cpp kis_mirror_manager.cpp qtlockedfile/qtlockedfile.cpp qtsingleapplication/qtlocalpeer.cpp qtsingleapplication/qtsingleapplication.cpp KisResourceBundle.cpp KisResourceBundleManifest.cpp kis_md5_generator.cpp KisApplicationArguments.cpp KisNetworkAccessManager.cpp KisMultiFeedRSSModel.cpp KisRemoteFileFetcher.cpp KisPaletteModel.cpp kis_palette_delegate.cpp kis_palette_view.cpp KisColorsetChooser.cpp KisSaveGroupVisitor.cpp ) if(WIN32) if (NOT Qt5Gui_PRIVATE_INCLUDE_DIRS) message(FATAL_ERROR "Qt5Gui Private header are missing!") endif() set(kritaui_LIB_SRCS ${kritaui_LIB_SRCS} input/kis_tablet_event.cpp input/wintab/kis_tablet_support_win.cpp input/wintab/kis_screen_size_choice_dialog.cpp qtlockedfile/qtlockedfile_win.cpp ) include_directories(${Qt5Gui_PRIVATE_INCLUDE_DIRS}) endif() set(kritaui_LIB_SRCS ${kritaui_LIB_SRCS} kis_animation_frame_cache.cpp kis_animation_cache_populator.cpp canvas/kis_animation_player.cpp kis_animation_exporter.cpp kis_animation_importer.cpp ) if(UNIX) set(kritaui_LIB_SRCS ${kritaui_LIB_SRCS} input/kis_tablet_event.cpp input/wintab/kis_tablet_support.cpp qtlockedfile/qtlockedfile_unix.cpp ) if(NOT APPLE) set(kritaui_LIB_SRCS ${kritaui_LIB_SRCS} input/wintab/kis_tablet_support_x11.cpp input/wintab/qxcbconnection_xi2.cpp input/wintab/qxcbconnection.cpp input/wintab/kis_xi2_event_filter.cpp ) endif() endif() ki18n_wrap_ui(kritaui_LIB_SRCS forms/wdgdlgpngimport.ui forms/wdgfullscreensettings.ui forms/wdgautogradient.ui forms/wdggeneralsettings.ui forms/wdgperformancesettings.ui forms/wdggenerators.ui forms/wdgbookmarkedconfigurationseditor.ui forms/wdgapplyprofile.ui forms/wdgcustompattern.ui forms/wdglayerproperties.ui forms/wdgcolorsettings.ui forms/wdgtabletsettings.ui forms/wdgcolorspaceselector.ui forms/wdgcolorspaceselectoradvanced.ui forms/wdgdisplaysettings.ui forms/kis_previewwidgetbase.ui forms/kis_matrix_widget.ui forms/wdgselectionoptions.ui forms/wdggeometryoptions.ui forms/wdgnewimage.ui forms/wdgimageproperties.ui forms/wdgmaskfromselection.ui forms/wdgmasksource.ui forms/wdgfilterdialog.ui forms/wdgmetadatamergestrategychooser.ui forms/wdgpaintoppresets.ui forms/wdgpaintopsettings.ui forms/wdgdlggeneratorlayer.ui forms/wdgdlgfilelayer.ui forms/wdgfilterselector.ui forms/wdgfilternodecreation.ui forms/wdgpaintactioneditor.ui forms/wdgmultipliersdoublesliderspinbox.ui forms/wdgnodequerypatheditor.ui forms/wdgpresetselectorstrip.ui forms/wdgdlgblacklistcleanup.ui forms/wdgrectangleconstraints.ui forms/wdgimportimagesequence.ui forms/wdgstrokeselectionproperties.ui forms/KisDetailsPaneBase.ui forms/KisOpenPaneBase.ui forms/wdgstopgradienteditor.ui brushhud/kis_dlg_brush_hud_config.ui forms/wdgdlginternalcolorselector.ui dialogs/kis_delayed_save_dialog.ui input/config/kis_input_configuration_page.ui input/config/kis_edit_profiles_dialog.ui input/config/kis_input_configuration_page_item.ui input/config/kis_mouse_input_editor.ui input/config/kis_wheel_input_editor.ui input/config/kis_key_input_editor.ui layerstyles/wdgBevelAndEmboss.ui layerstyles/wdgblendingoptions.ui layerstyles/WdgColorOverlay.ui layerstyles/wdgContour.ui layerstyles/wdgdropshadow.ui layerstyles/WdgGradientOverlay.ui layerstyles/wdgInnerGlow.ui layerstyles/wdglayerstyles.ui layerstyles/WdgPatternOverlay.ui layerstyles/WdgSatin.ui layerstyles/WdgStroke.ui layerstyles/wdgstylesselector.ui layerstyles/wdgTexture.ui wdgsplash.ui input/wintab/kis_screen_size_choice_dialog.ui ) QT5_WRAP_CPP(kritaui_HEADERS_MOC KisNodePropertyAction_p.h) add_library(kritaui SHARED ${kritaui_HEADERS_MOC} ${kritaui_LIB_SRCS} ) generate_export_header(kritaui BASE_NAME kritaui) target_link_libraries(kritaui KF5::CoreAddons KF5::Completion KF5::I18n KF5::ItemViews Qt5::Network kritaimpex kritacolor kritaimage kritalibbrush kritawidgets kritawidgetutils ${PNG_LIBRARIES} ${EXIV2_LIBRARIES} ) if (HAVE_KIO) target_link_libraries(kritaui KF5::KIOCore) endif() if (NOT WIN32 AND NOT APPLE) target_link_libraries(kritaui ${X11_X11_LIB} ${X11_Xinput_LIB} ${XCB_LIBRARIES}) endif() if(APPLE) target_link_libraries(kritaui ${FOUNDATION_LIBRARY}) endif () target_link_libraries(kritaui ${OPENEXR_LIBRARIES}) # Add VSync disable workaround if(NOT WIN32 AND NOT APPLE) target_link_libraries(kritaui ${CMAKE_DL_LIBS} Qt5::X11Extras) endif() if(X11_FOUND) target_link_libraries(kritaui Qt5::X11Extras ${X11_LIBRARIES}) endif() target_include_directories(kritaui PUBLIC $ $ $ $ $ $ $ ) set_target_properties(kritaui PROPERTIES VERSION ${GENERIC_KRITA_LIB_VERSION} SOVERSION ${GENERIC_KRITA_LIB_SOVERSION} ) install(TARGETS kritaui ${INSTALL_TARGETS_DEFAULT_ARGS}) if (APPLE) install(FILES osx.stylesheet DESTINATION ${DATA_INSTALL_DIR}/krita) endif () diff --git a/libs/ui/kis_config.cc b/libs/ui/kis_config.cc index 820a02ccef..60ed252e37 100644 --- a/libs/ui/kis_config.cc +++ b/libs/ui/kis_config.cc @@ -1,1755 +1,1768 @@ /* * Copyright (c) 2002 Patrick Julien * * 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_config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "kis_canvas_resource_provider.h" #include "kis_config_notifier.h" #include "kis_snap_config.h" #include #include KisConfig::KisConfig() : m_cfg( KSharedConfig::openConfig()->group("")) { } KisConfig::~KisConfig() { if (qApp->thread() != QThread::currentThread()) { //dbgKrita << "WARNING: KisConfig: requested config synchronization from nonGUI thread! Skipping..."; return; } m_cfg.sync(); } bool KisConfig::disableTouchOnCanvas(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("disableTouchOnCanvas", false)); } void KisConfig::setDisableTouchOnCanvas(bool value) const { m_cfg.writeEntry("disableTouchOnCanvas", value); } bool KisConfig::useProjections(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("useProjections", true)); } void KisConfig::setUseProjections(bool useProj) const { m_cfg.writeEntry("useProjections", useProj); } bool KisConfig::undoEnabled(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("undoEnabled", true)); } void KisConfig::setUndoEnabled(bool undo) const { m_cfg.writeEntry("undoEnabled", undo); } int KisConfig::undoStackLimit(bool defaultValue) const { return (defaultValue ? 30 : m_cfg.readEntry("undoStackLimit", 30)); } void KisConfig::setUndoStackLimit(int limit) const { m_cfg.writeEntry("undoStackLimit", limit); } bool KisConfig::useCumulativeUndoRedo(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("useCumulativeUndoRedo",false)); } void KisConfig::setCumulativeUndoRedo(bool value) { m_cfg.writeEntry("useCumulativeUndoRedo", value); } qreal KisConfig::stackT1(bool defaultValue) const { return (defaultValue ? 5 : m_cfg.readEntry("stackT1",5)); } void KisConfig::setStackT1(int T1) { m_cfg.writeEntry("stackT1", T1); } qreal KisConfig::stackT2(bool defaultValue) const { return (defaultValue ? 1 : m_cfg.readEntry("stackT2",1)); } void KisConfig::setStackT2(int T2) { m_cfg.writeEntry("stackT2", T2); } int KisConfig::stackN(bool defaultValue) const { return (defaultValue ? 5 : m_cfg.readEntry("stackN",5)); } void KisConfig::setStackN(int N) { m_cfg.writeEntry("stackN", N); } qint32 KisConfig::defImageWidth(bool defaultValue) const { return (defaultValue ? 1600 : m_cfg.readEntry("imageWidthDef", 1600)); } qint32 KisConfig::defImageHeight(bool defaultValue) const { return (defaultValue ? 1200 : m_cfg.readEntry("imageHeightDef", 1200)); } qreal KisConfig::defImageResolution(bool defaultValue) const { return (defaultValue ? 100.0 : m_cfg.readEntry("imageResolutionDef", 100.0)) / 72.0; } QString KisConfig::defColorModel(bool defaultValue) const { return (defaultValue ? KoColorSpaceRegistry::instance()->rgb8()->colorModelId().id() : m_cfg.readEntry("colorModelDef", KoColorSpaceRegistry::instance()->rgb8()->colorModelId().id())); } void KisConfig::defColorModel(const QString & model) const { m_cfg.writeEntry("colorModelDef", model); } QString KisConfig::defaultColorDepth(bool defaultValue) const { return (defaultValue ? KoColorSpaceRegistry::instance()->rgb8()->colorDepthId().id() : m_cfg.readEntry("colorDepthDef", KoColorSpaceRegistry::instance()->rgb8()->colorDepthId().id())); } void KisConfig::setDefaultColorDepth(const QString & depth) const { m_cfg.writeEntry("colorDepthDef", depth); } QString KisConfig::defColorProfile(bool defaultValue) const { return (defaultValue ? KoColorSpaceRegistry::instance()->rgb8()->profile()->name() : m_cfg.readEntry("colorProfileDef", KoColorSpaceRegistry::instance()->rgb8()->profile()->name())); } void KisConfig::defColorProfile(const QString & profile) const { m_cfg.writeEntry("colorProfileDef", profile); } void KisConfig::defImageWidth(qint32 width) const { m_cfg.writeEntry("imageWidthDef", width); } void KisConfig::defImageHeight(qint32 height) const { m_cfg.writeEntry("imageHeightDef", height); } void KisConfig::defImageResolution(qreal res) const { m_cfg.writeEntry("imageResolutionDef", res*72.0); } void cleanOldCursorStyleKeys(KConfigGroup &cfg) { if (cfg.hasKey("newCursorStyle") && cfg.hasKey("newOutlineStyle")) { cfg.deleteEntry("cursorStyleDef"); } } CursorStyle KisConfig::newCursorStyle(bool defaultValue) const { if (defaultValue) { return CURSOR_STYLE_NO_CURSOR; } int style = m_cfg.readEntry("newCursorStyle", int(-1)); if (style < 0) { // old style format style = m_cfg.readEntry("cursorStyleDef", int(OLD_CURSOR_STYLE_OUTLINE)); switch (style) { case OLD_CURSOR_STYLE_TOOLICON: style = CURSOR_STYLE_TOOLICON; break; case OLD_CURSOR_STYLE_CROSSHAIR: case OLD_CURSOR_STYLE_OUTLINE_CENTER_CROSS: style = CURSOR_STYLE_CROSSHAIR; break; case OLD_CURSOR_STYLE_POINTER: style = CURSOR_STYLE_POINTER; break; case OLD_CURSOR_STYLE_OUTLINE: case OLD_CURSOR_STYLE_NO_CURSOR: style = CURSOR_STYLE_NO_CURSOR; break; case OLD_CURSOR_STYLE_SMALL_ROUND: case OLD_CURSOR_STYLE_OUTLINE_CENTER_DOT: style = CURSOR_STYLE_SMALL_ROUND; break; case OLD_CURSOR_STYLE_TRIANGLE_RIGHTHANDED: case OLD_CURSOR_STYLE_OUTLINE_TRIANGLE_RIGHTHANDED: style = CURSOR_STYLE_TRIANGLE_RIGHTHANDED; break; case OLD_CURSOR_STYLE_TRIANGLE_LEFTHANDED: case OLD_CURSOR_STYLE_OUTLINE_TRIANGLE_LEFTHANDED: style = CURSOR_STYLE_TRIANGLE_LEFTHANDED; break; default: style = -1; } } cleanOldCursorStyleKeys(m_cfg); // compatibility with future versions if (style < 0 || style >= N_CURSOR_STYLE_SIZE) { style = CURSOR_STYLE_NO_CURSOR; } return (CursorStyle) style; } void KisConfig::setNewCursorStyle(CursorStyle style) { m_cfg.writeEntry("newCursorStyle", (int)style); } OutlineStyle KisConfig::newOutlineStyle(bool defaultValue) const { if (defaultValue) { return OUTLINE_FULL; } int style = m_cfg.readEntry("newOutlineStyle", int(-1)); if (style < 0) { // old style format style = m_cfg.readEntry("cursorStyleDef", int(OLD_CURSOR_STYLE_OUTLINE)); switch (style) { case OLD_CURSOR_STYLE_TOOLICON: case OLD_CURSOR_STYLE_CROSSHAIR: case OLD_CURSOR_STYLE_POINTER: case OLD_CURSOR_STYLE_NO_CURSOR: case OLD_CURSOR_STYLE_SMALL_ROUND: case OLD_CURSOR_STYLE_TRIANGLE_RIGHTHANDED: case OLD_CURSOR_STYLE_TRIANGLE_LEFTHANDED: style = OUTLINE_NONE; break; case OLD_CURSOR_STYLE_OUTLINE: case OLD_CURSOR_STYLE_OUTLINE_CENTER_DOT: case OLD_CURSOR_STYLE_OUTLINE_CENTER_CROSS: case OLD_CURSOR_STYLE_OUTLINE_TRIANGLE_RIGHTHANDED: case OLD_CURSOR_STYLE_OUTLINE_TRIANGLE_LEFTHANDED: style = OUTLINE_FULL; break; default: style = -1; } } cleanOldCursorStyleKeys(m_cfg); // compatibility with future versions if (style < 0 || style >= N_OUTLINE_STYLE_SIZE) { style = OUTLINE_FULL; } return (OutlineStyle) style; } void KisConfig::setNewOutlineStyle(OutlineStyle style) { m_cfg.writeEntry("newOutlineStyle", (int)style); } QRect KisConfig::colorPreviewRect() const { return m_cfg.readEntry("colorPreviewRect", QVariant(QRect(32, 32, 48, 48))).toRect(); } void KisConfig::setColorPreviewRect(const QRect &rect) { m_cfg.writeEntry("colorPreviewRect", QVariant(rect)); } bool KisConfig::useDirtyPresets(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("useDirtyPresets",false)); } void KisConfig::setUseDirtyPresets(bool value) { m_cfg.writeEntry("useDirtyPresets",value); KisConfigNotifier::instance()->notifyConfigChanged(); } bool KisConfig::useEraserBrushSize(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("useEraserBrushSize",false)); } void KisConfig::setUseEraserBrushSize(bool value) { m_cfg.writeEntry("useEraserBrushSize",value); KisConfigNotifier::instance()->notifyConfigChanged(); } bool KisConfig::useEraserBrushOpacity(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("useEraserBrushOpacity",false)); } void KisConfig::setUseEraserBrushOpacity(bool value) { m_cfg.writeEntry("useEraserBrushOpacity",value); KisConfigNotifier::instance()->notifyConfigChanged(); } QColor KisConfig::getMDIBackgroundColor(bool defaultValue) const { QColor col(77, 77, 77); return (defaultValue ? col : m_cfg.readEntry("mdiBackgroundColor", col)); } void KisConfig::setMDIBackgroundColor(const QColor &v) const { m_cfg.writeEntry("mdiBackgroundColor", v); } QString KisConfig::getMDIBackgroundImage(bool defaultValue) const { return (defaultValue ? "" : m_cfg.readEntry("mdiBackgroundImage", "")); } void KisConfig::setMDIBackgroundImage(const QString &filename) const { m_cfg.writeEntry("mdiBackgroundImage", filename); } QString KisConfig::monitorProfile(int screen) const { // Note: keep this in sync with the default profile for the RGB colorspaces! QString profile = m_cfg.readEntry("monitorProfile" + QString(screen == 0 ? "": QString("_%1").arg(screen)), "sRGB-elle-V2-srgbtrc.icc"); //dbgKrita << "KisConfig::monitorProfile()" << profile; return profile; } QString KisConfig::monitorForScreen(int screen, const QString &defaultMonitor, bool defaultValue) const { return (defaultValue ? defaultMonitor : m_cfg.readEntry(QString("monitor_for_screen_%1").arg(screen), defaultMonitor)); } void KisConfig::setMonitorForScreen(int screen, const QString& monitor) { m_cfg.writeEntry(QString("monitor_for_screen_%1").arg(screen), monitor); } void KisConfig::setMonitorProfile(int screen, const QString & monitorProfile, bool override) const { m_cfg.writeEntry("monitorProfile/OverrideX11", override); m_cfg.writeEntry("monitorProfile" + QString(screen == 0 ? "": QString("_%1").arg(screen)), monitorProfile); } const KoColorProfile *KisConfig::getScreenProfile(int screen) { if (screen < 0) return 0; KisConfig cfg; QString monitorId; if (KisColorManager::instance()->devices().size() > screen) { monitorId = cfg.monitorForScreen(screen, KisColorManager::instance()->devices()[screen]); } //dbgKrita << "getScreenProfile(). Screen" << screen << "monitor id" << monitorId; if (monitorId.isEmpty()) { return 0; } QByteArray bytes = KisColorManager::instance()->displayProfile(monitorId); //dbgKrita << "\tgetScreenProfile()" << bytes.size(); if (bytes.length() > 0) { const KoColorProfile *profile = KoColorSpaceRegistry::instance()->createColorProfile(RGBAColorModelID.id(), Integer8BitsColorDepthID.id(), bytes); //dbgKrita << "\tKisConfig::getScreenProfile for screen" << screen << profile->name(); return profile; } else { //dbgKrita << "\tCould not get a system monitor profile"; return 0; } } const KoColorProfile *KisConfig::displayProfile(int screen) const { if (screen < 0) return 0; // if the user plays with the settings, they can override the display profile, in which case // we don't want the system setting. bool override = useSystemMonitorProfile(); //dbgKrita << "KisConfig::displayProfile(). Override X11:" << override; const KoColorProfile *profile = 0; if (override) { //dbgKrita << "\tGoing to get the screen profile"; profile = KisConfig::getScreenProfile(screen); } // if it fails. check the configuration if (!profile || !profile->isSuitableForDisplay()) { //dbgKrita << "\tGoing to get the monitor profile"; QString monitorProfileName = monitorProfile(screen); //dbgKrita << "\t\tmonitorProfileName:" << monitorProfileName; if (!monitorProfileName.isEmpty()) { profile = KoColorSpaceRegistry::instance()->profileByName(monitorProfileName); } if (profile) { //dbgKrita << "\t\tsuitable for display" << profile->isSuitableForDisplay(); } else { //dbgKrita << "\t\tstill no profile"; } } // if we still don't have a profile, or the profile isn't suitable for display, // we need to get a last-resort profile. the built-in sRGB is a good choice then. if (!profile || !profile->isSuitableForDisplay()) { //dbgKrita << "\tnothing worked, going to get sRGB built-in"; profile = KoColorSpaceRegistry::instance()->profileByName("sRGB Built-in"); } if (profile) { //dbgKrita << "\tKisConfig::displayProfile for screen" << screen << "is" << profile->name(); } else { //dbgKrita << "\tCouldn't get a display profile at all"; } return profile; } QString KisConfig::workingColorSpace(bool defaultValue) const { return (defaultValue ? "RGBA" : m_cfg.readEntry("workingColorSpace", "RGBA")); } void KisConfig::setWorkingColorSpace(const QString & workingColorSpace) const { m_cfg.writeEntry("workingColorSpace", workingColorSpace); } QString KisConfig::printerColorSpace(bool /*defaultValue*/) const { //TODO currently only rgb8 is supported //return (defaultValue ? "RGBA" : m_cfg.readEntry("printerColorSpace", "RGBA")); return QString("RGBA"); } void KisConfig::setPrinterColorSpace(const QString & printerColorSpace) const { m_cfg.writeEntry("printerColorSpace", printerColorSpace); } QString KisConfig::printerProfile(bool defaultValue) const { return (defaultValue ? "" : m_cfg.readEntry("printerProfile", "")); } void KisConfig::setPrinterProfile(const QString & printerProfile) const { m_cfg.writeEntry("printerProfile", printerProfile); } bool KisConfig::useBlackPointCompensation(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("useBlackPointCompensation", true)); } void KisConfig::setUseBlackPointCompensation(bool useBlackPointCompensation) const { m_cfg.writeEntry("useBlackPointCompensation", useBlackPointCompensation); } bool KisConfig::allowLCMSOptimization(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("allowLCMSOptimization", true)); } void KisConfig::setAllowLCMSOptimization(bool allowLCMSOptimization) { m_cfg.writeEntry("allowLCMSOptimization", allowLCMSOptimization); } bool KisConfig::showRulers(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("showrulers", false)); } void KisConfig::setShowRulers(bool rulers) const { m_cfg.writeEntry("showrulers", rulers); } bool KisConfig::rulersTrackMouse(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("rulersTrackMouse", true)); } void KisConfig::setRulersTrackMouse(bool value) const { m_cfg.writeEntry("rulersTrackMouse", value); } qint32 KisConfig::pasteBehaviour(bool defaultValue) const { return (defaultValue ? 2 : m_cfg.readEntry("pasteBehaviour", 2)); } void KisConfig::setPasteBehaviour(qint32 renderIntent) const { m_cfg.writeEntry("pasteBehaviour", renderIntent); } qint32 KisConfig::monitorRenderIntent(bool defaultValue) const { qint32 intent = m_cfg.readEntry("renderIntent", INTENT_PERCEPTUAL); if (intent > 3) intent = 3; if (intent < 0) intent = 0; return (defaultValue ? INTENT_PERCEPTUAL : intent); } void KisConfig::setRenderIntent(qint32 renderIntent) const { if (renderIntent > 3) renderIntent = 3; if (renderIntent < 0) renderIntent = 0; m_cfg.writeEntry("renderIntent", renderIntent); } bool KisConfig::useOpenGL(bool defaultValue) const { if (defaultValue) { return true; } //dbgKrita << "use opengl" << m_cfg.readEntry("useOpenGL", true) << "success" << m_cfg.readEntry("canvasState", "OPENGL_SUCCESS"); QString canvasState = m_cfg.readEntry("canvasState", "OPENGL_SUCCESS"); return (m_cfg.readEntry("useOpenGL", true) && (canvasState == "OPENGL_SUCCESS" || canvasState == "TRY_OPENGL")); } void KisConfig::setUseOpenGL(bool useOpenGL) const { m_cfg.writeEntry("useOpenGL", useOpenGL); } int KisConfig::openGLFilteringMode(bool defaultValue) const { return (defaultValue ? 3 : m_cfg.readEntry("OpenGLFilterMode", 3)); } void KisConfig::setOpenGLFilteringMode(int filteringMode) { m_cfg.writeEntry("OpenGLFilterMode", filteringMode); } bool KisConfig::useOpenGLTextureBuffer(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("useOpenGLTextureBuffer", true)); } void KisConfig::setUseOpenGLTextureBuffer(bool useBuffer) { m_cfg.writeEntry("useOpenGLTextureBuffer", useBuffer); } int KisConfig::openGLTextureSize(bool defaultValue) const { return (defaultValue ? 256 : m_cfg.readEntry("textureSize", 256)); } bool KisConfig::disableVSync(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("disableVSync", true)); } void KisConfig::setDisableVSync(bool disableVSync) { m_cfg.writeEntry("disableVSync", disableVSync); } bool KisConfig::showAdvancedOpenGLSettings(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("showAdvancedOpenGLSettings", false)); } bool KisConfig::forceOpenGLFenceWorkaround(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("forceOpenGLFenceWorkaround", false)); } int KisConfig::numMipmapLevels(bool defaultValue) const { return (defaultValue ? 4 : m_cfg.readEntry("numMipmapLevels", 4)); } int KisConfig::textureOverlapBorder() const { return 1 << qMax(0, numMipmapLevels()); } qint32 KisConfig::maxNumberOfThreads(bool defaultValue) const { return (defaultValue ? QThread::idealThreadCount() : m_cfg.readEntry("maxthreads", QThread::idealThreadCount())); } void KisConfig::setMaxNumberOfThreads(qint32 maxThreads) { m_cfg.writeEntry("maxthreads", maxThreads); } quint32 KisConfig::getGridMainStyle(bool defaultValue) const { int v = m_cfg.readEntry("gridmainstyle", 0); v = qBound(0, v, 2); return (defaultValue ? 0 : v); } void KisConfig::setGridMainStyle(quint32 v) const { m_cfg.writeEntry("gridmainstyle", v); } quint32 KisConfig::getGridSubdivisionStyle(bool defaultValue) const { quint32 v = m_cfg.readEntry("gridsubdivisionstyle", 1); if (v > 2) v = 2; return (defaultValue ? 1 : v); } void KisConfig::setGridSubdivisionStyle(quint32 v) const { m_cfg.writeEntry("gridsubdivisionstyle", v); } QColor KisConfig::getGridMainColor(bool defaultValue) const { QColor col(99, 99, 99); return (defaultValue ? col : m_cfg.readEntry("gridmaincolor", col)); } void KisConfig::setGridMainColor(const QColor & v) const { m_cfg.writeEntry("gridmaincolor", v); } QColor KisConfig::getGridSubdivisionColor(bool defaultValue) const { QColor col(150, 150, 150); return (defaultValue ? col : m_cfg.readEntry("gridsubdivisioncolor", col)); } void KisConfig::setGridSubdivisionColor(const QColor & v) const { m_cfg.writeEntry("gridsubdivisioncolor", v); } quint32 KisConfig::guidesLineStyle(bool defaultValue) const { int v = m_cfg.readEntry("guidesLineStyle", 0); v = qBound(0, v, 2); return (defaultValue ? 0 : v); } void KisConfig::setGuidesLineStyle(quint32 v) const { m_cfg.writeEntry("guidesLineStyle", v); } QColor KisConfig::guidesColor(bool defaultValue) const { QColor col(99, 99, 99); return (defaultValue ? col : m_cfg.readEntry("guidesColor", col)); } void KisConfig::setGuidesColor(const QColor & v) const { m_cfg.writeEntry("guidesColor", v); } void KisConfig::loadSnapConfig(KisSnapConfig *config, bool defaultValue) const { KisSnapConfig defaultConfig(false); if (defaultValue) { *config = defaultConfig; return; } config->setOrthogonal(m_cfg.readEntry("globalSnapOrthogonal", defaultConfig.orthogonal())); config->setNode(m_cfg.readEntry("globalSnapNode", defaultConfig.node())); config->setExtension(m_cfg.readEntry("globalSnapExtension", defaultConfig.extension())); config->setIntersection(m_cfg.readEntry("globalSnapIntersection", defaultConfig.intersection())); config->setBoundingBox(m_cfg.readEntry("globalSnapBoundingBox", defaultConfig.boundingBox())); config->setImageBounds(m_cfg.readEntry("globalSnapImageBounds", defaultConfig.imageBounds())); config->setImageCenter(m_cfg.readEntry("globalSnapImageCenter", defaultConfig.imageCenter())); } void KisConfig::saveSnapConfig(const KisSnapConfig &config) { m_cfg.writeEntry("globalSnapOrthogonal", config.orthogonal()); m_cfg.writeEntry("globalSnapNode", config.node()); m_cfg.writeEntry("globalSnapExtension", config.extension()); m_cfg.writeEntry("globalSnapIntersection", config.intersection()); m_cfg.writeEntry("globalSnapBoundingBox", config.boundingBox()); m_cfg.writeEntry("globalSnapImageBounds", config.imageBounds()); m_cfg.writeEntry("globalSnapImageCenter", config.imageCenter()); } qint32 KisConfig::checkSize(bool defaultValue) const { return (defaultValue ? 32 : m_cfg.readEntry("checksize", 32)); } void KisConfig::setCheckSize(qint32 checksize) const { m_cfg.writeEntry("checksize", checksize); } bool KisConfig::scrollCheckers(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("scrollingcheckers", false)); } void KisConfig::setScrollingCheckers(bool sc) const { m_cfg.writeEntry("scrollingcheckers", sc); } QColor KisConfig::canvasBorderColor(bool defaultValue) const { QColor color(QColor(128,128,128)); return (defaultValue ? color : m_cfg.readEntry("canvasBorderColor", color)); } void KisConfig::setCanvasBorderColor(const QColor& color) const { m_cfg.writeEntry("canvasBorderColor", color); } bool KisConfig::hideScrollbars(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("hideScrollbars", false)); } void KisConfig::setHideScrollbars(bool value) const { m_cfg.writeEntry("hideScrollbars", value); } QColor KisConfig::checkersColor1(bool defaultValue) const { QColor col(220, 220, 220); return (defaultValue ? col : m_cfg.readEntry("checkerscolor", col)); } void KisConfig::setCheckersColor1(const QColor & v) const { m_cfg.writeEntry("checkerscolor", v); } QColor KisConfig::checkersColor2(bool defaultValue) const { return (defaultValue ? QColor(Qt::white) : m_cfg.readEntry("checkerscolor2", QColor(Qt::white))); } void KisConfig::setCheckersColor2(const QColor & v) const { m_cfg.writeEntry("checkerscolor2", v); } bool KisConfig::antialiasCurves(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("antialiascurves", true)); } void KisConfig::setAntialiasCurves(bool v) const { m_cfg.writeEntry("antialiascurves", v); } QColor KisConfig::selectionOverlayMaskColor(bool defaultValue) const { QColor def(255, 0, 0, 220); return (defaultValue ? def : m_cfg.readEntry("selectionOverlayMaskColor", def)); } void KisConfig::setSelectionOverlayMaskColor(const QColor &color) { m_cfg.writeEntry("selectionOverlayMaskColor", color); } bool KisConfig::antialiasSelectionOutline(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("AntialiasSelectionOutline", false)); } void KisConfig::setAntialiasSelectionOutline(bool v) const { m_cfg.writeEntry("AntialiasSelectionOutline", v); } bool KisConfig::showRootLayer(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("ShowRootLayer", false)); } void KisConfig::setShowRootLayer(bool showRootLayer) const { m_cfg.writeEntry("ShowRootLayer", showRootLayer); } bool KisConfig::showGlobalSelection(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("ShowGlobalSelection", false)); } void KisConfig::setShowGlobalSelection(bool showGlobalSelection) const { m_cfg.writeEntry("ShowGlobalSelection", showGlobalSelection); } bool KisConfig::showOutlineWhilePainting(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("ShowOutlineWhilePainting", true)); } void KisConfig::setShowOutlineWhilePainting(bool showOutlineWhilePainting) const { m_cfg.writeEntry("ShowOutlineWhilePainting", showOutlineWhilePainting); } bool KisConfig::hideSplashScreen(bool defaultValue) const { KConfigGroup cfg( KSharedConfig::openConfig(), "SplashScreen"); return (defaultValue ? true : cfg.readEntry("HideSplashAfterStartup", true)); } void KisConfig::setHideSplashScreen(bool hideSplashScreen) const { KConfigGroup cfg( KSharedConfig::openConfig(), "SplashScreen"); cfg.writeEntry("HideSplashAfterStartup", hideSplashScreen); } qreal KisConfig::outlineSizeMinimum(bool defaultValue) const { return (defaultValue ? 1.0 : m_cfg.readEntry("OutlineSizeMinimum", 1.0)); } void KisConfig::setOutlineSizeMinimum(qreal outlineSizeMinimum) const { m_cfg.writeEntry("OutlineSizeMinimum", outlineSizeMinimum); } int KisConfig::autoSaveInterval(bool defaultValue) const { return (defaultValue ? 300 : m_cfg.readEntry("AutoSaveInterval", 300)); } void KisConfig::setAutoSaveInterval(int seconds) const { return m_cfg.writeEntry("AutoSaveInterval", seconds); } bool KisConfig::backupFile(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("CreateBackupFile", true)); } void KisConfig::setBackupFile(bool backupFile) const { m_cfg.writeEntry("CreateBackupFile", backupFile); } bool KisConfig::showFilterGallery(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("showFilterGallery", false)); } void KisConfig::setShowFilterGallery(bool showFilterGallery) const { m_cfg.writeEntry("showFilterGallery", showFilterGallery); } bool KisConfig::showFilterGalleryLayerMaskDialog(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("showFilterGalleryLayerMaskDialog", true)); } void KisConfig::setShowFilterGalleryLayerMaskDialog(bool showFilterGallery) const { m_cfg.writeEntry("setShowFilterGalleryLayerMaskDialog", showFilterGallery); } QString KisConfig::canvasState(bool defaultValue) const { return (defaultValue ? "OPENGL_NOT_TRIED" : m_cfg.readEntry("canvasState", "OPENGL_NOT_TRIED")); } void KisConfig::setCanvasState(const QString& state) const { static QStringList acceptableStates; if (acceptableStates.isEmpty()) { acceptableStates << "OPENGL_SUCCESS" << "TRY_OPENGL" << "OPENGL_NOT_TRIED" << "OPENGL_FAILED"; } if (acceptableStates.contains(state)) { m_cfg.writeEntry("canvasState", state); m_cfg.sync(); } } bool KisConfig::toolOptionsPopupDetached(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("ToolOptionsPopupDetached", false)); } void KisConfig::setToolOptionsPopupDetached(bool detached) const { m_cfg.writeEntry("ToolOptionsPopupDetached", detached); } bool KisConfig::paintopPopupDetached(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("PaintopPopupDetached", false)); } void KisConfig::setPaintopPopupDetached(bool detached) const { m_cfg.writeEntry("PaintopPopupDetached", detached); } QString KisConfig::pressureTabletCurve(bool defaultValue) const { return (defaultValue ? "0,0;1,1" : m_cfg.readEntry("tabletPressureCurve","0,0;1,1;")); } void KisConfig::setPressureTabletCurve(const QString& curveString) const { m_cfg.writeEntry("tabletPressureCurve", curveString); } qreal KisConfig::vastScrolling(bool defaultValue) const { return (defaultValue ? 0.9 : m_cfg.readEntry("vastScrolling", 0.9)); } void KisConfig::setVastScrolling(const qreal factor) const { m_cfg.writeEntry("vastScrolling", factor); } int KisConfig::presetChooserViewMode(bool defaultValue) const { return (defaultValue ? 0 : m_cfg.readEntry("presetChooserViewMode", 0)); } void KisConfig::setPresetChooserViewMode(const int mode) const { m_cfg.writeEntry("presetChooserViewMode", mode); } bool KisConfig::firstRun(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("firstRun", true)); } void KisConfig::setFirstRun(const bool first) const { m_cfg.writeEntry("firstRun", first); } int KisConfig::horizontalSplitLines(bool defaultValue) const { return (defaultValue ? 1 : m_cfg.readEntry("horizontalSplitLines", 1)); } void KisConfig::setHorizontalSplitLines(const int numberLines) const { m_cfg.writeEntry("horizontalSplitLines", numberLines); } int KisConfig::verticalSplitLines(bool defaultValue) const { return (defaultValue ? 1 : m_cfg.readEntry("verticalSplitLines", 1)); } void KisConfig::setVerticalSplitLines(const int numberLines) const { m_cfg.writeEntry("verticalSplitLines", numberLines); } bool KisConfig::clicklessSpacePan(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("clicklessSpacePan", true)); } void KisConfig::setClicklessSpacePan(const bool toggle) const { m_cfg.writeEntry("clicklessSpacePan", toggle); } bool KisConfig::hideDockersFullscreen(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("hideDockersFullScreen", true)); } void KisConfig::setHideDockersFullscreen(const bool value) const { m_cfg.writeEntry("hideDockersFullScreen", value); } bool KisConfig::showDockerTitleBars(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("showDockerTitleBars", true)); } void KisConfig::setShowDockerTitleBars(const bool value) const { m_cfg.writeEntry("showDockerTitleBars", value); } bool KisConfig::showStatusBar(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("showStatusBar", true)); } void KisConfig::setShowStatusBar(const bool value) const { m_cfg.writeEntry("showStatusBar", value); } bool KisConfig::hideMenuFullscreen(bool defaultValue) const { return (defaultValue ? true: m_cfg.readEntry("hideMenuFullScreen", true)); } void KisConfig::setHideMenuFullscreen(const bool value) const { m_cfg.writeEntry("hideMenuFullScreen", value); } bool KisConfig::hideScrollbarsFullscreen(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("hideScrollbarsFullScreen", true)); } void KisConfig::setHideScrollbarsFullscreen(const bool value) const { m_cfg.writeEntry("hideScrollbarsFullScreen", value); } bool KisConfig::hideStatusbarFullscreen(bool defaultValue) const { return (defaultValue ? true: m_cfg.readEntry("hideStatusbarFullScreen", true)); } void KisConfig::setHideStatusbarFullscreen(const bool value) const { m_cfg.writeEntry("hideStatusbarFullScreen", value); } bool KisConfig::hideTitlebarFullscreen(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("hideTitleBarFullscreen", true)); } void KisConfig::setHideTitlebarFullscreen(const bool value) const { m_cfg.writeEntry("hideTitleBarFullscreen", value); } bool KisConfig::hideToolbarFullscreen(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("hideToolbarFullscreen", true)); } void KisConfig::setHideToolbarFullscreen(const bool value) const { m_cfg.writeEntry("hideToolbarFullscreen", value); } bool KisConfig::fullscreenMode(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("fullscreenMode", true)); } void KisConfig::setFullscreenMode(const bool value) const { m_cfg.writeEntry("fullscreenMode", value); } QStringList KisConfig::favoriteCompositeOps(bool defaultValue) const { return (defaultValue ? QStringList() : m_cfg.readEntry("favoriteCompositeOps", QStringList())); } void KisConfig::setFavoriteCompositeOps(const QStringList& compositeOps) const { m_cfg.writeEntry("favoriteCompositeOps", compositeOps); } QString KisConfig::exportConfiguration(const QString &filterId, bool defaultValue) const { return (defaultValue ? QString() : m_cfg.readEntry("ExportConfiguration-" + filterId, QString())); } void KisConfig::setExportConfiguration(const QString &filterId, KisPropertiesConfigurationSP properties) const { QString exportConfig = properties->toXML(); m_cfg.writeEntry("ExportConfiguration-" + filterId, exportConfig); } bool KisConfig::useOcio(bool defaultValue) const { #ifdef HAVE_OCIO return (defaultValue ? false : m_cfg.readEntry("Krita/Ocio/UseOcio", false)); #else Q_UNUSED(defaultValue); return false; #endif } void KisConfig::setUseOcio(bool useOCIO) const { m_cfg.writeEntry("Krita/Ocio/UseOcio", useOCIO); } int KisConfig::favoritePresets(bool defaultValue) const { return (defaultValue ? 10 : m_cfg.readEntry("numFavoritePresets", 10)); } void KisConfig::setFavoritePresets(const int value) { m_cfg.writeEntry("numFavoritePresets", value); } bool KisConfig::levelOfDetailEnabled(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("levelOfDetailEnabled", false)); } void KisConfig::setLevelOfDetailEnabled(bool value) { m_cfg.writeEntry("levelOfDetailEnabled", value); } KisConfig::OcioColorManagementMode KisConfig::ocioColorManagementMode(bool defaultValue) const { return (OcioColorManagementMode)(defaultValue ? INTERNAL : m_cfg.readEntry("Krita/Ocio/OcioColorManagementMode", (int) INTERNAL)); } void KisConfig::setOcioColorManagementMode(OcioColorManagementMode mode) const { m_cfg.writeEntry("Krita/Ocio/OcioColorManagementMode", (int) mode); } QString KisConfig::ocioConfigurationPath(bool defaultValue) const { return (defaultValue ? QString() : m_cfg.readEntry("Krita/Ocio/OcioConfigPath", QString())); } void KisConfig::setOcioConfigurationPath(const QString &path) const { m_cfg.writeEntry("Krita/Ocio/OcioConfigPath", path); } QString KisConfig::ocioLutPath(bool defaultValue) const { return (defaultValue ? QString() : m_cfg.readEntry("Krita/Ocio/OcioLutPath", QString())); } void KisConfig::setOcioLutPath(const QString &path) const { m_cfg.writeEntry("Krita/Ocio/OcioLutPath", path); } int KisConfig::ocioLutEdgeSize(bool defaultValue) const { return (defaultValue ? 64 : m_cfg.readEntry("Krita/Ocio/LutEdgeSize", 64)); } void KisConfig::setOcioLutEdgeSize(int value) { m_cfg.writeEntry("Krita/Ocio/LutEdgeSize", value); } bool KisConfig::ocioLockColorVisualRepresentation(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("Krita/Ocio/OcioLockColorVisualRepresentation", false)); } void KisConfig::setOcioLockColorVisualRepresentation(bool value) { m_cfg.writeEntry("Krita/Ocio/OcioLockColorVisualRepresentation", value); } QString KisConfig::defaultPalette(bool defaultValue) const { return (defaultValue ? QString() : m_cfg.readEntry("defaultPalette", QString())); } void KisConfig::setDefaultPalette(const QString& name) const { m_cfg.writeEntry("defaultPalette", name); } QString KisConfig::toolbarSlider(int sliderNumber, bool defaultValue) const { QString def = "flow"; if (sliderNumber == 1) { def = "opacity"; } if (sliderNumber == 2) { def = "size"; } return (defaultValue ? def : m_cfg.readEntry(QString("toolbarslider_%1").arg(sliderNumber), def)); } void KisConfig::setToolbarSlider(int sliderNumber, const QString &slider) { m_cfg.writeEntry(QString("toolbarslider_%1").arg(sliderNumber), slider); } bool KisConfig::sliderLabels(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("sliderLabels", true)); } void KisConfig::setSliderLabels(bool enabled) { m_cfg.writeEntry("sliderLabels", enabled); } QString KisConfig::currentInputProfile(bool defaultValue) const { return (defaultValue ? QString() : m_cfg.readEntry("currentInputProfile", QString())); } void KisConfig::setCurrentInputProfile(const QString& name) { m_cfg.writeEntry("currentInputProfile", name); } bool KisConfig::useSystemMonitorProfile(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("ColorManagement/UseSystemMonitorProfile", false)); } void KisConfig::setUseSystemMonitorProfile(bool _useSystemMonitorProfile) const { m_cfg.writeEntry("ColorManagement/UseSystemMonitorProfile", _useSystemMonitorProfile); } bool KisConfig::presetStripVisible(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("presetStripVisible", true)); } void KisConfig::setPresetStripVisible(bool visible) { m_cfg.writeEntry("presetStripVisible", visible); } bool KisConfig::scratchpadVisible(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("scratchpadVisible", true)); } void KisConfig::setScratchpadVisible(bool visible) { m_cfg.writeEntry("scratchpadVisible", visible); } bool KisConfig::showSingleChannelAsColor(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("showSingleChannelAsColor", false)); } void KisConfig::setShowSingleChannelAsColor(bool asColor) { m_cfg.writeEntry("showSingleChannelAsColor", asColor); } bool KisConfig::hidePopups(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("hidePopups", false)); } void KisConfig::setHidePopups(bool hidepopups) { m_cfg.writeEntry("hidePopups", hidepopups); } int KisConfig::numDefaultLayers(bool defaultValue) const { return (defaultValue ? 2 : m_cfg.readEntry("NumberOfLayersForNewImage", 2)); } void KisConfig::setNumDefaultLayers(int num) { m_cfg.writeEntry("NumberOfLayersForNewImage", num); } quint8 KisConfig::defaultBackgroundOpacity(bool defaultValue) const { return (defaultValue ? (int)OPACITY_OPAQUE_U8 : m_cfg.readEntry("BackgroundOpacityForNewImage", (int)OPACITY_OPAQUE_U8)); } void KisConfig::setDefaultBackgroundOpacity(quint8 value) { m_cfg.writeEntry("BackgroundOpacityForNewImage", (int)value); } QColor KisConfig::defaultBackgroundColor(bool defaultValue) const { return (defaultValue ? QColor(Qt::white) : m_cfg.readEntry("BackgroundColorForNewImage", QColor(Qt::white))); } void KisConfig::setDefaultBackgroundColor(QColor value) { m_cfg.writeEntry("BackgroundColorForNewImage", value); } KisConfig::BackgroundStyle KisConfig::defaultBackgroundStyle(bool defaultValue) const { return (KisConfig::BackgroundStyle)(defaultValue ? LAYER : m_cfg.readEntry("BackgroundStyleForNewImage", (int)LAYER)); } void KisConfig::setDefaultBackgroundStyle(KisConfig::BackgroundStyle value) { m_cfg.writeEntry("BackgroundStyleForNewImage", (int)value); } int KisConfig::lineSmoothingType(bool defaultValue) const { return (defaultValue ? 1 : m_cfg.readEntry("LineSmoothingType", 1)); } void KisConfig::setLineSmoothingType(int value) { m_cfg.writeEntry("LineSmoothingType", value); } qreal KisConfig::lineSmoothingDistance(bool defaultValue) const { return (defaultValue ? 50.0 : m_cfg.readEntry("LineSmoothingDistance", 50.0)); } void KisConfig::setLineSmoothingDistance(qreal value) { m_cfg.writeEntry("LineSmoothingDistance", value); } qreal KisConfig::lineSmoothingTailAggressiveness(bool defaultValue) const { return (defaultValue ? 0.15 : m_cfg.readEntry("LineSmoothingTailAggressiveness", 0.15)); } void KisConfig::setLineSmoothingTailAggressiveness(qreal value) { m_cfg.writeEntry("LineSmoothingTailAggressiveness", value); } bool KisConfig::lineSmoothingSmoothPressure(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("LineSmoothingSmoothPressure", false)); } void KisConfig::setLineSmoothingSmoothPressure(bool value) { m_cfg.writeEntry("LineSmoothingSmoothPressure", value); } bool KisConfig::lineSmoothingScalableDistance(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("LineSmoothingScalableDistance", true)); } void KisConfig::setLineSmoothingScalableDistance(bool value) { m_cfg.writeEntry("LineSmoothingScalableDistance", value); } qreal KisConfig::lineSmoothingDelayDistance(bool defaultValue) const { return (defaultValue ? 50.0 : m_cfg.readEntry("LineSmoothingDelayDistance", 50.0)); } void KisConfig::setLineSmoothingDelayDistance(qreal value) { m_cfg.writeEntry("LineSmoothingDelayDistance", value); } bool KisConfig::lineSmoothingUseDelayDistance(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("LineSmoothingUseDelayDistance", true)); } void KisConfig::setLineSmoothingUseDelayDistance(bool value) { m_cfg.writeEntry("LineSmoothingUseDelayDistance", value); } bool KisConfig::lineSmoothingFinishStabilizedCurve(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("LineSmoothingFinishStabilizedCurve", true)); } void KisConfig::setLineSmoothingFinishStabilizedCurve(bool value) { m_cfg.writeEntry("LineSmoothingFinishStabilizedCurve", value); } bool KisConfig::lineSmoothingStabilizeSensors(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("LineSmoothingStabilizeSensors", true)); } void KisConfig::setLineSmoothingStabilizeSensors(bool value) { m_cfg.writeEntry("LineSmoothingStabilizeSensors", value); } int KisConfig::paletteDockerPaletteViewSectionSize(bool defaultValue) const { return (defaultValue ? 12 : m_cfg.readEntry("paletteDockerPaletteViewSectionSize", 12)); } void KisConfig::setPaletteDockerPaletteViewSectionSize(int value) const { m_cfg.writeEntry("paletteDockerPaletteViewSectionSize", value); } int KisConfig::tabletEventsDelay(bool defaultValue) const { return (defaultValue ? 10 : m_cfg.readEntry("tabletEventsDelay", 10)); } void KisConfig::setTabletEventsDelay(int value) { m_cfg.writeEntry("tabletEventsDelay", value); } bool KisConfig::testingAcceptCompressedTabletEvents(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("testingAcceptCompressedTabletEvents", false)); } void KisConfig::setTestingAcceptCompressedTabletEvents(bool value) { m_cfg.writeEntry("testingAcceptCompressedTabletEvents", value); } bool KisConfig::shouldEatDriverShortcuts(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("shouldEatDriverShortcuts", false)); } bool KisConfig::testingCompressBrushEvents(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("testingCompressBrushEvents", false)); } void KisConfig::setTestingCompressBrushEvents(bool value) { m_cfg.writeEntry("testingCompressBrushEvents", value); } bool KisConfig::useVerboseOpenGLDebugOutput(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("useVerboseOpenGLDebugOutput", false)); } int KisConfig::workaroundX11SmoothPressureSteps(bool defaultValue) const { return (defaultValue ? 0 : m_cfg.readEntry("workaroundX11SmoothPressureSteps", 0)); } bool KisConfig::showCanvasMessages(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("showOnCanvasMessages", true)); } void KisConfig::setShowCanvasMessages(bool show) { m_cfg.writeEntry("showOnCanvasMessages", show); } bool KisConfig::compressKra(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("compressLayersInKra", false)); } void KisConfig::setCompressKra(bool compress) { m_cfg.writeEntry("compressLayersInKra", compress); } bool KisConfig::toolOptionsInDocker(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("ToolOptionsInDocker", true)); } void KisConfig::setToolOptionsInDocker(bool inDocker) { m_cfg.writeEntry("ToolOptionsInDocker", inDocker); } const KoColorSpace* KisConfig::customColorSelectorColorSpace(bool defaultValue) const { const KoColorSpace *cs = 0; KConfigGroup cfg = KSharedConfig::openConfig()->group("advancedColorSelector"); if (defaultValue || cfg.readEntry("useCustomColorSpace", true)) { KoColorSpaceRegistry* csr = KoColorSpaceRegistry::instance(); QString modelID = cfg.readEntry("customColorSpaceModel", "RGBA"); QString depthID = cfg.readEntry("customColorSpaceDepthID", "U8"); QString profile = cfg.readEntry("customColorSpaceProfile", "sRGB built-in - (lcms internal)"); if (profile == "default") { // qDebug() << "Falling back to default color profile."; profile = "sRGB built-in - (lcms internal)"; } cs = csr->colorSpace(modelID, depthID, profile); } return cs; } void KisConfig::setCustomColorSelectorColorSpace(const KoColorSpace *cs) { KConfigGroup cfg = KSharedConfig::openConfig()->group("advancedColorSelector"); cfg.writeEntry("useCustomColorSpace", bool(cs)); if(cs) { cfg.writeEntry("customColorSpaceModel", cs->colorModelId().id()); cfg.writeEntry("customColorSpaceDepthID", cs->colorDepthId().id()); cfg.writeEntry("customColorSpaceProfile", cs->profile()->name()); } KisConfigNotifier::instance()->notifyConfigChanged(); } bool KisConfig::enableOpenGLDebugging(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("enableOpenGLDebugging", false)); } void KisConfig::setEnableOpenGLDebugging(bool value) const { m_cfg.writeEntry("enableOpenGLDebugging", value); } void KisConfig::setEnableAmdVectorizationWorkaround(bool value) { m_cfg.writeEntry("amdDisableVectorWorkaround", value); } bool KisConfig::enableAmdVectorizationWorkaround(bool defaultValue) const { return (defaultValue ? false : m_cfg.readEntry("amdDisableVectorWorkaround", false)); } void KisConfig::setAnimationDropFrames(bool value) { bool oldValue = animationDropFrames(); if (value == oldValue) return; m_cfg.writeEntry("animationDropFrames", value); KisConfigNotifier::instance()->notifyDropFramesModeChanged(); } bool KisConfig::animationDropFrames(bool defaultValue) const { return (defaultValue ? true : m_cfg.readEntry("animationDropFrames", true)); } int KisConfig::scribbingUpdatesDelay(bool defaultValue) const { return (defaultValue ? 30 : m_cfg.readEntry("scribbingUpdatesDelay", 30)); } void KisConfig::setScribbingUpdatesDelay(int value) { m_cfg.writeEntry("scribbingUpdatesDelay", value); } bool KisConfig::switchSelectionCtrlAlt(bool defaultValue) const { return defaultValue ? false : m_cfg.readEntry("switchSelectionCtrlAlt", false); } void KisConfig::setSwitchSelectionCtrlAlt(bool value) { m_cfg.writeEntry("switchSelectionCtrlAlt", value); KisConfigNotifier::instance()->notifyConfigChanged(); } bool KisConfig::convertToImageColorspaceOnImport(bool defaultValue) const { return defaultValue ? false : m_cfg.readEntry("ConvertToImageColorSpaceOnImport", false); } void KisConfig::setConvertToImageColorspaceOnImport(bool value) { m_cfg.writeEntry("ConvertToImageColorSpaceOnImport", value); } int KisConfig::stabilizerSampleSize(bool defaultValue) const { #ifdef Q_OS_WIN const int defaultSampleSize = 50; #else const int defaultSampleSize = 15; #endif return defaultValue ? defaultSampleSize : m_cfg.readEntry("stabilizerSampleSize", defaultSampleSize); } void KisConfig::setStabilizerSampleSize(int value) { m_cfg.writeEntry("stabilizerSampleSize", value); } +int KisConfig::stabilizerDelayedPaintInterval(bool defaultValue) const +{ + const int defaultInterval = 20; + + return defaultValue ? + defaultInterval : m_cfg.readEntry("stabilizerDelayedPaintInterval", defaultInterval); +} + +void KisConfig::setStabilizerDelayedPaintInterval(int value) +{ + m_cfg.writeEntry("stabilizerDelayedPaintInterval", value); +} + QString KisConfig::customFFMpegPath(bool defaultValue) const { return defaultValue ? QString() : m_cfg.readEntry("ffmpegExecutablePath", QString()); } void KisConfig::setCustomFFMpegPath(const QString &value) const { m_cfg.writeEntry("ffmpegExecutablePath", value); } bool KisConfig::showBrushHud(bool defaultValue) const { return defaultValue ? false : m_cfg.readEntry("showBrushHud", false); } void KisConfig::setShowBrushHud(bool value) { m_cfg.writeEntry("showBrushHud", value); } QString KisConfig::brushHudSetting(bool defaultValue) const { QString defaultDoc = "\n\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n"; return defaultValue ? defaultDoc : m_cfg.readEntry("brushHudSettings", defaultDoc); } void KisConfig::setBrushHudSetting(const QString &value) const { m_cfg.writeEntry("brushHudSettings", value); } #include #include void KisConfig::writeKoColor(const QString& name, const KoColor& color) const { QDomDocument doc = QDomDocument(name); QDomElement el = doc.createElement(name); doc.appendChild(el); color.toXML(doc, el); m_cfg.writeEntry(name, doc.toString()); } //ported from kispropertiesconfig. KoColor KisConfig::readKoColor(const QString& name, const KoColor& color) const { QDomDocument doc; if (!m_cfg.readEntry(name).isNull()) { doc.setContent(m_cfg.readEntry(name)); QDomElement e = doc.documentElement().firstChild().toElement(); return KoColor::fromXML(e, Integer16BitsColorDepthID.id(), QHash()); } else { QString blackColor = "\n\n \n\n"; doc.setContent(blackColor); QDomElement e = doc.documentElement().firstChild().toElement(); return KoColor::fromXML(e, Integer16BitsColorDepthID.id(), QHash()); } return color; } diff --git a/libs/ui/kis_config.h b/libs/ui/kis_config.h index 90d38e0349..4f2fede101 100644 --- a/libs/ui/kis_config.h +++ b/libs/ui/kis_config.h @@ -1,527 +1,530 @@ /* * Copyright (c) 2002 Patrick Julien * * 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. */ #ifndef KIS_CONFIG_H_ #define KIS_CONFIG_H_ #include #include #include #include #include #include #include "kis_global.h" #include "kis_properties_configuration.h" #include "kritaui_export.h" class KoColorProfile; class KoColorSpace; class KisSnapConfig; class KRITAUI_EXPORT KisConfig { public: KisConfig(); ~KisConfig(); bool disableTouchOnCanvas(bool defaultValue = false) const; void setDisableTouchOnCanvas(bool value) const; bool useProjections(bool defaultValue = false) const; void setUseProjections(bool useProj) const; bool undoEnabled(bool defaultValue = false) const; void setUndoEnabled(bool undo) const; int undoStackLimit(bool defaultValue = false) const; void setUndoStackLimit(int limit) const; bool useCumulativeUndoRedo(bool defaultValue = false) const; void setCumulativeUndoRedo(bool value); double stackT1(bool defaultValue = false) const; void setStackT1(int T1); double stackT2(bool defaultValue = false) const; void setStackT2(int T2); int stackN(bool defaultValue = false) const; void setStackN(int N); qint32 defImageWidth(bool defaultValue = false) const; void defImageWidth(qint32 width) const; qint32 defImageHeight(bool defaultValue = false) const; void defImageHeight(qint32 height) const; qreal defImageResolution(bool defaultValue = false) const; void defImageResolution(qreal res) const; /** * @return the id of the default color model used for creating new images. */ QString defColorModel(bool defaultValue = false) const; /** * set the id of the default color model used for creating new images. */ void defColorModel(const QString & model) const; /** * @return the id of the default color depth used for creating new images. */ QString defaultColorDepth(bool defaultValue = false) const; /** * set the id of the default color depth used for creating new images. */ void setDefaultColorDepth(const QString & depth) const; /** * @return the id of the default color profile used for creating new images. */ QString defColorProfile(bool defaultValue = false) const; /** * set the id of the default color profile used for creating new images. */ void defColorProfile(const QString & depth) const; CursorStyle newCursorStyle(bool defaultValue = false) const; void setNewCursorStyle(CursorStyle style); OutlineStyle newOutlineStyle(bool defaultValue = false) const; void setNewOutlineStyle(OutlineStyle style); QRect colorPreviewRect() const; void setColorPreviewRect(const QRect &rect); /// get the profile the user has selected for the given screen QString monitorProfile(int screen) const; void setMonitorProfile(int screen, const QString & monitorProfile, bool override) const; QString monitorForScreen(int screen, const QString &defaultMonitor, bool defaultValue = true) const; void setMonitorForScreen(int screen, const QString& monitor); /// Get the actual profile to be used for the given screen, which is /// either the screen profile set by the color management system or /// the custom monitor profile set by the user, depending on the configuration const KoColorProfile *displayProfile(int screen) const; QString workingColorSpace(bool defaultValue = false) const; void setWorkingColorSpace(const QString & workingColorSpace) const; QString importProfile(bool defaultValue = false) const; void setImportProfile(const QString & importProfile) const; QString printerColorSpace(bool defaultValue = false) const; void setPrinterColorSpace(const QString & printerColorSpace) const; QString printerProfile(bool defaultValue = false) const; void setPrinterProfile(const QString & printerProfile) const; bool useBlackPointCompensation(bool defaultValue = false) const; void setUseBlackPointCompensation(bool useBlackPointCompensation) const; bool allowLCMSOptimization(bool defaultValue = false) const; void setAllowLCMSOptimization(bool allowLCMSOptimization); void writeKoColor(const QString& name, const KoColor& color) const; KoColor readKoColor(const QString& name, const KoColor& color = KoColor()) const; bool showRulers(bool defaultValue = false) const; void setShowRulers(bool rulers) const; bool rulersTrackMouse(bool defaultValue = false) const; void setRulersTrackMouse(bool value) const; qint32 pasteBehaviour(bool defaultValue = false) const; void setPasteBehaviour(qint32 behaviour) const; qint32 monitorRenderIntent(bool defaultValue = false) const; void setRenderIntent(qint32 monitorRenderIntent) const; bool useOpenGL(bool defaultValue = false) const; void setUseOpenGL(bool useOpenGL) const; int openGLFilteringMode(bool defaultValue = false) const; void setOpenGLFilteringMode(int filteringMode); bool useOpenGLTextureBuffer(bool defaultValue = false) const; void setUseOpenGLTextureBuffer(bool useBuffer); bool disableVSync(bool defaultValue = false) const; void setDisableVSync(bool disableVSync); bool showAdvancedOpenGLSettings(bool defaultValue = false) const; bool forceOpenGLFenceWorkaround(bool defaultValue = false) const; int numMipmapLevels(bool defaultValue = false) const; int openGLTextureSize(bool defaultValue = false) const; int textureOverlapBorder() const; qint32 maxNumberOfThreads(bool defaultValue = false) const; void setMaxNumberOfThreads(qint32 numberOfThreads); quint32 getGridMainStyle(bool defaultValue = false) const; void setGridMainStyle(quint32 v) const; quint32 getGridSubdivisionStyle(bool defaultValue = false) const; void setGridSubdivisionStyle(quint32 v) const; QColor getGridMainColor(bool defaultValue = false) const; void setGridMainColor(const QColor & v) const; QColor getGridSubdivisionColor(bool defaultValue = false) const; void setGridSubdivisionColor(const QColor & v) const; quint32 guidesLineStyle(bool defaultValue = false) const; void setGuidesLineStyle(quint32 v) const; QColor guidesColor(bool defaultValue = false) const; void setGuidesColor(const QColor & v) const; void loadSnapConfig(KisSnapConfig *config, bool defaultValue = false) const; void saveSnapConfig(const KisSnapConfig &config); qint32 checkSize(bool defaultValue = false) const; void setCheckSize(qint32 checkSize) const; bool scrollCheckers(bool defaultValue = false) const; void setScrollingCheckers(bool scollCheckers) const; QColor checkersColor1(bool defaultValue = false) const; void setCheckersColor1(const QColor & v) const; QColor checkersColor2(bool defaultValue = false) const; void setCheckersColor2(const QColor & v) const; QColor canvasBorderColor(bool defaultValue = false) const; void setCanvasBorderColor(const QColor &color) const; bool hideScrollbars(bool defaultValue = false) const; void setHideScrollbars(bool value) const; bool antialiasCurves(bool defaultValue = false) const; void setAntialiasCurves(bool v) const; QColor selectionOverlayMaskColor(bool defaultValue = false) const; void setSelectionOverlayMaskColor(const QColor &color); bool antialiasSelectionOutline(bool defaultValue = false) const; void setAntialiasSelectionOutline(bool v) const; bool showRootLayer(bool defaultValue = false) const; void setShowRootLayer(bool showRootLayer) const; bool showGlobalSelection(bool defaultValue = false) const; void setShowGlobalSelection(bool showGlobalSelection) const; bool showOutlineWhilePainting(bool defaultValue = false) const; void setShowOutlineWhilePainting(bool showOutlineWhilePainting) const; bool hideSplashScreen(bool defaultValue = false) const; void setHideSplashScreen(bool hideSplashScreen) const; qreal outlineSizeMinimum(bool defaultValue = false) const; void setOutlineSizeMinimum(qreal outlineSizeMinimum) const; int autoSaveInterval(bool defaultValue = false) const; void setAutoSaveInterval(int seconds) const; bool backupFile(bool defaultValue = false) const; void setBackupFile(bool backupFile) const; bool showFilterGallery(bool defaultValue = false) const; void setShowFilterGallery(bool showFilterGallery) const; bool showFilterGalleryLayerMaskDialog(bool defaultValue = false) const; void setShowFilterGalleryLayerMaskDialog(bool showFilterGallery) const; // OPENGL_SUCCESS, TRY_OPENGL, OPENGL_NOT_TRIED, OPENGL_FAILED QString canvasState(bool defaultValue = false) const; void setCanvasState(const QString& state) const; bool toolOptionsPopupDetached(bool defaultValue = false) const; void setToolOptionsPopupDetached(bool detached) const; bool paintopPopupDetached(bool defaultValue = false) const; void setPaintopPopupDetached(bool detached) const; QString pressureTabletCurve(bool defaultValue = false) const; void setPressureTabletCurve(const QString& curveString) const; qreal vastScrolling(bool defaultValue = false) const; void setVastScrolling(const qreal factor) const; int presetChooserViewMode(bool defaultValue = false) const; void setPresetChooserViewMode(const int mode) const; bool firstRun(bool defaultValue = false) const; void setFirstRun(const bool firstRun) const; bool clicklessSpacePan(bool defaultValue = false) const; void setClicklessSpacePan(const bool toggle) const; int horizontalSplitLines(bool defaultValue = false) const; void setHorizontalSplitLines(const int numberLines) const; int verticalSplitLines(bool defaultValue = false) const; void setVerticalSplitLines(const int numberLines) const; bool hideDockersFullscreen(bool defaultValue = false) const; void setHideDockersFullscreen(const bool value) const; bool showDockerTitleBars(bool defaultValue = false) const; void setShowDockerTitleBars(const bool value) const; bool showStatusBar(bool defaultValue = false) const; void setShowStatusBar(const bool value) const; bool hideMenuFullscreen(bool defaultValue = false) const; void setHideMenuFullscreen(const bool value) const; bool hideScrollbarsFullscreen(bool defaultValue = false) const; void setHideScrollbarsFullscreen(const bool value) const; bool hideStatusbarFullscreen(bool defaultValue = false) const; void setHideStatusbarFullscreen(const bool value) const; bool hideTitlebarFullscreen(bool defaultValue = false) const; void setHideTitlebarFullscreen(const bool value) const; bool hideToolbarFullscreen(bool defaultValue = false) const; void setHideToolbarFullscreen(const bool value) const; bool fullscreenMode(bool defaultValue = false) const; void setFullscreenMode(const bool value) const; QStringList favoriteCompositeOps(bool defaultValue = false) const; void setFavoriteCompositeOps(const QStringList& compositeOps) const; QString exportConfiguration(const QString &filterId, bool defaultValue = false) const; void setExportConfiguration(const QString &filterId, KisPropertiesConfigurationSP properties) const; bool useOcio(bool defaultValue = false) const; void setUseOcio(bool useOCIO) const; int favoritePresets(bool defaultValue = false) const; void setFavoritePresets(const int value); bool levelOfDetailEnabled(bool defaultValue = false) const; void setLevelOfDetailEnabled(bool value); enum OcioColorManagementMode { INTERNAL = 0, OCIO_CONFIG, OCIO_ENVIRONMENT }; OcioColorManagementMode ocioColorManagementMode(bool defaultValue = false) const; void setOcioColorManagementMode(OcioColorManagementMode mode) const; QString ocioConfigurationPath(bool defaultValue = false) const; void setOcioConfigurationPath(const QString &path) const; QString ocioLutPath(bool defaultValue = false) const; void setOcioLutPath(const QString &path) const; int ocioLutEdgeSize(bool defaultValue = false) const; void setOcioLutEdgeSize(int value); bool ocioLockColorVisualRepresentation(bool defaultValue = false) const; void setOcioLockColorVisualRepresentation(bool value); bool useSystemMonitorProfile(bool defaultValue = false) const; void setUseSystemMonitorProfile(bool _useSystemMonitorProfile) const; QString defaultPalette(bool defaultValue = false) const; void setDefaultPalette(const QString& name) const; QString toolbarSlider(int sliderNumber, bool defaultValue = false) const; void setToolbarSlider(int sliderNumber, const QString &slider); bool sliderLabels(bool defaultValue = false) const; void setSliderLabels(bool enabled); QString currentInputProfile(bool defaultValue = false) const; void setCurrentInputProfile(const QString& name); bool presetStripVisible(bool defaultValue = false) const; void setPresetStripVisible(bool visible); bool scratchpadVisible(bool defaultValue = false) const; void setScratchpadVisible(bool visible); bool showSingleChannelAsColor(bool defaultValue = false) const; void setShowSingleChannelAsColor(bool asColor); bool hidePopups(bool defaultValue = false) const; void setHidePopups(bool hidepopups); int numDefaultLayers(bool defaultValue = false) const; void setNumDefaultLayers(int num); quint8 defaultBackgroundOpacity(bool defaultValue = false) const; void setDefaultBackgroundOpacity(quint8 value); QColor defaultBackgroundColor(bool defaultValue = false) const; void setDefaultBackgroundColor(QColor value); enum BackgroundStyle { LAYER = 0, PROJECTION = 1 }; BackgroundStyle defaultBackgroundStyle(bool defaultValue = false) const; void setDefaultBackgroundStyle(BackgroundStyle value); int lineSmoothingType(bool defaultValue = false) const; void setLineSmoothingType(int value); qreal lineSmoothingDistance(bool defaultValue = false) const; void setLineSmoothingDistance(qreal value); qreal lineSmoothingTailAggressiveness(bool defaultValue = false) const; void setLineSmoothingTailAggressiveness(qreal value); bool lineSmoothingSmoothPressure(bool defaultValue = false) const; void setLineSmoothingSmoothPressure(bool value); bool lineSmoothingScalableDistance(bool defaultValue = false) const; void setLineSmoothingScalableDistance(bool value); qreal lineSmoothingDelayDistance(bool defaultValue = false) const; void setLineSmoothingDelayDistance(qreal value); bool lineSmoothingUseDelayDistance(bool defaultValue = false) const; void setLineSmoothingUseDelayDistance(bool value); bool lineSmoothingFinishStabilizedCurve(bool defaultValue = false) const; void setLineSmoothingFinishStabilizedCurve(bool value); bool lineSmoothingStabilizeSensors(bool defaultValue = false) const; void setLineSmoothingStabilizeSensors(bool value); int paletteDockerPaletteViewSectionSize(bool defaultValue = false) const; void setPaletteDockerPaletteViewSectionSize(int value) const; int tabletEventsDelay(bool defaultValue = false) const; void setTabletEventsDelay(int value); bool testingAcceptCompressedTabletEvents(bool defaultValue = false) const; void setTestingAcceptCompressedTabletEvents(bool value); bool shouldEatDriverShortcuts(bool defaultValue = false) const; bool testingCompressBrushEvents(bool defaultValue = false) const; void setTestingCompressBrushEvents(bool value); const KoColorSpace* customColorSelectorColorSpace(bool defaultValue = false) const; void setCustomColorSelectorColorSpace(const KoColorSpace *cs); bool useDirtyPresets(bool defaultValue = false) const; void setUseDirtyPresets(bool value); bool useEraserBrushSize(bool defaultValue = false) const; void setUseEraserBrushSize(bool value); bool useEraserBrushOpacity(bool defaultValue = false) const; void setUseEraserBrushOpacity(bool value); QColor getMDIBackgroundColor(bool defaultValue = false) const; void setMDIBackgroundColor(const QColor & v) const; QString getMDIBackgroundImage(bool defaultValue = false) const; void setMDIBackgroundImage(const QString & fileName) const; bool useVerboseOpenGLDebugOutput(bool defaultValue = false) const; int workaroundX11SmoothPressureSteps(bool defaultValue = false) const; bool showCanvasMessages(bool defaultValue = false) const; void setShowCanvasMessages(bool show); bool compressKra(bool defaultValue = false) const; void setCompressKra(bool compress); bool toolOptionsInDocker(bool defaultValue = false) const; void setToolOptionsInDocker(bool inDocker); void setEnableOpenGLDebugging(bool value) const; bool enableOpenGLDebugging(bool defaultValue = false) const; void setEnableAmdVectorizationWorkaround(bool value); bool enableAmdVectorizationWorkaround(bool defaultValue = false) const; bool animationDropFrames(bool defaultValue = false) const; void setAnimationDropFrames(bool value); int scribbingUpdatesDelay(bool defaultValue = false) const; void setScribbingUpdatesDelay(int value); bool switchSelectionCtrlAlt(bool defaultValue = false) const; void setSwitchSelectionCtrlAlt(bool value); bool convertToImageColorspaceOnImport(bool defaultValue = false) const; void setConvertToImageColorspaceOnImport(bool value); int stabilizerSampleSize(bool defaultValue = false) const; void setStabilizerSampleSize(int value); + int stabilizerDelayedPaintInterval(bool defaultValue = false) const; + void setStabilizerDelayedPaintInterval(int value); + QString customFFMpegPath(bool defaultValue = false) const; void setCustomFFMpegPath(const QString &value) const; bool showBrushHud(bool defaultValue = false) const; void setShowBrushHud(bool value); QString brushHudSetting(bool defaultValue = false) const; void setBrushHudSetting(const QString &value) const; template void writeEntry(const QString& name, const T& value) { m_cfg.writeEntry(name, value); } template void writeList(const QString& name, const QList& value) { m_cfg.writeEntry(name, value); } template T readEntry(const QString& name, const T& defaultValue=T()) { return m_cfg.readEntry(name, defaultValue); } template QList readList(const QString& name, const QList& defaultValue=QList()) { return m_cfg.readEntry(name, defaultValue); } /// get the profile the color managment system has stored for the given screen static const KoColorProfile* getScreenProfile(int screen); private: KisConfig(const KisConfig&); KisConfig& operator=(const KisConfig&) const; private: mutable KConfigGroup m_cfg; }; #endif // KIS_CONFIG_H_ diff --git a/libs/ui/tool/KisStabilizerDelayedPaintHelper.cpp b/libs/ui/tool/KisStabilizerDelayedPaintHelper.cpp new file mode 100644 index 0000000000..8c31bf3ba5 --- /dev/null +++ b/libs/ui/tool/KisStabilizerDelayedPaintHelper.cpp @@ -0,0 +1,85 @@ +/* + * Copyright (c) 2016 Alvin Wong + * + * 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 "KisStabilizerDelayedPaintHelper.h" + +KisStabilizerDelayedPaintHelper::TimedPaintInfo::TimedPaintInfo(int elapsedTime, KisPaintInformation paintInfo) + : elapsedTime(elapsedTime) + , paintInfo(paintInfo) +{ +} + +KisStabilizerDelayedPaintHelper::KisStabilizerDelayedPaintHelper() +{ + connect(&m_paintTimer, SIGNAL(timeout()), SLOT(stabilizerDelayedPaint())); +} + +void KisStabilizerDelayedPaintHelper::start(int paintInterval, const KisPaintInformation &firstPaintInfo) { + if (running()) { + cancel(); + } + m_paintTimer.setInterval(paintInterval); + m_paintTimer.start(); + m_elapsedTimer.start(); + m_lastPendingTime = m_elapsedTimer.elapsed(); + m_paintQueue.enqueue(TimedPaintInfo(m_lastPendingTime, firstPaintInfo)); +} + +void KisStabilizerDelayedPaintHelper::update(const QVector &newPaintInfos) { + int now = m_elapsedTimer.elapsed(); + int delayedPaintInterval = m_elapsedTimer.elapsed() - m_lastPendingTime; + for (int i = 0; i < newPaintInfos.size(); i++) { + // TODO: Risk of overflowing? + int offsetTime = (delayedPaintInterval * i) / newPaintInfos.size(); + m_paintQueue.enqueue(TimedPaintInfo(now + offsetTime, newPaintInfos[i])); + } + m_lastPendingTime = now; +} + +void KisStabilizerDelayedPaintHelper::end() { + stabilizerDelayedPaint(true); + m_paintTimer.stop(); +} + +void KisStabilizerDelayedPaintHelper::cancel() { + m_paintTimer.stop(); + m_paintQueue.clear(); +} + +void KisStabilizerDelayedPaintHelper::stabilizerDelayedPaint(bool isEndStroke) { + if (m_paintQueue.isEmpty()) { + return; + } + if (isEndStroke) { + TimedPaintInfo dequeued = m_paintQueue.dequeue(); + while (!m_paintQueue.isEmpty()) { + const TimedPaintInfo dequeued2 = m_paintQueue.dequeue(); + m_paintLine(dequeued.paintInfo, dequeued2.paintInfo); + dequeued = dequeued2; + } + m_requestUpdateOutline(); + return; + } + int now = m_elapsedTimer.elapsed(); + // Always keep one in the queue since painting requires two points + while (m_paintQueue.size() > 1 && m_paintQueue.head().elapsedTime <= now) { + const TimedPaintInfo dequeued = m_paintQueue.dequeue(); + m_paintLine(dequeued.paintInfo, m_paintQueue.head().paintInfo); + } + m_requestUpdateOutline(); +} diff --git a/libs/ui/tool/KisStabilizerDelayedPaintHelper.h b/libs/ui/tool/KisStabilizerDelayedPaintHelper.h new file mode 100644 index 0000000000..db8b419154 --- /dev/null +++ b/libs/ui/tool/KisStabilizerDelayedPaintHelper.h @@ -0,0 +1,86 @@ +/* + * Copyright (c) 2016 Alvin Wong + * + * 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. + */ + +#ifndef KIS_STABILIZER_DELAYED_PAINT_HELPER_H +#define KIS_STABILIZER_DELAYED_PAINT_HELPER_H + +#include +#include +#include +#include + +#include + +#include "kis_paint_information.h" +#include "kritaui_export.h" + +class KRITAUI_EXPORT KisStabilizerDelayedPaintHelper : public QObject +{ + Q_OBJECT + + struct TimedPaintInfo + { + int elapsedTime; + KisPaintInformation paintInfo; + TimedPaintInfo(int elapsedTime, KisPaintInformation paintInfo); + }; + + QTimer m_paintTimer; + QQueue m_paintQueue; + int m_lastPendingTime; + QElapsedTimer m_elapsedTimer; + + // Callbacks + std::function m_paintLine; + std::function m_requestUpdateOutline; + +public: + KisStabilizerDelayedPaintHelper(); + virtual ~KisStabilizerDelayedPaintHelper() override {} + + bool running() const { + return m_paintTimer.isActive(); + } + + bool hasLastPaintInformation() const { + return !m_paintQueue.isEmpty(); + } + + KisPaintInformation lastPaintInformation() const { + // Please call hasLastPaintInformation before this + return m_paintQueue.head().paintInfo; + } + + void setPaintLineCallback(std::function paintLine) { + m_paintLine = paintLine; + } + + void setUpdateOutlineCallback(std::function requestUpdateOutline) { + m_requestUpdateOutline = requestUpdateOutline; + } + + void start(int paintInterval, const KisPaintInformation &firstPaintInfo); + void update(const QVector &newPaintInfos); + void end(); + void cancel(); + +private Q_SLOTS: + void stabilizerDelayedPaint(bool isEndStroke = false); +}; + +#endif // KIS_STABILIZER_DELAYED_PAINT_HELPER_H diff --git a/libs/ui/tool/kis_tool_freehand_helper.cpp b/libs/ui/tool/kis_tool_freehand_helper.cpp index ac1749dfc5..4347759b2c 100644 --- a/libs/ui/tool/kis_tool_freehand_helper.cpp +++ b/libs/ui/tool/kis_tool_freehand_helper.cpp @@ -1,853 +1,892 @@ /* * Copyright (c) 2011 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_tool_freehand_helper.h" #include #include #include #include #include #include #include "kis_painting_information_builder.h" #include "kis_recording_adapter.h" #include "kis_image.h" #include "kis_painter.h" #include #include #include "kis_update_time_monitor.h" #include "kis_stabilized_events_sampler.h" +#include "KisStabilizerDelayedPaintHelper.h" #include "kis_config.h" #include //#define DEBUG_BEZIER_CURVES struct KisToolFreehandHelper::Private { KisPaintingInformationBuilder *infoBuilder; KisRecordingAdapter *recordingAdapter; KisStrokesFacade *strokesFacade; KUndo2MagicString transactionText; bool haveTangent; QPointF previousTangent; bool hasPaintAtLeastOnce; QTime strokeTime; QTimer strokeTimeoutTimer; QVector painterInfos; KisResourcesSnapshotSP resources; KisStrokeId strokeId; KisPaintInformation previousPaintInformation; KisPaintInformation olderPaintInformation; KisSmoothingOptionsSP smoothingOptions; QTimer airbrushingTimer; QList history; QList distanceHistory; KisPaintOpUtils::PositionHistory lastOutlinePos; // Stabilizer data QQueue stabilizerDeque; QTimer stabilizerPollTimer; KisStabilizedEventsSampler stabilizedSampler; + KisStabilizerDelayedPaintHelper stabilizerDelayedPaintHelper; int canvasRotation; bool canvasMirroredH; KisPaintInformation getStabilizedPaintInfo(const QQueue &queue, const KisPaintInformation &lastPaintInfo); qreal effectiveSmoothnessDistance() const; }; KisToolFreehandHelper::KisToolFreehandHelper(KisPaintingInformationBuilder *infoBuilder, const KUndo2MagicString &transactionText, KisRecordingAdapter *recordingAdapter, KisSmoothingOptions *smoothingOptions) : m_d(new Private()) { m_d->infoBuilder = infoBuilder; m_d->recordingAdapter = recordingAdapter; m_d->transactionText = transactionText; m_d->smoothingOptions = KisSmoothingOptionsSP( smoothingOptions ? smoothingOptions : new KisSmoothingOptions()); m_d->canvasRotation = 0; m_d->strokeTimeoutTimer.setSingleShot(true); connect(&m_d->strokeTimeoutTimer, SIGNAL(timeout()), SLOT(finishStroke())); connect(&m_d->airbrushingTimer, SIGNAL(timeout()), SLOT(doAirbrushing())); connect(&m_d->stabilizerPollTimer, SIGNAL(timeout()), SLOT(stabilizerPollAndPaint())); + + m_d->stabilizerDelayedPaintHelper.setPaintLineCallback( + [this](const KisPaintInformation &pi1, const KisPaintInformation &pi2) { + paintLine(pi1, pi2); + }); + m_d->stabilizerDelayedPaintHelper.setUpdateOutlineCallback( + [this]() { + emit requestExplicitUpdateOutline(); + }); } KisToolFreehandHelper::~KisToolFreehandHelper() { delete m_d; } void KisToolFreehandHelper::setSmoothness(KisSmoothingOptionsSP smoothingOptions) { m_d->smoothingOptions = smoothingOptions; } KisSmoothingOptionsSP KisToolFreehandHelper::smoothingOptions() const { return m_d->smoothingOptions; } QPainterPath KisToolFreehandHelper::paintOpOutline(const QPointF &savedCursorPos, const KoPointerEvent *event, const KisPaintOpSettingsSP globalSettings, KisPaintOpSettings::OutlineMode mode) const { KisPaintOpSettingsSP settings = globalSettings; KisPaintInformation info = m_d->infoBuilder->hover(savedCursorPos, event); info.setCanvasRotation(m_d->canvasRotation); info.setCanvasHorizontalMirrorState( m_d->canvasMirroredH ); KisDistanceInformation distanceInfo(m_d->lastOutlinePos.pushThroughHistory(savedCursorPos), 0); if (!m_d->painterInfos.isEmpty()) { settings = m_d->resources->currentPaintOpPreset()->settings(); - info = m_d->previousPaintInformation; + if (m_d->stabilizerDelayedPaintHelper.running() && + m_d->stabilizerDelayedPaintHelper.hasLastPaintInformation()) { + info = m_d->stabilizerDelayedPaintHelper.lastPaintInformation(); + } else { + info = m_d->previousPaintInformation; + } /** * When LoD mode is active it may happen that the helper has * already started a stroke, but it painted noting, because * all the work is being calculated by the scaled-down LodN * stroke. So at first we try to fetch the data from the lodN * stroke ("buddy") and then check if there is at least * something has been painted with this distance information * object. */ KisDistanceInformation *buddyDistance = m_d->painterInfos.first()->buddyDragDistance(); if (buddyDistance) { /** * Tiny hack alert: here we fetch the distance information * directly from the LodN stroke. Ideally, we should * upscale its data, but here we just override it with our * local copy of the coordinates. */ distanceInfo = *buddyDistance; distanceInfo.overrideLastValues(m_d->lastOutlinePos.pushThroughHistory(savedCursorPos), 0); } else if (m_d->painterInfos.first()->dragDistance->isStarted()) { distanceInfo = *m_d->painterInfos.first()->dragDistance; } } KisPaintInformation::DistanceInformationRegistrar registrar = info.registerDistanceInformation(&distanceInfo); QPainterPath outline = settings->brushOutline(info, mode); if (m_d->resources && m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::STABILIZER && m_d->smoothingOptions->useDelayDistance()) { const qreal R = m_d->smoothingOptions->delayDistance() / m_d->resources->effectiveZoom(); outline.addEllipse(info.pos(), R, R); } return outline; } void KisToolFreehandHelper::initPaint(KoPointerEvent *event, KoCanvasResourceManager *resourceManager, KisImageWSP image, KisNodeSP currentNode, KisStrokesFacade *strokesFacade, KisNodeSP overrideNode, KisDefaultBoundsBaseSP bounds) { KisPaintInformation pi = m_d->infoBuilder->startStroke(event, elapsedStrokeTime(), resourceManager); initPaintImpl(pi, resourceManager, image, currentNode, strokesFacade, overrideNode, bounds); } bool KisToolFreehandHelper::isRunning() const { return m_d->strokeId; } void KisToolFreehandHelper::initPaintImpl(const KisPaintInformation &previousPaintInformation, KoCanvasResourceManager *resourceManager, KisImageWSP image, KisNodeSP currentNode, KisStrokesFacade *strokesFacade, KisNodeSP overrideNode, KisDefaultBoundsBaseSP bounds) { Q_UNUSED(overrideNode); m_d->strokesFacade = strokesFacade; m_d->haveTangent = false; m_d->previousTangent = QPointF(); m_d->hasPaintAtLeastOnce = false; m_d->strokeTime.start(); m_d->previousPaintInformation = previousPaintInformation; createPainters(m_d->painterInfos, m_d->previousPaintInformation.pos(), m_d->previousPaintInformation.currentTime()); m_d->resources = new KisResourcesSnapshot(image, currentNode, resourceManager, bounds); if(overrideNode) { m_d->resources->setCurrentNode(overrideNode); } if(m_d->recordingAdapter) { m_d->recordingAdapter->startStroke(image, m_d->resources); } KisStrokeStrategy *stroke = new FreehandStrokeStrategy(m_d->resources->needsIndirectPainting(), m_d->resources->indirectPaintingCompositeOp(), m_d->resources, m_d->painterInfos, m_d->transactionText); m_d->strokeId = m_d->strokesFacade->startStroke(stroke); m_d->history.clear(); m_d->distanceHistory.clear(); if(m_d->resources->needsAirbrushing()) { m_d->airbrushingTimer.setInterval(m_d->resources->airbrushingRate()); m_d->airbrushingTimer.start(); } if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::STABILIZER) { stabilizerStart(m_d->previousPaintInformation); } } void KisToolFreehandHelper::paintBezierSegment(KisPaintInformation pi1, KisPaintInformation pi2, QPointF tangent1, QPointF tangent2) { if (tangent1.isNull() || tangent2.isNull()) return; const qreal maxSanePoint = 1e6; QPointF controlTarget1; QPointF controlTarget2; // Shows the direction in which control points go QPointF controlDirection1 = pi1.pos() + tangent1; QPointF controlDirection2 = pi2.pos() - tangent2; // Lines in the direction of the control points QLineF line1(pi1.pos(), controlDirection1); QLineF line2(pi2.pos(), controlDirection2); // Lines to check whether the control points lay on the opposite // side of the line QLineF line3(controlDirection1, controlDirection2); QLineF line4(pi1.pos(), pi2.pos()); QPointF intersection; if (line3.intersect(line4, &intersection) == QLineF::BoundedIntersection) { qreal controlLength = line4.length() / 2; line1.setLength(controlLength); line2.setLength(controlLength); controlTarget1 = line1.p2(); controlTarget2 = line2.p2(); } else { QLineF::IntersectType type = line1.intersect(line2, &intersection); if (type == QLineF::NoIntersection || intersection.manhattanLength() > maxSanePoint) { intersection = 0.5 * (pi1.pos() + pi2.pos()); // dbgKrita << "WARINING: there is no intersection point " // << "in the basic smoothing algoriths"; } controlTarget1 = intersection; controlTarget2 = intersection; } // shows how near to the controlTarget the value raises qreal coeff = 0.8; qreal velocity1 = QLineF(QPointF(), tangent1).length(); qreal velocity2 = QLineF(QPointF(), tangent2).length(); if (velocity1 == 0.0 || velocity2 == 0.0) { velocity1 = 1e-6; velocity2 = 1e-6; warnKrita << "WARNING: Basic Smoothing: Velocity is Zero! Please report a bug:" << ppVar(velocity1) << ppVar(velocity2); } qreal similarity = qMin(velocity1/velocity2, velocity2/velocity1); // the controls should not differ more than 50% similarity = qMax(similarity, qreal(0.5)); // when the controls are symmetric, their size should be smaller // to avoid corner-like curves coeff *= 1 - qMax(qreal(0.0), similarity - qreal(0.8)); Q_ASSERT(coeff > 0); QPointF control1; QPointF control2; if (velocity1 > velocity2) { control1 = pi1.pos() * (1.0 - coeff) + coeff * controlTarget1; coeff *= similarity; control2 = pi2.pos() * (1.0 - coeff) + coeff * controlTarget2; } else { control2 = pi2.pos() * (1.0 - coeff) + coeff * controlTarget2; coeff *= similarity; control1 = pi1.pos() * (1.0 - coeff) + coeff * controlTarget1; } paintBezierCurve(pi1, control1, control2, pi2); } qreal KisToolFreehandHelper::Private::effectiveSmoothnessDistance() const { const qreal effectiveSmoothnessDistance = !smoothingOptions->useScalableDistance() ? smoothingOptions->smoothnessDistance() : smoothingOptions->smoothnessDistance() / resources->effectiveZoom(); return effectiveSmoothnessDistance; } void KisToolFreehandHelper::paint(KoPointerEvent *event) { KisPaintInformation info = m_d->infoBuilder->continueStroke(event, elapsedStrokeTime()); info.setCanvasRotation( m_d->canvasRotation ); info.setCanvasHorizontalMirrorState( m_d->canvasMirroredH ); KisUpdateTimeMonitor::instance()->reportMouseMove(info.pos()); /** * Smooth the coordinates out using the history and the * distance. This is a heavily modified version of an algo used in * Gimp and described in https://bugs.kde.org/show_bug.cgi?id=281267 and * http://www24.atwiki.jp/sigetch_2007/pages/17.html. The main * differences are: * * 1) It uses 'distance' instead of 'velocity', since time * measurements are too unstable in realworld environment * * 2) There is no 'Quality' parameter, since the number of samples * is calculated automatically * * 3) 'Tail Aggressiveness' is used for controling the end of the * stroke * * 4) The formila is a little bit different: 'Distance' parameter * stands for $3 \Sigma$ */ if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::WEIGHTED_SMOOTHING && m_d->smoothingOptions->smoothnessDistance() > 0.0) { { // initialize current distance QPointF prevPos; if (!m_d->history.isEmpty()) { const KisPaintInformation &prevPi = m_d->history.last(); prevPos = prevPi.pos(); } else { prevPos = m_d->previousPaintInformation.pos(); } qreal currentDistance = QVector2D(info.pos() - prevPos).length(); m_d->distanceHistory.append(currentDistance); } m_d->history.append(info); qreal x = 0.0; qreal y = 0.0; if (m_d->history.size() > 3) { const qreal sigma = m_d->effectiveSmoothnessDistance() / 3.0; // '3.0' for (3 * sigma) range qreal gaussianWeight = 1 / (sqrt(2 * M_PI) * sigma); qreal gaussianWeight2 = sigma * sigma; qreal distanceSum = 0.0; qreal scaleSum = 0.0; qreal pressure = 0.0; qreal baseRate = 0.0; Q_ASSERT(m_d->history.size() == m_d->distanceHistory.size()); for (int i = m_d->history.size() - 1; i >= 0; i--) { qreal rate = 0.0; const KisPaintInformation nextInfo = m_d->history.at(i); double distance = m_d->distanceHistory.at(i); Q_ASSERT(distance >= 0.0); qreal pressureGrad = 0.0; if (i < m_d->history.size() - 1) { pressureGrad = nextInfo.pressure() - m_d->history.at(i + 1).pressure(); const qreal tailAgressiveness = 40.0 * m_d->smoothingOptions->tailAggressiveness(); if (pressureGrad > 0.0 ) { pressureGrad *= tailAgressiveness * (1.0 - nextInfo.pressure()); distance += pressureGrad * 3.0 * sigma; // (3 * sigma) --- holds > 90% of the region } } if (gaussianWeight2 != 0.0) { distanceSum += distance; rate = gaussianWeight * exp(-distanceSum * distanceSum / (2 * gaussianWeight2)); } if (m_d->history.size() - i == 1) { baseRate = rate; } else if (baseRate / rate > 100) { break; } scaleSum += rate; x += rate * nextInfo.pos().x(); y += rate * nextInfo.pos().y(); if (m_d->smoothingOptions->smoothPressure()) { pressure += rate * nextInfo.pressure(); } } if (scaleSum != 0.0) { x /= scaleSum; y /= scaleSum; if (m_d->smoothingOptions->smoothPressure()) { pressure /= scaleSum; } } if ((x != 0.0 && y != 0.0) || (x == info.pos().x() && y == info.pos().y())) { info.setPos(QPointF(x, y)); if (m_d->smoothingOptions->smoothPressure()) { info.setPressure(pressure); } m_d->history.last() = info; } } } if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::SIMPLE_SMOOTHING || m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::WEIGHTED_SMOOTHING) { // Now paint between the coordinates, using the bezier curve interpolation if (!m_d->haveTangent) { m_d->haveTangent = true; m_d->previousTangent = (info.pos() - m_d->previousPaintInformation.pos()) / qMax(qreal(1.0), info.currentTime() - m_d->previousPaintInformation.currentTime()); } else { QPointF newTangent = (info.pos() - m_d->olderPaintInformation.pos()) / qMax(qreal(1.0), info.currentTime() - m_d->olderPaintInformation.currentTime()); paintBezierSegment(m_d->olderPaintInformation, m_d->previousPaintInformation, m_d->previousTangent, newTangent); m_d->previousTangent = newTangent; } m_d->olderPaintInformation = m_d->previousPaintInformation; m_d->strokeTimeoutTimer.start(100); } else if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::NO_SMOOTHING){ paintLine(m_d->previousPaintInformation, info); } if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::STABILIZER) { m_d->stabilizedSampler.addEvent(info); } else { m_d->previousPaintInformation = info; } if(m_d->airbrushingTimer.isActive()) { m_d->airbrushingTimer.start(); } } void KisToolFreehandHelper::endPaint() { if (!m_d->hasPaintAtLeastOnce) { paintAt(m_d->previousPaintInformation); } else if (m_d->smoothingOptions->smoothingType() != KisSmoothingOptions::NO_SMOOTHING) { finishStroke(); } m_d->strokeTimeoutTimer.stop(); if(m_d->airbrushingTimer.isActive()) { m_d->airbrushingTimer.stop(); } if (m_d->smoothingOptions->smoothingType() == KisSmoothingOptions::STABILIZER) { stabilizerEnd(); } /** * There might be some timer events still pending, so * we should cancel them. Use this flag for the purpose. * Please note that we are not in MT here, so no mutex * is needed */ m_d->painterInfos.clear(); m_d->strokesFacade->endStroke(m_d->strokeId); m_d->strokeId.clear(); if(m_d->recordingAdapter) { m_d->recordingAdapter->endStroke(); } } void KisToolFreehandHelper::cancelPaint() { if (!m_d->strokeId) return; m_d->strokeTimeoutTimer.stop(); if (m_d->airbrushingTimer.isActive()) { m_d->airbrushingTimer.stop(); } if (m_d->stabilizerPollTimer.isActive()) { m_d->stabilizerPollTimer.stop(); } + if (m_d->stabilizerDelayedPaintHelper.running()) { + m_d->stabilizerDelayedPaintHelper.cancel(); + } + // see a comment in endPaint() m_d->painterInfos.clear(); m_d->strokesFacade->cancelStroke(m_d->strokeId); m_d->strokeId.clear(); if(m_d->recordingAdapter) { //FIXME: not implemented //m_d->recordingAdapter->cancelStroke(); } } int KisToolFreehandHelper::elapsedStrokeTime() const { return m_d->strokeTime.elapsed(); } void KisToolFreehandHelper::stabilizerStart(KisPaintInformation firstPaintInfo) { // FIXME: Ugly hack, this is no a "distance" in any way int sampleSize = qRound(m_d->effectiveSmoothnessDistance()); sampleSize = qMax(3, sampleSize); // Fill the deque with the current value repeated until filling the sample m_d->stabilizerDeque.clear(); for (int i = sampleSize; i > 0; i--) { m_d->stabilizerDeque.enqueue(firstPaintInfo); } // Poll and draw regularly KisConfig cfg; - m_d->stabilizerPollTimer.setInterval(cfg.stabilizerSampleSize()); + int stabilizerSampleSize = cfg.stabilizerSampleSize(); + m_d->stabilizerPollTimer.setInterval(stabilizerSampleSize); m_d->stabilizerPollTimer.start(); + int delayedPaintInterval = cfg.stabilizerDelayedPaintInterval(); + if (delayedPaintInterval < stabilizerSampleSize) { + m_d->stabilizerDelayedPaintHelper.start(delayedPaintInterval, firstPaintInfo); + } + m_d->stabilizedSampler.clear(); m_d->stabilizedSampler.addEvent(firstPaintInfo); } KisPaintInformation KisToolFreehandHelper::Private::getStabilizedPaintInfo(const QQueue &queue, const KisPaintInformation &lastPaintInfo) { KisPaintInformation result(lastPaintInfo); if (queue.size() > 1) { QQueue::const_iterator it = queue.constBegin(); QQueue::const_iterator end = queue.constEnd(); /** * The first point is going to be overridden by lastPaintInfo, skip it. */ it++; int i = 2; if (smoothingOptions->stabilizeSensors()) { while (it != end) { qreal k = qreal(i - 1) / i; // coeff for uniform averaging result = KisPaintInformation::mix(k, *it, result); it++; i++; } } else{ while (it != end) { qreal k = qreal(i - 1) / i; // coeff for uniform averaging result = KisPaintInformation::mixOnlyPosition(k, *it, result); it++; i++; } } } return result; } void KisToolFreehandHelper::stabilizerPollAndPaint() { KisStabilizedEventsSampler::iterator it; KisStabilizedEventsSampler::iterator end; std::tie(it, end) = m_d->stabilizedSampler.range(); + QVector delayedPaintTodoItems; for (; it != end; ++it) { KisPaintInformation sampledInfo = *it; bool canPaint = true; if (m_d->smoothingOptions->useDelayDistance()) { const qreal R = m_d->smoothingOptions->delayDistance() / m_d->resources->effectiveZoom(); QPointF diff = sampledInfo.pos() - m_d->previousPaintInformation.pos(); qreal dx = sqrt(pow2(diff.x()) + pow2(diff.y())); canPaint = dx > R; } if (canPaint) { KisPaintInformation newInfo = m_d->getStabilizedPaintInfo(m_d->stabilizerDeque, sampledInfo); - paintLine(m_d->previousPaintInformation, newInfo); + if (m_d->stabilizerDelayedPaintHelper.running()) { + delayedPaintTodoItems.append(newInfo); + } else { + paintLine(m_d->previousPaintInformation, newInfo); + } m_d->previousPaintInformation = newInfo; // Push the new entry through the queue m_d->stabilizerDeque.dequeue(); m_d->stabilizerDeque.enqueue(sampledInfo); - - emit requestExplicitUpdateOutline(); } else if (m_d->stabilizerDeque.head().pos() != m_d->previousPaintInformation.pos()) { QQueue::iterator it = m_d->stabilizerDeque.begin(); QQueue::iterator end = m_d->stabilizerDeque.end(); while (it != end) { *it = m_d->previousPaintInformation; ++it; } } } m_d->stabilizedSampler.clear(); + + if (m_d->stabilizerDelayedPaintHelper.running()) { + m_d->stabilizerDelayedPaintHelper.update(delayedPaintTodoItems); + } else { + emit requestExplicitUpdateOutline(); + } } void KisToolFreehandHelper::stabilizerEnd() { // Stop the timer m_d->stabilizerPollTimer.stop(); // Finish the line if (m_d->smoothingOptions->finishStabilizedCurve()) { // In each iteration we add the latest paint info and delete the oldest // After `sampleSize` iterations the deque will be filled with the latest // value and we will have reached the end point. m_d->stabilizedSampler.addFinishingEvent(m_d->stabilizerDeque.size()); stabilizerPollAndPaint(); } + + if (m_d->stabilizerDelayedPaintHelper.running()) { + m_d->stabilizerDelayedPaintHelper.end(); + } } const KisPaintOp* KisToolFreehandHelper::currentPaintOp() const { return !m_d->painterInfos.isEmpty() ? m_d->painterInfos.first()->painter->paintOp() : 0; } void KisToolFreehandHelper::finishStroke() { if (m_d->haveTangent) { m_d->haveTangent = false; QPointF newTangent = (m_d->previousPaintInformation.pos() - m_d->olderPaintInformation.pos()) / (m_d->previousPaintInformation.currentTime() - m_d->olderPaintInformation.currentTime()); paintBezierSegment(m_d->olderPaintInformation, m_d->previousPaintInformation, m_d->previousTangent, newTangent); } } void KisToolFreehandHelper::doAirbrushing() { if(!m_d->painterInfos.isEmpty()) { paintAt(m_d->previousPaintInformation); } } void KisToolFreehandHelper::paintAt(int painterInfoId, const KisPaintInformation &pi) { m_d->hasPaintAtLeastOnce = true; m_d->strokesFacade->addJob(m_d->strokeId, new FreehandStrokeStrategy::Data(m_d->resources->currentNode(), painterInfoId, pi)); if(m_d->recordingAdapter) { m_d->recordingAdapter->addPoint(pi); } } void KisToolFreehandHelper::paintLine(int painterInfoId, const KisPaintInformation &pi1, const KisPaintInformation &pi2) { m_d->hasPaintAtLeastOnce = true; m_d->strokesFacade->addJob(m_d->strokeId, new FreehandStrokeStrategy::Data(m_d->resources->currentNode(), painterInfoId, pi1, pi2)); if(m_d->recordingAdapter) { m_d->recordingAdapter->addLine(pi1, pi2); } } void KisToolFreehandHelper::paintBezierCurve(int painterInfoId, const KisPaintInformation &pi1, const QPointF &control1, const QPointF &control2, const KisPaintInformation &pi2) { #ifdef DEBUG_BEZIER_CURVES KisPaintInformation tpi1; KisPaintInformation tpi2; tpi1 = pi1; tpi2 = pi2; tpi1.setPressure(0.3); tpi2.setPressure(0.3); paintLine(tpi1, tpi2); tpi1.setPressure(0.6); tpi2.setPressure(0.3); tpi1.setPos(pi1.pos()); tpi2.setPos(control1); paintLine(tpi1, tpi2); tpi1.setPos(pi2.pos()); tpi2.setPos(control2); paintLine(tpi1, tpi2); #endif m_d->hasPaintAtLeastOnce = true; m_d->strokesFacade->addJob(m_d->strokeId, new FreehandStrokeStrategy::Data(m_d->resources->currentNode(), painterInfoId, pi1, control1, control2, pi2)); if(m_d->recordingAdapter) { m_d->recordingAdapter->addCurve(pi1, control1, control2, pi2); } } void KisToolFreehandHelper::createPainters(QVector &painterInfos, const QPointF &lastPosition, int lastTime) { painterInfos << new PainterInfo(lastPosition, lastTime); } void KisToolFreehandHelper::paintAt(const KisPaintInformation &pi) { paintAt(0, pi); } void KisToolFreehandHelper::paintLine(const KisPaintInformation &pi1, const KisPaintInformation &pi2) { paintLine(0, pi1, pi2); } void KisToolFreehandHelper::paintBezierCurve(const KisPaintInformation &pi1, const QPointF &control1, const QPointF &control2, const KisPaintInformation &pi2) { paintBezierCurve(0, pi1, control1, control2, pi2); } int KisToolFreehandHelper::canvasRotation() { return m_d->canvasRotation; } void KisToolFreehandHelper::setCanvasRotation(int rotation) { m_d->canvasRotation = rotation; } bool KisToolFreehandHelper::canvasMirroredH() { return m_d->canvasMirroredH; } void KisToolFreehandHelper::setCanvasHorizontalMirrorState(bool mirrored) { m_d->canvasMirroredH = mirrored; }