/* === S Y N F I G ========================================================= */ /*! \file state_bline.cpp ** \brief Template File ** ** $Id$ ** ** \legal ** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley ** Copyright (c) 2007, 2008 Chris Moore ** Copyright (c) 2010, 2011 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 "state_bline.h" #include "state_normal.h" #include "canvasview.h" #include "workarea.h" #include "app.h" #include #include #include #include #include "event_mouse.h" #include "event_layerclick.h" #include "docks/dock_toolbox.h" #include "docks/dialog_tooloptions.h" #include "widgets/widget_enum.h" #include "widgets/widget_distance.h" #include #include #include "general.h" #include #include #endif /* === U S I N G =========================================================== */ using namespace std; using namespace etl; using namespace synfig; using namespace studio; /* === M A C R O S ========================================================= */ // if defined, show the first duck as green while drawing #define DISTINGUISH_FIRST_DUCK #ifndef LAYER_CREATION #define LAYER_CREATION(button, 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::StateBLine_Context::toggle_layer_creation)) #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 ======================================================= */ StateBLine studio::state_bline; /* === C L A S S E S & S T R U C T S ======================================= */ class studio::StateBLine_Context : public sigc::trackable { etl::handle canvas_view_; CanvasView::IsWorking is_working; bool prev_table_status; bool loop_; bool prev_workarea_layer_status_; int depth; Canvas::Handle canvas; Gtk::Menu menu; Duckmatic::Push duckmatic_push; etl::handle curr_duck; etl::handle next_duck; std::list bline_point_list; bool on_vertex_change(const studio::Duck &duck, synfig::ValueNode_Const::Handle value_node); bool on_tangent1_change(const studio::Duck &duck, handle other_duck, synfig::ValueNode_Const::Handle value_node); bool on_tangent2_change(const studio::Duck &duck, handle other_duck, synfig::ValueNode_Const::Handle value_node); void popup_handle_menu(synfig::ValueNode_Const::Handle value_node); void popup_vertex_menu(synfig::ValueNode_Const::Handle value_node); void popup_bezier_menu(float location, synfig::ValueNode_Const::Handle value_node); void bline_set_split_handle(synfig::ValueNode_Const::Handle value_node, bool merge_radius, bool merge_angle); void bline_delete_vertex(synfig::ValueNode_Const::Handle value_node); void bline_insert_vertex(synfig::ValueNode_Const::Handle value_node,float origin=0.5); void loop_bline(); void unloop_bline(); void refresh_ducks(bool x=true); //Toolbox settings synfigapp::Settings& settings; // 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_region_togglebutton; Gtk::ToggleButton layer_outline_togglebutton; Gtk::ToggleButton layer_advanced_outline_togglebutton; Gtk::ToggleButton layer_curve_gradient_togglebutton; Gtk::ToggleButton layer_plant_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; // brush size Gtk::Label bline_width_label; Widget_Distance bline_width_dist; // feather size Gtk::Label feather_label; Widget_Distance feather_dist; // link origins Gtk::Label link_origins_label; Gtk::CheckButton layer_link_origins_checkbutton; Gtk::HBox link_origins_box; // auto export Gtk::Label auto_export_label; Gtk::CheckButton auto_export_checkbutton; Gtk::HBox auto_export_box; // toolbar buttons Gtk::Button button_make; Gtk::Button button_clear; public: int layers_to_create()const { return get_layer_region_flag() + get_layer_outline_flag() + get_layer_advanced_outline_flag()+ get_layer_curve_gradient_flag() + get_layer_plant_flag(); } void sanity_check() { if(layers_to_create()==0) set_layer_region_flag(true); } 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); } Real get_bline_width() const { return bline_width_dist.get_value().get( Distance::SYSTEM_UNITS, get_canvas_view()->get_canvas()->rend_desc() ); } void set_bline_width(Distance x) { return bline_width_dist.set_value(x);} Real get_feather_size() const { return feather_dist.get_value().get( Distance::SYSTEM_UNITS, get_canvas_view()->get_canvas()->rend_desc() ); } void set_feather_size(Distance x) { return feather_dist.set_value(x);} bool get_layer_region_flag()const { return layer_region_togglebutton.get_active(); } void set_layer_region_flag(bool x) { return layer_region_togglebutton.set_active(x); } bool get_layer_outline_flag()const { return layer_outline_togglebutton.get_active(); } void set_layer_outline_flag(bool x) { return layer_outline_togglebutton.set_active(x); } bool get_layer_advanced_outline_flag()const { return layer_advanced_outline_togglebutton.get_active(); } void set_layer_advanced_outline_flag(bool x) { return layer_advanced_outline_togglebutton.set_active(x); } bool get_layer_curve_gradient_flag()const { return layer_curve_gradient_togglebutton.get_active(); } void set_layer_curve_gradient_flag(bool x) { return layer_curve_gradient_togglebutton.set_active(x); } bool get_layer_plant_flag()const { return layer_plant_togglebutton.get_active(); } void set_layer_plant_flag(bool x) { return layer_plant_togglebutton.set_active(x); } bool get_layer_link_origins_flag()const { return layer_link_origins_checkbutton.get_active(); } void set_layer_link_origins_flag(bool x) { return layer_link_origins_checkbutton.set_active(x); } bool get_auto_export_flag()const { return auto_export_checkbutton.get_active(); } void set_auto_export_flag(bool x) { return auto_export_checkbutton.set_active(x); } bool layer_region_flag; bool layer_outline_flag; bool layer_advanced_outline_flag; bool layer_curve_gradient_flag; bool layer_plant_flag; 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_mouse_release_handler(const Smach::event& x); Smach::event_result event_mouse_motion_handler(const Smach::event& x); Smach::event_result event_refresh_tool_options(const Smach::event& x); Smach::event_result event_hijack(const Smach::event& /*x*/) { return Smach::RESULT_ACCEPT; } void refresh_tool_options(); StateBLine_Context(CanvasView* canvas_view); ~StateBLine_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();} const synfig::TransformStack& get_transform_stack()const { return get_work_area()->get_curr_transform_stack(); } void load_settings(); void save_settings(); void reset(); void increment_id(); bool run_(); bool run(); 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; return Smach::RESULT_OK; } void toggle_layer_creation(); }; // END of class StateBLine_Context /* === M E T H O D S ======================================================= */ StateBLine::StateBLine(): Smach::state("bline") { insert(event_def(EVENT_LAYER_SELECTION_CHANGED, &StateBLine_Context::event_layer_selection_changed_handler)); insert(event_def(EVENT_STOP, &StateBLine_Context::event_stop_handler)); insert(event_def(EVENT_REFRESH, &StateBLine_Context::event_refresh_handler)); insert(event_def(EVENT_REFRESH_DUCKS, &StateBLine_Context::event_hijack)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_DOWN, &StateBLine_Context::event_mouse_click_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_UP, &StateBLine_Context::event_mouse_release_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_MOTION, &StateBLine_Context::event_mouse_motion_handler)); insert(event_def(EVENT_WORKAREA_MOUSE_BUTTON_DRAG, &StateBLine_Context::event_mouse_motion_handler)); insert(event_def(EVENT_REFRESH_TOOL_OPTIONS, &StateBLine_Context::event_refresh_tool_options)); } StateBLine::~StateBLine() { } void StateBLine_Context::load_settings() { try { synfig::ChangeLocale change_locale(LC_NUMERIC, "C"); String value; if(settings.get_value("bline.id",value)) set_id(value); else set_id(_("NewSpline")); if(settings.get_value("bline.blend",value) && value != "") set_blend(atoi(value.c_str())); else set_blend(0);//(int)Color::BLEND_COMPOSITE); //0 should be blend composites value if(settings.get_value("bline.opacity",value)) set_opacity(atof(value.c_str())); else set_opacity(1); if(settings.get_value("bline.bline_width",value) && value != "") set_bline_width(Distance(atof(value.c_str()), App::distance_system)); else set_bline_width(Distance(1, App::distance_system)); // default width if(settings.get_value("bline.layer_region",value) && value=="0") set_layer_region_flag(false); else set_layer_region_flag(true); if(settings.get_value("bline.layer_outline",value) && value=="1") set_layer_outline_flag(true); else set_layer_outline_flag(false); if(settings.get_value("bline.layer_advanced_outline",value) && value=="0") set_layer_advanced_outline_flag(false); else set_layer_advanced_outline_flag(true); if(settings.get_value("bline.layer_curve_gradient",value) && value=="1") set_layer_curve_gradient_flag(true); else set_layer_curve_gradient_flag(false); if(settings.get_value("bline.layer_plant",value) && value=="1") set_layer_plant_flag(true); else set_layer_plant_flag(false); if(settings.get_value("bline.layer_link_origins",value) && value=="0") set_layer_link_origins_flag(false); else set_layer_link_origins_flag(true); if(settings.get_value("bline.auto_export",value) && value=="1") set_auto_export_flag(true); else set_auto_export_flag(false); if(settings.get_value("bline.feather",value)) set_feather_size(Distance(atof(value.c_str()), App::distance_system)); else set_feather_size(Distance(0, App::distance_system)); // determine layer flags layer_region_flag = get_layer_region_flag(); layer_outline_flag = get_layer_outline_flag(); layer_advanced_outline_flag = get_layer_outline_flag(); layer_curve_gradient_flag = get_layer_curve_gradient_flag(); layer_plant_flag = get_layer_plant_flag(); sanity_check(); } catch(...) { synfig::warning("State Spline: Caught exception when attempting to load settings."); } } void StateBLine_Context::save_settings() { try { synfig::ChangeLocale change_locale(LC_NUMERIC, "C"); sanity_check(); settings.set_value("bline.id",get_id().c_str()); settings.set_value("bline.layer_outline",get_layer_outline_flag()?"1":"0"); settings.set_value("bline.layer_advanced_outline",get_layer_advanced_outline_flag()?"1":"0"); settings.set_value("bline.layer_region",get_layer_region_flag()?"1":"0"); settings.set_value("bline.layer_curve_gradient",get_layer_curve_gradient_flag()?"1":"0"); settings.set_value("bline.layer_plant",get_layer_plant_flag()?"1":"0"); settings.set_value("bline.layer_link_origins",get_layer_link_origins_flag()?"1":"0"); settings.set_value("bline.blend",strprintf("%d",get_blend())); settings.set_value("bline.opacity",strprintf("%f",(float)get_opacity())); settings.set_value("bline.bline_width", bline_width_dist.get_value().get_string()); settings.set_value("bline.feather", feather_dist.get_value().get_string()); settings.set_value("bline.auto_export",get_auto_export_flag()?"1":"0"); } catch(...) { synfig::warning("State Spline : Caught exception when attempting to save settings."); } } void StateBLine_Context::reset() { loop_=false; bline_point_list.clear(); refresh_ducks(); } void StateBLine_Context::increment_id() { String id(get_id()); int number=1; int digits=0; if(id.empty()) id="NewSpline"; // 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); } StateBLine_Context::StateBLine_Context(CanvasView* canvas_view): canvas_view_(canvas_view), is_working(*canvas_view), prev_table_status(false), loop_(false), prev_workarea_layer_status_(get_work_area()->get_allow_layer_clicks()), depth(-1), duckmatic_push(get_work_area()), settings(synfigapp::Main::get_selected_input_device()->settings()), opacity_hscl(0.0f, 1.01f, 0.01f), button_make(_("Make")), button_clear(_("Clear")) { egress_on_selection_change=true; /* Set up the tool options dialog */ // 0, title title_label.set_label(_("Spline 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); // 1, layer name label and entry id_label.set_label(_("Name:")); id_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); SPACING(id_gap, GAP); id_box.pack_start(id_label, Gtk::PACK_SHRINK); id_box.pack_start(*id_gap, Gtk::PACK_SHRINK); id_box.pack_start(id_entry); // 2, layer types creation layer_types_label.set_label(_("Layer Type:")); layer_types_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); LAYER_CREATION(layer_region_togglebutton, ("synfig-layer_geometry_region"), _("Create a region layer")); LAYER_CREATION(layer_outline_togglebutton, ("synfig-layer_geometry_outline"), _("Create a outline layer")); LAYER_CREATION(layer_advanced_outline_togglebutton, ("synfig-layer_geometry_advanced_outline"), _("Create a advanced outline layer")); LAYER_CREATION(layer_plant_togglebutton, ("synfig-layer_other_plant"), _("Create a plant layer")); LAYER_CREATION(layer_curve_gradient_togglebutton, ("synfig-layer_gradient_curve"), _("Create a gradient layer")); SPACING(layer_types_indent, INDENTATION); layer_types_box.pack_start(*layer_types_indent, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_region_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_outline_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_advanced_outline_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_plant_togglebutton, Gtk::PACK_SHRINK); layer_types_box.pack_start(layer_curve_gradient_togglebutton, Gtk::PACK_SHRINK); // 3, blend method label and dropdown list 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_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 splines"))); // 4, opacity label and slider opacity_label.set_label(_("Opacity:")); opacity_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); opacity_hscl.set_digits(2); opacity_hscl.set_value_pos(Gtk::POS_LEFT); opacity_hscl.set_tooltip_text(_("Opacity")); // 5, brush size bline_width_label.set_label(_("Brush Size:")); bline_width_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); bline_width_label.set_sensitive(false); bline_width_dist.set_digits(2); bline_width_dist.set_range(0,10000000); bline_width_dist.set_sensitive(false); // 6, feather feather_label.set_label(_("Feather:")); feather_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); feather_label.set_sensitive(false); feather_dist.set_digits(2); feather_dist.set_range(0,10000000); feather_dist.set_sensitive(false); // 7, link origins link_origins_label.set_label(_("Link Origins")); link_origins_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); link_origins_box.pack_start(link_origins_label); link_origins_box.pack_end(layer_link_origins_checkbutton, Gtk::PACK_SHRINK); link_origins_box.set_sensitive(false); // 8, auto export auto_export_label.set_label(_("Auto Export")); auto_export_label.set_alignment(Gtk::ALIGN_START, Gtk::ALIGN_CENTER); auto_export_box.pack_start(auto_export_label); auto_export_box.pack_end(auto_export_checkbutton, Gtk::PACK_SHRINK); auto_export_box.set_sensitive(true); load_settings(); // pack all options to the 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 ); // 5, brush size options_table.attach(bline_width_label, 0, 1, 6, 7, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); options_table.attach(bline_width_dist, 1, 2, 6, 7, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); // 6, feather options_table.attach(feather_label, 0, 1, 7, 8, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); options_table.attach(feather_dist, 1, 2, 7, 8, Gtk::EXPAND|Gtk::FILL, Gtk::FILL, 0, 0 ); // 7, link origins options_table.attach(link_origins_box, 0, 2, 8, 9, Gtk::FILL, Gtk::FILL, 0, 0 ); // 8, auto export options_table.attach(auto_export_box, 0, 2, 9, 10, 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(10, 0); //// the final row using border width of table options_table.show_all(); refresh_tool_options(); App::dialog_tool_options->present(); // Turn off layer clicking get_work_area()->set_allow_layer_clicks(false); // clear out the ducks get_work_area()->clear_ducks(); // Refresh the work area get_work_area()->queue_draw(); // Hide the tables if they are showing prev_table_status=get_canvas_view()->tables_are_visible(); if(prev_table_status)get_canvas_view()->hide_tables(); // Disable the time bar get_canvas_view()->set_sensitive_timebar(false); get_work_area()->set_cursor(Gdk::CROSSHAIR); App::dock_toolbox->refresh(); } void StateBLine_Context::refresh_tool_options() { App::dialog_tool_options->clear(); App::dialog_tool_options->set_widget(options_table); App::dialog_tool_options->set_local_name(_("Spline Tool")); App::dialog_tool_options->set_name("bline"); App::dialog_tool_options->add_button( Gtk::StockID("gtk-execute"), _("Make Spline") )->signal_clicked().connect( sigc::hide_return(sigc::mem_fun( *this, &StateBLine_Context::run )) ); App::dialog_tool_options->add_button( Gtk::StockID("gtk-clear"), _("Clear current Spline") )->signal_clicked().connect( sigc::mem_fun( *this, &StateBLine_Context::reset ) ); } Smach::event_result StateBLine_Context::event_refresh_tool_options(const Smach::event& /*x*/) { refresh_tool_options(); return Smach::RESULT_ACCEPT; } StateBLine_Context::~StateBLine_Context() { run(); save_settings(); App::dialog_tool_options->clear(); get_work_area()->reset_cursor(); // Restore layer clicking get_work_area()->set_allow_layer_clicks(prev_workarea_layer_status_); // 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(); App::dock_toolbox->refresh(); } Smach::event_result StateBLine_Context::event_stop_handler(const Smach::event& /*x*/) { reset(); return Smach::RESULT_ACCEPT; } Smach::event_result StateBLine_Context::event_refresh_handler(const Smach::event& /*x*/) { refresh_ducks(); return Smach::RESULT_ACCEPT; } bool StateBLine_Context::run() { sanity_check(); String err; bool success(false); for(int i=5;i>0 && !success;i--)try { success=run_(); } catch(String s) { err=s; } if(!success && !err.empty()) { get_canvas_view()->get_ui_interface()->error(err); } return success; } bool StateBLine_Context::run_() { curr_duck=0; next_duck=0; // Now we need to generate it if(bline_point_list.empty()) { return false; } if(bline_point_list.size()<2) { get_canvas_view()->get_ui_interface()->task(_("Information: You need at least two (2) points to create a spline")); return false; } do { // Create the action group synfigapp::Action::PassiveGrouper group(get_canvas_interface()->get_instance().get(),_("New Spline")); std::vector new_list; std::list::iterator iter; const synfig::TransformStack& transform(get_transform_stack()); for(iter=bline_point_list.begin();iter!=bline_point_list.end();++iter) { BLinePoint bline_point((*iter)->get_value().get(BLinePoint())); Point new_vertex(transform.unperform(bline_point.get_vertex())); bline_point.set_tangent1( transform.unperform( bline_point.get_tangent1()+bline_point.get_vertex() ) -new_vertex ); bline_point.set_tangent2( transform.unperform( bline_point.get_tangent2()+bline_point.get_vertex() ) -new_vertex ); bline_point.set_vertex(new_vertex); new_list.push_back(bline_point); } ValueNode_BLine::Handle value_node_bline(ValueNode_BLine::create(new_list)); assert(value_node_bline); ValueNode::Handle value_node_origin(ValueNode_Const::create(Vector())); assert(value_node_origin); // Set the looping flag value_node_bline->set_loop(loop_); // Add the BLine to the canvas if(get_auto_export_flag() && !get_canvas_interface()->add_value_node(value_node_bline,get_id())) { group.cancel(); increment_id(); throw String(_("Unable to add value node")); return false; } Layer::Handle layer; // we are temporarily using the layer to hold something layer=get_canvas_view()->get_selection_manager()->get_selected_layer(); if(layer) { if(depth<0) depth=layer->get_depth(); if(!canvas) canvas=layer->get_canvas(); } else depth=0; if(!canvas) canvas=get_canvas_view()->get_canvas(); value_node_bline->set_member_canvas(canvas); synfigapp::SelectionManager::LayerList layer_selection; if (!getenv("SYNFIG_TOOLS_CLEAR_SELECTION")) layer_selection = get_canvas_view()->get_selection_manager()->get_selected_layers(); // count how many layers we're going to be creating int layers_to_create = this->layers_to_create(); /////////////////////////////////////////////////////////////////////////// // C U R V E G R A D I E N T /////////////////////////////////////////////////////////////////////////// if(get_layer_curve_gradient_flag()) { synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); egress_on_selection_change=false; Layer::Handle layer(get_canvas_interface()->add_layer_to("curve_gradient",canvas,depth)); egress_on_selection_change=true; if (!layer) { group.cancel(); throw String(_("Unable to create layer")); } layer_selection.push_back(layer); layer->set_description(get_id()+_(" Gradient")); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); 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"); { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("bline"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_bline))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Gradient layer")); return false; } } // only link the curve gradient's origin parameter if the option is selected and we're creating more than one layer if (get_layer_link_origins_flag() && layers_to_create > 1) { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("origin"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_origin))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { //get_canvas_view()->get_ui_interface()->error(_("Unable to create BLine layer")); group.cancel(); throw String(_("Unable to create Gradient layer")); return false; } } } /////////////////////////////////////////////////////////////////////////// // P L A N T /////////////////////////////////////////////////////////////////////////// if(get_layer_plant_flag()) { synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); egress_on_selection_change=false; Layer::Handle layer(get_canvas_interface()->add_layer_to("plant",canvas,depth)); egress_on_selection_change=true; if (!layer) { group.cancel(); throw String(_("Unable to create layer")); } layer_selection.push_back(layer); layer->set_description(get_id()+_(" Plant")); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); 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"); { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("bline"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_bline))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Plant layer")); return false; } } // only link the plant's origin parameter if the option is selected and we're creating more than one layer if (get_layer_link_origins_flag() && layers_to_create > 1) { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("origin"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_origin))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Plant layer")); return false; } } } /////////////////////////////////////////////////////////////////////////// // R E G I O N /////////////////////////////////////////////////////////////////////////// if(get_layer_region_flag()) { synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); egress_on_selection_change=false; Layer::Handle layer(get_canvas_interface()->add_layer_to("region",canvas,depth)); egress_on_selection_change=true; if (!layer) { group.cancel(); throw String(_("Unable to create layer")); } layer_selection.push_back(layer); layer->set_description(get_id()+_(" Region")); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); 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"); if(get_feather_size()) { layer->set_param("feather",get_feather_size()); get_canvas_interface()->signal_layer_param_changed()(layer,"feather"); } // I don't know if it's safe to reuse the same LayerParamConnect action, so I'm // using 2 separate ones. { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("bline"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_bline))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Region layer")); return false; } } // only link the region's origin parameter if the option is selected and we're creating more than one layer if (get_layer_link_origins_flag() && layers_to_create > 1) { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("origin"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_origin))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Region layer")); return false; } } } /////////////////////////////////////////////////////////////////////////// // O U T L I N E /////////////////////////////////////////////////////////////////////////// if(get_layer_outline_flag()) { synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); egress_on_selection_change=false; Layer::Handle layer(get_canvas_interface()->add_layer_to("outline",canvas,depth)); egress_on_selection_change=true; if (!layer) { group.cancel(); throw String(_("Unable to create layer")); } layer_selection.push_back(layer); layer->set_description(get_id()+_(" Outline")); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); 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_param("width",get_bline_width()); get_canvas_interface()->signal_layer_param_changed()(layer,"width"); if(get_feather_size()) { layer->set_param("feather",get_feather_size()); get_canvas_interface()->signal_layer_param_changed()(layer,"feather"); } { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("bline"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_bline))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Outline layer")); return false; } } // only link the outline's origin parameter if the option is selected and we're creating more than one layer if (get_layer_link_origins_flag() && layers_to_create > 1) { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("origin"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_origin))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Outline layer")); return false; } } } /////////////////////////////////////////////////////////////////////////// // A D V A N C E D O U T L I N E /////////////////////////////////////////////////////////////////////////// if(get_layer_advanced_outline_flag()) { synfigapp::PushMode push_mode(get_canvas_interface(),synfigapp::MODE_NORMAL); egress_on_selection_change=false; Layer::Handle layer(get_canvas_interface()->add_layer_to("advanced_outline",canvas,depth)); egress_on_selection_change=true; if (!layer) { group.cancel(); throw String(_("Unable to create layer")); } layer_selection.push_back(layer); layer->set_description(get_id()+_(" Advanced Outline")); get_canvas_interface()->signal_layer_new_description()(layer,layer->get_description()); 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_param("width",get_bline_width()); get_canvas_interface()->signal_layer_param_changed()(layer,"width"); if(get_feather_size()) { layer->set_param("feather",get_feather_size()); get_canvas_interface()->signal_layer_param_changed()(layer,"feather"); } { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("bline"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_bline))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Advanced Outline layer")); return false; } } // only link the advanced outline's origin parameter if the option is selected and we're creating more than one layer if (get_layer_link_origins_flag() && layers_to_create > 1) { synfigapp::Action::Handle action(synfigapp::Action::create("LayerParamConnect")); assert(action); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("layer",layer); if(!action->set_param("param",String("origin"))) synfig::error("LayerParamConnect didn't like \"param\""); if(!action->set_param("value_node",ValueNode::Handle(value_node_origin))) synfig::error("LayerParamConnect didn't like \"value_node\""); if(!get_canvas_interface()->get_instance()->perform_action(action)) { group.cancel(); throw String(_("Unable to create Advanced Outline layer")); return false; } } } egress_on_selection_change=false; get_canvas_interface()->get_selection_manager()->clear_selected_layers(); get_canvas_interface()->get_selection_manager()->set_selected_layers(layer_selection); egress_on_selection_change=true; } while(0); reset(); increment_id(); return true; } Smach::event_result StateBLine_Context::event_mouse_motion_handler(const Smach::event& x) { const EventMouse& event(*reinterpret_cast(&x)); if(curr_duck) { Point p(get_work_area()->snap_point_to_grid(event.pos)); curr_duck->set_trans_point(p); curr_duck->signal_edited()(*curr_duck); if(next_duck) next_duck->set_trans_point(p); get_work_area()->queue_draw(); return Smach::RESULT_ACCEPT; } return Smach::RESULT_OK; } Smach::event_result StateBLine_Context::event_mouse_release_handler(const Smach::event& /*x*/) { if(curr_duck) { curr_duck->signal_edited()(*curr_duck); if(next_duck) { curr_duck=next_duck; next_duck=0; } return Smach::RESULT_ACCEPT; } return Smach::RESULT_OK; } Smach::event_result StateBLine_Context::event_mouse_click_handler(const Smach::event& x) { const EventMouse& event(*reinterpret_cast(&x)); switch(event.button) { case BUTTON_LEFT: { // If we are already looped up, then don't try to add anything else if(loop_) return Smach::RESULT_OK; BLinePoint bline_point; bline_point.set_vertex(get_work_area()->snap_point_to_grid(event.pos)); bline_point.set_width(1.0f); bline_point.set_origin(0.5f); bline_point.set_split_tangent_radius(false); bline_point.set_split_tangent_angle(false); bline_point.set_tangent(Vector(0,0)); bline_point_list.push_back(ValueNode_Const::Handle::cast_dynamic(ValueNode_Const::create(bline_point))); refresh_ducks(); return Smach::RESULT_ACCEPT; } default: return Smach::RESULT_OK; } } void StateBLine_Context::refresh_ducks(bool button_down) { get_work_area()->clear_ducks(); get_work_area()->queue_draw(); if(bline_point_list.empty()) return; list::iterator iter; handle bezier; handle duck,tduck1,tduck2,first_tduck1,first_tduck2; BLinePoint bline_point; for(iter=bline_point_list.begin();iter!=bline_point_list.end();++iter) { ValueNode_Const::Handle value_node(*iter); bline_point=(value_node->get_value().get(BLinePoint())); assert(value_node); // First add the duck associated with this vertex duck=new WorkArea::Duck(bline_point.get_vertex()); duck->set_editable(true); #ifdef DISTINGUISH_FIRST_DUCK if (iter!=bline_point_list.begin()) duck->set_type(Duck::TYPE_VERTEX); #else duck->set_type(Duck::TYPE_VERTEX); #endif duck->set_name(strprintf("%x-vertex",value_node.get())); duck->signal_edited().connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::on_vertex_change),value_node) ); duck->signal_user_click(2).connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::popup_vertex_menu),value_node) ); duck->set_guid(value_node->get_guid()^synfig::GUID::hasher(0)); get_work_area()->add_duck(duck); tduck1=new WorkArea::Duck(bline_point.get_tangent1()); tduck2=new WorkArea::Duck(bline_point.get_tangent2()); if (!first_tduck1) first_tduck1 = tduck1; if (!first_tduck2) first_tduck2 = tduck2; // Add the tangent1 duck tduck1->set_editable(true); tduck1->set_edit_immediatelly(true); tduck1->set_name(strprintf("%x-tangent1",value_node.get())); tduck1->set_origin(duck); tduck1->set_scalar(-0.33333333333333333); tduck1->set_tangent(true); tduck1->set_guid(value_node->get_guid()^synfig::GUID::hasher(3)); tduck1->signal_edited().connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::on_tangent1_change),tduck2,value_node) ); tduck1->signal_user_click(2).connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::popup_handle_menu),value_node) ); // See if we need to add that duck to the previous bezier if(bezier) { get_work_area()->add_duck(tduck1); bezier->p2=duck; bezier->c2=tduck1; bezier->signal_user_click(2).connect( sigc::bind( sigc::mem_fun( *this, &studio::StateBLine_Context::popup_bezier_menu ), value_node ) ); get_work_area()->add_bezier(bezier); bezier=0; } // Now we see if we need to create a bezier list::iterator next(iter); next++; bezier=new WorkArea::Bezier(); // Add the tangent2 duck tduck2->set_editable(true); tduck2->set_edit_immediatelly(true); tduck2->set_origin(duck); tduck2->set_scalar(0.33333333333333333); tduck2->set_tangent(true); tduck2->set_name(strprintf("%x-tangent2",value_node.get())); tduck2->signal_edited().connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::on_tangent2_change),tduck1,value_node) ); tduck2->set_guid(value_node->get_guid()^synfig::GUID::hasher(4)); tduck2->signal_user_click(2).connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::popup_handle_menu),value_node) ); // Setup the next bezier bezier->p1=duck; bezier->c1=tduck2; get_work_area()->add_duck(tduck2); curr_duck=tduck2; } // Add the loop, if requested if(bezier && loop_) { curr_duck=0; BLinePoint bline_point(bline_point_list.front()->get_value().get(BLinePoint())); duck=new WorkArea::Duck(bline_point.get_vertex()); duck->set_editable(true); #ifndef DISTINGUISH_FIRST_DUCK duck->set_type(Duck::TYPE_VERTEX); #endif duck->set_name(strprintf("%x-vertex",bline_point_list.front().get())); duck->signal_edited().connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::on_vertex_change),bline_point_list.front()) ); duck->signal_user_click(2).connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::popup_vertex_menu),bline_point_list.front()) ); get_work_area()->add_duck(duck); /* tduck1=new WorkArea::Duck(bline_point.get_tangent1()); // Add the tangent1 duck tduck1->set_editable(true); tduck1->set_name(strprintf("%x-tangent1",bline_point_list.front().get())); tduck1->set_origin(duck); tduck1->set_scalar(-0.33333333333333333); tduck1->set_tangent(true); tduck1->signal_edited().connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::on_tangent1_change),first_tduck2,bline_point_list.front()) ); tduck1->signal_user_click(2).connect( sigc::bind(sigc::mem_fun(*this,&studio::StateBLine_Context::popup_handle_menu),bline_point_list.front()) ); get_work_area()->add_duck(tduck1); */ get_work_area()->add_duck(first_tduck1); bezier->p2=duck; bezier->c2=first_tduck1; bezier->signal_user_click(2).connect( sigc::bind( sigc::mem_fun( *this, &studio::StateBLine_Context::popup_bezier_menu ), bline_point_list.front() ) ); get_work_area()->add_bezier(bezier); } if(bezier && !loop_) { duck=new WorkArea::Duck(bline_point.get_vertex()); duck->set_ignore(true); duck->set_name("temp"); // Add the tangent1 duck tduck1=new WorkArea::Duck(Vector(0,0)); tduck1->set_ignore(true); tduck1->set_name("ttemp"); tduck1->set_origin(duck); tduck1->set_scalar(-0.33333333333333333); tduck1->set_tangent(true); bezier->p2=duck; bezier->c2=tduck1; get_work_area()->add_duck(bezier->p2); get_work_area()->add_bezier(bezier); duck->set_guid(synfig::GUID()); tduck1->set_guid(synfig::GUID()); next_duck=duck; } if(!button_down) { if(curr_duck) { if(next_duck) { curr_duck=next_duck; next_duck=0; } } } get_work_area()->queue_draw(); } bool StateBLine_Context::on_vertex_change(const studio::Duck &duck, synfig::ValueNode_Const::Handle value_node) { BLinePoint bline_point(value_node->get_value().get(BLinePoint())); bline_point.set_vertex(duck.get_point()); value_node->set_value(bline_point); return true; } bool StateBLine_Context::on_tangent1_change(const studio::Duck &duck, handle other_duck, synfig::ValueNode_Const::Handle value_node) { BLinePoint bline_point(value_node->get_value().get(BLinePoint())); bline_point.set_tangent1(duck.get_point()); value_node->set_value(bline_point); if (other_duck) { other_duck->set_point(bline_point.get_tangent2()); get_work_area()->update_ducks(); get_work_area()->queue_draw(); } return true; } bool StateBLine_Context::on_tangent2_change(const studio::Duck &duck, handle other_duck, synfig::ValueNode_Const::Handle value_node) { BLinePoint bline_point(value_node->get_value().get(BLinePoint())); bool split_angle = bline_point.get_split_tangent_angle(); bool split_radius = bline_point.get_split_tangent_radius(); if (split_angle && split_radius) { bline_point.set_tangent2(duck.get_point()); } else if (split_angle && !split_radius) { bline_point.set_tangent1(Vector(duck.get_point().mag(), bline_point.get_tangent1().angle())); bline_point.set_tangent2(duck.get_point()); } else if (!split_angle && split_radius) { bline_point.set_tangent1(Vector(bline_point.get_tangent1().mag(), duck.get_point().angle())); bline_point.set_tangent2(duck.get_point()); } else if (!split_angle && !split_radius) { bline_point.set_tangent1(duck.get_point()); } value_node->set_value(bline_point); if (other_duck) { other_duck->set_point(bline_point.get_tangent1()); get_work_area()->update_ducks(); get_work_area()->queue_draw(); } return true; } void StateBLine_Context::loop_bline() { loop_=true; refresh_ducks(false); } void StateBLine_Context::unloop_bline() { loop_=false; refresh_ducks(false); } void StateBLine_Context::popup_vertex_menu(synfig::ValueNode_Const::Handle value_node) { std::vector children = menu.get_children(); for(std::vector::iterator i = children.begin(); i != children.end(); ++i) menu.remove(**i); Gtk::MenuItem *item = NULL; Gtk::ImageMenuItem *item2 = NULL; BLinePoint bline_point(value_node->get_value().get(BLinePoint())); #define STATE_BLINE_ADD_MENU_ITEM(title, split_angle, split_radius, icon) \ do { \ item2 = manage(new Gtk::ImageMenuItem( \ *manage(new Gtk::Image( \ Gtk::StockID(icon), \ Gtk::ICON_SIZE_MENU )), \ _(title))); \ item2->signal_activate().connect( \ sigc::bind( \ sigc::mem_fun(*this,&studio::StateBLine_Context::bline_set_split_handle), \ value_node, split_angle, split_radius )); \ item2->show(); \ menu.append(*item2); \ } while (false) bool split_angle = bline_point.get_split_tangent_angle(); bool split_radius = bline_point.get_split_tangent_radius(); if (split_angle && split_radius) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); else if (!split_angle && !split_radius) STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); else if (!split_angle && split_radius) { STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); } else if (split_angle && !split_radius) { STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); } item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); if (split_angle) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents's Angle", false, split_radius, "synfig-type_angle"); else STATE_BLINE_ADD_MENU_ITEM("Split Tangents's Angle", true, split_radius, "synfig-type_angle"); if (split_radius) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents's Radius", split_angle, false, "synfig-type_vector"); else STATE_BLINE_ADD_MENU_ITEM("Split Tangents's Radius", split_angle, true, "synfig-type_vector"); #undef STATE_BLINE_ADD_MENU_ITEM item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); if(loop_) { item = manage(new Gtk::MenuItem(_("Unloop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::unloop_bline) ); item->show(); menu.append(*item); } else { item = manage(new Gtk::MenuItem(_("Loop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::loop_bline) ); item->show(); menu.append(*item); } item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); item = manage(new Gtk::MenuItem(_("Delete Vertex"))); item->signal_activate().connect( sigc::bind( sigc::mem_fun(*this,&studio::StateBLine_Context::bline_delete_vertex), value_node )); item->show(); menu.append(*item); menu.popup(0,0); } void StateBLine_Context::popup_bezier_menu(float location, synfig::ValueNode_Const::Handle value_node) { std::vector children = menu.get_children(); for(std::vector::iterator i = children.begin(); i != children.end(); ++i) menu.remove(**i); Gtk::MenuItem *item = NULL; item = manage(new Gtk::MenuItem(_("Insert Vertex"))); item->signal_activate().connect( sigc::bind( sigc::bind( sigc::mem_fun(*this,&studio::StateBLine_Context::bline_insert_vertex), location ), value_node )); item->show(); menu.append(*item); item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); if(loop_) { item = manage(new Gtk::MenuItem(_("Unloop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::unloop_bline) ); item->show(); menu.append(*item); } else { item = manage(new Gtk::MenuItem(_("Loop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::loop_bline) ); item->show(); menu.append(*item); } menu.popup(0,0); } void StateBLine_Context::bline_insert_vertex(synfig::ValueNode_Const::Handle value_node, float origin) { list::iterator iter; for(iter=bline_point_list.begin();iter!=bline_point_list.end();++iter) if(*iter==value_node) { BLinePoint bline_point; BLinePoint next_bline_point((*iter)->get_value().get(BLinePoint())); BLinePoint prev_bline_point; list::iterator prev(iter); if(iter==bline_point_list.begin()) { assert(loop_); prev = bline_point_list.end(); } prev--; prev_bline_point=(*prev)->get_value().get(BLinePoint()); etl::hermite curve(prev_bline_point.get_vertex(), next_bline_point.get_vertex(), prev_bline_point.get_tangent2(), next_bline_point.get_tangent1()); etl::derivative< etl::hermite > deriv(curve); bline_point.set_split_tangent_angle(false); bline_point.set_split_tangent_radius(false); bline_point.set_vertex(curve(origin)); bline_point.set_width((next_bline_point.get_width()-prev_bline_point.get_width())*origin+prev_bline_point.get_width()); bline_point.set_tangent1(deriv(origin)*std::min(1.0f-origin,origin)); bline_point.set_tangent2(bline_point.get_tangent1()); bline_point.set_origin(origin); bline_point_list.insert(iter,ValueNode_Const::Handle::cast_dynamic(ValueNode_Const::create(bline_point))); break; } if(iter==bline_point_list.end()) { get_canvas_view()->get_ui_interface()->error(_("Unable to find where to insert vertex, internal error, please report this bug")); } refresh_ducks(false); } void StateBLine_Context::bline_delete_vertex(synfig::ValueNode_Const::Handle value_node) { list::iterator iter; for(iter=bline_point_list.begin();iter!=bline_point_list.end();++iter) if(*iter==value_node) { bline_point_list.erase(iter); break; } if(iter==bline_point_list.end()) { get_canvas_view()->get_ui_interface()->error(_("Unable to remove vertex, internal error, please report this bug")); } refresh_ducks(false); } void StateBLine_Context::popup_handle_menu(synfig::ValueNode_Const::Handle value_node) { std::vector children = menu.get_children(); for(std::vector::iterator i = children.begin(); i != children.end(); ++i) menu.remove(**i); BLinePoint bline_point(value_node->get_value().get(BLinePoint())); Gtk::MenuItem *item = NULL; Gtk::ImageMenuItem *item2 = NULL; #define STATE_BLINE_ADD_MENU_ITEM(title, split_angle, split_radius, icon) \ do { \ item2 = manage(new Gtk::ImageMenuItem( \ *Gtk::manage(new Gtk::Image( \ Gtk::StockID(icon), \ Gtk::ICON_SIZE_MENU )), \ _(title))); \ item2->signal_activate().connect( \ sigc::bind( \ sigc::mem_fun(*this,&studio::StateBLine_Context::bline_set_split_handle), \ value_node, split_angle, split_radius )); \ item2->show(); \ menu.append(*item2); \ } while(false) bool split_angle = bline_point.get_split_tangent_angle(); bool split_radius = bline_point.get_split_tangent_radius(); if (split_angle && split_radius) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); else if (!split_angle && !split_radius) STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); else if (!split_angle && split_radius) { STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); } else if (split_angle && !split_radius) { STATE_BLINE_ADD_MENU_ITEM("Merge Tangents", false, false, "gtk-connect"); STATE_BLINE_ADD_MENU_ITEM("Split Tangents", true, true, "gtk-disconnect"); } item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); if (split_angle) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents's Angle", false, split_radius, "synfig-type_angle"); else STATE_BLINE_ADD_MENU_ITEM("Split Tangents's Angle", true, split_radius, "synfig-type_angle"); if (split_radius) STATE_BLINE_ADD_MENU_ITEM("Merge Tangents's Radius", split_angle, false, "synfig-type_vector"); else STATE_BLINE_ADD_MENU_ITEM("Split Tangents's Radius", split_angle, true, "synfig-type_vector"); #undef STATE_BLINE_ADD_MENU_ITEM item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); if(loop_) { item = manage(new Gtk::MenuItem(_("Unloop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::unloop_bline) ); item->show(); menu.append(*item); } else { item = manage(new Gtk::MenuItem(_("Loop Spline"))); item->signal_activate().connect( sigc::mem_fun(*this,&studio::StateBLine_Context::loop_bline) ); item->show(); menu.append(*item); } item = manage(new Gtk::SeparatorMenuItem()); item->show(); menu.append(*item); item = manage(new Gtk::MenuItem(_("Delete Vertex"))); item->signal_activate().connect( sigc::bind( sigc::mem_fun(*this,&studio::StateBLine_Context::bline_delete_vertex), value_node )); item->show(); menu.append(*item); menu.popup(0,0); } void StateBLine_Context::bline_set_split_handle(synfig::ValueNode_Const::Handle value_node, bool split_angle, bool split_radius) { BLinePoint bline_point(value_node->get_value().get(BLinePoint())); if (bline_point.get_split_tangent_angle() != split_angle) { bline_point.set_tangent2(Vector(bline_point.get_tangent2().mag(), bline_point.get_tangent1().angle())); bline_point.set_split_tangent_angle(split_angle); } if (bline_point.get_split_tangent_radius() != split_radius) { bline_point.set_tangent2(Vector(bline_point.get_tangent1().mag(), bline_point.get_tangent2().angle())); bline_point.set_split_tangent_radius(split_radius); } value_node->set_value(bline_point); refresh_ducks(false); } void StateBLine_Context::toggle_layer_creation() { // don't allow none layer creation if (get_layer_region_flag() + get_layer_outline_flag() + get_layer_advanced_outline_flag() + get_layer_curve_gradient_flag() + get_layer_plant_flag() == 0) { if(layer_region_flag) set_layer_region_flag(true); else if(layer_outline_flag) set_layer_outline_flag(true); else if(layer_advanced_outline_flag) set_layer_advanced_outline_flag(true); else if(layer_curve_gradient_flag) set_layer_curve_gradient_flag(true); else if(layer_plant_flag) set_layer_plant_flag(true); } // brush size if (get_layer_outline_flag() || get_layer_advanced_outline_flag() || get_layer_curve_gradient_flag()) { bline_width_label.set_sensitive(true); bline_width_dist.set_sensitive(true); } else { bline_width_label.set_sensitive(false); bline_width_dist.set_sensitive(false); } // feather size if (get_layer_region_flag() || get_layer_outline_flag() || get_layer_advanced_outline_flag()) { feather_label.set_sensitive(true); feather_dist.set_sensitive(true); } else { feather_label.set_sensitive(false); feather_dist.set_sensitive(false); } // link origins if (get_layer_region_flag() + get_layer_outline_flag() + get_layer_advanced_outline_flag() + get_layer_plant_flag() + get_layer_curve_gradient_flag() >= 2) { link_origins_box.set_sensitive(true); } else link_origins_box.set_sensitive(false); // update layer flags layer_region_flag = get_layer_region_flag(); layer_outline_flag = get_layer_outline_flag(); layer_advanced_outline_flag = get_layer_advanced_outline_flag(); layer_curve_gradient_flag = get_layer_curve_gradient_flag(); layer_plant_flag = get_layer_plant_flag(); }