SoDirectionalLight Class Reference
[Lights & colors]

Node representing a directional light source. More...

#include <Inventor/nodes/SoDirectionalLight.h>

Inheritance diagram for SoDirectionalLight:
SoLight SoNode SoFieldContainer SoBase SoRefCounter SoTypedObject SoDirectionalLightManip

List of all members.

Public Member Functions

virtual SoType getTypeId () const
 SoDirectionalLight ()

Static Public Member Functions

static SoType getClassTypeId ()

Public Attributes

SoSFVec3f direction

Detailed Description

Node representing a directional light source.

This node defines a directional light source that illuminates along rays parallel to a given 3-dimensional vector.

A light node defines an illumination source that may affect subsequent shapes in the scene graph, depending on the current lighting model. Light sources are affected by the current transformation. A light node under an SoSeparator does not affect any objects outside that separator. Lights may be grouped under an SoGroup node and still affect the rest of the scene graph. The viewer classes automatically create a directional light, called the headlight, that is automatically updated to shine in the same direction the camera is pointed.

You can also use a node kit to create a light; see the reference page for SoLightKit.

The lighting model can be changed using an SoLightModel node. Effectively lighting is enabled by default (default model is PER_VERTEX_PHONG), but can be turned off by setting the lighting model to BASE_COLOR. In this case the object's diffuse color is used without modification. This can be useful for axes and annotations.

An SoEnvironment node can be used to specify additional options related to lighting:

When lighting is enabled, the appearance of most geometry depends on the normal vectors specified (or computed) for the geometry. See SoShapeHints for a discussion of normal computation and the concept of "crease angle". By default lighting is only computed for the "front" face of most geometry (there are some exceptions like SoOrthoSlice). Which face is the front depends on the vertex ordering. Also see SoShapeHints to control vertex ordering and to enable "two sided" lighting. Lighting of line geometry is affected by the tangent values, if any, specified with SoVertexProperty.

The color components specified for lights mean something different than for materials. For a light, the numbers correspond to a percentage of full intensity for each color. If the R, G, and B values for a light's color are all 1.0, the light is the brightest possible white. If the values are 0.5, the color is still white, but only at half intensity, so it appears gray. If R=G=1 and B=0 (full red and green with no blue), the light appears yellow. The intensity can also be modulated using the intensity field.

For materials, the numbers correspond to the reflected percentages of those colors. So if R=1, G=0.5, and B=0 for a material, that material reflects all the incoming red light, half the incoming green, and none of the incoming blue light. In other words, if an OpenGL light has components (LR, LG, LB), and a material has corresponding components (MR, MG, MB), then, ignoring all other reflectivity effects, the light that arrives at the eye is given by (LR*MR, LG*MG, LB*MB). As a result, for example, shining a pure blue light on a pure red cone has no visible effect.

Similarly, if you have two lights that send (R1, G1, B1) and (R2, G2, B2) to the eye, the components are added, giving (R1+R2, G1+G2, B1+B2). If any of the sums are greater than 1 (corresponding to a color brighter than the hardware can display), the component is clamped to 1.

The maximum number of lights depends on the hardware, but at least eight simultaneous lights are supported.




SoPointLight, SoSpotLight, SoLightModel

See related examples:

MedicalSimpleLightedVolume, SimpleLightedVolume

Constructor & Destructor Documentation

SoDirectionalLight::SoDirectionalLight (  ) 

Creates a directional light source node with default settings.

Member Function Documentation

static SoType SoDirectionalLight::getClassTypeId (  )  [static]

Returns the type identifier for this class.

Reimplemented from SoLight.

Reimplemented in SoDirectionalLightManip.

virtual SoType SoDirectionalLight::getTypeId (  )  const [virtual]

Returns the type identifier for this specific instance.

Reimplemented from SoLight.

Reimplemented in SoDirectionalLightManip.

Member Data Documentation

Illumination direction vector.

The documentation for this class was generated from the following file:

Open Inventor Toolkit reference manual, generated on 25 May 2020
Copyright © Thermo Fisher Scientific All rights reserved.