Esempio n. 1
0
bool ClockDrawArea::on_draw(const Cairo::RefPtr<Cairo::Context>& context){
	//Get the drawing area
	auto allocation = get_allocation();
	const int width = allocation.get_width();
	const int height = allocation.get_height();

	//Set the scale to a unit square
	context->scale(width, height);

	//Set (0.5, 0.5) to (0, 0). convenient to draw with arc.
	context->translate(0.5, 0.5);

	//Paint the background of the window;
	context->save();
	context->set_source_rgba(0.337, 0.612, 0.117, 0.9);
	context->paint();
	context->restore();

	//Draw the outer edge of the clock
	context->set_line_width(3 * m_LineWidth);
	context->arc(0, 0, m_Radius, 0, 2 * M_PI);

	//Paint the background color of the clock
	context->save();
	context->set_source_rgba(1.0, 1.0, 1.0, 0.8);
	context->fill_preserve();
	context->restore();

	//Draw a center point for good looking
	context->stroke();
	context->arc(0, 0, 0.05 * m_Radius, 0, 2 * M_PI);
	context->stroke();

	//Draw ticks
	context->save();
	double l = 1;

	for(int i = 0; i <= 11; i++){

		if((i % 3) == 0) {
			l = m_Radius * 0.8;
		}else{
			l = m_Radius * 0.9;
		}

		context->move_to(l * cos(i * 2* M_PI /12), l * sin(i * 2 * M_PI /12));
		context->line_to(m_Radius * cos(i * 2 * M_PI /12), m_Radius * sin(i * 2 * M_PI /12));

	}
	context->stroke();
	context->restore();

	//Get the current time from system and save info to a timeinfo struct
	time_t rawTime;
	time(&rawTime);

	struct tm * timeinfo = localtime(&rawTime);

	//Calculate the angle of hands of the clock
	auto radSeconds = (timeinfo->tm_sec * 2 * M_PI /60) - M_PI/2;
	auto radMinutes = (timeinfo->tm_min * 2 * M_PI /60) - M_PI/2;
	auto radHours = (timeinfo->tm_hour * 2 * M_PI /12) - M_PI/2  + timeinfo->tm_min * 2 * M_PI /(60 * 12);

	//Draw the hands of the clock
	context->save();

	//The hand of seconds
	context->set_source_rgba(0.823, 0.322, 0.155, 0.9);
	context->set_line_width(m_LineWidth);
	l = 0.9 * m_Radius;
	context->move_to(0,0);
	context->line_to(l * cos(radSeconds), l * sin(radSeconds));
	context->stroke();

	//The hand of minutes
	context->set_source_rgba(0.632, 0.802, 0.266, 0.9);
	context->set_line_width(2 * m_LineWidth);
	l = 0.8 * m_Radius;
	context->move_to(0,0);
	context->line_to(l * cos(radMinutes), l * sin(radMinutes));
	context->stroke();

	//The hand of hours
	context->set_source_rgba(0.104, 0.582, 0.723, 0.9);
	context->set_line_width(3 * m_LineWidth);
	l = 0.65 * m_Radius;
	context->move_to(0,0);
	context->line_to(l * cos(radHours), l * sin(radHours));
	context->stroke();

	context->restore();


	return true;
}
Esempio n. 2
0
	virtual bool on_expose_event(GdkEventExpose* )
	{
		Glib::RefPtr<Gdk::Drawable> drawable = get_window();

		vc.get_frame(pixbuf);

		drawable->draw_pixbuf(get_style()->get_bg_gc(Gtk::STATE_NORMAL),
				pixbuf->scale_simple(get_width(), get_height(), Gdk::INTERP_BILINEAR),
				0, 0, 0, 0, -1 , -1, Gdk::RGB_DITHER_NONE, 0, 0);

		Gdk::Point rect[4], barcode_center;
		string str;

		bool res = decode_barcode(pixbuf, rect, str, 100);

		if (res)
		{
			Cairo::RefPtr<Cairo::Context> cr = drawable->create_cairo_context();

			cr->set_line_width(3);
			cr->set_source_rgb(1, 0.0, 0.0);

			cr->move_to(rect[0].get_x(), rect[0].get_y() );
			cr->line_to(rect[1].get_x(), rect[1].get_y() );
			cr->line_to(rect[2].get_x(), rect[2].get_y() );
			cr->line_to(rect[3].get_x(), rect[3].get_y() );
			cr->line_to(rect[0].get_x(), rect[0].get_y() );

			cr->stroke();

			BarcodePropertyEstimation distance(get_width(), get_height(),
					rect[0].get_x(), rect[0].get_y(),
					rect[1].get_x(), rect[1].get_y(),
					rect[2].get_x(), rect[2].get_y(),
					rect[3].get_x(), rect[3].get_y());


			Glib::RefPtr<Pango::Layout> pango_layout = Pango::Layout::create(cr);

			Pango::FontDescription desc("Arial Rounded MT Bold");
			desc.set_size(14 * PANGO_SCALE);
			pango_layout->set_font_description(desc);
			pango_layout->set_alignment(Pango::ALIGN_CENTER);

			double dir = distance.calcDirection();
			string dir_str;

			if (dir > 2.3)
				dir_str = "right";
			else if (dir < -2.3)
				dir_str = "left";
			else
				dir_str = "front";

			double dist = distance.calcDistance();
			string text = "Object ID: " + str +
					"\nDistance: " + lexical_cast<string>(int(dist * 100) / 100) + "." +
					lexical_cast<string>(int(dist * 100) % 100) +
					"\nDirection: " + dir_str;

			pango_layout->set_text(text);

			Gdk::Point* max_x, *min_x, *max_y, *min_y;
			boost::function<bool (Gdk::Point, Gdk::Point)> compare;

			compare = bind(less<int>(), bind(&Gdk::Point::get_x, _1), bind(&Gdk::Point::get_x, _2));
			max_x = max_element(rect, rect + 4, compare);
			min_x =	min_element(rect, rect + 4, compare);

			compare = bind(less<int>(), bind(&Gdk::Point::get_y, _1), bind(&Gdk::Point::get_y, _2));
			max_y = max_element(rect, rect + 4, compare);
			min_y =	min_element(rect, rect + 4, compare);

			barcode_center = Gdk::Point(
					(max_x->get_x() + min_x->get_x()) / 2,
					(max_y->get_y() + min_y->get_y()) / 2);

			const Pango::Rectangle extent = pango_layout->get_pixel_logical_extents();

			cr->move_to(get_width() - extent.get_width() - 10,
					get_height() - extent.get_height() - 10);

			pango_layout->show_in_cairo_context(cr);

			DetectedBarcode barcode(str, dir_str, distance.calcDistance());
			vector<DetectedBarcode> vec;
			vec.push_back(barcode);

			ostringstream ostr;
			xmlpp::Document document1;

			listDetectedBarcodesToXML(document1.create_root_node("ObjectList"), vec);

			document1.write_to_stream(ostr, "UTF-8");

			mut.lock();
			strXML = ostr.str();
			mut.unlock();

		}

		return true;
	}
bool SamplerWidget::on_expose_event(GdkEventExpose* event)
{
	// This is where we draw on the window
	Glib::RefPtr<Gdk::Window> window = get_window();
	
	if(window)    // Only run if Window does exist
	{
		allocation = get_allocation();
		int width = allocation.get_width();
		int height = allocation.get_height();
		
		//std::cout << "Width: " << width << std::endl;
		//std::cout << "Height: " << height << std::endl;
		//std::cout << "Height / 12: " << height /12.0 << std::endl;
		
		// coordinates for the center of the window
		int xc, yc;
		xc = width / 2;
		yc = height / 2;
		
		Cairo::RefPtr<Cairo::Context> cr = window->create_cairo_context();
		
		// clip to the area indicated by the expose event so that we only redraw
		// the portion of the window that needs to be redrawn
		//cr -> set_source_rgba(0 , 0, 0 , 1);
		cr->rectangle(event->area.x, event->area.y,
		        event->area.width, event->area.height);
		//cr->rectangle(0,0,event->area.x,event->area.y);
		//cr->stroke_preserve();
		cr->clip();
		
		cr -> set_line_join (Cairo::LINE_JOIN_ROUND);
		
		cr -> move_to( 7, 7);
		cr -> line_to( width-7, 7);
		cr -> line_to( width-7, height-7);
		cr -> line_to( 7, height-7);
		cr -> close_path();
		
		// Draw outline shape
		cr -> set_source_rgb (0.1,0.1,0.1);
		cr -> fill_preserve();
		
		if (!padOnBool)
		{
			cr->set_source_rgba( 0.6, 0.6, 0.6, 0.5);
			cr->set_line_width ( 10.0);
			cr->stroke();
		}
		else
		{
			cr->set_source_rgba( 1.0,0.4,0.0, 0.8);
			cr->set_line_width ( 10.4);
			cr->stroke();
		}
		
		/* Pan functionality Not yet implemented in sampler.
		
		// Draw Pan line: pixel pan = width * pan
		cr -> set_line_cap (Cairo::LINE_CAP_ROUND);
		cr -> set_line_width ( 4.8);
		cr -> set_source_rgba( 1.0,0.8,0.8,0.8);
		cr -> move_to ( width/2 + ((width*pan)/2) , height - (height*volume) + 20);
		cr -> line_to ( width/2 + ((width*pan)/2) , height - (height*volume) - 20);
		cr -> stroke();
		*/
		
		// Draw Volume line: pixel vol = height * volume
		cr -> set_line_width ( 5.1);
		cr -> set_source_rgb( 0.2,0.2,0.2);
		cr -> move_to ( 10      , (height - ((height-20)*volume))-8 );
		cr -> line_to ( width-10, (height - ((height-20)*volume))-8 );
		cr -> line_to ( width-10, height-10);
		cr -> line_to ( 10, height-10);
		cr -> close_path();
		cr -> fill();
		
		// Draw Mode: Loop/Hit
		
		if ( !loopSampleBool)
		{
			cr->set_line_width ( 2.2);
			cr->set_source_rgb(0.2,0.2,0.2);
			cr->move_to(width/5,(height/5)*2);
			cr->line_to((width/5)*3,(height/5)*2);
			cr->line_to((width/5)*3,(height/5)*1);
			cr->line_to((width/5)*4,height/2);		// point of arrow
			cr->line_to((width/5)*3,(height/5)*4);
			cr->line_to((width/5)*3,(height/5)*3);
			cr->line_to(width/5,(height/5)*3);
			cr->close_path();
			cr->fill_preserve();
			
			cr->set_source_rgb(0.0,0.9,0.0);
			cr->stroke();
		}
		else // Loop Sample
		{
			cr -> set_source_rgb(0.2,0.2,0.2);
			cr -> arc_negative	(width/2, height/2, ((height  + width)/8)-5 , 6.0, 0.6); 	// inner curve
			cr -> arc			(width/2, height/2, ((height  + width)/6)-5 , 0.5, 6.1); 	// outer curve
			
			cr -> line_to		((width-width/3.5) + width/8  ,	height/2 - height/18 ); 	// right point of arrow
			cr -> line_to		( width-width/3.5,				height/2 + height/18 ); 	// point of arrow
			cr -> line_to		((width-width/3.5) - width/8  ,	height/2 - height/18 ); 	// left point of arrow
			cr -> close_path();
			cr -> fill_preserve();
			cr -> set_line_width(1.9);
			cr -> set_source_rgb(0.0,0.9,0.0);
			cr -> stroke();
		}
		
		// Impose orange volume line (over SampleLoop/Play)
		cr -> move_to ( 10      , (height - ((height-20)*volume))-8 );
		cr -> line_to ( width-10, (height - ((height-20)*volume))-8 );
		cr -> set_source_rgb(1.0,0.4,0.0);
		cr -> stroke();
		
		// Draw Text in center. Audio Clip name.
		cr -> set_source_rgb( 1.0,0.4,0.0);
		cr -> select_font_face ("Impact" , Cairo::FONT_SLANT_NORMAL,Cairo::FONT_WEIGHT_NORMAL);
		cr -> set_font_size ( 3 + xc/4 );
		Cairo::TextExtents extents;
		std::transform(sampleName.begin(), sampleName.end(), sampleName.begin(), toupper);
		cr -> get_text_extents(sampleName, extents);
		cr -> move_to ( xc - extents.width/2 , height/2+height/18);
		cr -> show_text (sampleName); // sampleName defined in hpp as std::string
	} 
	return true;
}
bool studio::Widget_NavView::on_drawto_draw(const Cairo::RefPtr<Cairo::Context> &cr)
{
#ifdef SINGLE_THREADED
	// don't redraw if the previous redraw is still running single-threaded
	// or we end up destroying the renderer that's rendering it
	if (App::single_threaded && renderer && renderer->updating)
		return false;
#endif

	//draw the good stuff
	on_start_render();

	//if we've got a preview etc. display it...
	if(get_canvas_view())
	{
		//axis transform from units to pixel coords
		float xaxis = 0, yaxis = 0;

		int canvw = get_canvas_view()->get_canvas()->rend_desc().get_w();
		int w, h;
	
		float pw = get_canvas_view()->get_canvas()->rend_desc().get_pw();
		float ph = get_canvas_view()->get_canvas()->rend_desc().get_ph();
		if(prev && !studio::App::navigator_uses_cairo)
		{
			w = prev->get_width();
			h = prev->get_height();
		}
		if(studio::App::navigator_uses_cairo)
		{
			w=cairo_image_surface_get_width(cairo_surface);
			h=cairo_image_surface_get_height(cairo_surface);
		}

		//scale up/down to the nearest pixel ratio...
		//and center in center
		float offx=0, offy=0;

		float sx, sy;
		int nw,nh;

		sx = drawto.get_width() / (float)w;
		sy = drawto.get_height() / (float)h;

		//round to smallest scale (fit entire thing in window without distortion)
		if(sx > sy) sx = sy;
		//else sy = sx;

		//scaling and stuff
		// the point to navpixel space conversion should be:
		//		(navpixels / canvpixels) * (canvpixels / canvsize)
		//	or (navpixels / prevpixels) * (prevpixels / navpixels)
		xaxis = sx * w / (float)canvw;
		yaxis = xaxis/ph;
		xaxis /= pw;

		//scale to a new pixmap and then copy over to the window
		nw = (int)(w*sx);
		nh = (int)(h*sx);

		//must now center to be cool
		offx = (drawto.get_width() - nw)/2;
		offy = (drawto.get_height() - nh)/2;

		//trivial escape
		if(nw == 0 || nh == 0)return true;

		//draw to drawing area
		if(prev && !studio::App::navigator_uses_cairo)
		{
			Glib::RefPtr<Gdk::Pixbuf> scalepx = prev->scale_simple(nw,nh,Gdk::INTERP_NEAREST);

			cr->save();

			//synfig::warning("Nav: Drawing scaled bitmap");
			Gdk::Cairo::set_source_pixbuf(
				cr, //cairo context
				scalepx, //pixbuf
				(int)offx, (int)offy //coordinates to place upper left corner of pixbuf
				);
			cr->paint();
			cr->restore();
		}
		if(studio::App::navigator_uses_cairo)
		{
			cr->save();
			cr->scale(sx, sx);
			cairo_set_source_surface(cr->cobj(), cairo_surface, offx/sx, offy/sx);
			cairo_pattern_set_filter(cairo_get_source(cr->cobj()), CAIRO_FILTER_NEAREST);
			cr->paint();
			cr->restore();	
		}
		cr->save();
		//draw fancy red rectangle around focus point
		const Point &wtl = get_canvas_view()->work_area->get_window_tl(),
					&wbr = get_canvas_view()->work_area->get_window_br();

		//it must be clamped to the drawing area though
		int l=0,rw=0,t=0,rh=0;
		const Point fp = -get_canvas_view()->work_area->get_focus_point();

		//get focus point in normal space
		rw = (int)(abs((wtl[0]-wbr[0])*xaxis));
		rh = (int)(abs((wtl[1]-wbr[1])*yaxis));

		//transform into pixel space
		l = (int)(drawto.get_width()/2 + fp[0]*xaxis - rw/2);
		t = (int)(drawto.get_height()/2 + fp[1]*yaxis - rh/2);

		//coord system:
		// tl : (offx,offy)
		// axis multipliers = xaxis,yaxis

		cr->set_line_width(2.0);
		cr->set_line_cap(Cairo::LINE_CAP_BUTT);
		cr->set_line_join(Cairo::LINE_JOIN_MITER);
		cr->set_antialias(Cairo::ANTIALIAS_NONE);
		// Visually distinguish when using Cairo on Navigator or not.
		if(!studio::App::navigator_uses_cairo)
			cr->set_source_rgb(1,0,0);
		else
			cr->set_source_rgb(0,1,0);
		cr->rectangle(l,t,rw,rh);
		cr->stroke();

		cr->restore();
	}
	return false; //draw everything else too
}
Esempio n. 5
0
void MyWidget::drawWidget()
{
    Painter p(this);

    if (m_color) {
        p.setSourceRGB(1.0, 0, 0);
    } else {
        p.setSourceRGB(0, 0, 0);
    }

    p.translate(minimumSize().width() / 2.0, minimumSize().height() / 2.0);
    p.setLineWidth(m_lineWidth);
    p.arc(0, 0, m_radius, 0, 2 * M_PI);
    p.save();

    p.setSourceRGBA(1.0, 1.0, 1.0, 0.8);
    p.fillPreserve();
    p.restore();
    p.strokePreserve();
    p.clip();

    for (int i = 0; i < 12; ++i) {
        double inset = 30;

        p.save();
        p.setLineCap(Painter::RoundLineCap);

        if(i % 3 != 0) {
            inset *= 0.8;
            p.setLineWidth(1.0);
        }

        p.moveTo((m_radius - inset) * cos (i * M_PI / 6.0),
                 (m_radius - inset) * sin (i * M_PI / 6.0));
        p.lineTo(m_radius * cos (i * M_PI / 6.0),
                 m_radius * sin (i * M_PI / 6.0));
        p.stroke();
        p.restore();
    }

    // store the current time
    time_t rawtime;
    time(&rawtime);
    struct tm * timeinfo = localtime (&rawtime);

    // compute the angles of the indicators of our clock
    double minutes = timeinfo->tm_min * M_PI / 30;
    double hours = timeinfo->tm_hour * M_PI / 6;
    double seconds= timeinfo->tm_sec * M_PI / 30;

    p.save();
    p.setLineCap(Painter::RoundLineCap);

    // draw the seconds hand
    p.save();
    p.setLineWidth(m_lineWidth);
    p.setSourceRGBA(0.7, 0.7, 0.7, 0.8);
    p.moveTo(0, 0);
    p.lineTo(sin(seconds) * (m_radius * 0.9),
             -cos(seconds) * (m_radius * 0.9));
    p.stroke();
    p.restore();

    // draw the minutes hand
    p.setSourceRGBA(0.117, 0.337, 0.612, 0.9);
    p.moveTo(0, 0);
    p.lineTo(sin(minutes + seconds / 60.0) * (m_radius * 0.8),
             -cos(minutes + seconds / 60.0) * (m_radius * 0.8));
    p.stroke();

    // draw the hours hand
    p.setSourceRGBA(0.337, 0.612, 0.117, 0.9);
    p.moveTo(0, 0);
    p.lineTo(sin(hours + minutes / 12.0) * (m_radius * 0.5),
             -cos(hours + minutes / 12.0) * (m_radius * 0.5));
    p.stroke();
    p.restore();

    p.setSourceRGBA(1, 0, 0, 0.5);
    p.arc(0, 0, m_lineWidth * 2.0, 0, 2.0 * M_PI);
    p.fill();

#if 0
  // This is where we draw on the window
  Glib::RefPtr<Gdk::Window> window = get_window();
  if(window)
  {
    Gtk::Allocation allocation = get_allocation();
    const int width = allocation.get_width();
    const int height = allocation.get_height();

    Cairo::RefPtr<Cairo::Context> cr = window->create_cairo_context();

    if(event)
    {
        // clip to the area indicated by the expose event so that we only
        // redraw the portion of the window that needs to be redrawn
        cr->rectangle(event->area.x, event->area.y,
                event->area.width, event->area.height);
        cr->clip();
    }

    // background gradient
    {
        Cairo::RefPtr<Cairo::LinearGradient> pat = Cairo::LinearGradient::create(0.0, 0.0, 0.0, height);
        pat->add_color_stop_rgb(1.0, 1.0, 1.0, 1.0);
        pat->add_color_stop_rgb(0.0, 0.0, 0.0, 0.0);
        cr->rectangle(0, 0, width, height);
        cr->set_source(pat);
        cr->fill();
    }

    // scale to unit square and translate (0, 0) to be (0.5, 0.5), i.e.
    // the center of the window
    cr->scale(width, height);
    cr->translate(0.5, 0.5);
    cr->set_line_width(m_line_width);

    cr->arc(0, 0, m_radius, 0, 2 * M_PI);
    cr->save();
    cr->set_source_rgba(1.0, 1.0, 1.0, 0.8);
    cr->fill_preserve();
    cr->restore();
    cr->stroke_preserve();
    cr->clip();

    //clock ticks
    for (int i = 0; i < 12; i++)
    {
        double inset = 0.05;

        cr->save();
        cr->set_line_cap(Cairo::LINE_CAP_ROUND);

        if(i % 3 != 0)
        {
            inset *= 0.8;
            cr->set_line_width(0.03);
        }

        cr->move_to(
                (m_radius - inset) * cos (i * M_PI / 6),
                (m_radius - inset) * sin (i * M_PI / 6));
        cr->line_to (
                m_radius * cos (i * M_PI / 6),
                m_radius * sin (i * M_PI / 6));
        cr->stroke();
        cr->restore(); /* stack-pen-size */
    }

    // store the current time
    time_t rawtime;
    time(&rawtime);
    struct tm * timeinfo = localtime (&rawtime);

    // compute the angles of the indicators of our clock
    double minutes = timeinfo->tm_min * M_PI / 30;
    double hours = timeinfo->tm_hour * M_PI / 6;
    double seconds= timeinfo->tm_sec * M_PI / 30;

    cr->save();
    cr->set_line_cap(Cairo::LINE_CAP_ROUND);

    // draw the seconds hand
    cr->save();
    cr->set_line_width(m_line_width / 3);
    cr->set_source_rgba(0.7, 0.7, 0.7, 0.8); // gray
    cr->move_to(0, 0);
    cr->line_to(sin(seconds) * (m_radius * 0.9), 
            -cos(seconds) * (m_radius * 0.9));
    cr->stroke();
    cr->restore();

    // draw the minutes hand
    cr->set_source_rgba(0.117, 0.337, 0.612, 0.9);   // blue
    cr->move_to(0, 0);
    cr->line_to(sin(minutes + seconds / 60) * (m_radius * 0.8),
            -cos(minutes + seconds / 60) * (m_radius * 0.8));
    cr->stroke();

    // draw the hours hand
    cr->set_source_rgba(0.337, 0.612, 0.117, 0.9);   // green
    cr->move_to(0, 0);
    cr->line_to(sin(hours + minutes / 12.0) * (m_radius * 0.5),
            -cos(hours + minutes / 12.0) * (m_radius * 0.5));
    cr->stroke();
    cr->restore();

    // draw a little dot in the middle
    cr->arc(0, 0, m_line_width / 3.0, 0, 2 * M_PI);
    cr->fill();
  }
#endif
}
Esempio n. 6
0
bool
Widget_Curves::on_draw(const Cairo::RefPtr<Cairo::Context> &cr)
{
	const int h(get_height());
	const int w(get_width());

	get_style_context()->render_background(cr, 0, 0, w, h);

	if(!time_adjustment_ || !range_adjustment_ || !h || !w)
		return false;

	if(!curve_list_.size())
		return false;

	const Real t_begin(time_adjustment_->get_lower());
	const Real t_end(time_adjustment_->get_upper());
	const Real dt((t_end-t_begin)/w);

	const Real r_bottom(range_adjustment_->get_value());
	const Real r_top(r_bottom+range_adjustment_->get_page_size());
	const Real dr((r_top-r_bottom)/h);
	Real r_max(-100000000);
	Real r_min(100000000);

	std::list<CurveStruct>::iterator curve_iter;
	//Figure out maximum number of channels
	for(curve_iter=curve_list_.begin();curve_iter!=curve_list_.end();++curve_iter)
	{
		int channels(curve_iter->channels.size());
		if(channels>MAX_CHANNELS)
		{
			channels=MAX_CHANNELS;
			synfig::warning("Not allowed more than %d channels! Truncating...", MAX_CHANNELS);
		}
	}
	// and use it when sizing the points
	vector<Gdk::Point> points[MAX_CHANNELS];

	// Draw zero mark
	cr->set_source_rgb(0.31, 0.31, 0.31);
	cr->rectangle(0, round_to_int((0-r_bottom)/dr), w, 0);
	cr->stroke();

	// This try to find a valid canvas to show the keyframes of those
	// valuenodes. If not canvas found then no keyframes marks are shown.
	synfig::Canvas::Handle canvas=0;
	for(curve_iter=curve_list_.begin();curve_iter!=curve_list_.end();++curve_iter)
	{
		canvas=curve_iter->value_desc.get_canvas();
		if(canvas)
			break;
	}

	if(canvas)
	{
	// Draw vertical lines for the keyframes marks.
		const synfig::KeyframeList& keyframe_list(canvas->keyframe_list());
		synfig::KeyframeList::const_iterator iter;

		for(iter=keyframe_list.begin();iter!=keyframe_list.end();++iter)
		{
			if(!iter->get_time().is_valid())
				continue;

			const int x((int)((float)w/(t_end-t_begin)*(iter->get_time()-t_begin)));
			if(iter->get_time()>=t_begin && iter->get_time()<t_end)
			{
				cr->set_source_rgb(0.63, 0.5, 0.5);
				cr->rectangle(x, 0, 1, h);
				cr->fill();
			}
		}
	}

	// Draw current time
	cr->set_source_rgb(0, 0, 1);
	cr->rectangle(round_to_int((time_adjustment_->get_value()-t_begin)/dt), 0, 0, h);
	cr->stroke();

	// Draw curves for the valuenodes stored in the curve list
	for(curve_iter=curve_list_.begin();curve_iter!=curve_list_.end();++curve_iter)
	{
		Real t;
		int i;
		int channels(curve_iter->channels.size());
		for(i=0;i<channels;i++)
			points[i].clear();

		for(i=0,t=t_begin;i<w;i++,t+=dt)
		{
			for(int chan=0;chan<channels;chan++)
			{
				Real x(curve_iter->get_value(chan,t,dt));
				r_max=max(r_max,x);
				r_min=min(r_min,x);
				points[chan].push_back(
					Gdk::Point(
						i,
						round_to_int(
							(
								x-r_bottom
							)/dr
						)
					)
				);
			}
		}

		// Draw the graph curves with 0.5 width
		cr->set_line_width(0.5);
		for(int chan=0;chan<channels;chan++)
		{
			// Draw the curve
			std::vector<Gdk::Point> &p = points[chan];
			for(std::vector<Gdk::Point>::iterator i = p.begin(); i != p.end(); ++i)
			{
				if (i == p.begin())
					cr->move_to(i->get_x(), i->get_y());
				else
					cr->line_to(i->get_x(), i->get_y());
			}
			const Gdk::Color &color = curve_iter->channels[chan].color;
			cr->set_source_rgb(color.get_red_p(), color.get_green_p(), color.get_blue_p());
			cr->stroke();

			Glib::RefPtr<Pango::Layout> layout(Pango::Layout::create(get_pango_context()));
			layout->set_text(curve_iter->channels[chan].name);

			cr->move_to(1, points[chan][0].get_y()+1);
			layout->show_in_cairo_context(cr);
		}
	}

	if(!curve_list_.empty())
	{
		range_adjustment_->set_upper(r_max+range_adjustment_->get_page_size()/2);
		range_adjustment_->set_lower(r_min-range_adjustment_->get_page_size()/2);
	}

	return true;
}
void FrequencyGraph( Cairo::RefPtr<Cairo::Context> cr, bool active, float x, float y, float xS, float yS, EqualizerState state)
{
    cr->set_line_cap( Cairo::LINE_CAP_ROUND );
    cr->set_line_join( Cairo::LINE_JOIN_ROUND);

    int xSize = xS;
    int ySize = yS;

    // works but a bit simple
    cr -> move_to( x        , y         );
    cr -> line_to( x + xSize, y         );
    cr -> line_to( x + xSize, y + ySize );
    cr -> line_to( x        , y + ySize );
    cr -> close_path();

    // Draw outline shape
    cr -> set_source_rgb (0.1,0.1,0.1);
    cr -> fill();

    // draw "frequency guides"
    std::valarray< double > dashes(2);
    dashes[0] = 2.0;
    dashes[1] = 2.0;
    cr->set_dash (dashes, 0.0);
    cr->set_line_width(1.0);
    cr->set_source_rgb (0.4,0.4,0.4);
    for ( int i = 0; i < 4; i++ )
    {
        cr->move_to( x + ((xSize / 4.f)*i), y );
        cr->line_to( x + ((xSize / 4.f)*i), y + ySize );
    }
    for ( int i = 0; i < 4; i++ )
    {
        cr->move_to( x       , y + ((ySize / 4.f)*i) );
        cr->line_to( x +xSize, y + ((ySize / 4.f)*i) );
    }
    cr->stroke();
    cr->unset_dash();

    // set colour based on active or not
    if ( active )
        setColour(cr, COLOUR_BLUE_1, 0.2 );
    else
        setColour(cr, COLOUR_GREY_1, 0.2 );

    int tmpX = x;
    int tmpY = y;

    // precalculate some variables
    float oldGainPix = (ySize / 60.f) * (state.gain[0] - 0.5 ) * 40;
    float oldXLoc = 0;
    float qPix = ((xSize * 0.2) / 3.f );
    //float oldCutoff = 0;

    // move to bottom left, draw line to middle left
    cr->move_to( tmpX, tmpY + ySize         );
    cr->line_to( tmpX, tmpY + (ySize * 0.5) - oldGainPix );


    for ( int i = 0; i < 4; i++ )
    {
        //float cutoff = state.cutoffFreq[i] / 20000;


        float gainPix = (ySize / 60.f) * (state.gain[i] - 0.5 ) * 40;

        float xLoc = xSize * 0.2 * (i+1);

        //std::cout << "I: " << i << "  GainPix: " << gainPix << "  tmpY - gainPix" << tmpY - gainPix << std::endl;


        cr->curve_to( tmpX + oldXLoc + qPix, tmpY + (ySize * 0.5) - oldGainPix ,// control point 1
                      tmpX + xLoc - qPix   , tmpY + (ySize * 0.5) - gainPix ,   // control point 2
                      tmpX + xLoc          , tmpY + (ySize * 0.5) - gainPix );  // end of curve

        // update variables for next iter
        oldGainPix = gainPix;
        oldXLoc = xLoc;
        //oldCutoff = cutoff;
    }

    // last bit of curve to the right edge
    cr->curve_to( tmpX + oldXLoc + qPix, tmpY + (ySize * 0.5) - oldGainPix,   // control point 1
                  tmpX + xSize   - qPix, tmpY + (ySize * 0.5) - oldGainPix,   // control point 2
                  tmpX + xSize         , tmpY + (ySize * 0.5) - oldGainPix);  // end of curve


    cr->line_to( tmpX + xSize , tmpY + ySize );
    cr->close_path();
    cr->fill_preserve();

    cr->set_line_width(2.5);
    if ( active )
        setColour(cr, COLOUR_BLUE_1 );
    else
        setColour(cr, COLOUR_GREY_1 );
    cr->stroke();

    // outline
    cr->rectangle( x, y , xS, yS );
    cr->set_line_width(3);
    if ( active )
        setColour(cr, COLOUR_GREY_2 );
    else
        setColour(cr, COLOUR_GREY_3 );
    cr->stroke();

    //std::cout << "LupppWidget::FrequencyGraph() called!" << std::endl;
}
Esempio n. 8
0
bool TimeLine::on_draw(Cairo::RefPtr<Cairo::Context> const& cr)
{
    if(!m_mainWindow->IsFileOpened())
    {
        return false;
    }

    cr->save();
    cr->set_antialias(Cairo::ANTIALIAS_NONE);

    Gtk::Allocation allocation = get_allocation();

    cr->set_source_rgb(1.0, 1.0, 1.0);
    cr->rectangle(0.0, 0.0, allocation.get_width(), allocation.get_height());
    cr->fill();

    cr->set_line_width(1.0);
    cr->set_source_rgb(0.0, 0.0, 0.0);
    cr->move_to(0.0, 1.0);
    cr->line_to(allocation.get_width(), 1.0);
    cr->stroke();
    cr->move_to(0.0, allocation.get_height() - 1);
    cr->line_to(allocation.get_width(), allocation.get_height());
    cr->stroke();

    double floorStart = (floor(m_timeStart) - m_timeStart) * m_mainWindow->GetTimeScale();
    int numTicks = ceil(allocation.get_width() / m_mainWindow->GetTimeScale());
    for(int i = 0; i <= numTicks; ++i)
    {
        double x = floorStart + i * m_mainWindow->GetTimeScale();

        if(m_timeStart != 0.0 || i != 0)
        {
            // Get the text dimensions.
            int textWidth;
            int textHeight;
            char timeStr[10];
            sprintf(timeStr, "%d s", int(floor(m_timeStart) + i));
            m_layout->set_text(timeStr);
            m_layout->get_pixel_size(textWidth, textHeight);

            // Position the text in the middle
            cr->move_to(x - textWidth / 2, 0.0);
            m_layout->show_in_cairo_context(cr);

            // Draw tick.
            cr->move_to(x, allocation.get_height() - 8.0);
            cr->line_to(x, allocation.get_height());
            cr->stroke();
        }

        if(i < numTicks)
        {
            // Draw sub-tick.
            double nextX = floorStart + (i + 1) * m_mainWindow->GetTimeScale();
            double tickWidth = nextX - x;

            if(tickWidth > 200.0)
            {
                // Get the text dimensions.
                int textWidth;
                int textHeight;
                char timeStr[10];
                sprintf(timeStr, "%d.5 s", int(floor(m_timeStart) + i));
                m_layout->set_text(timeStr);
                m_layout->get_pixel_size(textWidth, textHeight);

                // Position the text in the middle
                cr->move_to(x + (tickWidth - textWidth) / 2, 0.0);
                m_layout->show_in_cairo_context(cr);
            }

            cr->move_to(x + tickWidth / 2, allocation.get_height() - 4.0);
            cr->line_to(x + tickWidth / 2, allocation.get_height());
            cr->stroke();
        }
    }

    cr->restore();

    return true;
}
Esempio n. 9
0
void ImageDrawable::drawImage(const Cairo::RefPtr<Cairo::Context> &cr, const Gtk::Allocation &allocation) {
	auto image = images->current();
	auto surface = image->getPrimary();
	int rwidth, rheight;
	double rscale;
	double rx, ry;

	//cout << "image " << iwidth << "x" << iheight << " " << iorientation.first << "," << iorientation.second << endl;

	calcRenderedImage(image, allocation, rwidth, rheight, rscale, rx, ry);

	cr->translate(rx, ry);
	cr->scale(rscale, rscale);

	waiting = !surface;

	if (image->isPrimaryFailed()) {
		// TODO display fancy failed indicator
		cr->set_source_rgb(0.75, 0.5, 0.5);
		cr->rectangle(0, 0, rwidth, rheight);
		cr->clip();
		cr->paint();
		return;
	} else if (!surface) {
		// TODO display fancy loading animation
		cr->set_source_rgb(0.5, 0.75, 0.5);
		cr->rectangle(0, 0, rwidth, rheight);
		cr->clip();
		cr->paint();
		return;
	}

	switch (image->getOrientation().first) {
	case Image::Rotate::ROTATE_NONE:
		break;

	case Image::Rotate::ROTATE_90:
		cr->translate(image->height(), 0);
		cr->rotate_degrees(90);
		break;

	case Image::Rotate::ROTATE_180:
		cr->translate(image->width(), image->height());
		cr->rotate_degrees(180);
		break;

	case Image::Rotate::ROTATE_270:
		cr->translate(0, image->width());
		cr->rotate_degrees(270);
		break;
	}

	if (image->getOrientation().second) {
		cr->translate(image->width(), 0);
		cr->scale(-1, 1);
	}

	auto pattern = Cairo::SurfacePattern::create(surface);
	pattern->set_filter(Cairo::Filter::FILTER_FAST);
	cr->set_source(pattern);

	//auto start = chrono::steady_clock::now();
	cr->paint();
	//auto stop = chrono::steady_clock::now();
	//cout << "paint " << chrono::duration_cast<chrono::milliseconds>(stop - start).count() << "ms" << endl;

	if (afPoints) {
		//start = chrono::steady_clock::now();
		auto properties = image->getProperties();
		valarray<double> dashes(5.0 / rscale, 5.0 / rscale);

		cr->save();
		cr->set_operator(static_cast<Cairo::Operator>(CAIRO_OPERATOR_DIFFERENCE));

		for (auto &rect : properties.focusPoints) {
			if (properties.focusPointsActive.find(rect) != properties.focusPointsActive.cend()) {
				cr->set_source_rgb(1, 0, 1);
				cr->set_line_width(4.0 / rscale);
				cr->unset_dash();
			} else if (properties.focusPointsSelected.find(rect) != properties.focusPointsSelected.cend()) {
				cr->set_source_rgb(1, 0, 0);
				cr->set_line_width(2.0 / rscale);
				cr->unset_dash();
			} else {
				cr->set_source_rgb(1, 1, 1);
				cr->set_line_width(1.0 / rscale);
				cr->set_dash(dashes, 0);
			}
			cr->rectangle(rect.x, rect.y, rect.width, rect.height);
			cr->stroke();
		}

		cr->restore();

		//stop = chrono::steady_clock::now();
		//cout << "afpaint " << chrono::duration_cast<chrono::milliseconds>(stop - start).count() << "ms" << endl;
	}
}
Esempio n. 10
0
void
Renderer_Ducks::render_vfunc(
	const Glib::RefPtr<Gdk::Drawable>& drawable,
	const Gdk::Rectangle& /*expose_area*/
)
{
	assert(get_work_area());
	if(!get_work_area())
		return;

	const synfig::Point window_start(get_work_area()->get_window_tl());
	const float pw(get_pw()),ph(get_ph());

	const bool solid_lines(get_work_area()->solid_lines);
	bool alternative = get_work_area()->get_alternative_mode();

	const std::list<etl::handle<Duckmatic::Bezier> >& bezier_list(get_work_area()->bezier_list());
	const std::list<handle<Duckmatic::Stroke> >& stroke_list(get_work_area()->stroke_list());
	Glib::RefPtr<Pango::Layout> layout(Pango::Layout::create(get_work_area()->get_pango_context()));

	Cairo::RefPtr<Cairo::Context> cr = drawable->create_cairo_context();

	cr->save();
	cr->set_line_cap(Cairo::LINE_CAP_BUTT);
	cr->set_line_join(Cairo::LINE_JOIN_MITER);

	// Render the strokes
	for(std::list<handle<Duckmatic::Stroke> >::const_iterator iter=stroke_list.begin();iter!=stroke_list.end();++iter)
	{
		cr->save();

		std::list<synfig::Point>::iterator iter2;
		for(iter2=(*iter)->stroke_data->begin();iter2!=(*iter)->stroke_data->end();++iter2)
		{
			cr->line_to(
				((*iter2)[0]-window_start[0])/pw,
				((*iter2)[1]-window_start[1])/ph
				);
		}

		cr->set_line_width(1.0);
		cr->set_source_rgb(
			colorconv_synfig2gdk((*iter)->color).get_red_p(),
			colorconv_synfig2gdk((*iter)->color).get_green_p(),
			colorconv_synfig2gdk((*iter)->color).get_blue_p()
			);
		cr->stroke();

		cr->restore();
	}



	// Render the beziers
	for(std::list<handle<Duckmatic::Bezier> >::const_iterator iter=bezier_list.begin();iter!=bezier_list.end();++iter)
	{
		Point p1((*iter)->p1->get_trans_point()-window_start);
		Point p2((*iter)->p2->get_trans_point()-window_start);
		Point c1((*iter)->c1->get_trans_point()-window_start);
		Point c2((*iter)->c2->get_trans_point()-window_start);
		p1[0]/=pw;p1[1]/=ph;
		p2[0]/=pw;p2[1]/=ph;
		c1[0]/=pw;c1[1]/=ph;
		c2[0]/=pw;c2[1]/=ph;

		cr->save();

		cr->move_to(p1[0], p1[1]);
		cr->curve_to(c1[0], c1[1], c2[0], c2[1], p2[0], p2[1]);

/*
		if (solid_lines)
		{
			cr->set_source_rgb(0,0,0); // DUCK_COLOR_BEZIER_1
			cr->set_line_width(3.0);
			cr->stroke_preserve();

			cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0); //DUCK_COLOR_BEZIER_2
			cr->set_line_width(1.0);
			cr->stroke();
		}
		else
*/
		{
			//Solid line background
			cr->set_line_width(1.0);
			cr->set_source_rgb(0,0,0); // DUCK_COLOR_BEZIER_1
			cr->stroke_preserve();

			//Dashes
			cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0); //DUCK_COLOR_BEZIER_2
			std::valarray<double> dashes(2);
			dashes[0]=5.0;
			dashes[1]=5.0;
			cr->set_dash(dashes, 0);
			cr->stroke();
		}
		cr->restore();
	}


	const DuckList duck_list(get_work_area()->get_duck_list());

	std::list<ScreenDuck> screen_duck_list;
	const float radius((abs(pw)+abs(ph))*4);

	etl::handle<Duck> hover_duck(get_work_area()->find_duck(get_work_area()->get_cursor_pos(),radius, get_work_area()->get_type_mask()));

	// Render the ducks
	for(std::list<handle<Duck> >::const_iterator iter=duck_list.begin();iter!=duck_list.end();++iter)
	{

		// If this type of duck has been masked, then skip it
		if(!(*iter)->get_type() || (!(get_work_area()->get_type_mask() & (*iter)->get_type())))
			continue;

		Point sub_trans_point((*iter)->get_sub_trans_point());
		Point sub_trans_origin((*iter)->get_sub_trans_origin());

		if (App::restrict_radius_ducks &&
			(*iter)->is_radius())
		{
			if (sub_trans_point[0] < sub_trans_origin[0])
				sub_trans_point[0] = sub_trans_origin[0];
			if (sub_trans_point[1] < sub_trans_origin[1])
				sub_trans_point[1] = sub_trans_origin[1];
		}

		Point point((*iter)->get_transform_stack().perform(sub_trans_point));
		Point origin((*iter)->get_transform_stack().perform(sub_trans_origin));

		point[0]=(point[0]-window_start[0])/pw;
		point[1]=(point[1]-window_start[1])/ph;

		bool has_connect = (*iter)->get_tangent()
		                || ((*iter)->get_type()&( Duck::TYPE_ANGLE
		                					   | Duck::TYPE_SKEW
		        		                       | Duck::TYPE_SCALE_X
		        		                       | Duck::TYPE_SCALE_Y ));
		if((*iter)->get_connect_duck())
		{
			has_connect=true;
			origin=(*iter)->get_connect_duck()->get_trans_point();
		}

		origin[0]=(origin[0]-window_start[0])/pw;
		origin[1]=(origin[1]-window_start[1])/ph;

		bool selected(get_work_area()->duck_is_selected(*iter));
		bool hover(*iter==hover_duck || (*iter)->get_hover());

		if(get_work_area()->get_selected_value_node())
		{
			synfigapp::ValueDesc value_desc((*iter)->get_value_desc());
			if (value_desc.is_valid() &&
				((value_desc.is_value_node()		&& get_work_area()->get_selected_value_node() == value_desc.get_value_node()) ||
				 (value_desc.parent_is_value_node()	&& get_work_area()->get_selected_value_node() == value_desc.get_parent_value_node())))
			{
				cr->save();

				cr->rectangle(
					round_to_int(point[0]-5),
					round_to_int(point[1]-5),
					10,
					10
					);

				cr->set_line_width(2.0);
				cr->set_source_rgb(1, 0, 0); //DUCK_COLOR_SELECTED
				cr->stroke();

				cr->restore();
			}

		}

		if((*iter)->get_box_duck())
		{
			Point boxpoint((*iter)->get_box_duck()->get_trans_point());
			boxpoint[0]=(boxpoint[0]-window_start[0])/pw;
			boxpoint[1]=(boxpoint[1]-window_start[1])/ph;
			Point tl(min(point[0],boxpoint[0]),min(point[1],boxpoint[1]));

			cr->save();

			cr->rectangle(
				round_to_int(tl[0]),
				round_to_int(tl[1]),
				round_to_int(abs(boxpoint[0]-point[0])),
				round_to_int(abs(boxpoint[1]-point[1]))
				);

			// Solid white box
			cr->set_line_width(1.0);
			cr->set_source_rgb(1,1,1); //DUCK_COLOR_BOX_1
			cr->stroke_preserve();

			// Dashes
			cr->set_source_rgb(0,0,0); //DUCK_COLOR_BOX_2
			std::valarray<double> dashes(2);
			dashes[0]=5.0;
			dashes[1]=5.0;
			cr->set_dash(dashes, 0);
			cr->stroke();

			cr->restore();
		}

		if((*iter)->is_axes_tracks())
		{
			Point pos((*iter)->get_point());
			Point points[] = {
				(*iter)->get_sub_trans_origin(),
				(*iter)->get_sub_trans_point(Point(pos[0],0)),
				(*iter)->get_sub_trans_point(),
				(*iter)->get_sub_trans_point(Point(0,pos[1])),
				(*iter)->get_sub_trans_origin()
			};

			cr->save();

			for(int i = 0; i < 5; i++) {
				Point p((*iter)->get_transform_stack().perform(points[i]));
				Real x = (p[0]-window_start[0])/pw;
				Real y = (p[1]-window_start[1])/ph;
				if (i == 0) cr->move_to(x, y); else cr->line_to(x, y);
			}

			// Solid white box
			cr->set_line_width(1.0);
			cr->set_source_rgb(1,1,1); //DUCK_COLOR_BOX_1
			cr->stroke_preserve();

			// Dashes
			cr->set_source_rgb(0,0,0); //DUCK_COLOR_BOX_2
			std::valarray<double> dashes(2);
			dashes[0]=5.0;
			dashes[1]=5.0;
			cr->set_dash(dashes, 0);
			cr->stroke();

			cr->restore();
		}

		ScreenDuck screen_duck;
		screen_duck.pos=point;
		screen_duck.selected=selected;
		screen_duck.hover=hover;
		screen_duck.has_alternative=(*iter)->get_alternative_value_desc().is_valid();

		if(!(*iter)->get_editable(alternative))
			screen_duck.color=(DUCK_COLOR_NOT_EDITABLE);
		else if((*iter)->get_tangent())
			if(0){
				// Tangents have different color depending on the split state (disabled for now)
				//
				// Check if we can reach the canvas and set the time to
				// evaluate the split value accordingly
				synfig::Canvas::Handle canvas_h(get_work_area()->get_canvas());
				synfig::Time time(canvas_h?canvas_h->get_time():synfig::Time(0));
				// Retrieve the split value of the bline point.
				const synfigapp::ValueDesc& v_d((*iter)->get_value_desc());
				synfig::LinkableValueNode::Handle parent;
				if(v_d.parent_is_linkable_value_node())
				{
					parent=v_d.get_parent_value_node();
					bool split;
					synfig::ValueNode::Handle child(parent->get_link("split"));
					if(synfig::ValueNode_Animated::Handle::cast_dynamic(child))
					{
						synfig::ValueNode_Animated::Handle animated_child(synfig::ValueNode_Animated::Handle::cast_dynamic(child));
						split=animated_child->new_waypoint_at_time(time).get_value(time).get(split);
					}
					else if(synfig::ValueNode_Const::Handle::cast_dynamic(child))
					{
						synfig::ValueNode_Const::Handle const_child(synfig::ValueNode_Const::Handle::cast_dynamic(child));
						split=(const_child->get_value()).get(split);
					}
					screen_duck.color=(split? DUCK_COLOR_TANGENT_2 : DUCK_COLOR_TANGENT_1);
				}
				else
					screen_duck.color=DUCK_COLOR_TANGENT_1;
			} else {
				// All tangents are the same color
				screen_duck.color=((*iter)->get_scalar()<0 ? DUCK_COLOR_TANGENT_1 : DUCK_COLOR_TANGENT_1);
			}
		else if((*iter)->get_type()&Duck::TYPE_VERTEX)
			screen_duck.color=DUCK_COLOR_VERTEX;
		else if((*iter)->get_type()&Duck::TYPE_RADIUS)
			screen_duck.color=((*iter)->is_linear() ? DUCK_COLOR_LINEAR : DUCK_COLOR_RADIUS);
		else if((*iter)->get_type()&Duck::TYPE_WIDTH)
			screen_duck.color=DUCK_COLOR_WIDTH;
		else if((*iter)->get_type()&Duck::TYPE_ANGLE)
			screen_duck.color=(DUCK_COLOR_ANGLE);
		else if((*iter)->get_type()&Duck::TYPE_WIDTHPOINT_POSITION)
			screen_duck.color=(DUCK_COLOR_WIDTHPOINT_POSITION);
		else
			screen_duck.color=DUCK_COLOR_OTHER;

		screen_duck_list.push_front(screen_duck);

		if(has_connect)
		{
			cr->save();

			cr->move_to(origin[0], origin[1]);
			cr->line_to(point[0], point[1]);

			if(solid_lines)
			{
				// Outside
				cr->set_line_width(3.0);
				cr->set_source_rgb(0,0,0); //DUCK_COLOR_CONNECT_OUTSIDE
				cr->stroke_preserve();

				// Inside
				cr->set_line_width(1.0);
				cr->set_source_rgb(159.0/255,239.0/255,239.0/255); //DUCK_COLOR_CONNECT_INSIDE
				cr->stroke();
			}
			else
			{
				// White background
				cr->set_line_width(1.0);
				cr->set_source_rgb(0,0,0); //DUCK_COLOR_CONNECT_OUTSIDE
				cr->stroke_preserve();

				// Dashes on top of the background
				cr->set_source_rgb(159.0/255,239.0/255,239.0/255); //DUCK_COLOR_CONNECT_INSIDE
				std::valarray<double> dashes(2);
				dashes[0]=5.0;
				dashes[1]=5.0;
				cr->set_dash(dashes, 0);
				cr->stroke();
			}

			cr->restore();
		}

		if((*iter)->is_radius())
		{
			if (!(*iter)->is_linear())
			{
				const Real mag((point-origin).mag());

				cr->save();

				cr->arc(
					origin[0],
					origin[1],
					mag,
					0,
					M_PI*2
					);

				if(solid_lines)
				{
					cr->set_line_width(3.0);
					cr->set_source_rgb(0,0,0);
					cr->stroke_preserve();

					cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0);
				}
				else
				{
					cr->set_source_rgb(1.0,1.0,1.0);

					// Operator difference was added in Cairo 1.9.4
					// It currently isn't supported by Cairomm
	#if CAIRO_VERSION >= 10904
					cairo_set_operator(cr->cobj(), CAIRO_OPERATOR_DIFFERENCE);
	#else
					// Fallback: set color to black
					cr->set_source_rgb(0,0,0);
	#endif

				}

				cr->set_line_width(1.0);
				cr->stroke();

				cr->restore();
			}

			if(hover)
			{
				Real mag;
				if ((*iter)->get_exponential()){
					mag = log((*iter)->get_point().mag());
				}
				else if (App::restrict_radius_ducks)
				{
					Point sub_trans_point((*iter)->get_sub_trans_point());
					Point sub_trans_origin((*iter)->get_sub_trans_origin());

					if (sub_trans_point[0] < sub_trans_origin[0])
						sub_trans_point[0] = sub_trans_origin[0];
					if (sub_trans_point[1] < sub_trans_origin[1])
						sub_trans_point[1] = sub_trans_origin[1];

					Point point((*iter)->get_transform_stack().perform(sub_trans_point));
					Point origin((*iter)->get_transform_stack().perform(sub_trans_origin));

					mag = (point-origin).mag();
				}
				else
					mag = ((*iter)->get_trans_point()-(*iter)->get_trans_origin()).mag();

				Distance real_mag(mag, Distance::SYSTEM_UNITS);
				if (!(*iter)->get_exponential())
					real_mag.convert(App::distance_system,get_work_area()->get_rend_desc());

				cr->save();

				layout->set_text(real_mag.get_string());

				cr->set_source_rgb(0,0,0); // DUCK_COLOR_WIDTH_TEXT_1
				cr->move_to(
					point[0]+1+6,
					point[1]+1-8
					);
				layout->show_in_cairo_context(cr);
				cr->stroke();


				cr->set_source_rgb(1,0,1); // DUCK_COLOR_WIDTH_TEXT_2
				cr->move_to(
					point[0]+6,
					point[1]-8
					);
				layout->show_in_cairo_context(cr);
				cr->stroke();

				cr->restore();
			}

		}

		if((*iter)->get_type()&&Duck::TYPE_WIDTHPOINT_POSITION)
		{
			if(hover)
			{
				synfig::Canvas::Handle canvas_h(get_work_area()->get_canvas());
				synfig::Time time(canvas_h?canvas_h->get_time():synfig::Time(0));
				synfigapp::ValueDesc value_desc((*iter)->get_value_desc());
				synfig::ValueNode_WPList::Handle wplist=NULL;
				ValueNode_Composite::Handle wpoint_composite=NULL;
				Real radius=0.0;
				Real new_value;
				Point p(sub_trans_point-sub_trans_origin);
				if(value_desc.parent_is_value_node())
					wplist=synfig::ValueNode_WPList::Handle::cast_dynamic(value_desc.get_parent_value_node());
				if(wplist)
				{
					bool wplistloop(wplist->get_loop());
					synfig::ValueNode_BLine::Handle bline(synfig::ValueNode_BLine::Handle::cast_dynamic(wplist->get_bline()));
					wpoint_composite=ValueNode_Composite::Handle::cast_dynamic(value_desc.get_value_node());
					if(bline && wpoint_composite)
					{
						bool blineloop(bline->get_loop());
						bool homogeneous=false;
						// Retrieve the homogeneous layer parameter
						std::set<Node*>::iterator iter;
						for(iter=wplist->parent_set.begin();iter!=wplist->parent_set.end();++iter)
							{
								Layer::Handle layer;
								layer=Layer::Handle::cast_dynamic(*iter);
								if(layer && layer->get_name() == "advanced_outline")
								{
									homogeneous=layer->get_param("homogeneous").get(bool());
									break;
								}
							}
						WidthPoint wp((*wpoint_composite)(time).get(WidthPoint()));
						if(wplistloop)
						{
							// The wplist is looped. This may require a position parameter
							// outside the range of 0-1, so make sure that the position doesn't
							// change drastically.
							// First normalise the current position
							Real value_old(wp.get_norm_position(wplistloop));
							Real value_old_b(wp.get_bound_position(wplistloop));
							// If it is homogeneous then convert it to standard
							value_old=homogeneous?hom_to_std((*bline)(time), value_old, wplistloop, blineloop):value_old;
							// grab a new position given by duck's position on the bline
							Real value_new = synfig::find_closest_point((*bline)(time), p , radius, blineloop);
							// calculate the difference between old and new positions
							Real difference = fmod( fmod(value_new - value_old, 1.0) + 1.0 , 1.0);
							//fmod is called twice to avoid negative values
							if (difference > 0.5)
								difference=difference-1.0;
							// calculate a new value for the position
							new_value=value_old+difference;
							// restore the homogeneous value if needed
							new_value = homogeneous?std_to_hom((*bline)(time), new_value, wplistloop, blineloop):new_value;
							// this is the difference between the new value and the old value inside the boundaries
							Real bound_diff((wp.get_lower_bound() + new_value*(wp.get_upper_bound()-wp.get_lower_bound()))-value_old_b);
							// add the new diff to the current value
							new_value = wp.get_position() + bound_diff;
						}
						else
						{
							// grab a new position given by duck's position on the bline
							new_value = synfig::find_closest_point((*bline)(time), p , radius, blineloop);
							// if it is homogeneous then convert to it
							new_value=homogeneous?std_to_hom((*bline)(time), new_value, wplistloop, blineloop):new_value;
							// convert the value inside the boundaries
							new_value = wp.get_lower_bound()+new_value*(wp.get_upper_bound()-wp.get_lower_bound());
						}
						cr->save();
						layout->set_text(strprintf("%2.3f", new_value));

						cr->set_source_rgb(0,0,0); // DUCK_COLOR_WIDTH_TEXT_1
						cr->move_to(
							point[0]+1+6,
							point[1]+1-18
							);
						layout->show_in_cairo_context(cr);
						cr->stroke();


						cr->set_source_rgb(1,0,1); // DUCK_COLOR_WIDTH_TEXT_2
						cr->move_to(
							point[0]+6,
							point[1]-18
							);
						layout->show_in_cairo_context(cr);
						cr->stroke();

						cr->restore();
					}
				}
			}
		}

	}

	for(;screen_duck_list.size();screen_duck_list.pop_front())
	{
		Gdk::Color color(screen_duck_list.front().color);
		double radius = 4;
		double outline = 1;
		bool duck_alternative = alternative && screen_duck_list.front().has_alternative;

		// Draw the hovered duck last (on top of everything)
		if(screen_duck_list.front().hover && !screen_duck_list.back().hover && screen_duck_list.size()>1)
		{
			screen_duck_list.push_back(screen_duck_list.front());
			continue;
		}

		cr->save();

		if(!screen_duck_list.front().selected)
		{
			color.set_red(color.get_red()*2/3);
			color.set_green(color.get_green()*2/3);
			color.set_blue(color.get_blue()*2/3);
		}

		if(screen_duck_list.front().hover)
		{
			radius += 1;
			outline += 1;
		}

		cr->arc(
			screen_duck_list.front().pos[0],
			screen_duck_list.front().pos[1],
			radius,
			0,
			M_PI*2
			);

		cr->set_source_rgba(
			color.get_red_p(),
			color.get_green_p(),
			color.get_blue_p(),
			duck_alternative ? 0.5 : 1.0
			);
		cr->fill_preserve();

		cr->set_line_width(outline);
		cr->set_source_rgba(0,0,0,1); //DUCK_COLOR_OUTLINE
		cr->stroke();

		cr->restore();
	}
}
void VistaUnionEntidadRelacion::dibujar(Cairo::RefPtr<Cairo::Context> cr) {
    // Dibujo el cuadrado en el contexto
    // Ancho de linea arbitrario
    cr->set_line_width(1);
    if (!this->seleccionado) {
        cr->set_source_rgb(colorNegro.get_red_p(), colorNegro.get_green_p(),
                           colorNegro.get_blue_p());
    } else {
        cr->set_source_rgb(colorDeSeleccion.get_red_p(), colorDeSeleccion.get_green_p(),
                           colorDeSeleccion.get_blue_p());
    }
    double x0, x1, x2, x3, y0, y1, y2, y3;
    this->entidad->getposini(x0, y0);
    this->entidad->getposfin(x1, y1);
    this->relacion->getposini(x2, y2);
    this->relacion->getposfin(x3, y3);

    this->actualizar_coordenadas();

    // TODO VER SI LO PONGO EN ENTIDAD
    //if (!this->entidad->esDebil()) {

    this->entidad->obtenerInterseccionConLinea(this->pos_ini_x, this->pos_ini_y, this->pos_fin_x,
            this->pos_fin_y, this->pos_ini_x, this->pos_ini_y);
    this->relacion->obtenerInterseccionConLinea(this->pos_ini_x, this->pos_ini_y, this->pos_fin_x,
            this->pos_fin_y, this->pos_fin_x, this->pos_fin_y);

    cr->move_to(this->pos_ini_x, this->pos_ini_y);
    cr->line_to(this->pos_fin_x, this->pos_fin_y);

    cr->stroke();
    /*} else {

     Geometria::obtenerLineasParalelas(this->pos_ini_x, this->pos_ini_y, this->pos_fin_x,
     this->pos_fin_y, 1.6, x0, y0, x1, y1, x2, y2, x3, y3);

     this->entidad->obtenerInterseccionConLinea(x0, y0, x1, y1, x0, y0);
     this->relacion->obtenerInterseccionConLinea(x0, y0, x1, y1, x1, y1);
     this->entidad->obtenerInterseccionConLinea(x2, y2, x3, y3, x2, y2);
     this->relacion->obtenerInterseccionConLinea(x2, y2, x3, y3, x3, y3);

     cr->move_to(x0, y0);
     cr->line_to(x1, y1);
     cr->stroke();

     cr->move_to(x2, y2);
     cr->line_to(x3, y3);
     cr->stroke();

     }*/

    if (this->dibujar_cardinalidad) {
        Cairo::TextExtents textExtents;
        std::string texto;
        texto = "(";
        texto.append(this->unionModelo->getCardinalidadMinima());
        texto.append(";");
        texto.append(this->unionModelo->getCardinalidadMaxima());
        texto.append(")");
        if (this->unionModelo->getRol() != "") {
            texto.append(":");
            texto.append(this->unionModelo->getRol());
        }
        cr->get_text_extents(texto, textExtents);
        double x_texto, y_texto;
        Geometria::obtenerPuntoDeDibujoDeTextoCentradoEnLinea(this->pos_ini_x, this->pos_ini_y,
                this->pos_fin_x, this->pos_fin_y, textExtents.width, textExtents.height, x_texto,
                y_texto);
        cr->move_to(x_texto, y_texto);
        cr->show_text(texto);
        cr->stroke();

    }
}
Esempio n. 12
0
	void set_line_width__(Glib::ustring& d1){
		cr_->set_line_width(s2f__(d1));
	}
Esempio n. 13
0
static void
draw_text (Cairo::RefPtr<Cairo::Context> cr, int wdh, int hgt)
{
    RefPtr<Pango::Layout> layout = Pango::Layout::create(cr);
    //layout->set_single_paragraph_mode(true);
    layout->set_text("MTextTextM\nAbc\nff");


    Pango::FontDescription dsc(FONT);
    layout->set_font_description(dsc);

    int t_wdh, t_hgt;
    layout->get_size(t_wdh, t_hgt);

    double t_sz = (double)dsc.get_size()/t_wdh;
    double new_sz = wdh * t_sz ;

    io::cout << "new_sz " << new_sz << io::endl;
    io::cout << "wdh " << wdh << io::endl;

    dsc.set_size( int(new_sz*PANGO_SCALE) );
    layout->set_font_description(dsc);

    layout->get_size(t_wdh, t_hgt);
    io::cout << "t_wdh " << t_wdh/(double)PANGO_SCALE << io::endl;

    // для наглядности
    cr->set_line_width(1.0);
    cr->rectangle(0, 0, wdh, hgt);
    cr->stroke();


    cr->save();

    cr->move_to(0, 0);
    cr->scale( 1.0, hgt / ((double)t_hgt/PANGO_SCALE) );
    //cr->scale( wdh / ((double)t_wdh/PANGO_SCALE), hgt / ((double)t_hgt/PANGO_SCALE) );

    layout->update_from_cairo_context(cr);

    pango_cairo_show_layout(cr->cobj(), layout->gobj());

    {
        Pango::Rectangle w_rct, s_rct;
        int cur_pos;

        cur_pos = 1;
        layout->get_cursor_pos(cur_pos, w_rct, s_rct);
        pango_extents_to_pixels(0, w_rct.gobj());

        io::cout << "curs - x, y, hgt " << w_rct.get_x() << " " << w_rct.get_y() << " " << w_rct.get_height() << io::endl;
        cr->move_to(w_rct.get_x()+5, w_rct.get_y());
        cr->line_to(w_rct.get_x()+5, w_rct.get_y()+w_rct.get_height());
        cr->stroke();


        cur_pos = 11;
        layout->get_cursor_pos(cur_pos, w_rct, s_rct);
        pango_extents_to_pixels(0, w_rct.gobj());

        io::cout << "curs - x, y, hgt " << w_rct.get_x() << " " << w_rct.get_y() << " " << w_rct.get_height() << io::endl;
        cr->move_to(w_rct.get_x()+5, w_rct.get_y());
        cr->line_to(w_rct.get_x()+5, w_rct.get_y()+w_rct.get_height());
        cr->stroke();

    }


    cr->restore();
}
Esempio n. 14
0
int render_png(Graph* graph)
{
	int i_side = (graph->side_length - 1) * SPACING + PADDING;

	//Cairo ImageSurface. This one will be saved afterwards as a png file
	Cairo::RefPtr<Cairo::ImageSurface> surface = Cairo::ImageSurface::create(Cairo::FORMAT_ARGB32, i_side + PADDING * 2, i_side + PADDING * 2);
	//Cairo Context.
	Cairo::RefPtr<Cairo::Context> cr = Cairo::Context::create(surface);

	cr->save(); // save the state of the context
	cr->set_source_rgb(1.0, 1.0, 1.0);
	cr->paint(); // fill image with the color
	cr->restore(); // color is back to black now

	//Storing state to start drawing
	cr->save();

	//setting brush color to black
	cr->set_source_rgb(0.0, 0.0, 0.0);

	cr->set_line_width(1.0);

	//drawing lines
	for (int i = 0; i < graph->side_length; i++) {
		for (int j = 0; j < graph->side_length; j++) {
			//for a current node
			Node* current = graph->matrix.at(i).at(j);
			//find all friends
			for (int k = 0; k < current->friends.size(); k++) {
				pair<int, int> current_friend = *std::next(current->friends.begin(), k);
				//Move brush to current node
				cr->move_to(current->coors.first * SPACING + PADDING, current->coors.second * SPACING + PADDING);
				//Draw a line to current friend
				cr->line_to(current_friend.first * SPACING + PADDING, current_friend.second * SPACING + PADDING);
				cr->stroke();
			}
		}
	}

	//setting brush color to red
	cr->set_source_rgb(1.0, 0.0, 0.0);

	//drawing vertices after lines are drawn
	for (int i = 0; i < graph->side_length; i++) {
		for (int j = 0; j < graph->side_length; j++) {
			Node* current = graph->matrix.at(i).at(j);
			cr->arc(current->coors.first * SPACING + PADDING, current->coors.second * SPACING + PADDING, 1.0, 0.0, 2.0 * M_PI);
			cr->stroke();
		}
	}

	cr->restore();

#ifdef CAIRO_HAS_PNG_FUNCTIONS

	std::string filename = build_name("result");
	surface->write_to_png(filename);

	std::cout << "Wrote png file \"" << filename << "\"" << std::endl;

#else

	std::cout << "You must compile cairo with PNG support for this example to work."
	          << std::endl;

#endif
}
Esempio n. 15
0
    void NodeSurface::DrawPorts( 
        Cairo::RefPtr<Cairo::Context> refCairo, 
        TopologyNode* pNode )
    {
        refCairo->save();

        const float k_divisor = 255.0;
        float red = 38 / k_divisor;
        float green = 199 / k_divisor;
        float blue = 38 / k_divisor;
        refCairo->set_source_rgb( red, green, blue );

        refCairo->set_source_rgb( 0, 0, 0 );

        refCairo->set_line_width( 5 );

        int numChildren = 0;
        for ( unsigned int i=0; i < pNode->GetNumPorts(); i++ )
        {
            if ( pNode->GetPortType(i) == TopologyNode::CONNECTED_TO_CHILD )
            {
                numChildren++;
            }
        }

        int childIndex = 0;
        for ( unsigned int i=0; i < pNode->GetNumPorts(); i++ )
        {
            TopologyNode::PortType currPort = pNode->GetPortType(i);

            switch (currPort)
            {
            case TopologyNode::NOT_CONNECTED:
                break;

            case TopologyNode::CONNECTED_TO_PARENT:                
                {
                    refCairo->move_to( sk_nodeWidth/2 - sk_portWidth/2, 0 );
                    refCairo->rel_line_to( sk_portWidth, 0 );
                    refCairo->rel_line_to( 0, sk_portHeight );
                    refCairo->rel_line_to( -sk_portWidth, 0 );
                    refCairo->fill();
                }
                break;

            case TopologyNode::CONNECTED_TO_CHILD:
                {
                    int startX = (sk_nodeWidth / (numChildren+1)) * (childIndex+1);

                    refCairo->move_to( startX - sk_portWidth/2, sk_nodeHeight );
                    refCairo->rel_line_to( sk_portWidth, 0 );
                    refCairo->rel_line_to( 0, -sk_portHeight );
                    refCairo->rel_line_to( -sk_portWidth, 0 );
                    refCairo->fill();                    
 
                    childIndex++;
                }
                break;

            default:
                break;

            }
        }

        refCairo->restore();
    }
void VistaIdentificador::dibujar(Cairo::RefPtr<Cairo::Context> cr) {
	std::vector<VistaAtributo *>::iterator i;
	std::vector<VistaUnionEntidadRelacion *>::iterator j;
	cr->set_line_width(1);
	if (!this->seleccionado) {
		cr->set_source_rgb(colorNegro.get_red_p(), colorNegro.get_green_p(),
				colorNegro.get_blue_p());
	} else {
		cr->set_source_rgb(colorDeSeleccion.get_red_p(), colorDeSeleccion.get_green_p(),
				colorDeSeleccion.get_blue_p());
	}

	double x0, x1, y0, y1;

	if (this->vistasAtributo.size() == 1) {
		if (this->vistasEntidadesFuertes.empty()) {
			this->vistasAtributo[0]->setEsIdentificador(true);
			this->vistasAtributo[0]->dibujar(cr);
		} else {
			this->vistasAtributo[0]->getPuntoMedioLinea(x0, y0);
			cr->arc(x0, y0, RADIO_CIRCULOS_REDIMENSION, 0, 2 * M_PI);
			cr->fill();
			cr->move_to(x0, y0);
			for (j = this->vistasEntidadesFuertes.begin(); j != this->vistasEntidadesFuertes.end();
					j++) {
				(*j)->getPuntoMedioLinea(x1, y1);
				cr->line_to(x1, y1);
				cr->stroke();
				cr->arc(x1, y1, RADIO_CIRCULOS_REDIMENSION, 0, 2 * M_PI);
				cr->fill();
				cr->move_to(x0, y0);
			}
			cr->stroke();
		}
	} else {
		this->vistasAtributo[0]->getPuntoMedioLinea(x0, y0);
		cr->arc(x0, y0, RADIO_CIRCULOS_REDIMENSION, 0, 2 * M_PI);
		cr->fill();
		cr->move_to(x0, y0);

		for (i = (this->vistasAtributo.begin() + 1); i != this->vistasAtributo.end(); i++) {
			(*i)->getPuntoMedioLinea(x1, y1);
			cr->line_to(x1, y1);
			cr->stroke();
			cr->arc(x1, y1, RADIO_CIRCULOS_REDIMENSION, 0, 2 * M_PI);
			cr->fill();
			cr->move_to(x1, y1);
		}
		cr->stroke();
		if (!this->vistasEntidadesFuertes.empty()) {
			cr->move_to(x0, y0);
			for (j = this->vistasEntidadesFuertes.begin(); j != this->vistasEntidadesFuertes.end();
					j++) {
				(*j)->getPuntoMedioLinea(x1, y1);
				cr->line_to(x1, y1);
#if DEBUG_DIBUJAR==1
				cout << "X1=" << x1 << " Y1=" << y1 << endl;
#endif
				cr->stroke();
				cr->arc(x1, y1, RADIO_CIRCULOS_REDIMENSION, 0, 2 * M_PI);
				cr->fill();
				cr->move_to(x0, y0);
			}
			cr->stroke();
		}
	}

	/*if (this->vistaAtributos.empty()) {
	 double radio;
	 radio = 3;
	 centro_x = this->pos_ini_x + radio;
	 centro_y = this->pos_ini_y + radio;

	 this->pos_fin_x = centro_x + radio;
	 this->pos_fin_y = centro_y + radio;

	 //cr->move_to(centro_x, this->pos_ini_y);
	 cr->arc(centro_x, centro_y, radio, 0, 2 * M_PI);
	 // TODO if es parte de una clave candidata FILL
	 //cr->fill();
	 cr->stroke();
	 } else {
	 double delta_x, delta_y;
	 if (this->pos_fin_x < this->pos_ini_x || this->pos_fin_y < this->pos_ini_y) {
	 cr->get_text_extents(this->atributo->getNombre(), textExtents);
	 this->calcularDimensionesAPartirDeTexto(&textExtents);
	 }
	 // Dibujo una elipse
	 centro_x = (this->pos_ini_x + this->pos_fin_x) / 2;
	 centro_y = (this->pos_ini_y + this->pos_fin_y) / 2;
	 delta_x = centro_x - this->pos_ini_x;
	 delta_y = centro_y - this->pos_ini_y;

	 this->dibujarNombreCentrado(cr, this->atributo->getNombre());

	 cr->save();
	 cr->set_line_width(2 / MAX(delta_x, delta_y));// make (centro_x, centro_y) == (0, 0)
	 cr->translate(centro_x, centro_y);
	 cr->scale(delta_x, delta_y);
	 cr->arc(0.0, 0.0, 1.0, 0.0, 2 * M_PI);
	 cr->stroke();
	 cr->restore(); // back to opaque black
	 if (this->seleccionado) {
	 dibujarCirculosDeRedimension(cr);
	 }
	 }*/
}
Esempio n. 17
0
void OutputFile::generate() {
    unsigned E=es.size();
    bool cleanupRoutes=false;
    if(routes==NULL) {
        cleanupRoutes=true;
        routes = new vector<straightener::Route*>(E);
        for(unsigned i=0;i<E;i++) {
            straightener::Route* r=new straightener::Route(2);
            r->xs[0]=rs[es[i].first]->getCentreX();
            r->ys[0]=rs[es[i].first]->getCentreY();
            r->xs[1]=rs[es[i].second]->getCentreX();
            r->ys[1]=rs[es[i].second]->getCentreY();
            (*routes)[i]=r;
        }
    }

#if defined (CAIRO_HAS_SVG_SURFACE) && defined (CAIRO_HAS_PDF_SURFACE)
    double width,height,r=2;
    if(rects) r=rs[0]->width()/2;
    double xmin=DBL_MAX, ymin=xmin;
    double xmax=-DBL_MAX, ymax=xmax;
    for (unsigned i=0;i<rs.size();i++) {
        double x=rs[i]->getCentreX(), y=rs[i]->getCentreY();
        xmin=min(xmin,x);
        ymin=min(ymin,y);
        xmax=max(xmax,x);
        ymax=max(ymax,y);
    }
    xmax+=2*r;
    ymax+=2*r;
    xmin-=2*r;
    ymin-=2*r;
    width=xmax-xmin;
    height=ymax-ymin;

    Cairo::RefPtr<Cairo::Context> cr;
    openCairo(cr,width,height);

    /* set background colour
    cr->save(); // save the state of the context
    cr->set_source_rgb(0.86, 0.85, 0.47);
    cr->paint();    // fill image with the color
    cr->restore();  // color is back to black now
    */

    cr->set_line_width(1.);
    cr->set_font_size(8);
    cr->save();
    if(rc) for(Clusters::const_iterator c=rc->clusters.begin();c!=rc->clusters.end();c++) {
        draw_cluster_boundary(cr,**c,xmin,ymin);
    }
    if(curvedEdges)
        draw_curved_edges(cr,es,xmin,ymin);
    else 
        draw_edges(cr,*routes,xmin,ymin);
    Cairo::TextExtents te;
    for (unsigned i=0;i<rs.size();i++) {
        if(!rects) {
            double x=rs[i]->getCentreX()-xmin, y=rs[i]->getCentreY()-ymin;
            cr->arc(x,y,r, 0.0, 2.0 * M_PI);
            cr->fill();
        } else {
            double x=rs[i]->getMinX()-xmin+0.5, y=rs[i]->getMinY()-ymin+0.5;
            std::string str;
            if(labels.size()==rs.size()) {
                str=labels[i];
            } else {
                std::stringstream s; s<<i;
                str=s.str();
            }
            cr->get_text_extents(str,te);
            /*
            double llx = x-te.width/2.-1;
            double lly = y-te.height/2.-1;
            cr->rectangle(llx,lly,te.width+2,te.height+2);
            */
            cr->rectangle(x,y,
                    rs[i]->width()-1,rs[i]->height()-1);
            cr->stroke_preserve();
            cr->save();
            cr->set_source_rgba(245./255., 233./255., 177./255., 0.6);
            cr->fill();
            cr->restore();
            if(labels.size()==rs.size()) {
                cr->move_to(x-te.x_bearing+te.width/2.,y-te.y_bearing+te.height/2.);
                cr->show_text(str);
            }
            cr->stroke();
        }
    }

    cr->show_page();

    std::cout << "Wrote file \"" << fname << "\"" << std::endl;

#else
    std::cout << 
            "WARNING: cola::OutputFile::generate(): No SVG file produced." <<
            std::endl <<
            "         You must have cairomm (and cairo with SVG support) " <<
            "this to work." << std::endl;
#endif

    if(cleanupRoutes) {
        for(unsigned i=0;i<E;i++) {
            delete (*routes)[i];
        }
        delete routes;
    }
}
Esempio n. 18
0
bool graphView::on_draw(const Cairo::RefPtr<Cairo::Context>& cr){
	
	//Get the allocation of our widget, and get the height and width from it
	Gtk::Allocation wAllocation = this->get_allocation();
	const int wHeight = wAllocation.get_height();
	const int wWidth = wAllocation.get_width();
	
	const double lineWidth = wHeight;
	
	//scale the Cario context obj to the current wHeight and wWidth
	//cr->scale(wWidth, wHeight);
	//now change the offset point coordinates, so point (0,0) will be at (0.5,0.5)
	cr->translate(wWidth/2, wHeight/2);
	//set the line width to 2 px, this should be a settings for each graph in the futur
	cr->set_line_width(1);
	
	//paint the background white
	cr->set_source_rgb(1,1,1);
	cr->paint();
	
	//draw the coordinatesystem
	cr->set_source_rgb(0,0,0);
	cr->move_to(0,0);
	cr->line_to(wWidth,0);
	cr->move_to(0,0);
	cr->line_to(0,wHeight);
	cr->move_to(0,0);
	cr->line_to(-1*wWidth,0);
	cr->move_to(0,0);
	cr->line_to(0,-1*wHeight);
	
	//draw the axes unit, again this should't be hardcoded in the futur
	cr->move_to(0,0);
	
	for(int i = 1; i <= 25; i++)
	{
		cr->move_to((wWidth*0.5/25)*i,0);
		cr->rel_move_to(0, -8);
		cr->rel_line_to(0,16);
		cr->rel_move_to(0, -8);
		
		cr->move_to((wWidth*0.5/25)*-i,0);
		cr->rel_move_to(0, -8);
		cr->rel_line_to(0,16);
		cr->rel_move_to(0, -8);
		
	}
	
	cr->move_to(0, 0);
	
	for(int i = 1; i <= 25; i++)
	{
		cr->move_to(0,(wHeight*0.5/25)*i);
		cr->rel_move_to(-8,0);
		cr->rel_line_to(16,0);
		cr->rel_move_to(-8,0);
		
		cr->move_to(0,(wHeight*0.5/25)*-i);
		cr->rel_move_to(-8,0);
		cr->rel_line_to(16,0);
		cr->rel_move_to(-8,0);
		
	}
	
	cr->stroke();
	
	cr->set_source_rgb(0.8,0,0);
	if(this->tree)
	{
		cr->set_line_width(3);
		std::vector<equation*> eqs = this->tree->getEquations();
		
		double pxWidth = wWidth/50;
		double pxHeight = wHeight/50;
		
		for(int i = 0; i < eqs.size(); i++){
			
			equation *eq = eqs[i];
			
			for(double x = -25; x<= 25; x+= 0.01)
			{
				double y = eq->getYFromX(x);
				
				cr->move_to(x*pxWidth,-1*(y*pxHeight));
				cr->rel_line_to(1,1);
			}
			cr->stroke();
		}
	}
	
	return true;
}
Esempio n. 19
0
Cairo::RefPtr<Cairo::ImageSurface>
TextSurface::create_cairo_surface(const std::string& text, const TextProperties& text_props,
                                  Cairo::TextExtents& out_text_extents,
                                  Cairo::FontExtents& out_font_extents)
{
  { // get TextExtents and FontExtents
    Cairo::RefPtr<Cairo::ImageSurface> tmp_surface = Cairo::ImageSurface::create(Cairo::FORMAT_RGB24, 0, 0);
    Cairo::RefPtr<Cairo::Context> cr = Cairo::Context::create(tmp_surface);
    cr->set_font_size(text_props.get_font_size());
    cr->select_font_face(text_props.get_font(), Cairo::FONT_SLANT_NORMAL, Cairo::FONT_WEIGHT_NORMAL);
    cr->get_text_extents(text, out_text_extents);
    cr->get_font_extents(out_font_extents);
  }

  Cairo::RefPtr<Cairo::ImageSurface>
    surface = Cairo::ImageSurface::create(Cairo::FORMAT_ARGB32,
                                          static_cast<int>(out_text_extents.width  + text_props.get_line_width()),
                                          static_cast<int>(out_text_extents.height + text_props.get_line_width()));

  Cairo::RefPtr<Cairo::Context> cr = Cairo::Context::create(surface);

  // set the font
  cr->set_font_size(text_props.get_font_size());
  cr->select_font_face(text_props.get_font(), Cairo::FONT_SLANT_NORMAL, Cairo::FONT_WEIGHT_NORMAL);

  if (text_props.get_line_width() != 0)
  {
    // create path
    cr->move_to(-out_text_extents.x_bearing + text_props.get_line_width()/2.0,
                -out_text_extents.y_bearing + text_props.get_line_width()/2.0);
    cr->text_path(text);

    // paint
    cr->set_line_width(text_props.get_line_width());
    cr->set_line_join(Cairo::LINE_JOIN_ROUND);
    cr->set_source_rgb(0.0, 0.0, 0.0);
    cr->stroke();
  }

  // print text
  cr->move_to(-out_text_extents.x_bearing + text_props.get_line_width()/2.0,
              -out_text_extents.y_bearing + text_props.get_line_width()/2.0);
  cr->set_source_rgb(1.0, 1.0, 0.0);

  double y = -out_text_extents.y_bearing - out_font_extents.ascent;

  // toying around with color gradients
  if (false)
  {
    Cairo::RefPtr<Cairo::LinearGradient> gradient = Cairo::LinearGradient::create(0, y,
                                                                                  0, y + out_font_extents.ascent + out_font_extents.descent);
    gradient->add_color_stop_rgb(0.0, 1.0, 1.0, 0.0);
    gradient->add_color_stop_rgb(0.5, 1.0, 1.0, 1.0);
    gradient->add_color_stop_rgb(0.5, 0.4, 0.4, 0.2);
    gradient->add_color_stop_rgb(1.0, 1.0, 1.0, 0.0);
    cr->set_source(gradient);
  }

  cr->show_text(text);

  return surface;
}
Esempio n. 20
0
	virtual bool on_expose_event(GdkEventExpose* )
	{
		Glib::RefPtr<Gdk::Drawable> drawable = get_window();

		vc.get_frame(pixbuf);

		drawable->draw_pixbuf(get_style()->get_bg_gc(Gtk::STATE_NORMAL), pixbuf,
				0, 0, 0, 0, -1 , -1, Gdk::RGB_DITHER_NONE, 0, 0);

		Gdk::Point rect[4], barcode_center;
		string str;

		bool res = decode_barcode(pixbuf, rect, str, 500);

		if (res)
		{
			Cairo::RefPtr<Cairo::Context> cr = drawable->create_cairo_context();

			cr->set_line_width(3);
			cr->set_source_rgb(1, 0.0, 0.0);

			cr->move_to(rect[0].get_x(), rect[0].get_y());
			cr->line_to(rect[1].get_x(), rect[1].get_y());
			cr->line_to(rect[2].get_x(), rect[2].get_y());
			cr->line_to(rect[3].get_x(), rect[3].get_y());
			cr->line_to(rect[0].get_x(), rect[0].get_y());
			cr->stroke();

			DataMtxPlace distance(get_width(), get_height(),
					rect[0].get_x(), rect[0].get_y(),
					rect[1].get_x(), rect[1].get_y(),
					rect[2].get_x(), rect[2].get_y(),
					rect[3].get_x(), rect[3].get_y());

			cout << "Distance: " << distance.calcDistance() <<
					"\tSquare: " <<  distance.calcSquare() <<
					"\tDirection: " << distance.calcDirection() << endl;

			Glib::RefPtr<Pango::Layout> pango_layout = Pango::Layout::create(cr);

			Pango::FontDescription desc("Arial Rounded MT Bold");
			desc.set_size(14 * PANGO_SCALE);
			pango_layout->set_font_description(desc);
			pango_layout->set_alignment(Pango::ALIGN_CENTER);

			string text = "Msg: " + str + "\nDist: " +
					lexical_cast<string>(distance.calcDistance()) + "\nDir: " +
					lexical_cast<string>(distance.calcDirection());

			pango_layout->set_text(text);

			Gdk::Point* max_x, *min_x, *max_y, *min_y;
			boost::function<bool (Gdk::Point, Gdk::Point)> compare;

			compare = bind(less<int>(), bind(&Gdk::Point::get_x, _1), bind(&Gdk::Point::get_x, _2));
			max_x = max_element(rect, rect + 4, compare);
			min_x =	min_element(rect, rect + 4, compare);

			compare = bind(less<int>(), bind(&Gdk::Point::get_y, _1), bind(&Gdk::Point::get_y, _2));
			max_y = max_element(rect, rect + 4, compare);
			min_y =	min_element(rect, rect + 4, compare);

			barcode_center = Gdk::Point(
					(max_x->get_x() + min_x->get_x()) / 2,
					(max_y->get_y() + min_y->get_y()) / 2);

			const Pango::Rectangle extent = pango_layout->get_pixel_logical_extents();

			cr->move_to(barcode_center.get_x() - extent.get_width() / 2,
					barcode_center.get_y() - extent.get_height() / 2);

			pango_layout->show_in_cairo_context(cr);

//			cr->set_source_rgba(0, 0, 0, 0.6);
//
//			int i = 0;
//			if (center_barcode.get_x() < get_width() / 3)
//				i = 0;
//			else if (center_barcode.get_x() > (2 * get_width() / 3))
//				i = 2;
//			else
//				i = 1;
//
//			cr->rectangle(i * get_width() / 3,  0, i * get_width() / 3 + get_width() / 3, get_height());
//			cr->fill_preserve();
		}

//		cr->set_source_rgba(0, 0, 0, 0.6);
//		cr->move_to(get_width() / 3, 0);
//		cr->line_to(get_width() / 3, get_height());
//		cr->move_to(2 * get_width() / 3, 0);
//		cr->line_to(2 * get_width() / 3, get_height());
//		cr->stroke();

		return true;
	}
Esempio n. 21
0
bool knob::on_expose_event(GdkEventExpose* event)
{

  // This is where we draw on the window
  Glib::RefPtr<Gdk::Window> window = get_window();
  if(window)
  {
    Gtk::Allocation allocation = get_allocation();
    const int width = allocation.get_width();
    const int height = allocation.get_height() - (allocation.get_height()/3);
    const int height_offset = allocation.get_height()/6;

    // coordinates for the center of the window
    int xc, yc;
    xc = width / 2;
    yc = height / 2;

    Cairo::RefPtr<Cairo::Context> cr = window->create_cairo_context();
    cr->set_line_width(6.0);

    // clip to the area indicated by the expose event so that we only redraw
    // the portion of the window that needs to be redrawn
    cr->rectangle(event->area.x, event->area.y,
            event->area.width, event->area.height);
    cr->clip();
    
    // background grad

	Cairo::RefPtr<Cairo::LinearGradient> back_grad =
	Cairo::LinearGradient::create( 0,0,0,allocation.get_height() );

	switch (pos_mode)
	{
		case 0:
	        back_grad->add_color_stop_rgba(0,top_colour.get_red_p(),top_colour.get_green_p(),top_colour.get_blue_p(),1);
	        back_grad->add_color_stop_rgba(1,bottom_colour.get_red_p(),bottom_colour.get_green_p(),bottom_colour.get_blue_p(),1);
		break;

		case 1:
	        back_grad->add_color_stop_rgba(0,top_colour.get_red_p(),top_colour.get_green_p(),top_colour.get_blue_p(),1);
	        back_grad->add_color_stop_rgba(1,
			(bottom_colour.get_red_p() + top_colour.get_red_p())/2,
			(bottom_colour.get_green_p() + top_colour.get_green_p())/2,
			(bottom_colour.get_blue_p() + top_colour.get_blue_p())/2,
			1);
		break;

		case 2:
	        back_grad->add_color_stop_rgba(0,
			(bottom_colour.get_red_p() + top_colour.get_red_p())/2,
			(bottom_colour.get_green_p() + top_colour.get_green_p())/2,
			(bottom_colour.get_blue_p() + top_colour.get_blue_p())/2,
			1);
	        back_grad->add_color_stop_rgba(1,bottom_colour.get_red_p(),bottom_colour.get_green_p(),bottom_colour.get_blue_p(),1);
		break;
	}

	// fill background
	if (rounded<5)
	{
		rounded_rectangle(cr,rounded, grad_top_colour,
			grad_bottom_colour, event->area.x, event->area.y,
			event->area.width, event->area.height,pos_mode,
			top_colour.to_string(),bottom_colour.to_string() );
	}
	else 
	{
		cr->rectangle(event->area.x, event->area.y,
			event->area.width, event->area.height);
	}


	cr->set_source(back_grad);
	cr->fill();
    
    // ------------------------------------------------------------------

	float cos_x =  (allocation.get_width()/5) * (cos(((((1-knob_value)*0.75)-0.3)*2) * M_PI));
	float sin_y =  (allocation.get_width()/5) * (sin(((((1-knob_value)*0.75)-0.3)*2) * M_PI));

     Cairo::RefPtr<Cairo::RadialGradient> grad1 =
Cairo::RadialGradient::create( (allocation.get_width()/2) + sin_y, (allocation.get_height()/2) + cos_x, 0, (allocation.get_width()/2) , (allocation.get_height()/2) ,(allocation.get_width()/2.5));
        grad1->add_color_stop_rgba(0,0.4,0.4,0.4,1);
        grad1->add_color_stop_rgba(0.5,0.2,0.2,0.2,1);
        grad1->add_color_stop_rgba(0.8,0.17,0.17,0.17,1);
        grad1->add_color_stop_rgba(1.0,0.0,0.0,0.0,1);

	cos_x =  (allocation.get_width()/5) * (cos((((knob_value*0.75)-0.61)*2) * M_PI));
	sin_y =  (allocation.get_width()/5) * (sin((((knob_value*0.75)-0.61)*2) * M_PI));

	cr->set_source(grad1);
	cr->arc(allocation.get_width()/2, allocation.get_height()/2, (allocation.get_width()/2.5), 0.0, 2 * M_PI);
	cr->fill();
	cr->set_source_rgb(0.0, 0.0, 0.0);
	cr->arc((allocation.get_width()/2) +cos_x, (allocation.get_height()/2)+sin_y, (allocation.get_width()/16), 0.0, 2 * M_PI);
	cr->fill();

    // draw text label
    cr->select_font_face("Bitstream Vera Sans", Cairo::FONT_SLANT_NORMAL,
     Cairo::FONT_WEIGHT_NORMAL);
    cr->set_font_size(width/4.5);
    cr->set_source_rgba(0.9,0.9,0.9,0.8);
    Cairo::FontOptions font_options;
    font_options.set_hint_style(Cairo::HINT_STYLE_NONE);
    font_options.set_hint_metrics(Cairo::HINT_METRICS_OFF);
    font_options.set_antialias(Cairo::ANTIALIAS_GRAY);
	
    int x_font_centre = (width/2) - ((width/5) * (label.length()/3.5));

    cr->set_font_options(font_options);
    cr->move_to(x_font_centre,height/3.5);
    cr->show_text(label);
    cr->move_to(x_font_centre,allocation.get_height()  - (height_offset/3) );

    ostringstream slider_value;
    slider_value.str("");

    if (invert)
    {
	slider_value << max - value;
    }
    else
    {
    	slider_value << value;
    }

    slider_value.str(slider_value.str().substr(0,5));

    x_font_centre = (width/2) - ((width/5) * (slider_value.str().length()/3.5));
    cr->move_to(x_font_centre,allocation.get_height() - (height_offset/1.5) );

    cr->show_text(slider_value.str());

  }

  return true;
}
Esempio n. 22
0
void Switch::draw(const Cairo::RefPtr<Cairo::Context>& cr){

    cr->save();
    cr->translate(parent->xoffset + x, y);
    /*
    cr->set_source_rgb(200.0/256.0, 200.0/256.0, 215.0/256.0);
    cr->set_source_rgb(140.0/256.0, 140.0/256.0, 150.0/256.0);
    cr->set_source_rgb(160.0/256.0, 160.0/256.0, 170.0/256.0);
    */
    cr->set_source_rgb(200.0/256.0, 200.0/256.0, 215.0/256.0);
    cr->arc(0,0, 10, 0.0, 2*M_PI);
    cr->fill();
    //hole
    cr->set_source_rgb(30.0/256.0, 30.0/256.0, 30.0/256.0);
    cr->arc(0,0, 7, 0.0, 2*M_PI);
    cr->fill();

    //handle
    const double len = 15.0;
    double endx, endy;
    if(!vertical){
        if(value) {endx =  len; endy = 0.0;}
        else      {endx = -len; endy = 0.0;}
    }else{
        if(value) {endx = 0.0; endy =  len;}
        else      {endx = 0.0; endy = -len;}
    }
    cr->set_line_width(6.0);
    cr->set_line_cap(Cairo::LINE_CAP_ROUND);
    cr->set_source_rgb(1.0,1.0,1.0);
    cr->move_to(0.0,0.0);
    cr->line_to(endx,endy);
    cr->stroke();
    cr->set_source_rgb(170.0/256.0, 170.0/256.0, 170.0/256.0);
    cr->move_to(endx,endy);
    cr->arc(endx,endy,4,0.0,2*M_PI);
    cr->fill();

    //text
    cr->select_font_face("Verdana",Cairo::FONT_SLANT_NORMAL,Cairo::FONT_WEIGHT_BOLD);
    cr->set_font_size(10.0);
    cr->set_source_rgb(1.0,1.0,1.0);
    Cairo::TextExtents tx;
    if(!vertical){
        cr->get_text_extents(text1,tx);
        cr->move_to(-tx.width - 24.0, 3.0 );
        cr->show_text(text1);
        cr->get_text_extents(text2,tx);
        cr->move_to(22.0, 3.0 );
        cr->show_text(text2);
    }else{
        cr->get_text_extents(text1,tx);
        cr->move_to(-tx.width/2.0, -22.0 );
        cr->show_text(text1);
        cr->move_to(-tx.width/2.0, 27.0 );
        cr->get_text_extents(text2,tx);
        cr->show_text(text2);
    }

    cr->restore();
}
Esempio n. 23
0
bool studio::Widget_NavView::on_expose_draw(GdkEventExpose */*exp*/)
{
#ifdef SINGLE_THREADED
	// don't redraw if the previous redraw is still running single-threaded
	// or we end up destroying the renderer that's rendering it
	if (App::single_threaded && renderer && renderer->updating)
		return false;
#endif

	//print out the zoom
	//HACK kind of...
	//zoom_print.set_text(strprintf("%.1f%%",100*unit_to_zoom(adj_zoom.get_value())));

	//draw the good stuff
	on_start_render();

	//if we've got a preview etc. display it...
	if(get_canvas_view() && prev)
	{
		//axis transform from units to pixel coords
		float xaxis = 0, yaxis = 0;

		int canvw = get_canvas_view()->get_canvas()->rend_desc().get_w();
		//int canvh = get_canvas_view()->get_canvas()->rend_desc().get_h();

		float pw = get_canvas_view()->get_canvas()->rend_desc().get_pw();
		float ph = get_canvas_view()->get_canvas()->rend_desc().get_ph();

		int w = prev->get_width();
		int h = prev->get_height();

		//scale up/down to the nearest pixel ratio...
		//and center in center
		int offx=0, offy=0;

		float sx, sy;
		int nw,nh;

		sx = drawto.get_width() / (float)w;
		sy = drawto.get_height() / (float)h;

		//synfig::warning("Nav redraw: now to scale the bitmap: %.3f x %.3f",sx,sy);

		//round to smallest scale (fit entire thing in window without distortion)
		if(sx > sy) sx = sy;
		//else sy = sx;

		//scaling and stuff
		// the point to navpixel space conversion should be:
		//		(navpixels / canvpixels) * (canvpixels / canvsize)
		//	or (navpixels / prevpixels) * (prevpixels / navpixels)
		xaxis = sx * w / (float)canvw;
		yaxis = xaxis/ph;
		xaxis /= pw;

		//scale to a new pixmap and then copy over to the window
		nw = (int)(w*sx);
		nh = (int)(h*sx);

		//must now center to be cool
		offx = (drawto.get_width() - nw)/2;
		offy = (drawto.get_height() - nh)/2;

		//trivial escape
		if(nw == 0 || nh == 0)return true;

		//draw to drawing area
		Glib::RefPtr<Gdk::GC>	gc = Gdk::GC::create(drawto.get_window());
		Cairo::RefPtr<Cairo::Context> cr = drawto.get_window()->create_cairo_context();

		//synfig::warning("Nav: Scaling pixmap to off (%d,%d) with size (%d,%d)", offx,offy,nw, nh);
		Glib::RefPtr<Gdk::Pixbuf> scalepx = prev->scale_simple(nw,nh,Gdk::INTERP_NEAREST);

		cr->save();

		//synfig::warning("Nav: Drawing scaled bitmap");
		Gdk::Cairo::set_source_pixbuf(
			cr, //cairo context
			scalepx, //pixbuf
			offx, offy //coordinates to place upper left corner of pixbuf
			);
		cr->paint();

		//draw fancy red rectangle around focus point
		const Point &wtl = get_canvas_view()->work_area->get_window_tl(),
					&wbr = get_canvas_view()->work_area->get_window_br();

		//it must be clamped to the drawing area though
		int l=0,rw=0,t=0,rh=0;
		const Point fp = -get_canvas_view()->work_area->get_focus_point();

		//get focus point in normal space
		rw = (int)(abs((wtl[0]-wbr[0])*xaxis));
		rh = (int)(abs((wtl[1]-wbr[1])*yaxis));

		//transform into pixel space
		l = (int)(drawto.get_width()/2 + fp[0]*xaxis - rw/2);
		t = (int)(drawto.get_height()/2 + fp[1]*yaxis - rh/2);

		//coord system:
		// tl : (offx,offy)
		// axis multipliers = xaxis,yaxis
		//synfig::warning("Nav: tl (%f,%f), br (%f,%f)", wtl[0],wtl[1],wbr[0],wbr[1]);
		//synfig::warning("Nav: tl (%f,%f), br (%f,%f)", wtl[0],wtl[1],wbr[0],wbr[1]);
		//synfig::warning("Nav: Drawing Rectangle (%d,%d) with dim (%d,%d)", l,t,rw,rh);

		cr->set_line_width(2.0);
		cr->set_line_cap(Cairo::LINE_CAP_BUTT);
		cr->set_line_join(Cairo::LINE_JOIN_MITER);
		cr->set_antialias(Cairo::ANTIALIAS_NONE);
		cr->set_source_rgb(1,0,0);
		cr->rectangle(l,t,rw,rh);
		cr->stroke();

		cr->restore();
	}

	return false; //draw everything else too
}
Esempio n. 24
0
/**
 * Render the Preview
 * @param Cairo::Context cr
 * @return Gtk::Window::on_draw(cr)
 */
bool Preview::on_draw(const Cairo::RefPtr<Cairo::Context>& cr)
{
      
    Configuration::Theme theme = Configuration::getTheme();
    if (theme.forPreview().enabled()) {


        cr->set_source_rgba(
                theme.forPreview().background().red,
                theme.forPreview().background().green,
                theme.forPreview().background().blue,
                theme.forPreview().background().alpha);

        Utilities::RoundedRectangle(cr, 0, 0, this->get_width(), this->get_height(),
                theme.forPreview().roundedRatious());

        cr->fill();

    }




    if (!m_isActive) {
        return Gtk::Window::on_draw(cr);
    }


    if (m_previewtems.size() < 1) {
        this->hideMe();
        return Gtk::Window::on_draw(cr);
    }



    int idx = 0;
    for (DockItem* item : m_previewtems) {
        if (item->m_window == NULL || item->m_xid == 0 || !item->visible)
            continue;

        int pos_x = 20 + (m_previewWidth * idx);
        int pos_y = 16;
        int pos_width = m_previewWidth - DEF_PREVIEW_LEFT_MARGING;
        int pos_height = 20;


        cr->set_source_rgba(
                theme.forPreview().foreground().red,
                theme.forPreview().foreground().green,
                theme.forPreview().foreground().blue,
                theme.forPreview().foreground().alpha);

        cr->set_line_width(theme.forPreview().lineWith());

        if (item->m_imageLoadedRequired)
            cr->set_line_width(theme.forPreview().lineWith() + 0.5);

        if (theme.getPreviewBinaryValue() == 0) {
            Utilities::RoundedRectangle(cr,
                    DEF_PREVIEW_LEFT_MARGING + (m_previewWidth * idx),
                    16, m_previewWidth,
                    m_previewHeight - DEF_PREVIEW_RIGHT_MARGING,
                    theme.forPreview().roundedRatious());

            cr->stroke();
        } else {
            cr->set_line_width(theme.forPreview().lineWith());
            int pos_x = DEF_PREVIEW_LEFT_MARGING + (m_previewWidth * idx);
            int y_pos = 16;
            int width = m_previewWidth;
            int height = m_previewHeight;
            int value = theme.getPreviewBinaryValue();
            /* Vertical Left*/
            int bit = CHECK_BIT(value, 3);
            if (bit == 1) {

                cr->set_line_width(theme.forPreview().lineWith());
                cr->move_to(pos_x, y_pos);
                cr->line_to(pos_x, y_pos);
                cr->line_to(pos_x, y_pos + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                cr->stroke();

            }
            /* Top */
            bit = CHECK_BIT(value, 2);
            if (bit == 1) {
                cr->set_line_width(theme.forPreview().lineWith());
                cr->move_to(pos_x, y_pos);
                cr->line_to(pos_x, y_pos);
                cr->line_to(pos_x + (m_previewWidth), y_pos);
                cr->stroke();
            }

            /* Right vertical */
            bit = CHECK_BIT(value, 1);
            if (bit == 1) {
                cr->set_line_width(theme.forPreview().lineWith());
                cr->move_to(pos_x + m_previewWidth, y_pos);
                cr->line_to(pos_x + m_previewWidth, y_pos);
                cr->line_to(pos_x + m_previewWidth, y_pos + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                cr->stroke();
            }

            bit = CHECK_BIT(value, 0);
            if (bit == 1) {
                cr->set_line_width(theme.forPreview().lineWith());
                cr->move_to(pos_x, y_pos + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                cr->line_to(pos_x, y_pos + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                cr->line_to(pos_x + m_previewWidth, y_pos + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                cr->stroke();
            }

        }


        // TEXT 
        // draw title and create clipping rectangle
        //  JG        
        cr->set_source_rgba(
                theme.forPreviewTitle().background().red,
                theme.forPreviewTitle().background().green,
                theme.forPreviewTitle().background().blue,
                theme.forPreviewTitle().foreground().alpha);
        cr->rectangle(pos_x, pos_y + 2, pos_width + 2, pos_height);
        // cr->clip_preserve();
        cr->fill();
        //    JG
        cr->set_source_rgba(
                theme.forPreviewTitle().foreground().red,
                theme.forPreviewTitle().foreground().green,
                theme.forPreviewTitle().foreground().blue,
                theme.forPreviewTitle().foreground().alpha);
        cr->set_line_width(theme.forPreviewTitle().lineWith());
        cr->rectangle(pos_x, pos_y + 2, pos_width + 2, pos_height);
        cr->stroke();



        // draw title the clipping rectangle
        //cr->set_source_rgba(1.0, 1.0, 1.0, 0.0);

        cr->rectangle(pos_x, pos_y + 2, pos_width, pos_height);
        cr->clip_preserve();
        cr->stroke();




        cr->set_source_rgba(
                theme.forPreviewTitleText().foreground().red,
                theme.forPreviewTitleText().foreground().green,
                theme.forPreviewTitleText().foreground().blue,
                theme.forPreviewTitleText().foreground().alpha);

        auto layout = create_pango_layout(item->m_titlename);
        layout->set_font_description(font);
        //cr->set_source_rgba(1.0, 1.0, 1.0, 1.0); // white text
        cr->move_to(pos_x, pos_y + 2);
        layout->show_in_cairo_context(cr);
        cr->reset_clip(); // Reset the clipping 



        if (item->m_imageLoadedRequired) {
            GdkPixbuf *scaledpb = getScaledPixbuf(item);

            if (scaledpb == nullptr) {
                continue;
            }

            // show the loaded image. 
            showPreview(cr, scaledpb, idx);

            // Checks if the image have movement.
            if (item->isMovementDetected(scaledpb) && !item->m_isDynamic) {
                item->m_isDynamic = true;
            }

            // if no movement has been detected, means that the image 
            // is static and we don't need to reload it again 
            if (++item->m_frames > 3 && !item->m_isDynamic) {
                item->m_scaledPixbuf = scaledpb;
                item->m_frames = 0;
                item->m_imageLoadedRequired = false;
            }

            // if the image is static do not unreference the scaledpb.
            if (item->m_imageLoadedRequired)
                g_object_unref(scaledpb);

        } else {
            // show the loaded static image. 
            showPreview(cr, item->m_scaledPixbuf, idx);

        }



        // selector
        if (m_currentIndex == idx) {

            // rectangle background selector
            pos_x = DEF_PREVIEW_LEFT_MARGING + (m_previewWidth * m_currentIndex);
            pos_y = 16;
            pos_width = m_previewWidth + 1;
            pos_height = m_previewHeight - DEF_PREVIEW_RIGHT_MARGING;

            if (m_previewtems.size() > 1) {
                cr->set_source_rgba(
                        theme.forPreviewSelector().background().red,
                        theme.forPreviewSelector().background().green,
                        theme.forPreviewSelector().background().blue,
                        theme.forPreviewSelector().background().alpha);

                Utilities::RoundedRectangle(cr, pos_x, pos_y, pos_width, pos_height,
                        theme.forPreviewSelector().roundedRatious());
                cr->fill();
            }

            cr->set_source_rgba(
                    theme.forPreviewSelector().foreground().red,
                    theme.forPreviewSelector().foreground().green,
                    theme.forPreviewSelector().foreground().blue,
                    theme.forPreviewSelector().foreground().alpha);
            cr->set_line_width(theme.forPreviewSelector().lineWith());

            if (theme.getPreviewSelectorBinaryValue() == 0) {

                Utilities::RoundedRectangle(cr, pos_x, pos_y, pos_width, pos_height,
                        theme.forPreviewSelector().roundedRatious());
                cr->stroke();
            } else {


                int value = theme.getPreviewSelectorBinaryValue();
                //                /* Vertical Left*/
                int bit = CHECK_BIT(value, 3);
                if (bit == 1) {


                    cr->move_to(pos_x, pos_y);
                    cr->line_to(pos_x, pos_y);
                    cr->line_to(pos_x, pos_y + (pos_height));
                    cr->stroke();

                }
                /* Top */
                bit = CHECK_BIT(value, 2);
                if (bit == 1) {

                    cr->move_to(pos_x, pos_y);
                    cr->line_to(pos_x, pos_y);
                    cr->line_to(pos_x + (pos_width), pos_y);
                    cr->stroke();
                }

                /* Right vertical */
                bit = CHECK_BIT(value, 1);
                if (bit == 1) {

                    cr->move_to(pos_x + pos_width, pos_y);
                    cr->line_to(pos_x + pos_width, pos_y);
                    cr->line_to(pos_x + pos_width, pos_y + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                    cr->stroke();
                }

                bit = CHECK_BIT(value, 0);
                if (bit == 1) {

                    cr->move_to(pos_x, pos_y + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                    cr->line_to(pos_x, pos_y + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                    cr->line_to(pos_x + m_previewWidth, pos_y + (m_previewHeight - DEF_PREVIEW_RIGHT_MARGING));
                    cr->stroke();
                }
            }


            cr->set_source_rgba(
                    theme.forPreviewSelectorClose().background().red,
                    theme.forPreviewSelectorClose().background().green,
                    theme.forPreviewSelectorClose().background().blue,
                    theme.forPreviewSelectorClose().background().alpha);


            pos_x = (m_previewWidth - 5) + (m_previewWidth * m_currentIndex);
            cr->move_to(pos_x + 3, DEF_PREVIEW_RIGHT_MARGING);

            cr->rectangle(pos_x, 18, DEF_PREVIEW_LEFT_MARGING, DEF_PREVIEW_LEFT_MARGING + 2);
            cr->fill();

            cr->set_source_rgba(
                    theme.forPreviewSelectorClose().foreground().red,
                    theme.forPreviewSelectorClose().foreground().green,
                    theme.forPreviewSelectorClose().foreground().blue,
                    theme.forPreviewSelectorClose().foreground().alpha);
            cr->set_line_width(theme.forPreviewSelectorClose().lineWith());

            // Close X text
            cr->move_to(pos_x + 3, DEF_PREVIEW_RIGHT_MARGING - 1);
            cr->show_text("X");


        }




        idx++;
    }
    return Gtk::Window::on_draw(cr);
}
Esempio n. 25
0
/**
 * Does something when the speed graph is drawn.
 */
bool GtkGraph::on_draw(const Cairo::RefPtr<Cairo::Context>& cr)
{
	cr->set_line_width(1.0);
	const double width = (double)get_allocation().get_width();
	const double height = (double)get_allocation().get_height();
	std::vector <double> dash = { 5 };
	Gdk::Cairo::set_source_rgba(cr, get_style_context()->get_background_color());

	double increment = (width - m_labelLength) / (m_displaySize-1);
	std::queue<double> download = lastElements(m_history[m_selected].first, m_displaySize);
	std::queue<double> upload = lastElements(m_history[m_selected].second, m_displaySize);

	unsigned order;
	if(max(download, upload) <= 10 * 1024)
		order = 1;
	else if(max(download, upload) <= 100 * 1024)
		order = 10;
	else if(max(download, upload) <= 1000 * 1024)
		order = 100;
	else
		order = 1000;
	int maxValue = max(download, upload) + (order * 1024) - (double)((int)(max(m_history[m_selected].first, m_history[m_selected].second)) % (order * 1024));

	// draw curves

	//Gdk::Cairo::set_source_rgba(cr, get_style_context()->get_color());
	Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphUploadCurveColor"]));
	std::string label;
	if(gt::Settings::settings["ShowLegend"] != "No")
	{
		label = "Upload";
		cr->move_to(10, (height-m_labelHeight) / 2 - 15);
		cr->text_path(label);
		cr->fill();
	}
	upl = true;
	if(gt::Settings::settings["GraphUploadCurveStyle"] == "Dash")
		cr->set_dash(dash, 0);
	draw(download, (height-m_labelHeight), increment, maxValue, cr);
	cr->unset_dash();
	upl = false;
	Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphDownloadCurveColor"]));

	if(gt::Settings::settings["ShowLegend"] != "No")
	{
		label = "Download";
		cr->move_to(10, (height-m_labelHeight) / 2 - 30);
		cr->text_path(label);
		cr->fill();
		cr->stroke();
	}

	if(gt::Settings::settings["GraphDownloadCurveStyle"] == "Dash")
		cr->set_dash(dash, 0);
	draw(upload, (height-m_labelHeight), increment, maxValue, cr);
	cr->unset_dash();

	// draw grid
	Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphBorderColor"]));

	for(unsigned i = 0, val = 0;i<6;++i)
	{
		Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphBorderColor"]));
		cr->move_to(i * ((width-m_labelLength)/5), height);
		std::string label = timestr(val);
		cr->text_path(label);
		cr->fill();
		val += m_displaySize/5;

		Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphHLineColor"]));
		cr->move_to(i * ((width-m_labelLength)/5), (height-m_labelHeight)+2);
		cr->line_to(i * ((width-m_labelLength)/5), gt::Settings::settings["ShowGrid"] == "Yes" ? 0 : (height-m_labelHeight));
		cr->stroke();
		cr->set_line_width(1.0);
	}
	cr->stroke();

	cr->move_to(0, (height-m_labelHeight));
	cr->line_to(width, (height-m_labelHeight));
	cr->move_to(0, (height-m_labelHeight));
	cr->line_to(0, 0);

	cr->move_to(width - m_labelLength, 0);
	cr->line_to(width - m_labelLength, (height-m_labelHeight));
	cr->stroke();

	int lValue = maxValue + 5 - (maxValue % 5);
	for(int i = 1; i <= 6; ++i)
	{
		Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphBorderColor"]));
		std::string label = speedstr(lValue - ((lValue / 5) * (i - 1)));
		cr->move_to(width - m_labelLength +2, 10 + (((height-m_labelHeight -10) / 5) * (i - 1)));
		cr->text_path(label);
		cr->fill();
		Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphHLineColor"]));
		cr->set_line_width(0.6);
		cr->move_to(width - m_labelLength +2, 13 + (((height-m_labelHeight-13) / 5) * (i - 1)));
		cr->line_to(gt::Settings::settings["ShowGrid"] == "Yes" ? 0 : width - m_labelLength, 13 + (((height-m_labelHeight-13) / 5) * (i - 1)));
		cr->stroke();
		cr->set_line_width(1.0);
	}

	Gdk::Cairo::set_source_rgba(cr, Gdk::RGBA(gt::Settings::settings["GraphBorderColor"]));
	cr->move_to(width - 37, (height-m_labelHeight) - 5);
	cr->text_path("0B/s");
	cr->fill();

	return true;
}
Esempio n. 26
0
bool CPagePreview::on_expose_event(GdkEventExpose *event)
	{			
	Glib::RefPtr<Gdk::Window> window = get_window();
	if(window)
		{
		// get the cairo context amd allocation
		Cairo::RefPtr<Cairo::Context> cr = window->create_cairo_context();
		Gtk::Allocation allocation = get_allocation();
		const int width = allocation.get_width();
		const int height = allocation.get_height();
		
		// coordinates for the center of the window
		int xc, yc;
		xc = width / 2;
		yc = height / 2;

		
		// clip to the area indicated by the expose event so that we only redraw
		// the portion of the window that needs to be redrawn
		cr->rectangle(event->area.x, event->area.y,
				event->area.width, event->area.height);
		cr->clip();
		
		// draw a neat shadow
		cr->set_source_rgba(0.0,0.0,0.0,0.4);
		cr->begin_new_path();
		cr->move_to( xborder+offset,yborder+offset );
		cr->line_to( width-xborder+offset,yborder+offset );
		cr->line_to( width-xborder+offset,height-yborder+offset );
		cr->line_to( xborder+offset,height-yborder+offset );
		cr->close_path();
		cr->fill();

		// draw the page outline
		cr->set_source_rgb(0.0,0.0,0.0); // black
		cr->set_line_width( 2.0 );
		cr->begin_new_path();
		cr->move_to( xborder-offset,yborder-offset );
		cr->line_to( width-xborder-offset,yborder-offset );
		cr->line_to( width-xborder-offset,height-yborder-offset );
		cr->line_to( xborder-offset,height-yborder-offset );
		cr->close_path();
		cr->stroke_preserve();
		
		// fill the page with white
		cr->save();
		cr->set_source_rgb(1.0,1.0,1.0); // white
		cr->fill_preserve();
		cr->restore();
		
		// draw the page margin
		cr->set_source_rgb( 0.8,0.8,0.8 ); // light grey
		cr->set_line_width( 1.0 );
		cr->begin_new_path();
		cr->move_to( uleft.x, uleft.y );
		cr->line_to( lright.x, uleft.y );
		cr->line_to( lright.x, lright.y );
		cr->line_to( uleft.x, lright.y );
		cr->close_path();
		cr->stroke();

		// and the image preview
		ImagePixbuf->render_to_drawable( get_window(),
									get_style()->get_black_gc(),
									0,
									0,
									xpos,
									ypos,
									ImagePixbuf->get_width(), //image->get_width(),
									ImagePixbuf->get_height(), //image->get_height(),
									Gdk::RGB_DITHER_NONE,0,0 ); // */
									
		return true;
		}
	}
Esempio n. 27
0
void area___::test__(){
	int width, height;
	width=da_->get_allocation().get_width();
	height=da_->get_allocation().get_height();

	double m_radius=0.42;
	double m_line_width=0.05;

	// scale to unit square and translate (0, 0) to be (0.5, 0.5), i.e.
	// the center of the window
	cr_->scale(width, height);
	cr_->translate(0.5, 0.5);
	cr_->set_line_width(m_line_width);

	cr_->save();
	cr_->set_source_rgba(0.337, 0.612, 0.117, 0.9);   // green
	cr_->paint();
	cr_->restore();
	cr_->arc(0, 0, m_radius, 0, 2 * M_PI);
	cr_->save();
	cr_->set_source_rgba(1.0, 1.0, 1.0, 0.8);
	cr_->fill_preserve();
	cr_->restore();
	cr_->stroke_preserve();
	cr_->clip();

	//clock ticks
	for (int i = 0; i < 12; i++)
	{
		double inset = 0.05;

		cr_->save();
		cr_->set_line_cap(Cairo::LINE_CAP_ROUND);

		if(i % 3 != 0)
		{
			inset *= 0.8;
			cr_->set_line_width(0.03);
		}

		cr_->move_to(
				(m_radius - inset) * cos (i * M_PI / 6),
				(m_radius - inset) * sin (i * M_PI / 6));
		cr_->line_to (
				m_radius * cos (i * M_PI / 6),
				m_radius * sin (i * M_PI / 6));
		cr_->stroke();
		cr_->restore(); // stack-pen-size
	}

	// store the current time
	time_t rawtime;
	time(&rawtime);
	struct tm * timeinfo = localtime (&rawtime);

	// compute the angles of the indicators of our clock
	double minutes = timeinfo->tm_min * M_PI / 30;
	double hours = timeinfo->tm_hour * M_PI / 6;
	double seconds= timeinfo->tm_sec * M_PI / 30;
	cout<<timeinfo->tm_min<<","<<timeinfo->tm_hour<<","<<timeinfo->tm_sec<<endl;

	cr_->save();
	cr_->set_line_cap(Cairo::LINE_CAP_ROUND);

	// draw the seconds hand
	cr_->save();
	cr_->set_line_width(m_line_width / 3);
	cr_->set_source_rgba(0.7, 0.7, 0.7, 0.8); // gray
	cr_->move_to(0, 0);
	cr_->line_to(sin(seconds) * (m_radius * 0.9),
			-cos(seconds) * (m_radius * 0.9));
	cr_->stroke();
	cr_->restore();

	// draw the minutes hand
	cr_->set_source_rgba(0.117, 0.337, 0.612, 0.9);   // blue
	cr_->move_to(0, 0);
	cr_->line_to(sin(minutes + seconds / 60) * (m_radius * 0.8),
			-cos(minutes + seconds / 60) * (m_radius * 0.8));
	cr_->stroke();

	// draw the hours hand
	cr_->set_source_rgba(0.337, 0.612, 0.117, 0.9);   // green
	cr_->move_to(0, 0);
	cr_->line_to(sin(hours + minutes / 12.0) * (m_radius * 0.5),
			-cos(hours + minutes / 12.0) * (m_radius * 0.5));
	cr_->stroke();
	cr_->restore();

	// draw a little dot in the middle
	cr_->arc(0, 0, m_line_width / 3.0, 0, 2 * M_PI);
	cr_->fill();
}
Esempio n. 28
0
bool GHighPass::on_expose_event(GdkEventExpose* event)
{
  // This is where we draw on the window
  Glib::RefPtr<Gdk::Window> window = get_window();
  
  if(window)    // Only run if Window does exist
  {
    Gtk::Allocation allocation = get_allocation();
    int width = allocation.get_width();
    int height = allocation.get_height();
    
    // clip to the area indicated by the expose event so that we only redraw
    // the portion of the window that needs to be redrawn
    Cairo::RefPtr<Cairo::Context> cr = window->create_cairo_context();
    cr->rectangle(event->area.x, event->area.y,
            event->area.width, event->area.height);
    cr->clip();
    
    cr->rectangle(event->area.x, event->area.y,
        event->area.width, event->area.height);
    setColour(cr, COLOUR_GREY_3 );
    cr->fill();
    
    //cout << "HighPass getting state ID " << ID << endl; 
    float cutoffRangeZeroOne = stateStore->effectState.at(ID).values[0];
    
    cutoff = cutoffRangeZeroOne;
    
    bool active = stateStore->effectState.at(ID).active;
    bool globalUnit = stateStore->effectState.at(ID).globalUnit;
    
    int x = 0;
    int y = 0;
    xSize = 73;
    ySize = 37;
    
    // works but a bit simple
    cr -> move_to( x        , y         );
    cr -> line_to( x + xSize, y         );
    cr -> line_to( x + xSize, y + ySize );
    cr -> line_to( x        , y + ySize );
    cr -> close_path();
    
    // Draw outline shape
    cr -> set_source_rgb (0.1,0.1,0.1);
    cr -> fill();
    
    // draw "frequency guides"
    std::valarray< double > dashes(2);
    dashes[0] = 2.0;
    dashes[1] = 2.0;
    cr->set_dash (dashes, 0.0);
    cr->set_line_width(1.0);
    cr->set_source_rgb (0.4,0.4,0.4);
    for ( int i = 0; i < 3; i++ )
    {
      cr->move_to( x + ((xSize / 3.f)*i), y );
      cr->line_to( x + ((xSize / 3.f)*i), y + ySize );
    }
    for ( int i = 0; i < 3; i++ )
    {
      cr->move_to( x       , y + ((ySize / 3.f)*i) );
      cr->line_to( x +xSize, y + ((ySize / 3.f)*i) );
    }
    cr->stroke();
    cr->unset_dash();
    
    // move to bottom left, draw line to middle left
    cr->move_to( x + xSize-2 , y + ySize );
    cr->line_to( x + xSize-2 , y + (ySize/2));
    
    
    int startHorizontalLine = xSize* (cutoff + 0.4);
    if ( startHorizontalLine > 75 )
      startHorizontalLine = 75;
      
    cr->line_to( startHorizontalLine, y + (ySize/2) ); // horizontal line to start of curve
    
    int xSize1CP1 = xSize* (cutoff +0.1);
    int xSize1CP2 = xSize* (cutoff +0.08);
    int xSize1End = xSize* cutoff;
    
    if ( xSize1CP1 > 75 )
      xSize1CP1 = 75;
    if ( xSize1CP2 > 75 )
      xSize1CP2 = 75;
    if ( xSize1End > 75 )
      xSize1End = 75;
    
    cr->curve_to( xSize1CP1, y+(ySize*0.5),   // control point 1
                  xSize1CP2, y+(ySize*0.3),   // control point 2
                  xSize1End, y+(ySize*0.3));  // end of curve 1, start curve 2
    
    int xSize2CP1 = xSize* (cutoff - 0.03);
    int xSize2CP2 = xSize* (cutoff - 0.08);
    int xSize2End = xSize* (cutoff - 0.15);
    
    if ( xSize2CP1 > 75 )
      xSize2CP1 = 75;
    if ( xSize2CP2 > 75 )
      xSize2CP2 = 75;
    if ( xSize2End > 75 )
      xSize2End = 75;
    
    cr->curve_to( xSize2CP1, y+(ySize*0.3),  // control point 1
                  xSize2CP2, y+(ySize*0.3), // control point 2
                  xSize2End, y+(ySize)   ); // end of curve on floor
    
    if (active)
      setColour(cr, COLOUR_BLUE_1, 0.2 );
    else
      setColour(cr, COLOUR_GREY_1, 0.2 );
    cr->close_path();
    cr->fill_preserve();
    
    // stroke cutoff line
    cr->set_line_width(2.5);
    if ( active )
      setColour(cr, COLOUR_BLUE_1 );
    else
      setColour(cr, COLOUR_GREY_1 );
    cr->stroke();
    
    // click center
    if ( globalUnit )
    {
      if ( active )
        setColour(cr, COLOUR_GREEN_1, 0.9 );
      else
        setColour(cr, COLOUR_GREY_1,0.9 );
      cr->move_to( xSize * cutoff - 5, ySize*q - 5 );
      cr->line_to( xSize * cutoff + 5, ySize*q + 5 );
      cr->move_to( xSize * cutoff - 5, ySize*q + 5 );
      cr->line_to( xSize * cutoff + 5, ySize*q - 5 );
      cr->stroke();
    }
    else
    {
      if ( active )
        setColour(cr, COLOUR_ORANGE_1, 0.9 );
      else
        setColour(cr, COLOUR_GREY_1, 0.9 );
      cr->arc( xSize*cutoff, ySize*q, 7, 0, 6.2830 );
      cr->stroke();
    }
    
    // dials
    Dial(cr, active, 70, 140, cutoffRangeZeroOne, DIAL_MODE_NORMAL);
    Dial(cr, active, 150,140, q                 , DIAL_MODE_NORMAL);
    
    // outline
    setColour(cr, COLOUR_GREY_3 );
    cr->rectangle( x, y , xSize, ySize );
    cr->set_line_width(3);
    
    setColour(cr, COLOUR_GREY_2 );
    cr->stroke();
    
    /*
    if ( state.selected )
    {
      cr->rectangle(0, 0, 74, 216);
      setColour( cr, COLOUR_PURPLE_1 );
      cr->set_line_width(1);
      cr->stroke();
    }
    */
    
  }
  return true;
}