TargetVisualizerDisplay::TargetVisualizerDisplay():
   message_recieved_(false)
 {
   target_name_property_ = new rviz::StringProperty(
     "target name", "target",
     "name of the target",
     this, SLOT(updateTargetName())
     );
   radius_property_ = new rviz::FloatProperty(
     "radius", 1.0,
     "radius of the target mark",
     this, SLOT(updateRadius()));
   radius_property_->setMin(0.0);
   alpha_property_ = new rviz::FloatProperty(
     "alpha", 0.8,
     "0 is fully transparent, 1.0 is fully opaque.",
     this, SLOT(updateAlpha()));
   alpha_property_->setMin(0.0);
   alpha_property_->setMax(1.0);
   color_property_ = new rviz::ColorProperty(
     "color", QColor(25, 255, 240),
     "color of the target",
     this, SLOT(updateColor()));
   shape_type_property_ = new rviz::EnumProperty(
     "type", "Simple Circle",
     "Shape to display the pose as",
     this, SLOT(updateShapeType()));
   shape_type_property_->addOption("Simple Circle", SimpleCircle);
   shape_type_property_->addOption("Decoreted Circle", GISCircle);
 }
Exemplo n.º 2
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RobotModelDisplay::RobotModelDisplay()
  : Display()
  , has_new_transforms_( false )
  , time_since_last_transform_( 0.0f )
{
  visual_enabled_property_ = new Property( "Visual Enabled", true,
                                           "Whether to display the visual representation of the robot.",
                                           this, SLOT( updateVisualVisible() ));

  collision_enabled_property_ = new Property( "Collision Enabled", false,
                                              "Whether to display the collision representation of the robot.",
                                              this, SLOT( updateCollisionVisible() ));

  update_rate_property_ = new FloatProperty( "Update Interval", 0,
                                             "Interval at which to update the links, in seconds. "
                                             " 0 means to update every update cycle.",
                                             this );
  update_rate_property_->setMin( 0 );

  alpha_property_ = new FloatProperty( "Alpha", 1,
                                       "Amount of transparency to apply to the links.",
                                       this, SLOT( updateAlpha() ));
  alpha_property_->setMin( 0.0 );
  alpha_property_->setMax( 1.0 );

  robot_description_property_ = new StringProperty( "Robot Description", "robot_description",
                                                    "Name of the parameter to search for to load the robot description.",
                                                    this, SLOT( updateRobotDescription() ));

  tf_prefix_property_ = new StringProperty( "TF Prefix", "",
                                            "Robot Model normally assumes the link name is the same as the tf frame name. "
                                            " This option allows you to set a prefix.  Mainly useful for multi-robot situations.",
                                            this, SLOT( updateTfPrefix() ));
}
 void TargetVisualizerDisplay::updateShapeType()
 {
   if (current_type_ != shape_type_property_->getOptionInt()) {
     {
       boost::mutex::scoped_lock lock(mutex_);
       if (shape_type_property_->getOptionInt() == SimpleCircle) {
         current_type_ = SimpleCircle;
         // simple circle
         visualizer_.reset(new SimpleCircleFacingVisualizer(
                             scene_manager_,
                             scene_node_,
                             context_,
                             radius_));
       }
       else {
         current_type_ = GISCircle;
         // GIS
         GISCircleVisualizer* v = new GISCircleVisualizer(
           scene_manager_,
           scene_node_,
           radius_);
         v->setAnonymous(false);
         visualizer_.reset(v);
         
       }
     }
     updateTargetName();
     updateColor();
     updateAlpha();
   }
 }
DynamicRobotModel::DynamicRobotModel()
  : rviz::Display()
  , time_since_last_transform_( 0.0f )
{ 
  visual_enabled_property_ = new rviz::Property( "Visual Enabled", true,
                                                 "Whether to display the visual representation of the robot.",
                                                 this, SLOT( updateVisualVisible() ));

  collision_enabled_property_ = new rviz::Property( "Collision Enabled", false,
                                                    "Whether to display the collision representation of the robot.",
                                                    this, SLOT( updateCollisionVisible() ));

  update_rate_property_ = new rviz::FloatProperty( "Update Interval", 0,
                                                   "Interval at which to update the links, in seconds. "
                                                   " 0 means to update every update cycle.",
                                                   this );
  update_rate_property_->setMin( 0 );

  alpha_property_ = new rviz::FloatProperty( "Alpha", 1,
                                             "Amount of transparency to apply to the links.",
                                              this, SLOT( updateAlpha() ));
  alpha_property_->setMin( 0.0 );
  alpha_property_->setMax( 1.0 );

  robot_description_topic_property_ = new rviz::RosTopicProperty( "Robot description topic", "dynamic_robot_description",
                                                                  QString::fromStdString( ros::message_traits::datatype<std_msgs::String>() ),
                                                                  "std_msgs::String topic to subscribe to.",
                                                                  this, SLOT( updateTopic() ));

  tf_prefix_property_ = new rviz::StringProperty( "TF Prefix", "",
                                                  "Robot Model normally assumes the link name is the same as the tf frame name. "
                                                  " This option allows you to set a prefix. Mainly useful for multi-robot situations.",
                                                  this, SLOT( updateTfPrefix() ));
}
Exemplo n.º 5
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void Slider::init()
{
    mAllowLogic = false;
    setFocusable(true);
    setFrameSize(1);

    addMouseListener(this);
    addKeyListener(this);

    setFrameSize(0);

    // Load resources
    if (mInstances == 0)
    {
        if (theme)
        {
            for (int mode = 0; mode < 2; mode ++)
                theme->loadRect(buttons[mode], data[mode], "slider.xml", 0, 8);
        }
        updateAlpha();
    }

    mInstances++;

    if (buttons[0].grid[HGRIP])
        setMarkerLength(buttons[0].grid[HGRIP]->getWidth());
}
Exemplo n.º 6
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void Button::init()
{
    setFrameSize(0);

    if (mInstances == 0)
    {
        // Load the skin
        ResourceManager *resman = ResourceManager::getInstance();
        Image *btn[BUTTON_COUNT];

        int a, x, y, mode;

        for (mode = 0; mode < BUTTON_COUNT; mode++)
        {
            btn[mode] = resman->getImage(data[mode].file);
            a = 0;
            for (y = 0; y < 3; y++)
            {
                for (x = 0; x < 3; x++)
                {
                    button[mode].grid[a] = btn[mode]->getSubImage(
                            data[x].gridX, data[y].gridY,
                            data[x + 1].gridX - data[x].gridX + 1,
                            data[y + 1].gridY - data[y].gridY + 1);
                    a++;
                }
            }
            btn[mode]->decRef();
        }
        updateAlpha();
    }
    mInstances++;
}
  BoundingBoxDisplay::BoundingBoxDisplay()
  {
    coloring_property_ = new rviz::EnumProperty(
      "coloring", "Flat color",
      "coloring method",
      this, SLOT(updateColoring()));
    coloring_property_->addOption("Flat color", 0);
    coloring_property_->addOption("Label", 1);
    coloring_property_->addOption("Value", 2);

    color_property_ = new rviz::ColorProperty(
      "color", QColor(25, 255, 0),
      "color to draw the bounding boxes",
      this, SLOT(updateColor()));
    alpha_property_ = new rviz::FloatProperty(
      "alpha", 0.8,
      "alpha value to draw the bounding boxes",
      this, SLOT(updateAlpha()));
    only_edge_property_ = new rviz::BoolProperty(
      "only edge", false,
      "show only the edges of the boxes",
      this, SLOT(updateOnlyEdge()));
    line_width_property_ = new rviz::FloatProperty(
      "line width", 0.005,
      "line width of the edges",
      this, SLOT(updateLineWidth()));
    show_coords_property_ = new rviz::BoolProperty(
      "show coords", false,
      "show coordinate of bounding box",
      this, SLOT(updateShowCoords()));
  }
Exemplo n.º 8
0
void QSkinObject::paintEvent(QPaintEvent *event)
{
	if(skinWidget)
	{
		
		updateStyle();
		QPainter p(&widgetMask);
		QObjectList ol = skinWidget->children();
		foreach(QObject *o, ol)
		{
			if(o->isWidgetType())
			{
				QWidget* child = dynamic_cast<QWidget*>(o);  
				
				p.drawPixmap(child->geometry(),drawCtrl(child ));
				
				
			}
				
		}
		p.end();
#ifdef WIN32
		updateAlpha(); 

#else
		p.begin(skinWidget);
		p.setRenderHint(QPainter::Antialiasing);
		p.drawPixmap(0,0,widgetMask);
		p.end();
#endif
		
	}

}
Exemplo n.º 9
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RadioButton::RadioButton(const Widget2 *const widget,
                         const std::string &caption, const std::string &group,
                         const bool marked):
    gcn::RadioButton(caption, group, marked),
    Widget2(widget),
    mHasMouse(false),
    mPadding(0),
    mImagePadding(0),
    mImageSize(9),
    mSpacing(2),
    mForegroundColor2(getThemeColor(Theme::RADIOBUTTON_OUTLINE))
{
    mForegroundColor = getThemeColor(Theme::RADIOBUTTON);
    if (instances == 0)
    {
        if (Theme::instance())
        {
            mSkin = Theme::instance()->load("radio.xml", "");
            updateAlpha();
        }
    }

    instances++;

    if (mSkin)
    {
        mPadding = mSkin->getPadding();
        mImagePadding = mSkin->getOption("imagePadding");
        mImageSize = mSkin->getOption("imageSize");
        mSpacing = mSkin->getOption("spacing");
    }

    adjustSize();
}
Exemplo n.º 10
0
void Tab::init()
{
    addMouseListener(this);
    setFocusable(false);
    setFrameSize(0);
    mFlash = 0;

    addWidgetListener(this);

    if (mInstances == 0)
    {
        // Load the skin
        Theme *const theme = Theme::instance();
        if (theme)
        {
            for (int mode = 0; mode < TAB_COUNT; mode ++)
                tabImg[mode] = theme->load(data[mode], "tab.xml");
        }
        updateAlpha();
    }
    mInstances++;

    add(mLabel);

    const Skin *const skin = tabImg[TAB_STANDARD];
    if (!skin)
        return;
    const int padding = skin->getPadding();

    mLabel->setPosition(padding, padding);
}
Exemplo n.º 11
0
void Tab::draw(gcn::Graphics *graphics)
{
    int mode = TAB_STANDARD;

    // check which type of tab to draw
    if (mTabbedArea)
    {
        mLabel->setForegroundColor(*mTabColor);
        if (mTabbedArea->isTabSelected(this))
        {
            mode = TAB_SELECTED;
            // if tab is selected, it doesnt need to highlight activity
            mFlash = false;
        }
        else if (mHasMouse)
        {
            mode = TAB_HIGHLIGHTED;
        }
        if (mFlash)
        {
            mLabel->setForegroundColor(Theme::getThemeColor(Theme::TAB_FLASH));
        }
    }

    updateAlpha();

    // draw tab
    static_cast<Graphics*>(graphics)->
        drawImageRect(0, 0, getWidth(), getHeight(), tabImg[mode]);

    // draw label
    drawChildren(graphics);
}
Exemplo n.º 12
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void NumberAnimation::update()
{
	if (m_bRunning)
	{
		if (m_currentParam != "")
		{
			if (m_currentParam == "scale")
			{
				updateScale();
			}
			if (m_currentParam == "alpha")
			{
				updateAlpha();
			}
			if (m_currentParam == "angle")
			{
				updateAngle();
			}
			if (m_currentParam == "width")
			{
				updateWidth();
			}
		}
	}
}
  FootstepDisplay::FootstepDisplay()
  {
    alpha_property_ =  new rviz::FloatProperty( "Alpha", 0.5,
                                                "0 is fully transparent, 1.0 is fully opaque.",
                                                this, SLOT( updateAlpha() ));
    show_name_property_ = new rviz::BoolProperty(
      "Show Name", true,
      "Show name of each footstep",
      this, SLOT(updateShowName()));
    use_group_coloring_property_ = new rviz::BoolProperty(
      "Use Group Coloring", false,
      "Use footstep_group field to colorize footsteps",
      this, SLOT(updateUseGroupColoring()));
    width_property_ =  new rviz::FloatProperty(
      "Width", 0.15,
      "width of the footstep, it's not used if the dimensions is specified in Footstep message.",
      this, SLOT( updateWidth() ));
    height_property_ =  new rviz::FloatProperty(
      "height", 0.01,
      "height of the footstep, it's not used if the dimensions is specified in Footstep message.",
      this, SLOT( updateHeight() ));

    depth_property_ =  new rviz::FloatProperty(
      "depth", 0.3,
      "depth of the footstep, it's not used if the dimensions is specified in Footstep message.",
      this, SLOT( updateDepth() ));
  }
Exemplo n.º 14
0
bool Image::load(File* file)
{
  initTable();

  _width = 0;
  _height = 0;
  _bits = NULL;
  _flags = 0xFFFFFF;

  if (file)
  {
    bool loaded = false;
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadGIF(file);
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadPNG(file);
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadTGA(file);
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadBIN(file);
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadBLP(file);
    file->seek(0, SEEK_SET); if (!loaded) loaded = loadBLP2(file);
    if (!loaded)
    {
      delete[] _bits;
      _bits = NULL;
      _width = 0;
      _height = 0;
      _flags = 0;
    }
    else
      updateAlpha();
    return loaded;
  }
  return false;
}
void Sbs2SourceReconstrucionLoreta::updateModel()
{
    if(!modelUpdateReady)
	return;
    modelUpdateReady = 0;


    //TODO: signal when new beta and alpha are ready

    //qDebug() << "****";

    //we collect only raw values and weight them right before updating the model
    w->multiply(currentModelUpdateValues,currentModelUpdateValuesVertices);


    //Sbs2Timer::tic("updateAlpha()");
    updateAlpha();
    //Sbs2Timer::toc();

    //Sbs2Timer::tic("updateBeta()");
    updateBeta();
    //Sbs2Timer::toc();

    //Sbs2Timer::tic("updateW()");
    updateW();
    //Sbs2Timer::toc();

    modelUpdateReady = 1;
    tempModelUpdatedReady = 1;

}
CameraDisplay::CameraDisplay()
  : ImageDisplayBase()
  , caminfo_tf_filter_( 0 )
  , new_caminfo_( false )
  , texture_()
  , render_panel_( 0 )
  , force_render_( false )
  , panel_container_( 0 )
{

  image_position_property_ = new EnumProperty( "Image Rendering", BOTH,
                                               "Render the image behind all other geometry or overlay it on top, or both.",
                                               this, SLOT( forceRender() ));
  image_position_property_->addOption( BACKGROUND );
  image_position_property_->addOption( OVERLAY );
  image_position_property_->addOption( BOTH );

  alpha_property_ = new FloatProperty( "Overlay Alpha", 0.5,
                                       "The amount of transparency to apply to the camera image when rendered as overlay.",
                                       this, SLOT( updateAlpha() ));
  alpha_property_->setMin( 0 );
  alpha_property_->setMax( 1 );

  zoom_property_ = new FloatProperty( "Zoom Factor", 1.0,
                                      "Set a zoom factor below 1 to see a larger part of the world, above 1 to magnify the image.",
                                      this, SLOT( forceRender() ));
  zoom_property_->setMin( 0.00001 );
  zoom_property_->setMax( 100000 );
}
 void SparseOccupancyGridArrayDisplay::onInitialize()
 {
   MFDClass::onInitialize();
   updateAlpha();
   updateMaxColor();
   updateMinColor();
 }
 OverlayImageDisplay::OverlayImageDisplay()
   : Display(), width_(128), height_(128), left_(128), top_(128), alpha_(0.8),
     is_msg_available_(false), require_update_(false)
 {
   // setup properties
   update_topic_property_ = new rviz::RosTopicProperty(
     "Topic", "",
     ros::message_traits::datatype<sensor_msgs::Image>(),
     "sensor_msgs::Image topic to subscribe to.",
     this, SLOT( updateTopic() ));
   keep_aspect_ratio_property_ = new rviz::BoolProperty("keep aspect ratio", false,
                                                        "keep aspect ratio of original image",
                                                        this, SLOT(updateKeepAspectRatio()));
   width_property_ = new rviz::IntProperty("width", 128,
                                           "width of the image window",
                                           this, SLOT(updateWidth()));
   height_property_ = new rviz::IntProperty("height", 128,
                                            "height of the image window",
                                            this, SLOT(updateHeight()));
   left_property_ = new rviz::IntProperty("left", 128,
                                          "left of the image window",
                                          this, SLOT(updateLeft()));
   top_property_ = new rviz::IntProperty("top", 128,
                                         "top of the image window",
                                         this, SLOT(updateTop()));
   alpha_property_ = new rviz::FloatProperty("alpha", 0.8,
                                             "alpha belnding value",
                                             this, SLOT(updateAlpha()));
 }
Exemplo n.º 19
0
	void Window::onKeyChangeRootFocus(bool _focus)
	{
		mKeyRootFocus = _focus;
		updateAlpha();

		Base::onKeyChangeRootFocus(_focus);
	}
Exemplo n.º 20
0
void CheckBox::drawBox(gcn::Graphics* graphics)
{
    Image *box;

    if (isEnabled())
    {
        if (isSelected())
        {
            if (mHasMouse)
                box = checkBoxCheckedHi;
            else
                box = checkBoxChecked;
        }
        else
        {
            if (mHasMouse)
                box = checkBoxNormalHi;
            else
                box = checkBoxNormal;
        }
    }
    else
    {
        if (isSelected())
            box = checkBoxDisabledChecked;
        else
            box = checkBoxDisabled;
    }

    updateAlpha();

    static_cast<Graphics*>(graphics)->drawImage(box, 2, 2);
}
Exemplo n.º 21
0
	void Window::onMouseChangeRootFocus(bool _focus)
	{
		mMouseRootFocus = _focus;
		updateAlpha();

		Base::onMouseChangeRootFocus(_focus);
	}
Exemplo n.º 22
0
void ScrollArea::draw(gcn::Graphics *graphics)
{
    if (mVBarVisible)
    {
        drawUpButton(graphics);
        drawDownButton(graphics);
        drawVBar(graphics);
        drawVMarker(graphics);
    }

    if (mHBarVisible)
    {
        drawLeftButton(graphics);
        drawRightButton(graphics);
        drawHBar(graphics);
        drawHMarker(graphics);
    }

    if (mHBarVisible && mVBarVisible)
    {
        graphics->setColor(getBaseColor());
        graphics->fillRectangle(gcn::Rectangle(getWidth() - mScrollbarWidth,
                    getHeight() - mScrollbarWidth,
                    mScrollbarWidth,
                    mScrollbarWidth));
    }

    updateAlpha();

    drawChildren(graphics);
}
Exemplo n.º 23
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void RobotModelDisplay::onInitialize()
{
  robot_ = new Robot( scene_node_, context_, "Robot: " + getName().toStdString(), this );

  updateVisualVisible();
  updateCollisionVisible();
  updateAlpha();
}
Exemplo n.º 24
0
AerialMapDisplay::AerialMapDisplay()
    : Display(), map_id_(0), scene_id_(0), dirty_(false),
      received_msg_(false), loader_(0) {

  static unsigned int map_ids = 0;
  map_id_ = map_ids++; //  global counter of map ids

  topic_property_ = new RosTopicProperty(
      "Topic", "", QString::fromStdString(
                       ros::message_traits::datatype<sensor_msgs::NavSatFix>()),
      "nav_msgs::Odometry topic to subscribe to.", this, SLOT(updateTopic()));

  alpha_property_ = new FloatProperty(
      "Alpha", 0.7, "Amount of transparency to apply to the map.", this,
      SLOT(updateAlpha()));
  alpha_ = alpha_property_->getValue().toFloat();
  alpha_property_->setMin(0);
  alpha_property_->setMax(1);
  alpha_property_->setShouldBeSaved(true);

  draw_under_property_ =
      new Property("Draw Behind", false,
                   "Rendering option, controls whether or not the map is always"
                   " drawn behind everything else.",
                   this, SLOT(updateDrawUnder()));
  draw_under_property_->setShouldBeSaved(true);
  draw_under_ = draw_under_property_->getValue().toBool();

  //  output, resolution of the map in meters/pixel
  resolution_property_ = new FloatProperty(
      "Resolution", 0, "Resolution of the map. (Read only)", this);
  resolution_property_->setReadOnly(true);

  //  properties for map
  object_uri_property_ = new StringProperty(
      "Object URI", "http://otile1.mqcdn.com/tiles/1.0.0/sat/{z}/{x}/{y}.jpg",
      "URL from which to retrieve map tiles.", this, SLOT(updateObjectURI()));
  object_uri_property_->setShouldBeSaved(true);
  object_uri_ = object_uri_property_->getStdString();

  zoom_property_ = new IntProperty("Zoom", 16, "Zoom level (0 - 19 usually)",
                                   this, SLOT(updateZoom()));
  zoom_property_->setShouldBeSaved(true);
  zoom_ = zoom_property_->getInt();

  blocks_property_ =
      new IntProperty("Blocks", 3, "Number of adjacent blocks (6 max)", this,
                      SLOT(updateBlocks()));
  blocks_property_->setShouldBeSaved(true);

  //  updating one triggers reload
  updateBlocks();
}
  void BoundingBoxDisplay::onInitialize()
  {
    MFDClass::onInitialize();
    scene_node_ = scene_manager_->getRootSceneNode()->createChildSceneNode();

    updateColor();
    updateAlpha();
    updateOnlyEdge();
    updateColoring();
    updateLineWidth();
    updateShowCoords();
  }
 void FootstepDisplay::onInitialize()
 {
   MFDClass::onInitialize();
   scene_node_ = scene_manager_->getRootSceneNode()->createChildSceneNode();
   line_ = new rviz::BillboardLine(context_->getSceneManager(), scene_node_);
   updateShowName();
   updateWidth();
   updateHeight();
   updateDepth();
   updateAlpha();
   updateUseGroupColoring();
 }
Exemplo n.º 27
0
MapDisplay::MapDisplay()
  : Display()
  , manual_object_( NULL )
  , loaded_( false )
  , resolution_( 0.0f )
  , width_( 0 )
  , height_( 0 )
{
  connect(this, SIGNAL( mapUpdated() ), this, SLOT( showMap() ));
  topic_property_ = new RosTopicProperty( "Topic", "",
                                          QString::fromStdString( ros::message_traits::datatype<nav_msgs::OccupancyGrid>() ),
                                          "nav_msgs::OccupancyGrid topic to subscribe to.",
                                          this, SLOT( updateTopic() ));

  alpha_property_ = new FloatProperty( "Alpha", 0.7,
                                       "Amount of transparency to apply to the map.",
                                       this, SLOT( updateAlpha() ));
  alpha_property_->setMin( 0 );
  alpha_property_->setMax( 1 );

  color_scheme_property_ = new EnumProperty( "Color Scheme", "map", "How to color the occupancy values.",
                                             this, SLOT( updatePalette() ));
  // Option values here must correspond to indices in palette_textures_ array in onInitialize() below.
  color_scheme_property_->addOption( "map", 0 );
  color_scheme_property_->addOption( "costmap", 1 );

  draw_under_property_ = new Property( "Draw Behind", false,
                                       "Rendering option, controls whether or not the map is always"
                                       " drawn behind everything else.",
                                       this, SLOT( updateDrawUnder() ));

  resolution_property_ = new FloatProperty( "Resolution", 0,
                                            "Resolution of the map. (not editable)", this );
  resolution_property_->setReadOnly( true );

  width_property_ = new IntProperty( "Width", 0,
                                     "Width of the map, in meters. (not editable)", this );
  width_property_->setReadOnly( true );
  
  height_property_ = new IntProperty( "Height", 0,
                                      "Height of the map, in meters. (not editable)", this );
  height_property_->setReadOnly( true );

  position_property_ = new VectorProperty( "Position", Ogre::Vector3::ZERO,
                                           "Position of the bottom left corner of the map, in meters. (not editable)",
                                           this );
  position_property_->setReadOnly( true );

  orientation_property_ = new QuaternionProperty( "Orientation", Ogre::Quaternion::IDENTITY,
                                                  "Orientation of the map. (not editable)",
                                                  this );
  orientation_property_->setReadOnly( true );
}
Exemplo n.º 28
0
    void draw(gcn::Graphics *graphics)
    {
        if (!mListModel)
            return;

        ServersListModel *model = static_cast<ServersListModel*>(mListModel);

        updateAlpha();

        graphics->setColor(Theme::getThemeColor(Theme::HIGHLIGHT,
                                                (int) (mAlpha * 255.0f)));
        graphics->setFont(getFont());

        const int height = getRowHeight();
        const gcn::Color unsupported =
                Theme::getThemeColor(Theme::SERVER_VERSION_NOT_SUPPORTED,
                                     (int) (mAlpha * 255.0f));

        // Draw filled rectangle around the selected list element
        if (mSelected >= 0)
            graphics->fillRectangle(gcn::Rectangle(0, height * mSelected,
                                                   getWidth(), height));

        // Draw the list elements
        for (int i = 0, y = 0; i < model->getNumberOfElements();
             ++i, y += height)
        {
            ServerInfo info = model->getServer(i);

            graphics->setColor(Theme::getThemeColor(Theme::TEXT));

            if (!info.name.empty())
            {
                graphics->setFont(boldFont);
                graphics->drawText(info.name, 2, y);
            }

            graphics->setFont(getFont());

            int top = y + height / 2;

            graphics->drawText(model->getElementAt(i), 2, top);

            if (info.version.first > 0)
            {
                graphics->setColor(unsupported);

                graphics->drawText(info.version.second,
                                   getWidth() - info.version.first - 2, top);
            }
        }
    }
Exemplo n.º 29
0
void ProgressBar::draw(gcn::Graphics *graphics)
{
    updateAlpha();

    mColor.a = static_cast<int>(mAlpha * 255);

    gcn::Rectangle rect = getDimension();
    rect.x = 0;
    rect.y = 0;

    render(static_cast<Graphics*>(graphics), rect, mColor,
           mProgress, mText, mVertexes, &mRedraw);
}
Exemplo n.º 30
0
void MapCloudDisplay::onInitialize()
{
	MFDClass::onInitialize();

	transformer_class_loader_ = new pluginlib::ClassLoader<rviz::PointCloudTransformer>( "rviz", "rviz::PointCloudTransformer" );
	loadTransformers();

	updateStyle();
	updateBillboardSize();
	updateAlpha();

	spinner_.start();
}