Unigine::LightEnvironmentProbe Class
Header: | #include <UnigineLights.h> |
Inherits: | Light |
LightEnvironmentProbe Class
Members
static LightEnvironmentProbePtr create(const Math::vec4 & color, const Math::vec3 & attenuation_distance, const char * name = 0)
Constructor. Creates a new environment probe with cubemap modulation based on given parameters.Arguments
- const Math::vec4 & color - Color of the environment probe.
- const Math::vec3 & attenuation_distance - Radii of the environment probe.
- const char * name - Path to a cube texture of the environment probe.
Ptr<LightEnvironmentProbe> cast(const Ptr<Node> & node)
Casts a LightEnvironmentProbe out of the Node instance.Arguments
- const Ptr<Node> & node - Pointer to Node.
Return value
Pointer to LightEnvironmentProbe.Ptr<LightEnvironmentProbe> cast(const Ptr<Light> & base)
Casts a LightEnvironmentProbe out of the Light instance.Arguments
- const Ptr<Light> & base - Pointer to Light.
Return value
Pointer to LightEnvironmentProbe.void setAmbientColor(const Math::vec4 & color)
Sets given ambient color to the LightEnvironment Probe.Arguments
- const Math::vec4 & color - Ambient color value.
Math::vec4 & getAmbientColor()
Returns ambient color value of the LightEnvironment Probe.Return value
Ambient color value.void setAmbientContrast(float contrast)
Sets the ambient contrast value for the environment probe.Arguments
- float contrast - Ambient contrast value within the [0.0f, 1.0f] range. The default value is 1.0f.
float getAmbientContrast()
Returns the current ambient contrast value for the environment probe.Return value
Ambient contrast value.void setAmbientIntensity(float intensity)
Sets given ambient intensity value to the LightEnvironment Probe. If ambient intensity is set to 1 and reflection intensity is set to 0, the Probe will be pure Light Probe.Arguments
- float intensity - Ambient intensity value within the [0.0f, 1.0f] range. The default value is 1.0f.
float getAmbientIntensity()
Returns ambient intensity of the LightEnvironment Probe.Return value
Ambient intensity value.void setAttenuationDistance(const Math::vec3 & distance)
Sets the distance from the light source shape, at which the light source doesn't illuminate anything.Arguments
- const Math::vec3 & distance - Distance from the light source shape, at which the light source doesn't illuminate anything.
Math::vec3 getAttenuationDistance()
Returns the distance from the light source shape, at which the light source doesn't illuminate anything.Return value
Distance from the light source shape, at which the light source doesn't illuminate anything.void setBoxGI(float boxgi)
Sets the current GI factor for box projection (available only when the Box projection flag is set to1).Arguments
- float boxgi - GI factor.
float getBoxGI()
Returns the current GI factor for box projection (available only when the Box projection flag is set to1).Return value
GI factor.void setBoxGlossCorners(float corners)
Arguments
- float corners
float getBoxGlossCorners()
void setBoxProjection(int projection)
Enables or disables box projection for the environment probe.Arguments
- int projection - 1 to enable box projection for the environment probe, 0 to disable it. The default value is 0.
int isBoxProjection()
Returns a value indicating if box projection is enabled for the environment probe.Return value
1 if box projection is enabled for the environment probe; otherwise, 0.void setBoxSize(const Math::vec3 & size)
Sets the box size for the environment probe (available only when the Box projection flag is set to1).Arguments
- const Math::vec3 & size - Box size along X, Y and Z axes.
Math::vec3 getBoxSize()
Returns the current box size for the environment probe (available only when the Box projection flag is set to1).Return value
Box size along X, Y and Z axes.void setDynamic(int dynamic)
Sets the value indicating if reflections are dynamic (the cubemap is generated dynamically).Arguments
- int dynamic - 1 to enable dynamic reflections; 0 to use a reflection cubemap.
int isDynamic()
Returns the value indicating if reflections are dynamic (the cubemap is generated dynamically).Return value
1 if dynamic reflections are used; 0 if a reflection cubemap is used.void setTexture(const Ptr<Texture> & texture)
Sets the given texture as the cube texture of the environment probe. If you need to set the cube texture for all environment probes in the scene, set the dynamic flag to 1.Arguments
- const Ptr<Texture> & texture - Cube texture to set.
Ptr<Texture> getTexture()
Grabs the cube texture (RGBA16F) containing the rendered environment probe and saves it into the given Texture instance.Return value
Texture to which the cube texture is saved.int setTextureImage(const Ptr<Image> & image, int dynamic = 0)
Sets the given image as the cube texture of the environment probe. If you need to set the cube texture for all environment probes in the scene, set the dynamic flag to 1.Arguments
- const Ptr<Image> & image - Cube texture to set.
- int dynamic - Dynamic texture flag:
- If set to 0, changing the cube texture of the current environment probe will also affect all environment probes in the scene.
- If set to 1, a cube texture will be successfully set only for the current environment probe.
Return value
1 if the cube texture is set successfully; otherwise, 0.int getTextureImage(const Ptr<Image> & image)
Grabs the cube texture (RGBA16F) containing the rendered environment probe and saves it into the given Image instance.Arguments
- const Ptr<Image> & image - Image into which the texture is saved.
Return value
1 if the cube texture has been grabbed successfully; otherwise, 0.void setTexturePath(const char * name)
Sets a path to a cube texture.Arguments
- const char * name - Path to a cube texture.
const char * getTexturePath()
Returns the path to the reflection cube texture used for the environment probe.Return value
Path to the cube texture.void setLocalSpace(int space)
Arguments
- int space
int isLocalSpace()
void setReflectionColor(const Math::vec4 & color)
Sets given reflection color to the LightEnvironment Probe. If reflection intensity is set to 1 and ambient intensity is set to 0, the Probe will be pure Reflection Probe.Arguments
- const Math::vec4 & color - Color value.
Math::vec4 getReflectionColor()
Returns a reflection color of the LightEnvironment Probe.Return value
Color value.void setReflectionIntensity(float intensity)
Sets given reflection intensity value to the LightEnvironemt Probe.Arguments
- float intensity - Reflection intensity value.
float getReflectionIntensity()
Returns the reflection intensity of the LightEnvironment Probe.Return value
Reflection intensity value.void setReflectionMask(int mask)
Sets a mask that specifies materials to reflect.The reflection mask can be specified only for dynamic reflections (when the Dynamic flag is set to1).
Arguments
- int mask - Reflection mask (integer, each bit of which is used to represent a mask).
int getReflectionMask()
Returns the mask that specifies materials to reflect.The reflection mask can be specified only for dynamic reflections (when the Dynamic flag is set to1).
Return value
The reflection mask (integer, each bit of which is used to represent a mask).void setReflectionUpdate(int update)
Sets the update interval for the cube texture used for dynamic reflections.Arguments
- int update - Update interval for the dynamic cube texture. The available values are:
- 1 - refresh only one face each frame.
- 2 - refresh 2 faces each frame.
- 3 - refresh 3 faces each frame.
- 4 - refresh 4 faces each frame.
- 5 - refresh 5 faces each frame.
- 6 - refresh 6 faces each frame.
int getReflectionUpdate()
Returns the current update interval set for the cube texture used for dynamic reflections.Return value
Update interval for the dynamic cube texture. The available values are:- 1 - refresh only one face each frame.
- 2 - refresh 2 faces each frame.
- 3 - refresh 3 faces each frame.
- 4 - refresh 4 faces each frame.
- 5 - refresh 5 faces each frame.
- 6 - refresh 6 faces each frame.
void setResolution(int resolution)
Sets the resolution of the reflection mask in pixels (available only when the Dynamic flag is set to1).Arguments
- int resolution - Resolution of the reflection mask in pixels.
int getResolution()
Returns the current resolution of the reflection mask in pixels (available only when the Dynamic flag is set to1).Return value
Resolution of the reflection mask in pixels.void setSkyCutout(int cutout)
Enables or disables sky cutout for image grabbing (available only when the Dynamic flag is set to1).Arguments
- int cutout - 1 to enable sky cutout, 0 to disable it. The default value is 0.
int isSkyCutout()
Returns a value indicating if sky cutout for image grabbing is enabled (available only when the Dynamic flag is set to1).Return value
1 if sky cutout for image grabbing is enabled; otherwise, 0.void setSunLightColor(int color)
Enables or disables sun color modulation for the environment probe (the light of the environment probe changes as the sun color changes). This parameter can be used for outdoor-baked environment probes.Arguments
- int color - 1 to enable sun color modulation for the environment probe, 0 to disable it. The default value is 0.
int isSunLightColor()
Returns a value indicating if sun color modulation for the environment probe is enabled. This parameter can be used for outdoor-baked environment probes.Return value
1 if sun color modulation for the environment probe is enabled; otherwise, 0.void setSupersampling(int supersampling)
Enables or disables supersampling for image grabbing (available only when the Dynamic flag is set to1).Arguments
- int supersampling - 1 to enable supersampling, 0 to disable it. The default value is 0.
int getSupersampling()
Returns a value indicating if supersampling for image grabbing is enabled (available only when the Dynamic flag is set to1).Return value
1 if supersampling for image grabbing is enabled; otherwise, 0.void setZFar(float zfar)
Sets the distance to the far clipping plane for image grabbing (available only when the Dynamic flag is set to1).Arguments
- float zfar - Distance to the far clipping plane.
float getZFar()
Returns the distance to the far clipping plane used for image grabbing (available only when the Dynamic flag is set to1)Return value
Distance to the far clipping plane.void setZNear(float znear)
Sets the distance to the near clipping plane for image grabbing (available only when the Dynamic flag is set to1).Arguments
- float znear - Distance to the near clipping plane.
float getZNear()
Returns the distance to the near clipping plane used for image grabbing (available only when the Dynamic flag is set to1)Return value
Distance to the near clipping plane.int type()
Returns the type of the node.Return value
LightEnvironmentProbe type identifier.Last update: 2017-10-20
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