/* === S Y N F I G ========================================================= */ /*! \file state_gradient.cpp ** \brief Template File ** ** $Id$ ** ** \legal ** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley ** Copyright (c) 2008 Chris Moore ** Copyright (c) 2010 Carlos López ** ** This package 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 package 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. ** \endlegal */ /* ========================================================================= */ /* === H E A D E R S ======================================================= */ #ifdef USING_PCH # include "pch.h" #else #ifdef HAVE_CONFIG_H # include #endif #include #include #include "state_gradient.h" #include "state_normal.h" #include "canvasview.h" #include "workarea.h" #include "app.h" #include #include "event_mouse.h" #include "event_layerclick.h" #include "docks/dock_toolbox.h" #include "docks/dialog_tooloptions.h" #include "duck.h" #include "widgets/widget_enum.h" #include #include "general.h" #endif /* === U S I N G =========================================================== */ using namespace std; using namespace etl; using namespace synfig; using namespace studio; /* === M A C R O S ========================================================= */ #ifndef LAYER_CREATION #define LAYER_CREATION(button, fun, stockid, tooltip) \ { \ Gtk::Image *icon = manage(new Gtk::Image(Gtk::StockID(stockid), \ Gtk::ICON_SIZE_SMALL_TOOLBAR)); \ button.add(*icon); \ } \ button.set_relief(Gtk::RELIEF_NONE); \ button.set_tooltip_text(tooltip); \ button.signal_toggled().connect(sigc::mem_fun(*this, \ &studio::StateGradient_Context::fun)) #endif // indentation for options layout #ifndef SPACING #define SPACING(name, px) \ Gtk::Alignment *name = Gtk::manage(new Gtk::Alignment()); \ name->set_size_request(px) #endif #define GAP (3) #define INDENTATION (6) /* === G L O B A L S ======================================================= */ StateGradient studio::state_gradient; /* === C L A S S E S & S T R U C T S ======================================= */ class studio::StateGradient_Context : public sigc::trackable { etl::handle canvas_view_; CanvasView::IsWorking is_working; Duckmatic::Push duckmatic_push; synfigapp::Settings& settings; Point point_holder; etl::handle point2_duck; void refresh_ducks(); bool prev_workarea_layer_status_; // holder of options Gtk::Table options_table; // title Gtk::Label title_label; // layer name: Gtk::Label id_label; Gtk::HBox id_box; Gtk::Entry id_entry; // layer types to create: Gtk::Label layer_types_label; Gtk::ToggleButton layer_circle_togglebutton; Gtk::ToggleButton layer_linear_gradient_togglebutton; Gtk::ToggleButton layer_radial_gradient_togglebutton; Gtk::ToggleButton layer_conical_gradient_togglebutton; Gtk::ToggleButton layer_spiral_gradient_togglebutton; Gtk::HBox layer_types_box; // blend method Gtk::Label blend_label; Gtk::HBox blend_box; Widget_Enum blend_enum; // opacity Gtk::Label opacity_label; Gtk::HScale opacity_hscl; public: synfig::String get_id()const { return id_entry.get_text(); } void set_id(const synfig::String& x) { return id_entry.set_text(x); } int get_blend()const { return blend_enum.get_value(); } void set_blend(int x) { return blend_enum.set_value(x); } Real get_opacity()const { return opacity_hscl.get_value(); } void set_opacity(Real x) { opacity_hscl.set_value(x); } Smach::event_result event_stop_handler(const Smach::event& x); Smach::event_result event_refresh_handler(const Smach::event& x); Smach::event_result event_mouse_click_handler(const Smach::event& x); Smach::event_result event_refresh_tool_options(const Smach::event& x); bool get_layer_linear_gradient_flag()const { return layer_linear_gradient_togglebutton.get_active(); } void set_layer_linear_gradient_flag(bool x) { return layer_linear_gradient_togglebutton.set_active(x); } bool get_layer_radial_gradient_flag()const { return layer_radial_gradient_togglebutton.get_active(); } void set_layer_radial_gradient_flag(bool x) { return layer_radial_gradient_togglebutton.set_active(x); } bool get_layer_conical_gradient_flag()const { return layer_conical_gradient_togglebutton.get_active(); } void set_layer_conical_gradient_flag(bool x) { return layer_conical_gradient_togglebutton.set_active(x); } bool get_layer_spiral_gradient_flag()const { return layer_spiral_gradient_togglebutton.get_active(); } void set_layer_spiral_gradient_flag(bool x) { return layer_spiral_gradient_togglebutton.set_active(x); } bool layer_linear_gradient_flag; bool layer_radial_gradient_flag; bool layer_conical_gradient_flag; bool layer_spiral_gradient_flag; void refresh_tool_options(); StateGradient_Context(CanvasView* canvas_view); ~StateGradient_Context(); const etl::handle& get_canvas_view()const{return canvas_view_;} etl::handle get_canvas_interface()const{return canvas_view_->canvas_interface();} synfig::Canvas::Handle get_canvas()const{return canvas_view_->get_canvas();} WorkArea * get_work_area()const{return canvas_view_->get_work_area();} //void on_user_click(synfig::Point point); void load_settings(); void save_settings(); void reset(); void increment_id(); void make_gradient(const Point& p1, const Point& p2); bool egress_on_selection_change; Smach::event_result event_layer_selection_changed_handler(const Smach::event& /*x*/) { if(egress_on_selection_change) throw &state_normal; //throw Smach::egress_exception(); return Smach::RESULT_OK; } void toggle_layer_linear_gradient(); void toggle_layer_radial_gradient(); void toggle_layer_conical_gradient(); void toggle_layer_spiral_gradient(); }; // END of class StateGradient_Context /* === M E T H O D S ======================================================= */ StateGradient::StateGradient(): Smach::state("gradient") { insert(event_def(EVENT_LAYER_SELECTION_CHANGED,&StateGradient_Context::event_layer_selection_changed_handler)); insert(event_def(EVENT_STOP,&StateGradient_Context::event_stop_handler)); insert(event_def(EVENT_TABLES_SHOW,&StateGradient_Context::event_stop_handler)); insert(event_def(EVENT_REFRESH,&StateGradient_Context::event_refresh_handler)); insert(event_def(EVENT_REFRESH_DUCKS,&StateGradient_Context::event_refresh_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_DOWN,&StateGradient_Context::event_mouse_click_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_DRAG,&StateGradient_Context::event_mouse_click_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_UP,&StateGradient_Context::event_mouse_click_handler)); insert(event_def(EVENT_REFRESH_TOOL_OPTIONS,&StateGradient_Context::event_refresh_tool_options)); } StateGradient::~StateGradient() { } void StateGradient_Context::load_settings() { try { synfig::ChangeLocale change_locale(LC_NUMERIC, "C"); String value; if(settings.get_value("gradient.id",value)) set_id(value); else set_id("Gradient"); if(settings.get_value("gradient.layer_linear_gradient",value) && value=="0") set_layer_linear_gradient_flag(false); else set_layer_linear_gradient_flag(true); if(settings.get_value("gradient.layer_radial_gradient",value) && value=="0") set_layer_radial_gradient_flag(false); else set_layer_radial_gradient_flag(true); if(settings.get_value("gradient.layer_conical_gradient",value) && value=="0") set_layer_conical_gradient_flag(false); else set_layer_conical_gradient_flag(true); if(settings.get_value("gradient.layer_spiral_gradient",value) && value=="0") set_layer_spiral_gradient_flag(false); else set_layer_spiral_gradient_flag(true); if(settings.get_value("gradient.blend",value)) set_blend(atoi(value.c_str())); else set_blend(Color::BLEND_COMPOSITE); if(settings.get_value("gradient.opacity",value)) set_opacity(atof(value.c_str())); else set_opacity(1); // determine layer flags layer_linear_gradient_flag = get_layer_linear_gradient_flag(); layer_radial_gradient_flag = get_layer_radial_gradient_flag(); layer_conical_gradient_flag = get_layer_conical_gradient_flag(); layer_spiral_gradient_flag = get_layer_spiral_gradient_flag(); } catch(...) { synfig::warning("State Gradient: Caught exception when attempting to load settings."); } } void StateGradient_Context::save_settings() { try { synfig::ChangeLocale change_locale(LC_NUMERIC, "C"); settings.set_value("gradient.id",get_id().c_str()); settings.set_value("gradient.layer_linear_gradient",get_layer_linear_gradient_flag()?"1":"0"); settings.set_value("gradient.layer_radial_gradient",get_layer_radial_gradient_flag()?"1":"0"); settings.set_value("gradient.layer_conical_gradient",get_layer_conical_gradient_flag()?"1":"0"); settings.set_value("gradient.layer_spiral_gradient",get_layer_spiral_gradient_flag()?"1":"0"); settings.set_value("gradient.blend",strprintf("%d",get_blend())); settings.set_value("gradient.opacity",strprintf("%f",(float)get_opacity())); } catch(...) { synfig::warning("State Gradient: Caught exception when attempting to save settings."); } } void StateGradient_Context::reset() { refresh_ducks(); } void StateGradient_Context::increment_id() { String id(get_id()); int number=1; int digits=0; if(id.empty()) id="Gradient"; // If there is a number // already at the end of the // id, then remove it. if(id[id.size()-1]<='9' && id[id.size()-1]>='0') { // figure out how many digits it is for (digits = 0; (int)id.size()-1 >= digits && id[id.size()-1-digits] <= '9' && id[id.size()-1-digits] >= '0'; digits++) ; String str_number; str_number=String(id,id.size()-digits,id.size()); id=String(id,0,id.size()-digits); number=atoi(str_number.c_str()); } else { number=1; digits=3; } number++; // Add the number back onto the id { const String format(strprintf("%%0%dd",digits)); id+=strprintf(format.c_str(),number); } // Set the ID set_id(id); } StateGradient_Context::StateGradient_Context(CanvasView* canvas_view): canvas_view_(canvas_view), is_working(*canvas_view), duckmatic_push(get_work_area()), settings(synfigapp::Main::get_selected_input_device()->settings()), prev_workarea_layer_status_(get_work_area()->get_allow_layer_clicks()), opacity_hscl(0.0f, 1.01f, 0.01f) { egress_on_selection_change=true; // Set up the tool options dialog // title title_label.set_label(_("Gradient Creation")); Pango::AttrList list; Pango::AttrInt attr = Pango::Attribute::create_attr_weight(Pango::WEIGHT_BOLD); list.insert(attr); title_label.set_attributes(list); title_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); // layer name id_label.set_label(_("Name:")); SPACING(name_gap, GAP); id_box.pack_start(id_label, Gtk::PACK_SHRINK); id_box.pack_start(*name_gap, Gtk::PACK_SHRINK); id_box.pack_start(id_entry, Gtk::PACK_EXPAND_WIDGET); // layer (gradient) creation label layer_types_label.set_label(_("Layer Type:")); layer_types_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); // layer creation buttons LAYER_CREATION(layer_linear_gradient_togglebutton, toggle_layer_linear_gradient, ("synfig-layer_gradient_linear"), _("Create a linear gradient")); LAYER_CREATION(layer_radial_gradient_togglebutton, toggle_layer_radial_gradient, ("synfig-layer_gradient_radial"), _("Create a radial gradient")); LAYER_CREATION(layer_conical_gradient_togglebutton, toggle_layer_conical_gradient, ("synfig-layer_gradient_conical"), _("Create a conical gradient")); LAYER_CREATION(layer_spiral_gradient_togglebutton, toggle_layer_spiral_gradient, ("synfig-layer_gradient_spiral"), _("Create a spiral gradient")); SPACING(layer_types_indent, INDENTATION); layer_types_box.pack_start(*layer_types_indent, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_linear_gradient_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_radial_gradient_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_conical_gradient_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_spiral_gradient_togglebutton, Gtk::PACK_SHRINK); // blend method label blend_label.set_label(_("Blend Method:")); blend_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); SPACING(blend_gap, GAP); blend_box.pack_start(blend_label, Gtk::PACK_SHRINK); blend_box.pack_start(*blend_gap, Gtk::PACK_SHRINK); // blend method blend_enum.set_param_desc(ParamDesc(Color::BLEND_COMPOSITE,"blend_method") .set_local_name(_("Blend Method")) .set_description(_("Defines the blend method to be used for gradients"))); // opacity label opacity_label.set_label(_("Opacity:")); opacity_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); // opacity opacity_hscl.set_digits(2); opacity_hscl.set_value_pos(Gtk::POS_LEFT); opacity_hscl.set_tooltip_text(_("Opacity")); // options table // 0, title options_table.attach(title_label, 0, 2, 0, 1, Gtk::FILL, Gtk::FILL, 0, 0 ); // 1, name options_table.attach(id_box, 0, 2, 1, 2, Gtk::FILL, Gtk::FILL, 0, 0 ); // 2, layer types creation options_table.attach(layer_types_label, 0, 2, 2, 3, Gtk::FILL, Gtk::FILL, 0, 0 ); options_table.attach(layer_types_box, 0, 2, 3, 4, Gtk::FILL, Gtk::FILL, 0, 0 ); // 3, blend method options_table.attach(blend_box, 0, 1, 4, 5, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); options_table.attach(blend_enum, 1, 2, 4, 5, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); // 4, opacity options_table.attach(opacity_label, 0, 1, 5, 6, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); options_table.attach(opacity_hscl, 1, 2, 5, 6, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); // fine-tune options layout options_table.set_border_width(GAP*2); // border width options_table.set_row_spacings(GAP); // row gap options_table.set_row_spacing(0, GAP*2); // the gap between first and second row. options_table.set_row_spacing(2, 1); // row gap between label and icon of layer type options_table.set_row_spacing(6, 0); // the final row using border width of table options_table.show_all(); load_settings(); refresh_tool_options(); App::dialog_tool_options->present(); // Turn off layer clicking get_work_area()->set_allow_layer_clicks(false); get_work_area()->set_cursor(Gdk::CROSSHAIR); // clear out the ducks get_work_area()->clear_ducks(); // Refresh the work area get_work_area()->queue_draw(); get_work_area()->refresh_cursor(); // Hide the tables if they are showing get_canvas_view()->hide_tables(); // Disable the time bar //get_canvas_view()->set_sensitive_timebar(false); // Connect a signal //get_work_area()->signal_user_click().connect(sigc::mem_fun(*this,&studio::StateGradient_Context::on_user_click)); App::dock_toolbox->refresh(); } void StateGradient_Context::refresh_tool_options() { App::dialog_tool_options->clear(); App::dialog_tool_options->set_widget(options_table); App::dialog_tool_options->set_local_name(_("Gradient Tool")); App::dialog_tool_options->set_name("gradient"); } Smach::event_result StateGradient_Context::event_refresh_tool_options(const Smach::event& /*x*/) { refresh_tool_options(); return Smach::RESULT_ACCEPT; } StateGradient_Context::~StateGradient_Context() { save_settings(); // Restore layer clicking // get_work_area()->set_allow_layer_clicks(prev_workarea_layer_status_); get_work_area()->set_allow_layer_clicks(true); get_work_area()->reset_cursor(); App::dialog_tool_options->clear(); // Enable the time bar //get_canvas_view()->set_sensitive_timebar(true); // Bring back the tables if they were out before //if(prev_table_status)get_canvas_view()->show_tables(); // Refresh the work area get_work_area()->queue_draw(); get_canvas_view()->queue_rebuild_ducks(); //get_canvas_view()->show_tables(); get_work_area()->refresh_cursor(); App::dock_toolbox->refresh(); } Smach::event_result StateGradient_Context::event_stop_handler(const Smach::event& /*x*/) { //throw Smach::egress_exception(); throw &state_normal; return Smach::RESULT_OK; } Smach::event_result StateGradient_Context::event_refresh_handler(const Smach::event& /*x*/) { refresh_ducks(); return Smach::RESULT_ACCEPT; } void StateGradient_Context::make_gradient(const Point& _p1, const Point& _p2) { synfigapp::Action::PassiveGrouper group(get_canvas_interface()->get_instance().get(),_("New Gradient")); synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); Layer::Handle layer; Canvas::Handle canvas(get_canvas_view()->get_canvas()); int depth(0); // we are temporarily using the layer to hold something layer=get_canvas_view()->get_selection_manager()->get_selected_layer(); if(layer) { depth=layer->get_depth(); canvas=layer->get_canvas(); } const synfig::TransformStack& transform(get_work_area()->get_curr_transform_stack()); const Point p1(transform.unperform(_p1)); const Point p2(transform.unperform(_p2)); if (get_layer_linear_gradient_flag()) { egress_on_selection_change=false; layer=get_canvas_interface()->add_layer_to("linear_gradient",canvas,depth); egress_on_selection_change=true; if (!layer) { get_canvas_view()->get_ui_interface()->error(_("Unable to create layer")); group.cancel(); return; } layer->set_param("p1",p1); get_canvas_interface()->signal_layer_param_changed()(layer,"p1"); layer->set_param("p2",p2); get_canvas_interface()->signal_layer_param_changed()(layer,"p2"); } else if (get_layer_radial_gradient_flag()) { egress_on_selection_change=false; layer=get_canvas_interface()->add_layer_to("radial_gradient",canvas,depth); egress_on_selection_change=true; if (!layer) { get_canvas_view()->get_ui_interface()->error(_("Unable to create layer")); group.cancel(); return; } layer->set_param("center",p1); get_canvas_interface()->signal_layer_param_changed()(layer,"center"); layer->set_param("radius",(p2-p1).mag()); get_canvas_interface()->signal_layer_param_changed()(layer,"radius"); } else if (get_layer_conical_gradient_flag()) { egress_on_selection_change=false; layer=get_canvas_interface()->add_layer_to("conical_gradient",canvas,depth); egress_on_selection_change=true; if (!layer) { get_canvas_view()->get_ui_interface()->error(_("Unable to create layer")); group.cancel(); return; } layer->set_param("center",p1); get_canvas_interface()->signal_layer_param_changed()(layer,"center"); { Vector diff(p2-p1); layer->set_param("angle",Angle::tan(diff[1],diff[0])); get_canvas_interface()->signal_layer_param_changed()(layer,"angle"); } } else if (get_layer_spiral_gradient_flag()) { egress_on_selection_change=false; layer=get_canvas_interface()->add_layer_to("spiral_gradient",canvas,depth); egress_on_selection_change=true; if (!layer) { get_canvas_view()->get_ui_interface()->error(_("Unable to create layer")); group.cancel(); return; } layer->set_param("center",p1); get_canvas_interface()->signal_layer_param_changed()(layer,"center"); layer->set_param("radius",(p2-p1).mag()); get_canvas_interface()->signal_layer_param_changed()(layer,"radius"); { Vector diff(p2-p1); layer->set_param("angle",Angle::tan(diff[1],diff[0])); get_canvas_interface()->signal_layer_param_changed()(layer,"angle"); } } else return; layer->set_param("blend_method", get_blend()); get_canvas_interface()->signal_layer_param_changed()(layer, "blend_method"); layer->set_param("amount", get_opacity()); get_canvas_interface()->signal_layer_param_changed()(layer, "amount"); layer->set_description(get_id()); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); egress_on_selection_change=false; synfigapp::SelectionManager::LayerList layer_selection; if (!getenv("SYNFIG_TOOLS_CLEAR_SELECTION")) layer_selection = get_canvas_view()->get_selection_manager()->get_selected_layers(); get_canvas_interface()->get_selection_manager()->clear_selected_layers(); layer_selection.push_back(layer); get_canvas_interface()->get_selection_manager()->set_selected_layers(layer_selection); egress_on_selection_change=true; reset(); increment_id(); } Smach::event_result StateGradient_Context::event_mouse_click_handler(const Smach::event& x) { const EventMouse& event(*reinterpret_cast(&x)); if(event.key==EVENT_WORKAREA_MOUSE_BUTTON_DOWN && event.button==BUTTON_LEFT) { point_holder=get_work_area()->snap_point_to_grid(event.pos); etl::handle duck=new Duck(); duck->set_point(point_holder); duck->set_name("p1"); duck->set_type(Duck::TYPE_POSITION); get_work_area()->add_duck(duck); point2_duck=new Duck(); point2_duck->set_point(point_holder); point2_duck->set_name("p2"); point2_duck->set_type(Duck::TYPE_POSITION); get_work_area()->add_duck(point2_duck); handle bezier(new Duckmatic::Bezier()); bezier->p1=bezier->c1=duck; bezier->p2=bezier->c2=point2_duck; get_work_area()->add_bezier(bezier); return Smach::RESULT_ACCEPT; } if(event.key==EVENT_WORKAREA_MOUSE_BUTTON_DRAG && event.button==BUTTON_LEFT) { if (!point2_duck) return Smach::RESULT_OK; point2_duck->set_point(get_work_area()->snap_point_to_grid(event.pos)); get_work_area()->queue_draw(); return Smach::RESULT_ACCEPT; } if(event.key==EVENT_WORKAREA_MOUSE_BUTTON_UP && event.button==BUTTON_LEFT) { make_gradient(point_holder, get_work_area()->snap_point_to_grid(event.pos)); get_work_area()->clear_ducks(); return Smach::RESULT_ACCEPT; } return Smach::RESULT_OK; } void StateGradient_Context::refresh_ducks() { get_work_area()->clear_ducks(); get_work_area()->queue_draw(); } void StateGradient_Context::toggle_layer_linear_gradient() { // enable linear gradient layer and disable the others if(!layer_linear_gradient_flag) { set_layer_linear_gradient_flag(true); set_layer_radial_gradient_flag(false); set_layer_conical_gradient_flag(false); set_layer_spiral_gradient_flag(false); // update flags layer_linear_gradient_flag = true; layer_radial_gradient_flag = false; layer_conical_gradient_flag = false; layer_spiral_gradient_flag = false; } // don't allow to disable the enabled layer if(get_layer_linear_gradient_flag() + get_layer_radial_gradient_flag() + get_layer_conical_gradient_flag() + get_layer_spiral_gradient_flag() == 0 ) set_layer_linear_gradient_flag(true); } void StateGradient_Context::toggle_layer_radial_gradient() { // enable radial gradient layer and disable the others if(!layer_radial_gradient_flag) { set_layer_linear_gradient_flag(false); set_layer_radial_gradient_flag(true); set_layer_spiral_gradient_flag(false); set_layer_conical_gradient_flag(false); // update flags layer_linear_gradient_flag = false; layer_radial_gradient_flag = true; layer_conical_gradient_flag = false; layer_spiral_gradient_flag = false; } // don't allow to disable the enabled layer if(get_layer_linear_gradient_flag() + get_layer_radial_gradient_flag() + get_layer_conical_gradient_flag() + get_layer_spiral_gradient_flag() == 0 ) set_layer_radial_gradient_flag(true); } void StateGradient_Context::toggle_layer_conical_gradient() { // enable conical gradient layer and disable the others if(!layer_conical_gradient_flag) { set_layer_linear_gradient_flag(false); set_layer_radial_gradient_flag(false); set_layer_conical_gradient_flag(true); set_layer_spiral_gradient_flag(false); // update flags layer_linear_gradient_flag = false; layer_radial_gradient_flag = false; layer_conical_gradient_flag = true; layer_spiral_gradient_flag = false; } // don't allow to disable the enabled layer if(get_layer_linear_gradient_flag() + get_layer_radial_gradient_flag() + get_layer_conical_gradient_flag() + get_layer_spiral_gradient_flag() == 0 ) set_layer_conical_gradient_flag(true); } void StateGradient_Context::toggle_layer_spiral_gradient() { // enable spiral gradient layer and disable the others if(!layer_spiral_gradient_flag) { set_layer_linear_gradient_flag(false); set_layer_radial_gradient_flag(false); set_layer_conical_gradient_flag(false); set_layer_spiral_gradient_flag(true); // update flags layer_linear_gradient_flag = false; layer_radial_gradient_flag = false; layer_conical_gradient_flag = false; layer_spiral_gradient_flag = true; } // don't allow to disable the enabled layer if(get_layer_linear_gradient_flag() + get_layer_radial_gradient_flag() + get_layer_conical_gradient_flag() + get_layer_spiral_gradient_flag() == 0 ) set_layer_spiral_gradient_flag(true); }