Fog¶
Basic Fog¶
To turn on fog, create an object of class
Fog, and then apply it
using the setFog operator:
myFog = Fog("Fog Name")
myFog.setColor(R,G,B)
myFog.setExpDensity(Float 0 to 1)
render.setFog(myFog)
However, there is more here than meets the eye. We have created a fog node, which goes into the scene graph. Therefore, the fog has a position, a place where the fog is (conceptually) thickest.
If the fog object is not parented into the scene graph (in the example above, for instance), then the fog’s position is ignored, and the fog is camera-relative. Likewise, if the fog is exponential, the fog’s position is ignored, and the fog is camera-relative.
The setFog directive creates a
fog attribute object. Like any Render Attribute,
the fog attribute affects the node that it is attached to, and any nodes below
it in the scene graph. So you can easily cause only a subset of the objects
(or just a single model) to be affected by the fog, by calling
setFog on the root of the
subgraph you want to be affected. To remove the fog attribute later, use the
clearFog directive:
render.clearFog()
While you have fog in effect, it is often desirable to set the background color to match the fog:
base.setBackgroundColor( myFogColor )
Fog Modes¶
There are three fog modes in Panda:
Fog.MExponential,
Fog.MExponentialSquared and
Fog.MLinear. You can switch the
mode of a Fog object using
fog.getMode() and
fog.setMode(Fog.Mode). This explicit mode
switching isn’t normally necessary, as
Fog methods implicitly
switch the mode for you.
A Fog object in Panda3D is
a node that can be parented into the scene graph with a position, colour and
orientation like any other node (importantly,
Fog is a subclass of
PandaNode, not of
NodePath) (do
Fog nodes have a scale?).
The position of a Fog node
in the scene graph does not determine which objects the fog affects, it
determines the origin and direction of the fog when it is in linear mode. When
a fog node is in exponential mode its position and orientation in the scene
graph are irrelevant. Either way, a
Fog node must be activated
by calling nodePath.setFog(fogNode) on some
NodePath in the scene graph.
Which NodePath you call the
setFog method on determines
which parts of the scene will be fogged: that
NodePath and all its children.
Linear Fog¶
This is the default mode. In this mode the position and orientation of a
Fog node are important. A
linear-mode Fog node must
first be parented into the scene graph, then activated by calling
setFog(fogNode) on some
NodePath in the scene graph.
Setup a linear fog node at the origin:
colour = (0.5,0.8,0.8)
linfog = Fog("A linear-mode Fog node")
linfog.setColor(*colour)
linfog.setLinearRange(0,320)
linfog.setLinearFallback(45,160,320)
render.attachNewNode(linfog)
render.setFog(linfog)
In linear mode, the onset and opaque distances of the fog are defined as
offsets along the local forward (+Y) axis of the fog node. The onset distance
is the distance from the fog node at which the fog will begin to have effect,
and the opaque distance is the distance from the fog node at which the fog
will be completely opaque. From reading the API page for the
Fog class, it sounds as if
beyond this opaque point there is no fog (rather than continuing opaque fog up
to the location of the fog node as you might expect): “the fog will be
rendered as if it extended along the vector from the onset point to the opaque
point.”
These settings can be modified using the methods
getLinearOnsetPoint(),
getLinearOpaquePoint(),
setLinearOnsetPoint(float x,y,z),
setLinearOpaquePoint(Point3D pos) and
setLinearRange(float onset, float opaque) of
Fog.
There is a hardware issue with rendering fog which means that linear fog can breakdown and vanish depending on the angle from which it is viewed:
“the underlying fog effect supported by hardware is generally only one-dimensional, and must be rendered based on linear distance from the camera plane. Thus, this in-the-world effect is most effective when the fog vector from onset point to opaque point is most nearly parallel to the camera’s eye vector. As the angle between the fog vector and the eye vector increases, the accuracy of the effect diminishes, up to a complete breakdown of the effect at a 90 degree angle.”
The Fog method
setLinearFallback(float angle, float onset, float opaque) defines how the fog
should be rendered when the fog effect is diminished in this way.
angle is the minimum viewing
angle (angle between the camera direction and fog direction) at which the
fallback effect will be employed.
onset and
opaque specify camera-relative
onset and opaque distances that will be fallen back on, overriding the
Fog node’s own onset and
opaque distances.
The setLinearFallback(float angle, float onset, float opaque) workaround will
only look good in certain situations, for example when the fog is deep inside
a dark cave. So in general, exponential mode fog is more useful than the
default linear mode fog.
Exponential Fog¶
In exponential fog mode the position and orientation of your fog node in the scene graph and the onset and opaque points are ignored (in fact you don’t even have to put your fog node in the scene graph). Instead, fog is rendered camera relative according to a density factor: the fog begins at the camera and continues to infinity, with an exponentially increasing density determined by the density factor. The fog moves with the camera as the camera’s position and orientation changes:
“the onset point and opaque point are not used, and the fog effect is based on the value specified toset_exp_density(), and it doesn’t matter to which node the fog object is parented, or if it is parented anywhere at all.”
The fog[->]setExpDensity(float) method determines
the density value used for exponential fog calculations.
You activate an exponential fog effect by calling the
setFog(Fog) method of
NodePath, for example:
render.setFog(myFog):
Setup some scene-wide exponential fog:
colour = (0.5,0.8,0.8)
expfog = Fog("Scene-wide exponential Fog object")
expfog.setColor(*colour)
expfog.setExpDensity(0.005)
render.setFog(expfog)
base.setBackgroundColor(*colour)
The last line in the sample above doesn’t actually affect the fog, however, it generally looks better if the scene background color matches the color of the fog.
Since setFog is called on
render it effects the entire
scene. setFog can just as
easily be called on some other
NodePath and will effect only
that NodePath and its children.
The expontential fog effect can be turned off again using
clearFog:
render.clearFog()