[synfig.git] / synfig-studio / src / gui / states / state_scale.cpp

/* === S Y N F I G ========================================================= */
/*!     \file state_scale.cpp
**      \brief Template File
**
**      $Id$
**
**      \legal
**      Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
**  Copyright (c) 2008 Chris Moore
**
**      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 <config.h>
#endif

#include <gtkmm/dialog.h>
#include <gtkmm/entry.h>

#include <synfig/valuenode_dynamiclist.h>
#include <synfigapp/action_system.h>

#include "state_scale.h"
#include "state_normal.h"
#include "canvasview.h"
#include "workarea.h"
#include "app.h"

#include <synfigapp/action.h>
#include "event_mouse.h"
#include "event_layerclick.h"
#include "toolbox.h"
#include "docks/dialog_tooloptions.h"
#include <gtkmm/optionmenu.h>
#include "duck.h"
#include <synfigapp/main.h>

#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 ========================================================= */

/* === G L O B A L S ======================================================= */

StateScale studio::state_scale;

/* === C L A S S E S & S T R U C T S ======================================= */

class DuckDrag_Scale : public DuckDrag_Base
{

        synfig::Vector last_scale;
        synfig::Vector drag_offset;
        synfig::Vector center;
        synfig::Vector snap;

        std::vector<synfig::Vector> positions;

        bool move_only;

        bool bad_drag;
public:
        bool lock_aspect;
        DuckDrag_Scale();
        void begin_duck_drag(Duckmatic* duckmatic, const synfig::Vector& begin);
        bool end_duck_drag(Duckmatic* duckmatic);
        void duck_drag(Duckmatic* duckmatic, const synfig::Vector& vector);
};


class studio::StateScale_Context : public sigc::trackable
{
        etl::handle<CanvasView> canvas_view_;
        CanvasView::IsWorking is_working;

        synfigapp::Settings& settings;

        etl::handle<DuckDrag_Scale> duck_dragger_;

        Gtk::Table options_table;


        Gtk::CheckButton checkbutton_aspect_lock;

public:

        bool get_aspect_lock_flag()const { return checkbutton_aspect_lock.get_active(); }
        void set_aspect_lock_flag(bool x) { return checkbutton_aspect_lock.set_active(x); refresh_aspect_lock_flag(); }

        void refresh_aspect_lock_flag() { if(duck_dragger_)duck_dragger_->lock_aspect=get_aspect_lock_flag(); }

        Smach::event_result event_stop_handler(const Smach::event& x);
        Smach::event_result event_refresh_tool_options(const Smach::event& x);

        void refresh_tool_options();

        StateScale_Context(CanvasView* canvas_view);

        ~StateScale_Context();

        const etl::handle<CanvasView>& get_canvas_view()const{return canvas_view_;}
        etl::handle<synfigapp::CanvasInterface> 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 load_settings();
        void save_settings();
};      // END of class StateScale_Context

/* === M E T H O D S ======================================================= */

StateScale::StateScale():
        Smach::state<StateScale_Context>("scale")
{
        insert(event_def(EVENT_REFRESH_TOOL_OPTIONS,&StateScale_Context::event_refresh_tool_options));
        insert(event_def(EVENT_STOP,&StateScale_Context::event_stop_handler));
}

StateScale::~StateScale()
{
}

void
StateScale_Context::load_settings()
{
        String value;

        if(settings.get_value("scale.lock_aspect",value) && value=="0")
                set_aspect_lock_flag(false);
        else
                set_aspect_lock_flag(true);
}

void
StateScale_Context::save_settings()
{
        settings.set_value("scale.lock_aspect",get_aspect_lock_flag()?"1":"0");
}

StateScale_Context::StateScale_Context(CanvasView* canvas_view):
        canvas_view_(canvas_view),
        is_working(*canvas_view),
        settings(synfigapp::Main::get_selected_input_device()->settings()),
        duck_dragger_(new DuckDrag_Scale()),
        checkbutton_aspect_lock(_("Lock Aspect Ratio"))
{
        // Set up the tool options dialog
        options_table.attach(*manage(new Gtk::Label(_("Scale Tool"))),  0, 2, 0, 1, Gtk::EXPAND|Gtk::FILL, Gtk::EXPAND|Gtk::FILL, 0, 0);
        options_table.attach(checkbutton_aspect_lock,                                   0, 2, 1, 2, Gtk::EXPAND|Gtk::FILL, Gtk::EXPAND|Gtk::FILL, 0, 0);

        checkbutton_aspect_lock.signal_toggled().connect(sigc::mem_fun(*this,&StateScale_Context::refresh_aspect_lock_flag));

        options_table.show_all();
        refresh_tool_options();
        App::dialog_tool_options->present();

        get_work_area()->set_allow_layer_clicks(true);
        get_work_area()->set_duck_dragger(duck_dragger_);

        get_work_area()->set_cursor(Gdk::SIZING);
//      get_work_area()->reset_cursor();

        App::toolbox->refresh();

        set_aspect_lock_flag(true);
        load_settings();
}

void
StateScale_Context::refresh_tool_options()
{
        App::dialog_tool_options->clear();
        App::dialog_tool_options->set_widget(options_table);
        App::dialog_tool_options->set_local_name(_("Scale Tool"));
        App::dialog_tool_options->set_name("scale");
}

Smach::event_result
StateScale_Context::event_refresh_tool_options(const Smach::event& /*x*/)
{
        refresh_tool_options();
        return Smach::RESULT_ACCEPT;
}

Smach::event_result
StateScale_Context::event_stop_handler(const Smach::event& /*x*/)
{
        throw &state_normal;
        return Smach::RESULT_OK;
}

StateScale_Context::~StateScale_Context()
{
        save_settings();

        get_work_area()->clear_duck_dragger();
        get_work_area()->reset_cursor();

        App::dialog_tool_options->clear();

        App::toolbox->refresh();
}




DuckDrag_Scale::DuckDrag_Scale():
        lock_aspect(true)
{
}

#ifndef EPSILON
#define EPSILON 0.0000001
#endif

void
DuckDrag_Scale::begin_duck_drag(Duckmatic* duckmatic, const synfig::Vector& offset)
{
        last_scale=Vector(1,1);
        const DuckList selected_ducks(duckmatic->get_selected_ducks());
        DuckList::const_iterator iter;

        //if(duckmatic->get_selected_ducks().size()<2)
        //{
        //      bad_drag=true;
//              return;
//      }
        bad_drag=false;

                drag_offset=duckmatic->find_duck(offset)->get_trans_point();

                //snap=drag_offset-duckmatic->snap_point_to_grid(drag_offset);
                //snap=offset-drag_offset;
                snap=Vector(0,0);

        // Calculate center
        Point vmin(100000000,100000000);
        Point vmax(-100000000,-100000000);
        //std::set<etl::handle<Duck> >::iterator iter;
        positions.clear();
        int i;
        for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
        {
                Point p((*iter)->get_trans_point());
                vmin[0]=min(vmin[0],p[0]);
                vmin[1]=min(vmin[1],p[1]);
                vmax[0]=max(vmax[0],p[0]);
                vmax[1]=max(vmax[1],p[1]);
                positions.push_back(p);
        }
        if((vmin-vmax).mag()<=EPSILON)
                move_only=true;
        else
                move_only=false;

        center=(vmin+vmax)*0.5;
}


void
DuckDrag_Scale::duck_drag(Duckmatic* duckmatic, const synfig::Vector& vector)
{
        const DuckList selected_ducks(duckmatic->get_selected_ducks());
        DuckList::const_iterator iter;

        if(bad_drag)
                return;

        //std::set<etl::handle<Duck> >::iterator iter;
        synfig::Vector vect(duckmatic->snap_point_to_grid(vector)-center);
        last_scale=vect;

        if(move_only)
        {
                int i;
                for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
                {
                        if(((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;

                        Vector p(positions[i]);

                        p[0]+=vect[0];
                        p[1]+=vect[1];
                        (*iter)->set_trans_point(p);
                }
                for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
                {
                        if(!((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;

                        Vector p(positions[i]);

                        p[0]+=vect[0];
                        p[1]+=vect[1];
                        (*iter)->set_trans_point(p);
                }
                return;
        }

        if(!lock_aspect)
        {
                if(abs(drag_offset[0]-center[0])>EPSILON)
                        vect[0]/=drag_offset[0]-center[0];
                else
                        vect[0]=1;
                if(abs(drag_offset[1]-center[1])>EPSILON)
                        vect[1]/=drag_offset[1]-center[1];
                else
                        vect[1]=1;
                }
        else
        {
                //vect[0]=vect[1]=vect.mag()*0.707106781;
                Real amount(vect.mag()/(drag_offset-center).mag());
                vect[0]=vect[1]=amount;
        }

        if(vect[0]<EPSILON && vect[0]>-EPSILON)
                vect[0]=1;
        if(vect[1]<EPSILON && vect[1]>-EPSILON)
                vect[1]=1;

        int i;
        for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
        {
                if(((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;

                Vector p(positions[i]-center);

                p[0]*=vect[0];
                p[1]*=vect[1];
                p+=center;
                (*iter)->set_trans_point(p);
        }
        for(i=0,iter=selected_ducks.begin();iter!=selected_ducks.end();++iter,i++)
        {
                if(!((*iter)->get_type()!=Duck::TYPE_VERTEX&&(*iter)->get_type()!=Duck::TYPE_POSITION))continue;

                Vector p(positions[i]-center);

                p[0]*=vect[0];
                p[1]*=vect[1];
                p+=center;
                (*iter)->set_trans_point(p);
        }

        last_scale=vect;
        //snap=Vector(0,0);
}

bool
DuckDrag_Scale::end_duck_drag(Duckmatic* duckmatic)
{
        if(bad_drag)return false;

        if((last_scale-Vector(1,1)).mag()>0.0001)
        {
                duckmatic->signal_edited_selected_ducks();
                return true;
        }
        else
        {
                duckmatic->signal_user_click_selected_ducks(0);
                return false;
        }
}