synfig-studio/tags/0.61.09/src/gtkmm/state_rotate.cpp

   1 /* === S Y N F I G ========================================================= */
   2 /*!     \file state_rotate.cpp
   3 **      \brief Template File
   4 **
   5 **      $Id$
   6 **
   7 **      \legal
   8 **      Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
   9 **  Copyright (c) 2008 Chris Moore
  10 **
  11 **      This package is free software; you can redistribute it and/or
  12 **      modify it under the terms of the GNU General Public License as
  13 **      published by the Free Software Foundation; either version 2 of
  14 **      the License, or (at your option) any later version.
  15 **
  16 **      This package is distributed in the hope that it will be useful,
  17 **      but WITHOUT ANY WARRANTY; without even the implied warranty of
  18 **      MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  19 **      General Public License for more details.
  20 **      \endlegal
  21 */
  22 /* ========================================================================= */
  23
  24 /* === H E A D E R S ======================================================= */
  25
  26 #ifdef USING_PCH
  27 #       include "pch.h"
  28 #else
  29 #ifdef HAVE_CONFIG_H
  30 #       include <config.h>
  31 #endif
  32
  33 #include <gtkmm/dialog.h>
  34 #include <gtkmm/entry.h>
  35
  36 #include <synfig/valuenode_dynamiclist.h>
  37 #include <synfigapp/action_system.h>
  38
  39 #include "state_rotate.h"
  40 #include "canvasview.h"
  41 #include "workarea.h"
  42 #include "app.h"
  43
  44 #include <synfigapp/action.h>
  45 #include "event_mouse.h"
  46 #include "event_layerclick.h"
  47 #include "toolbox.h"
  48 #include "dialog_tooloptions.h"
  49 #include <gtkmm/optionmenu.h>
  50 #include "duck.h"
  51 #include <synfig/angle.h>
  52 #include <synfigapp/main.h>
  53
  54 #include "general.h"
  55
  56 #endif
  57
  58 /* === U S I N G =========================================================== */
  59
  60 using namespace std;
  61 using namespace etl;
  62 using namespace synfig;
  63 using namespace studio;
  64
  65 /* === M A C R O S ========================================================= */
  66
  67 #ifndef EPSILON
  68 #define EPSILON 0.0000001
  69 #endif
  70
  71 /* === G L O B A L S ======================================================= */
  72
  73 StateRotate studio::state_rotate;
  74
  75 /* === C L A S S E S & S T R U C T S ======================================= */
  76
  77 class DuckDrag_Rotate : public DuckDrag_Base
  78 {
  79
  80         synfig::Vector last_rotate;
  81         synfig::Vector drag_offset;
  82         synfig::Vector center;
  83         synfig::Vector snap;
  84
  85         Angle original_angle;
  86         Real original_mag;
  87
  88         std::vector<synfig::Vector> positions;
  89
  90
  91         bool bad_drag;
  92         bool move_only;
  93
  94 public:
  95         etl::handle<CanvasView> canvas_view_;
  96         bool use_magnitude;
  97         DuckDrag_Rotate();
  98         void begin_duck_drag(Duckmatic* duckmatic, const synfig::Vector& begin);
  99         bool end_duck_drag(Duckmatic* duckmatic);
 100         void duck_drag(Duckmatic* duckmatic, const synfig::Vector& vector);
 101
 102         etl::handle<synfigapp::CanvasInterface> get_canvas_interface()const{return canvas_view_->canvas_interface();}
 103 };
 104
 105
 106 class studio::StateRotate_Context : public sigc::trackable
 107 {
 108         etl::handle<CanvasView> canvas_view_;
 109
 110         synfigapp::Settings& settings;
 111
 112         etl::handle<DuckDrag_Rotate> duck_dragger_;
 113
 114         Gtk::Table options_table;
 115
 116         Gtk::CheckButton checkbutton_scale;
 117
 118 public:
 119
 120         bool get_scale_flag()const { return checkbutton_scale.get_active(); }
 121         void set_scale_flag(bool x) { return checkbutton_scale.set_active(x); refresh_scale_flag(); }
 122
 123
 124         Smach::event_result event_refresh_tool_options(const Smach::event& x);
 125
 126         void refresh_tool_options();
 127
 128         void refresh_scale_flag() { if(duck_dragger_)duck_dragger_->use_magnitude=get_scale_flag(); }
 129
 130         StateRotate_Context(CanvasView* canvas_view);
 131
 132         ~StateRotate_Context();
 133
 134         const etl::handle<CanvasView>& get_canvas_view()const{return canvas_view_;}
 135         etl::handle<synfigapp::CanvasInterface> get_canvas_interface()const{return canvas_view_->canvas_interface();}
 136         synfig::Canvas::Handle get_canvas()const{return canvas_view_->get_canvas();}
 137         WorkArea * get_work_area()const{return canvas_view_->get_work_area();}
 138
 139         void load_settings();
 140         void save_settings();
 141 };      // END of class StateRotate_Context
 142
 143 /* === M E T H O D S ======================================================= */
 144
 145 StateRotate::StateRotate():
 146         Smach::state<StateRotate_Context>("rotate")
 147 {
 148         insert(event_def(EVENT_REFRESH_TOOL_OPTIONS,&StateRotate_Context::event_refresh_tool_options));
 149 }
 150
 151 StateRotate::~StateRotate()
 152 {
 153 }
 154
 155 void
 156 StateRotate_Context::load_settings()
 157 {
 158         String value;
 159
 160         if(settings.get_value("rotate.scale",value) && value=="0")
 161                 set_scale_flag(false);
 162         else
 163                 set_scale_flag(true);
 164 }
 165
 166 void
 167 StateRotate_Context::save_settings()
 168 {
 169         settings.set_value("rotate.scale",get_scale_flag()?"1":"0");
 170 }
 171
 172 StateRotate_Context::StateRotate_Context(CanvasView* canvas_view):
 173         canvas_view_(canvas_view),
 174         settings(synfigapp::Main::get_selected_input_device()->settings()),
 175         duck_dragger_(new DuckDrag_Rotate()),
 176         checkbutton_scale(_("Allow Scale"))
 177 {
 178         duck_dragger_->canvas_view_=get_canvas_view();
 179
 180         // Set up the tool options dialog
 181         options_table.attach(*manage(new Gtk::Label(_("Rotate Tool"))), 0, 2, 0, 1, Gtk::EXPAND|Gtk::FILL, Gtk::EXPAND|Gtk::FILL, 0, 0);
 182         options_table.attach(checkbutton_scale,                                                 0, 2, 1, 2, Gtk::EXPAND|Gtk::FILL, Gtk::EXPAND|Gtk::FILL, 0, 0);
 183
 184         checkbutton_scale.signal_toggled().connect(sigc::mem_fun(*this,&StateRotate_Context::refresh_scale_flag));
 185
 186         options_table.show_all();
 187         refresh_tool_options();
 188         //App::dialog_tool_options->set_widget(options_table);
 189         App::dialog_tool_options->present();
 190
 191         get_work_area()->set_allow_layer_clicks(true);
 192         get_work_area()->set_duck_dragger(duck_dragger_);
 193
 194 //      get_canvas_view()->work_area->set_cursor(Gdk::CROSSHAIR);
 195         get_canvas_view()->work_area->reset_cursor();
 196
 197         App::toolbox->refresh();
 198
 199         load_settings();
 200         refresh_scale_flag();
 201 }
 202
 203 void
 204 StateRotate_Context::refresh_tool_options()
 205 {
 206         App::dialog_tool_options->clear();
 207         App::dialog_tool_options->set_widget(options_table);
 208         App::dialog_tool_options->set_local_name(_("Rotate Tool"));
 209         App::dialog_tool_options->set_name("rotate");
 210 }
 211
 212 Smach::event_result
 213 StateRotate_Context::event_refresh_tool_options(const Smach::event& /*x*/)
 214 {
 215         refresh_tool_options();
 216         return Smach::RESULT_ACCEPT;
 217 }
 218
 219 StateRotate_Context::~StateRotate_Context()
 220 {
 221         save_settings();
 222
 223         get_work_area()->clear_duck_dragger();
 224         get_canvas_view()->work_area->reset_cursor();
 225
 226         App::dialog_tool_options->clear();
 227
 228         App::toolbox->refresh();
 229 }
 230
 231
 232
 233
 234 DuckDrag_Rotate::DuckDrag_Rotate()
 235 {
 236         use_magnitude=true;
 237 }
 238
 239 void
 240 DuckDrag_Rotate::begin_duck_drag(Duckmatic* duckmatic, const synfig::Vector& offset)
 241 {
 242         last_rotate=Vector(1,1);
 243
 244         const DuckList selected_ducks(duckmatic->get_selected_ducks());
 245         DuckList::const_iterator iter;
 246
 247 /*
 248         if(duckmatic->get_selected_ducks().size()<2)
 249         {
 250                 bad_drag=true;
 251                 return;
 252         }
 253 */
 254         bad_drag=false;
 255
 256                 drag_offset=duckmatic->find_duck(offset)->get_trans_point();
 257
 258                 //snap=drag_offset-duckmatic->snap_point_to_grid(drag_offset);
 259                 //snap=offset-drag_offset;
 260                 snap=Vector(0,0);
 261
 262         // Calculate center
 263         Point vmin(100000000,100000000);
 264         Point vmax(-100000000,-100000000);
 265         //std::set<etl::handle<Duck> >::iterator iter;
 266         positions.clear();
 267         int i;
 268         for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
 269         {
 270                 Point p((*iter)->get_trans_point());
 271                 vmin[0]=min(vmin[0],p[0]);
 272                 vmin[1]=min(vmin[1],p[1]);
 273                 vmax[0]=max(vmax[0],p[0]);
 274                 vmax[1]=max(vmax[1],p[1]);
 275                 positions.push_back(p);
 276         }
 277         center=(vmin+vmax)*0.5;
 278         if((vmin-vmax).mag()<=EPSILON)
 279                 move_only=true;
 280         else
 281                 move_only=false;
 282
 283
 284         synfig::Vector vect(offset-center);
 285         original_angle=Angle::tan(vect[1],vect[0]);
 286         original_mag=vect.mag();
 287 }
 288
 289
 290 void
 291 DuckDrag_Rotate::duck_drag(Duckmatic* duckmatic, const synfig::Vector& vector)
 292 {
 293         if(bad_drag)
 294                 return;
 295
 296         //std::set<etl::handle<Duck> >::iterator iter;
 297         synfig::Vector vect(duckmatic->snap_point_to_grid(vector)-center+snap);
 298
 299         const DuckList selected_ducks(duckmatic->get_selected_ducks());
 300         DuckList::const_iterator iter;
 301
 302         if(move_only)
 303         {
 304                 int i;
 305                 for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
 306                 {
 307                         if((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION)continue;
 308
 309                         Vector p(positions[i]);
 310
 311                         p[0]+=vect[0];
 312                         p[1]+=vect[1];
 313                         (*iter)->set_trans_point(p);
 314                 }
 315                 for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
 316                 {
 317                         if(!((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;
 318
 319                         Vector p(positions[i]);
 320
 321                         p[0]+=vect[0];
 322                         p[1]+=vect[1];
 323                         (*iter)->set_trans_point(p);
 324                 }
 325                 return;
 326         }
 327
 328         Angle::tan angle(vect[1],vect[0]);
 329         angle=original_angle-angle;
 330         Real mag(vect.mag()/original_mag);
 331         Real sine(Angle::sin(angle).get());
 332         Real cosine(Angle::cos(angle).get());
 333
 334         int i;
 335         for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
 336         {
 337                 if((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION)continue;
 338
 339                 Vector x(positions[i]-center),p;
 340
 341                 p[0]=cosine*x[0]+sine*x[1];
 342                 p[1]=-sine*x[0]+cosine*x[1];
 343                 if(use_magnitude)p*=mag;
 344                 p+=center;
 345                 (*iter)->set_trans_point(p);
 346         }
 347         for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
 348         {
 349                 if(!((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;
 350
 351                 Vector x(positions[i]-center),p;
 352
 353                 p[0]=cosine*x[0]+sine*x[1];
 354                 p[1]=-sine*x[0]+cosine*x[1];
 355                 if(use_magnitude)p*=mag;
 356                 p+=center;
 357                 (*iter)->set_trans_point(p);
 358         }
 359
 360         last_rotate=vect;
 361         //snap=Vector(0,0);
 362 }
 363
 364 bool
 365 DuckDrag_Rotate::end_duck_drag(Duckmatic* duckmatic)
 366 {
 367         if(bad_drag)return false;
 368         if(move_only)
 369         {
 370                 synfigapp::Action::PassiveGrouper group(get_canvas_interface()->get_instance().get(),_("Move Duck"));
 371                 duckmatic->signal_edited_selected_ducks();
 372                 return true;
 373         }
 374
 375         synfigapp::Action::PassiveGrouper group(get_canvas_interface()->get_instance().get(),_("Rotate Ducks"));
 376
 377         if((last_rotate-Vector(1,1)).mag()>0.0001)
 378         {
 379                 duckmatic->signal_edited_selected_ducks();
 380                 return true;
 381         }
 382         else
 383         {
 384                 duckmatic->signal_user_click_selected_ducks(0);
 385                 return false;
 386         }
 387 }