/**
* \brief Get the position of the level name.
* \param camera_rect The rectangle of the camera.
*/
bear::universe::position_type rp::util::get_level_name_position
( const bear::universe::rectangle_type & camera_rect)
{
return
bear::universe::position_type
( camera_rect.left() + camera_rect.size().x / 2,
camera_rect.bottom() + 0.9 * camera_rect.size().y );
} // get_level_name_position()
/**
* \brief Get the position of the medal.
* \param camera_rect The rectangle of the camera.
*/
bear::universe::position_type rp::util::get_medal_position
( const bear::universe::rectangle_type & camera_rect)
{
return
#if 0
// at right
bear::universe::position_type
( camera_rect.left() + 0.85 * camera_rect.size().x,
camera_rect.bottom() + 0.19 * camera_rect.size().y );
#else
// at left
bear::universe::position_type
( camera_rect.left() + 0.15 * camera_rect.size().x,
camera_rect.bottom() + 0.19 * camera_rect.size().y );
#endif
} // get_medal_position()
/**
* \brief Update the content of the box.
* \param camera_box The box of the camera in the level.
* \param layer_size The size of the layer.
*/
void bear::item_information_layer::info_box::update
( const bear::universe::rectangle_type& camera_box,
const claw::math::coordinate_2d<unsigned int>& layer_size)
{
claw::math::coordinate_2d<double> ratio
( camera_box.size().x / layer_size.x,
camera_box.size().y / layer_size.y );
if ( m_item != NULL )
{
bear::universe::position_type pos;
pos.x = (m_item->get_right() - camera_box.left())/ratio.x + m_delta.x;
pos.y = (m_item->get_top() - camera_box.bottom())/ratio.y + m_delta.y;
m_text.set_position( pos );
}
else
m_text.set_text("Invalid handle.");
} // item_information_layer::info_box::update()
/**
* \brief Adjust the distance between the player and the arrow.
* \param glob The level globals in which we load the media.
* \param visible_area The visible part of the layer.
*/
void ptb::player_arrows_layer::player_data::adjust_distance
( bear::engine::level_globals& glob,
const bear::universe::rectangle_type& visible_area )
{
claw::math::coordinate_2d<double> ratio
( visible_area.size().x / m_screen_size.x,
visible_area.size().y / m_screen_size.y );
bear::universe::position_type relative_position;
relative_position.x = visible_area.left() +
( m_position.x + m_arrow.width() / 2 ) * ratio.x;
relative_position.y = visible_area.bottom() +
( m_screen_size.y - m_position.y - m_arrow.height() / 2 ) * ratio.y;
bear::universe::speed_type vect
(m_player.get_center_of_mass(), relative_position);
unsigned int dist = (unsigned int)vect.length() / 100;
const bear::universe::rectangle_type box = m_player.get_bounding_box();
bear::visual::font f = glob.get_font("font/Fava-black.ttf", 30);
if ( box.intersects( visible_area ) )
m_distance.create(f, "");
else
{
std::ostringstream oss;
oss << dist+1;
m_distance.create(f, oss.str());
m_distance->set_intensity(1, 0.8, 0);
}
m_distance_text_position = m_position;
bear::universe::position_type gap;
gap.x = cos(m_arrow.get_angle()) * 50;
gap.y = sin(m_arrow.get_angle()) * 50;
m_distance_text_position.x +=
m_arrow.width() / 2 - gap.x - m_distance.get_width() / 2;
m_distance_text_position.y +=
m_arrow.height() / 2 - gap.y - m_distance.get_height() / 2;
} // player_arrows_layer::player_data::adjust_distance()
/**
* \brief Show the informations of an item, given a position.
* \param pos The position where the item is searched.
* \param camera_box The box of the camera in the level.
*/
bool bear::item_information_layer::show_item
( const bear::universe::position_type& pos,
const bear::universe::rectangle_type& camera_box )
{
claw::math::coordinate_2d<double> ratio
( camera_box.size().x / get_size().x,
camera_box.size().y / get_size().y );
bear::universe::position_type r_pos;
r_pos.x = pos.x*ratio.x + camera_box.left();
r_pos.y = pos.y*ratio.y + camera_box.bottom();
bear::universe::physical_item* item = find_item(r_pos);
if (item != NULL)
{
m_info_box.push_front
( new info_box
(*item, get_level_globals().get_font("font/fixed_white-7x12.fnt",12)) );
}
return item != NULL;
} // item_information_layer::show_item()
/**
* \brief Set the position and the angle of the arrow.
* \param glob The level globals in which we load the media.
* \param visible_area The visible part of the level.
*/
void ptb::player_arrows_layer::player_data::adjust_arrow
( bear::engine::level_globals& glob,
const bear::universe::rectangle_type& visible_area )
{
m_visible = false;
if ( (m_player != NULL) && !m_player.is_a_marionette() )
{
const bear::universe::position_type center =
m_player.get_center_of_mass();
if( ( center.x < visible_area.left() ) ||
( center.x > visible_area.left() + visible_area.size().x ) ||
( center.y < visible_area.bottom() ) ||
( center.y > visible_area.bottom() + visible_area.size().y ) )
{
adjust_position( visible_area );
adjust_angle( visible_area );
adjust_distance(glob, visible_area );
m_visible = true;
}
}
} // player_arrows_layer::player_data::adjust_arrow()
/**
* \brief Adjust the angle of the arrow.
* \param visible_area The visible part of the layer.
*/
void ptb::player_arrows_layer::player_data::adjust_angle
( const bear::universe::rectangle_type& visible_area )
{
claw::math::coordinate_2d<double> ratio
( visible_area.size().x / m_screen_size.x,
visible_area.size().y / m_screen_size.y );
bear::universe::position_type relative_position;
relative_position.x = visible_area.left() +
( m_position.x + m_arrow.width() / 2 ) * ratio.x;
relative_position.y = visible_area.bottom() +
( m_position.y + m_arrow.height() / 2 ) * ratio.y;
bear::universe::speed_type v =
m_player.get_center_of_mass() - relative_position;
v.normalize();
if ( v.y <= 0 )
m_arrow.set_angle( -acos(v.x) );
else
m_arrow.set_angle( acos(v.x) );
} // player_arrows_layer::player_data::adjust_angle()