Applications can use Direct3D to simulate natural phenomena involving energy releases. For instance, a program can generate the appearance of fire by applying flame-like textures to a set of billboards. This is especially effective if the program uses a sequence of fire textures to animate the flames on each billboard in the fire. Varying the speed of the animation playback from billboard to billboard increases the appearance of real flames. The semblance of intermingled 3-D flames can be achieved by layering the billboards, and the textures on the billboards.
Flares and flashes can be simulated by applying successively brighter light maps to all primitives in a scene. Although this is a computationally high-overhead technique, it allows your program to simulate a localized flare or flash. That is, the portion of the scene where the flare or flash originates can be brightened first.
Another technique is to position a billboard in front of the viewport so that the entire viewport is covered. The program applies successively whiter textures to the billboard and decreases the transparency over time. The entire scene will fade to white as time passes. This is a low overhead method of creating a flare. However, using this technique, it can be difficult to generate the appearance of a bright flash from a single point light source.
Explosions can be displayed in a 3-D scene procedures like those used for fire, flashes, and flares. For instance, your program might use a billboard to display a shock wave an rising plume of smoke when the explosion occurs. At the same time, your application can use a set of billboards to simulate flames. In addition, it can position a single billboard in front of the viewport to add a flare of light to the entire scene.
Energy beams can be simulated using billboards. Your application can also display them using primitives that are defined as line lists or line strips. For details, see Line Lists and Line Strips.
Your application can create force fields using billboards or primitives defined as triangle lists. To create a force field from triangle lists, define a set of disjoint triangles in a triangle list equally spaced over the region covered by the force field. The gaps between the triangles will allow the viewer to see the scene behind the triangles, as you might expect when looking at a force field. Apply a texture to the triangle list that gives the triangles the appearance of glowing with energy. For further information, see Triangle Lists and Current Texture.