Unigine::Variable Class
Header: | #include <UnigineInterpreter.h> |
Universal variable for functors.
Variable Class
Members
Variable()
Default constructor.Variable(const Variable & v)
Copy constructor.Arguments
- const Variable & v - The value of the variable.
explicit Variable(int v)
Explicit constructor for a variable of int type.Arguments
- int v - The value of the variable.
explicit Variable(long long v)
Explicit constructor for a variable of long long type.Arguments
- long long v - The value of the variable.
explicit Variable(float v)
Explicit constructor for a variable of float type.Arguments
- float v - The value of the variable.
explicit Variable(double v)
Explicit constructor for a variable of double type.Arguments
- double v - The value of the variable.
explicit Variable(const vec2 & v)
Explicit constructor for a variable of vec2 type.Arguments
- const vec2 & v - The value of the variable.
explicit Variable(const vec3 & v)
Explicit constructor for a variable of vec3 type.Arguments
- const vec3 & v - The value of the variable.
explicit Variable(const vec4 & v)
Explicit constructor for a variable of vec4 type.Arguments
- const vec4 & v - The value of the variable.
explicit Variable(const dvec2 & v)
Explicit constructor for a variable of dvec2 type.Arguments
- const dvec2 & v - The value of the variable.
explicit Variable(const dvec3 & v)
Explicit constructor for a variable of dvec3 type.Arguments
- const dvec3 & v - The value of the variable.
explicit Variable(const dvec4 & v)
Explicit constructor for a variable of dvec4 type.Arguments
- const dvec4 & v - The value of the variable.
explicit Variable(const ivec2 & v)
Explicit constructor for a variable of ivec2 type.Arguments
- const ivec2 & v - The value of the variable.
explicit Variable(const ivec3 & v)
Explicit constructor for a variable of ivec3 type.Arguments
- const ivec3 & v - The value of the variable.
explicit Variable(const ivec4 & v)
Explicit constructor for a variable of ivec4 type.Arguments
- const ivec4 & v - The value of the variable.
explicit Variable(const mat4 & m)
Explicit constructor for a variable of mat4 type.Arguments
- const mat4 & m - The value of the variable.
explicit Variable(const dmat4 & m)
Explicit constructor for a variable of dmat4 type.Arguments
- const dmat4 & m - The value of the variable.
explicit Variable(const quat & q)
Explicit constructor for a variable of quad type.Arguments
- const quat & q - The value of the variable.
explicit Variable(const char * s)
Explicit constructor for a variable of string type.Arguments
- const char * s - The value of the variable.
Variable(void * interpreter, const char * type_name, void * object, int append, int manage)
External class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const char * type_name - Name of the external class object type.
- void * object - Pointer to the object.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const BodyPtr & body, int append, int manage)
Body smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const BodyPtr & body - Body smart pointer.
- int append - The script will take ownership of the Body and be responsible for deleting it.
- int manage - The script will manage the Body lifetime through reference counting.
Variable(void * interpreter, const CameraPtr & camera, int append, int manage)
Camera smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const CameraPtr & camera - Camera smart pointer.
- int append - The script will take ownership of the camera and be responsible for deleting it.
- int manage - The script will manage the camera lifetime through reference counting.
Variable(void * interpreter, const ControlsPtr & controls, int append, int manage)
Controls smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const ControlsPtr & controls - Controls smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const DatasetPtr & dataset, int append, int manage)
Dataset smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const DatasetPtr & dataset - Dataset smart pointer.
- int append - The script will take ownership of the Dataset and be responsible for deleting it.
- int manage - The script will manage the Dataset lifetime through reference counting.
Variable(void * interpreter, const DecalPtr & decal, int append, int manage)
Decal smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const DecalPtr & decal - Decal smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const EllipsoidPtr & ellipsoid, int append, int manage)
Ellipsoid smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const EllipsoidPtr & ellipsoid - Ellipsoid smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const GuiPtr & gui, int append, int manage)
Gui smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const GuiPtr & gui - Gui smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const ImagePtr & image, int append, int manage)
Image smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const ImagePtr & image - Image smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const LightPtr & light, int append, int manage)
Light smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const LightPtr & light - Light smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const MaterialPtr & material, int append, int manage)
Material smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const MaterialPtr & material - Material smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const MeshPtr & mesh, int append, int manage)
Mesh smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const MeshPtr & mesh - Mesh smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const NodePtr & node, int append, int manage)
Node smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const NodePtr & node - Node smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const ObjectPtr & object, int append, int manage)
Object smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const ObjectPtr & object - Object smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const PathPtr & path, int append, int manage)
Path smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const PathPtr & path - Path smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const PlayerPtr & player, int append, int manage)
Player smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const PlayerPtr & player - Player smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const ShapePtr & shape, int append, int manage)
Shape smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const ShapePtr & shape - Shape smart pointer.
- int append - The script will take ownership of the Shape and be responsible for deleting it.
- int manage - The script will manage the Shape lifetime through reference counting.
Variable(void * interpreter, const StreamPtr & stream, int append, int manage)
Stream smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const StreamPtr & stream - Stream smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const PropertyPtr & property, int append, int manage)
Property smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const PropertyPtr & property - Property smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const RenderEnvironmentPresetPtr & preset, int append, int manage)
RenderEnvironmentPreset smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const RenderEnvironmentPresetPtr & preset - RenderEnvironmentPreset smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const TerrainGlobalDetailPtr & detail, int append, int manage)
TerrainGlobalDetail smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalDetailPtr & detail - TerrainGlobalDetail smart pointer.
- int append - The script will take ownership of the TerrainGlobalDetail and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalDetail lifetime through reference counting.
Variable(void * interpreter, const TerrainGlobalLodHeightPtr & lod, int append, int manage)
TerrainGlobalLodHeight smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodHeightPtr & lod - TerrainGlobalLodHeight smart pointer.
- int append - The script will take ownership of the TerrainGlobalLodHeight and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalLodHeight lifetime through reference counting.
Variable(void * interpreter, const TerrainGlobalLodPtr & lod, int append, int manage)
TerrainGlobalLod smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodPtr & lod - TerrainGlobalLod smart pointer.
- int append - The script will take ownership of the TerrainGlobalLod and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalLod lifetime through reference counting.
Variable(void * interpreter, const TerrainGlobalLodsPtr & lods, int append, int manage)
TerrainGlobalLods smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodsPtr & lods - TerrainGlobalLods smart pointer.
- int append - The script will take ownership of the TerrainGlobalLods and be responsible for deleting it.
- int manage
Variable(void * interpreter, const TypeInfo & type_info, void * object, int append, int manage)
External class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const TypeInfo & type_info - Type information.
- void * object - Pointer to the object.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const WidgetPtr & widget, int append, int manage)
Widget smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const WidgetPtr & widget - Widget smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(void * interpreter, const XmlPtr & xml, int append, int manage)
XML smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const XmlPtr & xml - XML smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
Variable(const UGUID & g)
UGUID smart pointer class object constructor.Arguments
- const UGUID & g - UGUID smart pointer.
Variable(void * interpreter, const JointPtr & joint, int append, int manage)
Joint smart pointer class object constructor.Arguments
- void * interpreter - Interpreter pointer.
- const JointPtr & joint - Joint smart pointer.
- int append - The script will take ownership of the Joint and be responsible for deleting it.
- int manage - The script will manage the Joint lifetime through reference counting.
void set(const Variable & v)
Sets a variable.Arguments
- const Variable & v - The value of the variable.
const Variable & get() const
Returns the current variable.Return value
The value of the variable.void setBody(void * interpreter, const BodyPtr & body, int append, int manage)
Sets a Body smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const BodyPtr & body - Body smart pointer.
- int append - The script will take ownership of the Body and be responsible for deleting it.
- int manage - The script will manage the Body lifetime through reference counting.
BodyPtr getBody(void * interpreter)
Returns the current variable as a Body smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Body smart pointer.int isBody(void * interpreter)
Returns a value indicating if the variable is a Body.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a Body; otherwise, 0.void setCamera(void * interpreter, const CameraPtr & camera, int append, int manage)
Sets a Camera smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const CameraPtr & camera - Camera smart pointer.
- int append - The script will take ownership of the Camera and be responsible for deleting it.
- int manage - The script will manage the Camera lifetime through reference counting.
CameraPtr getCamera(void * interpreter)
Returns the current variable as a Camera smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Camera smart pointer.int isCamera(void * interpreter)
Returns a value indicating if the variable is a Camera.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a Camera; otherwise, 0.void setControls(void * interpreter, const ControlsPtr & controls, int append, int manage)
Sets a controls smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const ControlsPtr & controls - Controls smart pointer.
- int append - The script will take ownership of the controls and be responsible for deleting it.
- int manage - The script will manage the controls lifetime through reference counting.
ControlsPtr getControls(void * interpreter) const
Returns the current variable as a controls smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Controls smart pointer.int isControls(void * interpreter) const
Returns a value indicating if the variable is a controls.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a controls; otherwise, 0.Variable::VariableData * getData()
void setDataset(void * interpreter, const DatasetPtr & dataset, int append, int manage)
Sets a Dataset smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const DatasetPtr & dataset - Dataset smart pointer.
- int append - The script will take ownership of the Dataset and be responsible for deleting it.
- int manage - The script will manage the Dataset lifetime through reference counting.
DatasetPtr getDataset(void * interpreter)
Returns the current variable as a Dataset smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Dataset smart pointer.int isDataset(void * interpreter)
Returns a value indicating if the variable is a Dataset.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a Dataset; otherwise, 0.void setDecal(void * interpreter, const DecalPtr & decal, int append, int manage)
Sets a decal smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const DecalPtr & decal - Decal smart pointer.
- int append - The script will take ownership of the decal and be responsible for deleting it.
- int manage - The script will manage the decal lifetime through reference counting.
DecalPtr getDecal(void * interpreter) const
Returns the current variable as a decal smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isDecal(void * interpreter) const
Returns a value indicating if the variable is a decal.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is a decal; otherwise, 0.void setDMat4(const dmat4 & m)
Sets a 3x4 matrix for the variable.Arguments
- const dmat4 & m - The value of the variable.
const dmat4 & getDMat4() const
Returns the current variable as a 4x4 matrix, if possible.Return value
The value of the variable.int isDMat4() const
Returns a value indicating if the variable is a 4x4 matrix.Return value
Returns 1 if the variable is a 4x4 matrix; otherwise, 0.void setDouble(double v)
Sets a double value for the variable.Arguments
- double v - The value of the variable.
double getDouble() const
Returns the current variable as a double value, if possible.Return value
The value of the variable.int isDouble() const
Returns a value indicating if the variable is a double value.Return value
1 if the variable is a double value; otherwise, 0.void setDVec2(const dvec2 & v)
Sets a two component vector for the variable.Arguments
- const dvec2 & v - The value of the variable.
const dvec2 & getDVec2()
Returns the current variable as a two component vector, if possible.Return value
The value of the variable.int isDVec2()
Returns a value indicating if the variable is a three component vector.Return value
1 if the variable is a two component vector; otherwise, 0.void setDVec3(const dvec3 & v)
Sets a three component vector for the variable.Arguments
- const dvec3 & v - The value of the variable.
const dvec3 & getDVec3() const
Returns the current variable as a three component vector, if possible.Return value
The value of the variable.int isDVec3() const
Returns a value indicating if the variable is a three component vector.Return value
1 if the variable is a three component vector; otherwise, 0.void setDVec4(const dvec4 & v)
Sets a four component vector for the variable.Arguments
- const dvec4 & v - The value of the variable.
const dvec4 & getDVec4() const
Returns the current variable as a four component vector, if possible.Return value
The value of the variable.int isDVec4() const
Returns a value indicating if the variable is a four component vector.Return value
Returns 1 if the variable is a four component vector; otherwise, 0.void setEllipsoid(void * interpreter, const EllipsoidPtr & ellipsoid, int append, int manage)
Sets a ellipsoid smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const EllipsoidPtr & ellipsoid - A smart pointer to Ellipsoid.
- int append - The script will take ownership of the ellipsoid and be responsible for deleting it.
- int manage - The script will manage the ellipsoid lifetime through reference counting.
EllipsoidPtr getEllipsoid(void * interpreter)
Returns the current variable as an ellipsoid smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
A smart pointer to Ellipsoid.int isEllipsoid(void * interpreter)
Returns a value indicating if the variable is an ellipsoid.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is an ellipsoid; otherwise, 0.int isExternClass() const
Returns a value indicating if the variable belongs to the external class.Return value
1 is the variable belongs to the external class; otherwise, 0.void setExternClassObject(void * interpreter, const char * type_name, void * object, int append, int manage)
Sets an external class object for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const char * type_name - Name of the external class object type.
- void * object - Pointer to the object.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
void setExternClassObject(void * interpreter, const TypeInfo & type_info, void * object, int append, int manage)
Sets an external class object for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const TypeInfo & type_info - Type information.
- void * object - Pointer to the object.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
void setExternClassObject(void * interpreter, Type * object, int append, int manage)
Sets an external class object for the variable.Arguments
- void * interpreter - Interpreter pointer.
- Type * object - Pointer to the object.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
void * getExternClassObject(void * interpreter, const TypeInfo & type_info) const
Returns the external class object pointer.Arguments
- void * interpreter - Interpreter pointer.
- const TypeInfo & type_info - Type information.
Type * getExternClassObject(void * interpreter) const
Returns the type of the external class object.Arguments
- void * interpreter - Interpreter pointer.
Return value
Object type.int isExternClassObject(void * interpreter) const
Returns a value indicating if the object belongs to the external class.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 is the variable belongs to the external class; otherwise, 0.Type & getExternClassObjectRef(void * interpreter) const
Returns the type of the external class object stored in the variable.Arguments
- void * interpreter - Interpreter pointer.
Return value
Object type.TypeInfo getExternClassType(void * interpreter) const
Returns type information about the external class object stored in the variable.Arguments
- void * interpreter - Interpreter pointer.
Return value
Type information.void setFloat(float v)
Sets a float value for the variable.Arguments
- float v - The value of the variable.
float getFloat() const
Returns the current variable as a float value, if possible.Return value
The value of the variable.int isFloat() const
Returns a value indicating if the variable is a float value.Return value
Returns 1 if the variable is a float value; otherwise, 0.void setGui(void * interpreter, const GuiPtr & gui, int append, int manage)
Sets a gui smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const GuiPtr & gui - Gui smart pointer.
- int append - The script will take ownership of the gui data and be responsible for deleting it.
- int manage - The script will manage the gui data lifetime through reference counting.
GuiPtr getGui(void * interpreter) const
Returns the current variable as a gui smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isGui(void * interpreter) const
Returns a value indicating if the variable is a gui.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is a gui; otherwise, 0.void setGUID(const UGUID & g)
Sets a GUID value for the variable.Arguments
- const UGUID & g - The value of the variable.
const UGUID & getGUID()
Returns the current variable as a GUID smart pointer, if possible.Return value
The value of the variable.int isGUID()
Returns a value indicating if the variable is a GUID.Return value
Returns 1 if the variable is a GUID; otherwise, 0.void setImage(void * interpreter, const ImagePtr & image, int append, int manage)
Sets an image smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const ImagePtr & image - Image smart pointer.
- int append - The script will take ownership of the image and be responsible for deleting it.
- int manage - The script will manage the image lifetime through reference counting.
ImagePtr getImage(void * interpreter) const
Returns the current variable as a image smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isImage(void * interpreter) const
Returns a value indicating if the variable is an image.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is an image; otherwise, 0.void setInt(int v)
Sets an integer value for the variable.Arguments
- int v - The value of the variable.
int getInt() const
Returns the current variable as an integer value, if possible.Return value
The value of the variable.int isInt() const
Returns a value indicating if the variable is an integer value.Return value
Returns 1 if the variable is an integer value; otherwise, 0.void setIVec2(const ivec2 & v)
Sets an inverse two component vector for the variable.Arguments
- const ivec2 & v - The value of the variable.
const ivec2 & getIVec2()
Returns the current variable as an inverse two component vector, if possible.Return value
The value of the variable.int isIVec2()
Returns a value indicating if the variable is an inverse two component vector.Return value
1 if the variable is an inverse two component vector; otherwise, 0.void setIVec3(const ivec3 & v)
Sets a three component vector for the variable.Arguments
- const ivec3 & v - The value of the variable.
const ivec3 & getIVec3() const
Returns the current variable as a three component vector, if possible.Return value
The value of the variable.int isIVec3() const
Returns a value indicating if the variable is a three component vector.Return value
Returns 1 if the variable is a three component vector; otherwise, 0.void setIVec4(const ivec4 & v)
Sets a four component vector for the variable.Arguments
- const ivec4 & v - The value of the variable.
const ivec4 & getIVec4() const
Returns the current variable as a four component vector, if possible.Return value
The value of the variable.int isIVec4() const
Returns a value indicating if the variable is a four component vector.Return value
Returns 1 if the variable is a four component vector; otherwise, 0.void setJoint(void * interpreter, const JointPtr & joint, int append, int manage)
Sets a Joint smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const JointPtr & joint - Joint smart pointer.
- int append - The script will take ownership of the Joint and be responsible for deleting it.
- int manage - The script will manage the Joint lifetime through reference counting.
JointPtr getJoint(void * interpreter)
Returns the current variable as a Joint smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Joint smart pointer.int isJoint(void * interpreter)
Returns a value indicating if the variable is a Joint.Arguments
- void * interpreter
Return value
1 if the variable is a Joint; otherwise, 0.void setLight(void * interpreter, const LightPtr & light, int append, int manage)
Sets a light smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const LightPtr & light - Light smart pointer.
- int append - The script will take ownership of the light and be responsible for deleting it.
- int manage - The script will manage the light lifetime through reference counting.
LightPtr getLight(void * interpreter) const
Returns the current variable as a light smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isLight(void * interpreter) const
Returns a value indicating if the variable is a light.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a light; otherwise, 0.void setLong(long long v)
Sets a long long value for the variable.Arguments
- long long v - The value of the variable.
long long getLong() const
Returns the current variable as a long long value, if possible.Return value
The value of the variable.int isLong() const
Returns a value indicating if the variable is a long long value.Return value
1 if the variable is a long long value; otherwise, 0.void setMat4(const mat4 & m)
Sets a 4x4 matrix for the variable.Arguments
- const mat4 & m - The value of the variable.
const mat4 & getMat4() const
Returns the current variable as a 4x4 matrix, if possible.Return value
The value of the variable.int isMat4() const
Returns a value indicating if the variable is a 4x4 matrix.Return value
1 if the variable is a 4x4 matrix; otherwise, 0.void setMaterial(void * interpreter, const MaterialPtr & material, int append, int manage)
Sets a material smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const MaterialPtr & material - Material smart pointer.
- int append - The script will take ownership of the material and be responsible for deleting it.
- int manage - The script will manage the material lifetime through reference counting.
MaterialPtr getMaterial(void * interpreter) const
Returns the current variable as a material smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isMaterial(void * interpreter) const
Returns a value indicating if the variable is a material.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a material; otherwise, 0.void setMesh(void * interpreter, const MeshPtr & mesh, int append, int manage)
Sets a mesh smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const MeshPtr & mesh - Mesh smart pointer.
- int append - The script will take ownership of the mesh data and be responsible for deleting it.
- int manage - The script will manage the mesh data lifetime through reference counting.
MeshPtr getMesh(void * interpreter) const
Returns the current variable as a mesh smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isMesh(void * interpreter) const
Returns a value indicating if the variable is a mesh.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a mesh; otherwise, 0.void setNode(void * interpreter, const NodePtr & node, int append, int manage)
Sets a node smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const NodePtr & node - Node smart pointer.
- int append - The script will take ownership of the node and be responsible for deleting it.
- int manage - The script will manage the node lifetime through reference counting.
NodePtr getNode(void * interpreter) const
Returns the current variable as a node smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isNode(void * interpreter) const
Returns a value indicating if the variable is a node.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is a node; otherwise, 0.int isNull() const
Returns a value indicating if the variable is a null value.Return value
1 if the variable is a null value; otherwise, 0.void setObject(void * interpreter, const ObjectPtr & object, int append, int manage)
Sets a object smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const ObjectPtr & object - Object smart pointer.
- int append - The script will take ownership of the object and be responsible for deleting it.
- int manage - The script will manage the object lifetime through reference counting.
ObjectPtr getObject(void * interpreter) const
Returns the current variable as a object smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isObject(void * interpreter) const
Returns a value indicating if the variable is a object.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a object; otherwise, 0.void setPath(void * interpreter, const PathPtr & path, int append, int manage)
Sets a path smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const PathPtr & path - Path smart pointer.
- int append - The script will take ownership of the path data and be responsible for deleting it.
- int manage - The script will manage the path data lifetime through reference counting.
PathPtr getPath(void * interpreter) const
Returns the current variable as a path smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isPath(void * interpreter) const
Returns a value indicating if the variable is a path.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a path; otherwise, 0.void setPlayer(void * interpreter, const PlayerPtr & player, int append, int manage)
Sets a player smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const PlayerPtr & player - Player smart pointer.
- int append - The script will take ownership of the player and be responsible for deleting it.
- int manage - The script will manage the player lifetime through reference counting.
PlayerPtr getPlayer(void * interpreter) const
Returns the current variable as a player smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isPlayer(void * interpreter) const
Returns a value indicating if the variable is a player.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a player; otherwise, 0.void setProperty(void * interpreter, const PropertyPtr & property, int append, int manage)
Sets a property smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const PropertyPtr & property - Property smart pointer.
- int append - The script will take ownership of the property and be responsible for deleting it.
- int manage - The script will manage the property lifetime through reference counting.
PropertyPtr getProperty(void * interpreter) const
Returns the current variable as a property smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isProperty(void * interpreter) const
Returns a value indicating if the variable is a property.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a property; otherwise, 0.void setQuat(const quat & q)
Sets a quaternion for the variable.Arguments
- const quat & q - The value of the variable.
const quat & getQuat() const
Returns the current variable as a quaternion, if possible.Return value
The value of the variable.int isQuat() const
Returns a value indicating if the variable is a quaternion.Return value
1 if the variable is a quaternion; otherwise, 0.void setRenderEnvironmentPreset(void * interpreter, const RenderEnvironmentPresetPtr & preset, int append, int manage)
Sets a RenderEnvironmentPreset smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const RenderEnvironmentPresetPtr & preset
- int append - The script will take ownership of the RenderEnvironmentPreset and be responsible for deleting it.
- int manage - The script will manage the RenderEnvironmentPreset lifetime through reference counting.
RenderEnvironmentPresetPtr getRenderEnvironmentPreset(void * interpreter)
Returns the current variable as a RenderEnvironmentPreset smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
RenderEnvironmentPreset smart pointer.int isRenderEnvironmentPreset(void * interpreter)
Returns a value indicating if the variable is a RenderEnvironmentPreset.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a RenderEnvironmentPreset; otherwise, 0.void setShape(void * interpreter, const ShapePtr & shape, int append, int manage)
Sets a Shape smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const ShapePtr & shape - Shape smart pointer.
- int append - The script will take ownership of the Shape and be responsible for deleting it.
- int manage - The script will manage the Shape lifetime through reference counting.
ShapePtr getShape(void * interpreter)
Returns the current variable as a Shape, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
Shape smart pointer.int isShape(void * interpreter)
Returns a value indicating if the variable is a Shape.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a Shape; otherwise, 0.void setStream(void * interpreter, const StreamPtr & stream, int append, int manage)
Sets a stream smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const StreamPtr & stream - Stream smart pointer.
- int append - The script will take ownership of the stream data and be responsible for deleting it.
- int manage - The script will manage the stream data lifetime through reference counting.
StreamPtr getStream(void * interpreter) const
Returns the current variable as a stream smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isStream(void * interpreter) const
Returns a value indicating if the variable is a stream.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is a stream; otherwise, 0.void setString(const char * s)
Sets a string for the variable.Arguments
- const char * s - The value of the variable.
const char * getString() const
Returns the current variable as a string, if possible.Return value
The value of the variable.int isString() const
Returns a value indicating if the variable is a string.Return value
Returns 1 if the variable is a string; otherwise, 0.void setTerrainGlobalLod(void * interpreter, const TerrainGlobalLodPtr & lod, int append, int manage)
Sets a TerrainGlobalLod smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodPtr & lod - TerrainGlobalLod smart pointer.
- int append - The script will take ownership of the TerrainGlobalLod and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalLod lifetime through reference counting.
TerrainGlobalLodPtr getTerrainGlobalLod(void * interpreter)
Returns the current variable as a TerrainGlobalLod smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
TerrainGlobalLod smart pointer.int isTerrainGlobalLod(void * interpreter)
Returns a value indicating if the variable is a TerrainGlobalLod.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a TerrainGlobalLod; otherwise, 0.void setTerrainGlobalLods(void * interpreter, const TerrainGlobalLodsPtr & lods, int append, int manage)
Sets a TerrainGlobalLods smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodsPtr & lods - TerrainGlobalLods smart pointer.
- int append - The script will take ownership of the TerrainGlobalLods and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalLods lifetime through reference counting.
TerrainGlobalLodsPtr getTerrainGlobalLods(void * interpreter)
Returns the current variable as a TerrainGlobalLods smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
TerrainGlobalLods smart pointer.int isTerrainGlobalLods(void * interpreter)
Returns a value indicating if the variable is a TerrainGlobalLods.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a TerrainGlobalLods; otherwise, 0.void setTerrainGlobalLodHeight(void * interpreter, const TerrainGlobalLodHeightPtr & lod, int append, int manage)
Sets a TerrainGlobalLodHeight smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalLodHeightPtr & lod - TerrainGlobalLodHeight smart pointer.
- int append - The script will take ownership of the TerrainGlobalLodHeight and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalLodHeight lifetime through reference counting.
TerrainGlobalLodHeightPtr getTerrainGlobalLodHeight(void * interpreter)
Returns the current variable as a TerrainGlobalLodHeight smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
TerrainGlobalLodHeight smart pointer.int isTerrainGlobalLodHeight(void * interpreter)
Returns a value indicating if the variable is a TerrainGlobalLodHeight.Arguments
- void * interpreter - Interpreter pointer.
Return value
1 if the variable is a TerrainGlobalLodHeight; otherwise, 0.void setTerrainGlobalDetail(void * interpreter, const TerrainGlobalDetailPtr & detail, int append, int manage)
Sets a TerrainGlobalDetail smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const TerrainGlobalDetailPtr & detail - TerrainGlobalDetail smart pointer.
- int append - The script will take ownership of the TerrainGlobalDetail and be responsible for deleting it.
- int manage - The script will manage the TerrainGlobalDetail lifetime through reference counting.
TerrainGlobalDetailPtr getTerrainGlobalDetail(void * interpreter)
Returns the current variable as a TerrainGlobalDetail smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
TerrainGlobalDetail smart pointer.int isTerrainGlobalDetail(void * interpreter)
Returns a value indicating if the variable is a TerrainGlobalDetail.Arguments
- void * interpreter
Return value
1 if the variable is a TerrainGlobalDetail; otherwise, 0.int getType() const
Returns the variable type.Return value
Variable type (see Unigine::Variable:: Enumeration).String getTypeInfo() const
Returns the variable type info.Return value
Variable type info string.String getTypeName() const
Returns the variable type name.Return value
Variable type name string.void setUserClass(int type, int number, int instance)
Sets a user class for the variable.Arguments
- int type - User class type ID.
- int number - User class number.
- int instance - User class instance.
int isUserClass() const
Returns a value indicating if the variable is an user class.Return value
Returns 1 if the variable is an user class; otherwise, 0.int getUserClassInstance() const
Returns user class instance.Return value
User class instance.int getUserClassNumber() const
Returns user class number.Return value
User class number.int getUserClassType() const
Returns user class type.Return value
User class type ID.void setVec2(const vec2 & v)
Sets a two component vector for the variable.Arguments
- const vec2 & v - The value of the variable.
const vec2 & getVec2()
Returns the current variable as a two component vector, if possible.Return value
The value of the variable.int isVec2()
Returns a value indicating if the variable is a two component vector.Return value
1 if the variable is a two component vector; otherwise, 0.void setVec3(const vec3 & v)
Sets a three component vector for the variable.Arguments
- const vec3 & v - The value of the variable.
const vec3 & getVec3() const
Returns the current variable as a three component vector, if possible.Return value
The value of the variable.int isVec3() const
Returns a value indicating if the variable is a three component vector.Return value
Returns 1 if the variable is a three component vector; otherwise, 0.void setVec4(const vec4 & v)
Sets a four component vector for the variable.Arguments
- const vec4 & v - The value of the variable.
const vec4 & getVec4() const
Returns the current variable as a four component vector, if possible.Return value
The value of the variable.int isVec4() const
Returns a value indicating if the variable is a four component vector.Return value
Returns 1 if the variable is a four component vector; otherwise, 0.void setWidget(void * interpreter, const WidgetPtr & widget, int append, int manage)
Sets a widget smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const WidgetPtr & widget - Widget smart pointer.
- int append - The script will take ownership of the widget and be responsible for deleting it.
- int manage - The script will manage the widget lifetime through reference counting.
WidgetPtr getWidget(void * interpreter) const
Returns the current variable as a widget smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isWidget(void * interpreter) const
Returns a value indicating if the variable is a widget.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is a widget; otherwise, 0.void setXml(void * interpreter, const XmlPtr & xml, int append, int manage)
Sets a XML smart pointer for the variable.Arguments
- void * interpreter - Interpreter pointer.
- const XmlPtr & xml - XML smart pointer.
- int append - The script will take ownership of the XML data and be responsible for deleting it.
- int manage - The script will manage the XML data lifetime through reference counting.
XmlPtr getXml(void * interpreter) const
Returns the current variable as a XML smart pointer, if possible.Arguments
- void * interpreter - Interpreter pointer.
Return value
The value of the variable.int isXml(void * interpreter) const
Returns a value indicating if the variable is an XML.Arguments
- void * interpreter - Interpreter pointer.
Return value
Returns 1 if the variable is an XML; otherwise, 0.void appendExternClass(void * interpreter) const
The script will take ownership of the object and be responsible for deleting it.Arguments
- void * interpreter - Interpreter pointer.
void manageExternClass(void * interpreter) const
The script will manage the object lifetime through reference counting.Arguments
- void * interpreter - Interpreter pointer.
int operator!=(const Variable & v) const
Variable not equal comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator%(const Variable & v) const
Variable modulo operation.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator&(const Variable & v) const
Variable binary and.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator&&(const Variable & v) const
Variable logical and.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator*(const Variable & v) const
Variable multiplication.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator+(const Variable & v) const
Variable addition.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator-(const Variable & v) const
Variable subtraction.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator/(const Variable & v) const
Variable division.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator<(const Variable & v) const
Variable less than comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator<<(const Variable & v) const
Variable binary left shift.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator<=(const Variable & v) const
Variable less than or equal to comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable & operator=(const Variable & v)
Assignment operator for the variable.Arguments
- const Variable & v - The value of the variable.
int operator==(const Variable & v) const
Variable equal comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator>(const Variable & v) const
Variable greater than comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator>=(const Variable & v) const
Variable greater than or equal to comparison.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator>>(const Variable & v) const
Variable binary right shift.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator^(const Variable & v) const
Variable binary xor.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.Variable operator|(const Variable & v) const
Variable binary or.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.int operator||(const Variable & v) const
Variable logical or.Arguments
- const Variable & v - The value of the second variable.
Return value
The resulting variable.void releaseExternClass(void * interpreter) const
The script will drop ownership of the object and clear all references to it.Arguments
- void * interpreter - Interpreter pointer.
void removeExternClass(void * interpreter) const
The script will drop ownership of the object and be not responsible for deleting it.Arguments
- void * interpreter - Interpreter pointer.
Last update: 10.08.2018
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