org.web3d.x3d.jsail.Shape

Class TwoSidedMaterialObject

java.lang.Object

org.web3d.x3d.jsail.X3DConcreteElement

org.web3d.x3d.jsail.X3DConcreteNode

org.web3d.x3d.jsail.Shape.TwoSidedMaterialObject

All Implemented Interfaces:

X3DNode, TwoSidedMaterial, X3DAppearanceChildNode, X3DMaterialNode

public class TwoSidedMaterialObject
extends X3DConcreteNode
implements TwoSidedMaterial

X3D node tooltip: (X3D version 3.2 or later) [X3DMaterialNode] TwoSidedMaterial specifies surface rendering properties for associated geometry nodes, for outer (front) and inner (back) sides of polygons. Material attributes are used by the X3D lighting equations during rendering.

• Warning: requires X3D profile='Full' or else include <component name='Shape' level='4'/>
• Hint: insert Shape and Appearance nodes before adding material.
• Hint: DEF/USE copies of a single node can provide a similar "look + feel" style for related shapes in a scene.
• Hint: X3D Scene Authoring Hints, Color
  http://www.web3d.org/x3d/content/examples/X3dSceneAuthoringHints.html#Color
• Warning: corresponding geometry within the parent Shape must have solid='false' for two-sided rendering, otherwise no reverse-side back geometry is displayed.
• Hint: X3D Architecture 12.2.3 Two-sided materials
  http://www.web3d.org/documents/specifications/19775-1/V3.3/Part01/components/shape.html#TwoSidedMaterials
• Hint: X3D Architecture 17.2.2 Lighting model
  http://www.web3d.org/documents/specifications/19775-1/V3.3/Part01/components/lighting.html#Lightingmodel

Note that SFColorObject provides a variety of color constants.

Package hint: This org.web3d.x3d.jsail concrete class is used for implementing a standalone X3D object as a Plain Old Java Object (POJO). If you are writing Java code for use inside an X3D Script node, compile separate code using only the org.web3d.x3d.sai package instead.

See Also:

X3D Abstract Specification: TwoSidedMaterial, X3D Tooltips: TwoSidedMaterial, X3D Scene Authoring Hints

Field Summary

Fields

Modifier and Type	Field and Description
static float	AMBIENTINTENSITY_DEFAULT_VALUE SFFloat field named ambientIntensity has default value 0.2f (Java syntax) or 0.2 (XML syntax).
static float	BACKAMBIENTINTENSITY_DEFAULT_VALUE SFFloat field named backAmbientIntensity has default value 0.2f (Java syntax) or 0.2 (XML syntax).
static float[]	BACKDIFFUSECOLOR_DEFAULT_VALUE SFColor field named backDiffuseColor has default value {0.8f,0.8f,0.8f} (Java syntax) or 0.8 0.8 0.8 (XML syntax).
static float[]	BACKEMISSIVECOLOR_DEFAULT_VALUE SFColor field named backEmissiveColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).
static float	BACKSHININESS_DEFAULT_VALUE SFFloat field named backShininess has default value 0.2f (Java syntax) or 0.2 (XML syntax).
static float[]	BACKSPECULARCOLOR_DEFAULT_VALUE SFColor field named backSpecularColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).
static float	BACKTRANSPARENCY_DEFAULT_VALUE SFFloat field named backTransparency has default value 0f (Java syntax) or 0 (XML syntax).
static java.lang.String	COMPONENT String constant COMPONENT defines X3D component for the TwoSidedMaterial element: Shape
static java.lang.String	containerField_DEFAULT_VALUE containerField describes typical field relationship of a node to its parent.
static float[]	DIFFUSECOLOR_DEFAULT_VALUE SFColor field named diffuseColor has default value {0.8f,0.8f,0.8f} (Java syntax) or 0.8 0.8 0.8 (XML syntax).
static float[]	EMISSIVECOLOR_DEFAULT_VALUE SFColor field named emissiveColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).
static java.lang.String	fromField_AMBIENTINTENSITY fromField ROUTE name for SFFloat field named ambientIntensity.
static java.lang.String	fromField_BACKAMBIENTINTENSITY fromField ROUTE name for SFFloat field named backAmbientIntensity.
static java.lang.String	fromField_BACKDIFFUSECOLOR fromField ROUTE name for SFColor field named backDiffuseColor.
static java.lang.String	fromField_BACKEMISSIVECOLOR fromField ROUTE name for SFColor field named backEmissiveColor.
static java.lang.String	fromField_BACKSHININESS fromField ROUTE name for SFFloat field named backShininess.
static java.lang.String	fromField_BACKSPECULARCOLOR fromField ROUTE name for SFColor field named backSpecularColor.
static java.lang.String	fromField_BACKTRANSPARENCY fromField ROUTE name for SFFloat field named backTransparency.
static java.lang.String	fromField_DIFFUSECOLOR fromField ROUTE name for SFColor field named diffuseColor.
static java.lang.String	fromField_EMISSIVECOLOR fromField ROUTE name for SFColor field named emissiveColor.
static java.lang.String	fromField_METADATA fromField ROUTE name for SFNode field named metadata.
static java.lang.String	fromField_SEPARATEBACKCOLOR fromField ROUTE name for SFBool field named separateBackColor.
static java.lang.String	fromField_SHININESS fromField ROUTE name for SFFloat field named shininess.
static java.lang.String	fromField_SPECULARCOLOR fromField ROUTE name for SFColor field named specularColor.
static java.lang.String	fromField_TRANSPARENCY fromField ROUTE name for SFFloat field named transparency.
static int	LEVEL Integer constant LEVEL provides default X3D Shape component level for this element: 4
static java.lang.String	NAME String constant NAME provides name of this element: TwoSidedMaterial.
static boolean	SEPARATEBACKCOLOR_DEFAULT_VALUE SFBool field named separateBackColor has default value false (Java syntax) or false (XML syntax).
static float	SHININESS_DEFAULT_VALUE SFFloat field named shininess has default value 0.2f (Java syntax) or 0.2 (XML syntax).
static float[]	SPECULARCOLOR_DEFAULT_VALUE SFColor field named specularColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).
static java.lang.String	toField_AMBIENTINTENSITY toField ROUTE name for SFFloat field named ambientIntensity.
static java.lang.String	toField_BACKAMBIENTINTENSITY toField ROUTE name for SFFloat field named backAmbientIntensity.
static java.lang.String	toField_BACKDIFFUSECOLOR toField ROUTE name for SFColor field named backDiffuseColor.
static java.lang.String	toField_BACKEMISSIVECOLOR toField ROUTE name for SFColor field named backEmissiveColor.
static java.lang.String	toField_BACKSHININESS toField ROUTE name for SFFloat field named backShininess.
static java.lang.String	toField_BACKSPECULARCOLOR toField ROUTE name for SFColor field named backSpecularColor.
static java.lang.String	toField_BACKTRANSPARENCY toField ROUTE name for SFFloat field named backTransparency.
static java.lang.String	toField_DIFFUSECOLOR toField ROUTE name for SFColor field named diffuseColor.
static java.lang.String	toField_EMISSIVECOLOR toField ROUTE name for SFColor field named emissiveColor.
static java.lang.String	toField_METADATA toField ROUTE name for SFNode field named metadata.
static java.lang.String	toField_SEPARATEBACKCOLOR toField ROUTE name for SFBool field named separateBackColor.
static java.lang.String	toField_SHININESS toField ROUTE name for SFFloat field named shininess.
static java.lang.String	toField_SPECULARCOLOR toField ROUTE name for SFColor field named specularColor.
static java.lang.String	toField_TRANSPARENCY toField ROUTE name for SFFloat field named transparency.
static float	TRANSPARENCY_DEFAULT_VALUE SFFloat field named transparency has default value 0f (Java syntax) or 0 (XML syntax).

Fields inherited from class org.web3d.x3d.jsail.X3DConcreteNode

CLASS_DEFAULT_VALUE, containerField_ALTERNATE_VALUES, DEF_DEFAULT_VALUE, USE_DEFAULT_VALUE

Fields inherited from class org.web3d.x3d.jsail.X3DConcreteElement

validationResult

Constructor Summary

Constructors

Constructor and Description
TwoSidedMaterialObject() Constructor for TwoSidedMaterialObject to initialize member variables with default values.
TwoSidedMaterialObject(java.lang.String DEFlabel) Utility constructor that assigns DEF label after initializing member variables with default values.

Method Summary

Modifier and Type	Method and Description
TwoSidedMaterialObject	addComments(CommentsBlock newCommentsBlock) Add CommentsBlock to contained commentsList.
TwoSidedMaterialObject	addComments(java.lang.String newComment) Add comment as String to contained commentsList.
TwoSidedMaterialObject	addComments(java.lang.String[] newComments) Add comments as String[] array to contained commentsList.
TwoSidedMaterialObject	clearMetadata() Utility method to clear SFNode value of metadata field.
X3DConcreteElement	findElementByNameValue(java.lang.String nameValue) Recursive method to provide object reference to node or statement by name attribute, if found as part of this element or in a contained element.
X3DConcreteElement	findElementByNameValue(java.lang.String nameValue, java.lang.String elementName) Recursive method to provide object reference to node or statement by name attribute, if found as part of this element or in a contained element.
X3DConcreteNode	findNodeByDEF(java.lang.String DEFvalue) Recursive method to provide object reference to node by DEF, if found as this node or in a contained node.
java.lang.String	getAccessType(java.lang.String fieldName) Indicate accessType corresponding to given fieldName.
float	getAmbientIntensity() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named ambientIntensity.
float	getBackAmbientIntensity() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backAmbientIntensity.
float[]	getBackDiffuseColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backDiffuseColor.
float[]	getBackEmissiveColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backEmissiveColor.
float	getBackShininess() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backShininess.
float[]	getBackSpecularColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backSpecularColor.
float	getBackTransparency() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backTransparency.
java.lang.String	getComponent() Defines X3D component for the TwoSidedMaterial element: Shape
int	getComponentLevel() Provides default X3D component level for this element: 4
java.lang.String	getContainerFieldDefault() containerField describes typical field relationship of a node to its parent.
float[]	getDiffuseColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named diffuseColor.
java.lang.String	getElementName() Provides name of this element: TwoSidedMaterial
float[]	getEmissiveColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named emissiveColor.
java.lang.String	getFieldType(java.lang.String fieldName) Indicate type corresponding to given fieldName.
ISObject	getIS() Provide field named IS for establishing IS/connect field connections between ProtoInterface fields and internal ProtoBody nodes.
X3DMetadataObject	getMetadata() Provide X3DMetadataObject instance (using a properly typed node) from inputOutput SFNode field metadata.
boolean	getSeparateBackColor() Provide boolean value from inputOutput SFBool field named separateBackColor.
float	getShininess() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named shininess.
float[]	getSpecularColor() Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named specularColor.
float	getTransparency() Provide float value within allowed range of [0,1] from inputOutput SFFloat field named transparency.
boolean	hasElementByNameValue(java.lang.String nameValue, java.lang.String elementName) Recursive method to determine whether node or statement with given name attribute is found, meaning both objects are attached to same scene graph.
boolean	hasMetadata() Indicate whether an object is available for inputOutput SFNode field metadata.
boolean	hasNodeByDEF(java.lang.String DEFvalue) Recursive method to determine whether node with DEFvalue is found, meaning both objects are attached to same scene graph.
void	initialize() Initialize all member variables to default values.
TwoSidedMaterialObject	setAmbientIntensity(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named ambientIntensity.
TwoSidedMaterialObject	setAmbientIntensity(SFFloatObject newValue) Assign typed object value to SFFloat ambientIntensity field, similar to setAmbientIntensity(float).
TwoSidedMaterialObject	setBackAmbientIntensity(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backAmbientIntensity.
TwoSidedMaterialObject	setBackAmbientIntensity(SFFloatObject newValue) Assign typed object value to SFFloat backAmbientIntensity field, similar to setBackAmbientIntensity(float).
TwoSidedMaterialObject	setBackDiffuseColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backDiffuseColor.
TwoSidedMaterialObject	setBackDiffuseColor(float red, float green, float blue) Assign values to SFColor backDiffuseColor field, similar to setBackDiffuseColor(float[]).
TwoSidedMaterialObject	setBackDiffuseColor(SFColorObject newValue) Assign typed object value to SFColor backDiffuseColor field, similar to setBackDiffuseColor(float[]).
TwoSidedMaterialObject	setBackEmissiveColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backEmissiveColor.
TwoSidedMaterialObject	setBackEmissiveColor(float red, float green, float blue) Assign values to SFColor backEmissiveColor field, similar to setBackEmissiveColor(float[]).
TwoSidedMaterialObject	setBackEmissiveColor(SFColorObject newValue) Assign typed object value to SFColor backEmissiveColor field, similar to setBackEmissiveColor(float[]).
TwoSidedMaterialObject	setBackShininess(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backShininess.
TwoSidedMaterialObject	setBackShininess(SFFloatObject newValue) Assign typed object value to SFFloat backShininess field, similar to setBackShininess(float).
TwoSidedMaterialObject	setBackSpecularColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backSpecularColor.
TwoSidedMaterialObject	setBackSpecularColor(float red, float green, float blue) Assign values to SFColor backSpecularColor field, similar to setBackSpecularColor(float[]).
TwoSidedMaterialObject	setBackSpecularColor(SFColorObject newValue) Assign typed object value to SFColor backSpecularColor field, similar to setBackSpecularColor(float[]).
TwoSidedMaterialObject	setBackTransparency(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backTransparency.
TwoSidedMaterialObject	setBackTransparency(SFFloatObject newValue) Assign typed object value to SFFloat backTransparency field, similar to setBackTransparency(float).
TwoSidedMaterialObject	setCssClass(SFStringObject newValue) Assign typed object value to SFString cssClass field, similar to setCssClass(String).
TwoSidedMaterialObject	setCssClass(java.lang.String newValue) Assign String value to inputOutput SFString field named class.
TwoSidedMaterialObject	setDEF(SFStringObject newValue) Assign typed object value to SFString DEF field, similar to setDEF(String).
TwoSidedMaterialObject	setDEF(java.lang.String newValue) Assign String value to inputOutput SFString field named DEF.
TwoSidedMaterialObject	setDiffuseColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named diffuseColor.
TwoSidedMaterialObject	setDiffuseColor(float red, float green, float blue) Assign values to SFColor diffuseColor field, similar to setDiffuseColor(float[]).
TwoSidedMaterialObject	setDiffuseColor(SFColorObject newValue) Assign typed object value to SFColor diffuseColor field, similar to setDiffuseColor(float[]).
TwoSidedMaterialObject	setEmissiveColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named emissiveColor.
TwoSidedMaterialObject	setEmissiveColor(float red, float green, float blue) Assign values to SFColor emissiveColor field, similar to setEmissiveColor(float[]).
TwoSidedMaterialObject	setEmissiveColor(SFColorObject newValue) Assign typed object value to SFColor emissiveColor field, similar to setEmissiveColor(float[]).
TwoSidedMaterialObject	setIS(ISObject newValue) Assign field named IS for establishing IS/connect field connections between ProtoInterface fields and internal ProtoBody nodes.
TwoSidedMaterialObject	setMetadata(ProtoInstanceObject newValue) Assign ProtoInstance (using a properly typed node) to inputOutput SFNode field metadata.
TwoSidedMaterialObject	setMetadata(X3DMetadataObject newValue) Assign X3DMetadataObject instance (using a properly typed node) to inputOutput SFNode field metadata.
TwoSidedMaterialObject	setSeparateBackColor(boolean newValue) Assign boolean value to inputOutput SFBool field named separateBackColor.
TwoSidedMaterialObject	setSeparateBackColor(SFBoolObject newValue) Assign typed object value to SFBool separateBackColor field, similar to setSeparateBackColor(boolean).
TwoSidedMaterialObject	setShininess(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named shininess.
TwoSidedMaterialObject	setShininess(SFFloatObject newValue) Assign typed object value to SFFloat shininess field, similar to setShininess(float).
TwoSidedMaterialObject	setSpecularColor(float[] newValue) Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named specularColor.
TwoSidedMaterialObject	setSpecularColor(float red, float green, float blue) Assign values to SFColor specularColor field, similar to setSpecularColor(float[]).
TwoSidedMaterialObject	setSpecularColor(SFColorObject newValue) Assign typed object value to SFColor specularColor field, similar to setSpecularColor(float[]).
TwoSidedMaterialObject	setTransparency(float newValue) Assign float value within allowed range of [0,1] to inputOutput SFFloat field named transparency.
TwoSidedMaterialObject	setTransparency(SFFloatObject newValue) Assign typed object value to SFFloat transparency field, similar to setTransparency(float).
TwoSidedMaterialObject	setUSE(SFStringObject newValue) Assign typed object value to SFString USE field, similar to setUSE(String).
TwoSidedMaterialObject	setUSE(java.lang.String newValue) Assign String value to inputOutput SFString field named USE.
TwoSidedMaterialObject	setUSE(TwoSidedMaterialObject DEFnode) Assign a USE reference to another DEF node of same node type, similar to setUSE(String).
java.lang.String	toStringClassicVRML(int indentLevel) Recursive method to provide ClassicVRML string serialization.
java.lang.String	toStringVRML97(int indentLevel) Recursive method to provide VRML97 string serialization.
java.lang.String	toStringX3D(int indentLevel) Recursive method to provide X3D string serialization of this model subgraph, utilizing XML encoding and conforming to X3D Canonical Form.
java.lang.String	validate() Recursive method to validate this element plus all contained nodes and statements, using both datatype-specification value checks and regular expression (regex) checking of corresponding string values.

Methods inherited from class org.web3d.x3d.jsail.X3DConcreteNode

getContainerFieldAlternateValues, getContainerFieldOverride, getCssClass, getDEF, getUSE, isNode, isStatement, isUSE, resetContainerFieldOverride, setConcreteCssClass, setConcreteDEF, setConcreteUSE, setContainerFieldOverride

Methods inherited from class org.web3d.x3d.jsail.X3DConcreteElement

clearParentObject, findAncestorElementByName, findAncestorProtoBody, findAncestorSceneObject, findAncestorX3DObject, getPackageName, getParentObject, getValidationResult, hasAncestorElementByName, hasAncestorProtoBody, hasAncestorSceneObject, hasAncestorX3DObject, setParentObject, toStringClassicVRML, toStringVRML97, toStringX3D

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Field Detail

NAME

public static final java.lang.String NAME

String constant NAME provides name of this element: TwoSidedMaterial.

See Also:

Constant Field Values

COMPONENT

public static final java.lang.String COMPONENT

String constant COMPONENT defines X3D component for the TwoSidedMaterial element: Shape

See Also:

Constant Field Values

LEVEL

public static final int LEVEL

Integer constant LEVEL provides default X3D Shape component level for this element: 4

See Also:

Constant Field Values

AMBIENTINTENSITY_DEFAULT_VALUE

public static final float AMBIENTINTENSITY_DEFAULT_VALUE

SFFloat field named ambientIntensity has default value 0.2f (Java syntax) or 0.2 (XML syntax).

See Also:

Constant Field Values

BACKAMBIENTINTENSITY_DEFAULT_VALUE

public static final float BACKAMBIENTINTENSITY_DEFAULT_VALUE

SFFloat field named backAmbientIntensity has default value 0.2f (Java syntax) or 0.2 (XML syntax).

See Also:

Constant Field Values

BACKDIFFUSECOLOR_DEFAULT_VALUE

public static final float[] BACKDIFFUSECOLOR_DEFAULT_VALUE

SFColor field named backDiffuseColor has default value {0.8f,0.8f,0.8f} (Java syntax) or 0.8 0.8 0.8 (XML syntax).

BACKEMISSIVECOLOR_DEFAULT_VALUE

public static final float[] BACKEMISSIVECOLOR_DEFAULT_VALUE

SFColor field named backEmissiveColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).

BACKSHININESS_DEFAULT_VALUE

public static final float BACKSHININESS_DEFAULT_VALUE

SFFloat field named backShininess has default value 0.2f (Java syntax) or 0.2 (XML syntax).

See Also:

Constant Field Values

BACKSPECULARCOLOR_DEFAULT_VALUE

public static final float[] BACKSPECULARCOLOR_DEFAULT_VALUE

SFColor field named backSpecularColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).

BACKTRANSPARENCY_DEFAULT_VALUE

public static final float BACKTRANSPARENCY_DEFAULT_VALUE

SFFloat field named backTransparency has default value 0f (Java syntax) or 0 (XML syntax).

See Also:

Constant Field Values

DIFFUSECOLOR_DEFAULT_VALUE

public static final float[] DIFFUSECOLOR_DEFAULT_VALUE

SFColor field named diffuseColor has default value {0.8f,0.8f,0.8f} (Java syntax) or 0.8 0.8 0.8 (XML syntax).

EMISSIVECOLOR_DEFAULT_VALUE

public static final float[] EMISSIVECOLOR_DEFAULT_VALUE

SFColor field named emissiveColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).

SEPARATEBACKCOLOR_DEFAULT_VALUE

public static final boolean SEPARATEBACKCOLOR_DEFAULT_VALUE

SFBool field named separateBackColor has default value false (Java syntax) or false (XML syntax).

See Also:

Constant Field Values

SHININESS_DEFAULT_VALUE

public static final float SHININESS_DEFAULT_VALUE

SFFloat field named shininess has default value 0.2f (Java syntax) or 0.2 (XML syntax).

See Also:

Constant Field Values

SPECULARCOLOR_DEFAULT_VALUE

public static final float[] SPECULARCOLOR_DEFAULT_VALUE

SFColor field named specularColor has default value {0f,0f,0f} (Java syntax) or 0 0 0 (XML syntax).

TRANSPARENCY_DEFAULT_VALUE

public static final float TRANSPARENCY_DEFAULT_VALUE

SFFloat field named transparency has default value 0f (Java syntax) or 0 (XML syntax).

See Also:

Constant Field Values

containerField_DEFAULT_VALUE

public static final java.lang.String containerField_DEFAULT_VALUE

containerField describes typical field relationship of a node to its parent. Usage is not ordinarily needed when using this API, default value is provided for informational purposes.

See Also:

X3D Scene Authoring Hints: containerField, X3D Unified Object Model (X3DUOM), Constant Field Values

fromField_AMBIENTINTENSITY

public static final java.lang.String fromField_AMBIENTINTENSITY

fromField ROUTE name for SFFloat field named ambientIntensity.

See Also:

Constant Field Values

toField_AMBIENTINTENSITY

public static final java.lang.String toField_AMBIENTINTENSITY

toField ROUTE name for SFFloat field named ambientIntensity.

See Also:

Constant Field Values

fromField_BACKAMBIENTINTENSITY

public static final java.lang.String fromField_BACKAMBIENTINTENSITY

fromField ROUTE name for SFFloat field named backAmbientIntensity.

See Also:

Constant Field Values

toField_BACKAMBIENTINTENSITY

public static final java.lang.String toField_BACKAMBIENTINTENSITY

toField ROUTE name for SFFloat field named backAmbientIntensity.

See Also:

Constant Field Values

fromField_BACKDIFFUSECOLOR

public static final java.lang.String fromField_BACKDIFFUSECOLOR

fromField ROUTE name for SFColor field named backDiffuseColor.

See Also:

Constant Field Values

toField_BACKDIFFUSECOLOR

public static final java.lang.String toField_BACKDIFFUSECOLOR

toField ROUTE name for SFColor field named backDiffuseColor.

See Also:

Constant Field Values

fromField_BACKEMISSIVECOLOR

public static final java.lang.String fromField_BACKEMISSIVECOLOR

fromField ROUTE name for SFColor field named backEmissiveColor.

See Also:

Constant Field Values

toField_BACKEMISSIVECOLOR

public static final java.lang.String toField_BACKEMISSIVECOLOR

toField ROUTE name for SFColor field named backEmissiveColor.

See Also:

Constant Field Values

fromField_BACKSHININESS

public static final java.lang.String fromField_BACKSHININESS

fromField ROUTE name for SFFloat field named backShininess.

See Also:

Constant Field Values

toField_BACKSHININESS

public static final java.lang.String toField_BACKSHININESS

toField ROUTE name for SFFloat field named backShininess.

See Also:

Constant Field Values

fromField_BACKSPECULARCOLOR

public static final java.lang.String fromField_BACKSPECULARCOLOR

fromField ROUTE name for SFColor field named backSpecularColor.

See Also:

Constant Field Values

toField_BACKSPECULARCOLOR

public static final java.lang.String toField_BACKSPECULARCOLOR

toField ROUTE name for SFColor field named backSpecularColor.

See Also:

Constant Field Values

fromField_BACKTRANSPARENCY

public static final java.lang.String fromField_BACKTRANSPARENCY

fromField ROUTE name for SFFloat field named backTransparency.

See Also:

Constant Field Values

toField_BACKTRANSPARENCY

public static final java.lang.String toField_BACKTRANSPARENCY

toField ROUTE name for SFFloat field named backTransparency.

See Also:

Constant Field Values

fromField_DIFFUSECOLOR

public static final java.lang.String fromField_DIFFUSECOLOR

fromField ROUTE name for SFColor field named diffuseColor.

See Also:

Constant Field Values

toField_DIFFUSECOLOR

public static final java.lang.String toField_DIFFUSECOLOR

toField ROUTE name for SFColor field named diffuseColor.

See Also:

Constant Field Values

fromField_EMISSIVECOLOR

public static final java.lang.String fromField_EMISSIVECOLOR

fromField ROUTE name for SFColor field named emissiveColor.

See Also:

Constant Field Values

toField_EMISSIVECOLOR

public static final java.lang.String toField_EMISSIVECOLOR

toField ROUTE name for SFColor field named emissiveColor.

See Also:

Constant Field Values

fromField_METADATA

public static final java.lang.String fromField_METADATA

fromField ROUTE name for SFNode field named metadata.

See Also:

Constant Field Values

toField_METADATA

public static final java.lang.String toField_METADATA

toField ROUTE name for SFNode field named metadata.

See Also:

Constant Field Values

fromField_SEPARATEBACKCOLOR

public static final java.lang.String fromField_SEPARATEBACKCOLOR

fromField ROUTE name for SFBool field named separateBackColor.

See Also:

Constant Field Values

toField_SEPARATEBACKCOLOR

public static final java.lang.String toField_SEPARATEBACKCOLOR

toField ROUTE name for SFBool field named separateBackColor.

See Also:

Constant Field Values

fromField_SHININESS

public static final java.lang.String fromField_SHININESS

fromField ROUTE name for SFFloat field named shininess.

See Also:

Constant Field Values

toField_SHININESS

public static final java.lang.String toField_SHININESS

toField ROUTE name for SFFloat field named shininess.

See Also:

Constant Field Values

fromField_SPECULARCOLOR

public static final java.lang.String fromField_SPECULARCOLOR

fromField ROUTE name for SFColor field named specularColor.

See Also:

Constant Field Values

toField_SPECULARCOLOR

public static final java.lang.String toField_SPECULARCOLOR

toField ROUTE name for SFColor field named specularColor.

See Also:

Constant Field Values

fromField_TRANSPARENCY

public static final java.lang.String fromField_TRANSPARENCY

fromField ROUTE name for SFFloat field named transparency.

See Also:

Constant Field Values

toField_TRANSPARENCY

public static final java.lang.String toField_TRANSPARENCY

toField ROUTE name for SFFloat field named transparency.

See Also:

Constant Field Values

Constructor Detail

TwoSidedMaterialObject

public TwoSidedMaterialObject()

Constructor for TwoSidedMaterialObject to initialize member variables with default values.

TwoSidedMaterialObject

public TwoSidedMaterialObject(java.lang.String DEFlabel)

Utility constructor that assigns DEF label after initializing member variables with default values.

Parameters:

DEFlabel - unique DEF name for this X3D node

Method Detail

getElementName

public final java.lang.String getElementName()

Provides name of this element: TwoSidedMaterial

Specified by:

getElementName in class X3DConcreteElement

Returns:

name of this element

getComponent

public final java.lang.String getComponent()

Defines X3D component for the TwoSidedMaterial element: Shape

Specified by:

getComponent in class X3DConcreteElement

Returns:

X3D component for this element

getComponentLevel

public final int getComponentLevel()

Provides default X3D component level for this element: 4

Specified by:

getComponentLevel in class X3DConcreteElement

Returns:

default X3D component level for this element

getFieldType

public java.lang.String getFieldType(java.lang.String fieldName)

Indicate type corresponding to given fieldName.

Specified by:

getFieldType in class X3DConcreteElement

Parameters:

fieldName - name of field in this X3D node

Returns:

X3D type (SFvec3f etc.), otherwise ConfigurationProperties.ERROR_UNKNOWN_FIELD_TYPE if not recognized

See Also:

ConfigurationProperties.ERROR_UNKNOWN_FIELD_TYPE

getAccessType

public java.lang.String getAccessType(java.lang.String fieldName)

Indicate accessType corresponding to given fieldName.

Specified by:

getAccessType in class X3DConcreteElement

Parameters:

fieldName - name of field in this X3D node

Returns:

X3D accessType (inputOnly etc.), otherwise ConfigurationProperties.ERROR_UNKNOWN_FIELD_ACCESSTYPE if not recognized

See Also:

ConfigurationProperties.ERROR_UNKNOWN_FIELD_ACCESSTYPE

getContainerFieldDefault

public final java.lang.String getContainerFieldDefault()

containerField describes typical field relationship of a node to its parent. Usage is not ordinarily needed when using this API, default value is provided for informational purposes.

Specified by:

getContainerFieldDefault in class X3DConcreteNode

Returns:

default containerField value

See Also:

X3D Scene Authoring Hints: containerField, X3D Unified Object Model (X3DUOM)

initialize

public final void initialize()

Initialize all member variables to default values.

Overrides:

initialize in class X3DConcreteNode

getAmbientIntensity

public float getAmbientIntensity()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named ambientIntensity.

Tooltip: [0,1] how much ambient omnidirectional light is reflected from all light sources. Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getAmbientIntensity in interface TwoSidedMaterial

Returns:

value of ambientIntensity field

setAmbientIntensity

public TwoSidedMaterialObject setAmbientIntensity(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named ambientIntensity.

Tooltip: [0,1] how much ambient omnidirectional light is reflected from all light sources. Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setAmbientIntensity in interface TwoSidedMaterial

Parameters:

newValue - is new value for the ambientIntensity field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setAmbientIntensity

public TwoSidedMaterialObject setAmbientIntensity(SFFloatObject newValue)

Assign typed object value to SFFloat ambientIntensity field, similar to setAmbientIntensity(float).

Parameters:

newValue - is new value for the ambientIntensity field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackAmbientIntensity

public float getBackAmbientIntensity()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backAmbientIntensity.

Tooltip: [0,1] how much ambient omnidirectional light is reflected from all light sources. Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getBackAmbientIntensity in interface TwoSidedMaterial

Returns:

value of backAmbientIntensity field

setBackAmbientIntensity

public TwoSidedMaterialObject setBackAmbientIntensity(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backAmbientIntensity.

Tooltip: [0,1] how much ambient omnidirectional light is reflected from all light sources. Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setBackAmbientIntensity in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backAmbientIntensity field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackAmbientIntensity

public TwoSidedMaterialObject setBackAmbientIntensity(SFFloatObject newValue)

Assign typed object value to SFFloat backAmbientIntensity field, similar to setBackAmbientIntensity(float).

Parameters:

newValue - is new value for the backAmbientIntensity field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackDiffuseColor

public float[] getBackDiffuseColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backDiffuseColor.

Tooltip: [0,1] how much direct, angle-dependent light is reflected from all light sources.

• Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.

Specified by:

getBackDiffuseColor in interface TwoSidedMaterial

Returns:

value of backDiffuseColor field

setBackDiffuseColor

public TwoSidedMaterialObject setBackDiffuseColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backDiffuseColor.

Tooltip: [0,1] how much direct, angle-dependent light is reflected from all light sources. Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.

Specified by:

setBackDiffuseColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backDiffuseColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackDiffuseColor

public TwoSidedMaterialObject setBackDiffuseColor(SFColorObject newValue)

Assign typed object value to SFColor backDiffuseColor field, similar to setBackDiffuseColor(float[]).

Parameters:

newValue - is new value for the backDiffuseColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackDiffuseColor

public TwoSidedMaterialObject setBackDiffuseColor(float red,
                                                  float green,
                                                  float blue)

Assign values to SFColor backDiffuseColor field, similar to setBackDiffuseColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackEmissiveColor

public float[] getBackEmissiveColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backEmissiveColor.

Tooltip: [0,1] how much glowing light is emitted from this object.

• Hint: emissiveColors glow even when all lights are off.
• Hint: reset diffuseColor from default (.8 .8 .8) to (0 0 0) to avoid washout.
• Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.
• Warning: bright emissiveColor values can wash out other colors and some textures.

Specified by:

getBackEmissiveColor in interface TwoSidedMaterial

Returns:

value of backEmissiveColor field

setBackEmissiveColor

public TwoSidedMaterialObject setBackEmissiveColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backEmissiveColor.

Tooltip: [0,1] how much glowing light is emitted from this object. Hint: emissiveColors glow even when all lights are off. Hint: reset diffuseColor from default (.8 .8 .8) to (0 0 0) to avoid washout. Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet. Warning: bright emissiveColor values can wash out other colors and some textures.

Specified by:

setBackEmissiveColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backEmissiveColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackEmissiveColor

public TwoSidedMaterialObject setBackEmissiveColor(SFColorObject newValue)

Assign typed object value to SFColor backEmissiveColor field, similar to setBackEmissiveColor(float[]).

Parameters:

newValue - is new value for the backEmissiveColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackEmissiveColor

public TwoSidedMaterialObject setBackEmissiveColor(float red,
                                                   float green,
                                                   float blue)

Assign values to SFColor backEmissiveColor field, similar to setBackEmissiveColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackShininess

public float getBackShininess()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backShininess.

Tooltip: [0,1] Lower shininess values provide soft specular glows, while higher values result in sharper, smaller highlights. Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getBackShininess in interface TwoSidedMaterial

Returns:

value of backShininess field

setBackShininess

public TwoSidedMaterialObject setBackShininess(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backShininess.

Tooltip: [0,1] Lower shininess values provide soft specular glows, while higher values result in sharper, smaller highlights. Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setBackShininess in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backShininess field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackShininess

public TwoSidedMaterialObject setBackShininess(SFFloatObject newValue)

Assign typed object value to SFFloat backShininess field, similar to setBackShininess(float).

Parameters:

newValue - is new value for the backShininess field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackSpecularColor

public float[] getBackSpecularColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named backSpecularColor.

Tooltip: [0,1] specular highlights are brightness reflections (example: shiny spots on an apple). Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getBackSpecularColor in interface TwoSidedMaterial

Returns:

value of backSpecularColor field

setBackSpecularColor

public TwoSidedMaterialObject setBackSpecularColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named backSpecularColor.

Tooltip: [0,1] specular highlights are brightness reflections (example: shiny spots on an apple). Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setBackSpecularColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backSpecularColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackSpecularColor

public TwoSidedMaterialObject setBackSpecularColor(SFColorObject newValue)

Assign typed object value to SFColor backSpecularColor field, similar to setBackSpecularColor(float[]).

Parameters:

newValue - is new value for the backSpecularColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackSpecularColor

public TwoSidedMaterialObject setBackSpecularColor(float red,
                                                   float green,
                                                   float blue)

Assign values to SFColor backSpecularColor field, similar to setBackSpecularColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getBackTransparency

public float getBackTransparency()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named backTransparency.

Tooltip: [0,1] how "clear" an object is: 1.0 is completely transparent, 0.0 is completely opaque. Interchange profile hint: transparency < .5 opaque, transparency > .5 transparent. *

Specified by:

getBackTransparency in interface TwoSidedMaterial

Returns:

value of backTransparency field

setBackTransparency

public TwoSidedMaterialObject setBackTransparency(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named backTransparency.

Tooltip: [0,1] how "clear" an object is: 1.0 is completely transparent, 0.0 is completely opaque. Interchange profile hint: transparency < .5 opaque, transparency > .5 transparent.

Specified by:

setBackTransparency in interface TwoSidedMaterial

Parameters:

newValue - is new value for the backTransparency field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setBackTransparency

public TwoSidedMaterialObject setBackTransparency(SFFloatObject newValue)

Assign typed object value to SFFloat backTransparency field, similar to setBackTransparency(float).

Parameters:

newValue - is new value for the backTransparency field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getDiffuseColor

public float[] getDiffuseColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named diffuseColor.

Tooltip: [0,1] how much direct, angle-dependent light is reflected from all light sources.

• Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.

Specified by:

getDiffuseColor in interface TwoSidedMaterial

Returns:

value of diffuseColor field

setDiffuseColor

public TwoSidedMaterialObject setDiffuseColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named diffuseColor.

Tooltip: [0,1] how much direct, angle-dependent light is reflected from all light sources. Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.

Specified by:

setDiffuseColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the diffuseColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setDiffuseColor

public TwoSidedMaterialObject setDiffuseColor(SFColorObject newValue)

Assign typed object value to SFColor diffuseColor field, similar to setDiffuseColor(float[]).

Parameters:

newValue - is new value for the diffuseColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setDiffuseColor

public TwoSidedMaterialObject setDiffuseColor(float red,
                                              float green,
                                              float blue)

Assign values to SFColor diffuseColor field, similar to setDiffuseColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getEmissiveColor

public float[] getEmissiveColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named emissiveColor.

Tooltip: [0,1] how much glowing light is emitted from this object.

• Hint: emissiveColors glow even when all lights are off.
• Hint: reset diffuseColor from default (.8 .8 .8) to (0 0 0) to avoid washout.
• Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet.
• Warning: bright emissiveColor values can wash out other colors and some textures.

Specified by:

getEmissiveColor in interface TwoSidedMaterial

Returns:

value of emissiveColor field

setEmissiveColor

public TwoSidedMaterialObject setEmissiveColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named emissiveColor.

Tooltip: [0,1] how much glowing light is emitted from this object. Hint: emissiveColors glow even when all lights are off. Hint: reset diffuseColor from default (.8 .8 .8) to (0 0 0) to avoid washout. Hint: only emissiveColor affects IndexedLineSet, LineSet and PointSet. Warning: bright emissiveColor values can wash out other colors and some textures.

Specified by:

setEmissiveColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the emissiveColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setEmissiveColor

public TwoSidedMaterialObject setEmissiveColor(SFColorObject newValue)

Assign typed object value to SFColor emissiveColor field, similar to setEmissiveColor(float[]).

Parameters:

newValue - is new value for the emissiveColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setEmissiveColor

public TwoSidedMaterialObject setEmissiveColor(float red,
                                               float green,
                                               float blue)

Assign values to SFColor emissiveColor field, similar to setEmissiveColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getMetadata

public X3DMetadataObject getMetadata()

Provide X3DMetadataObject instance (using a properly typed node) from inputOutput SFNode field metadata.

Specified by:

getMetadata in interface X3DNode

Specified by:

getMetadata in interface TwoSidedMaterial

Specified by:

getMetadata in interface X3DAppearanceChildNode

Specified by:

getMetadata in interface X3DMaterialNode

Returns:

value of metadata field

See Also:

getMetadataProtoInstance(), X3D Scene Authoring Hints: Metadata Nodes

setMetadata

public TwoSidedMaterialObject setMetadata(X3DMetadataObject newValue)

Assign X3DMetadataObject instance (using a properly typed node) to inputOutput SFNode field metadata.

Specified by:

setMetadata in interface X3DNode

Specified by:

setMetadata in interface TwoSidedMaterial

Specified by:

setMetadata in interface X3DAppearanceChildNode

Specified by:

setMetadata in interface X3DMaterialNode

Specified by:

setMetadata in class X3DConcreteNode

Parameters:

newValue - is new value for the metadata field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

See Also:

setMetadata(ProtoInstanceObject), X3D Scene Authoring Hints: Metadata Nodes

clearMetadata

public TwoSidedMaterialObject clearMetadata()

Utility method to clear SFNode value of metadata field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive setAttribute method invocations).

setMetadata

public TwoSidedMaterialObject setMetadata(ProtoInstanceObject newValue)

Assign ProtoInstance (using a properly typed node) to inputOutput SFNode field metadata.

Specified by:

setMetadata in class X3DConcreteNode

Parameters:

newValue - is new value for the metadata field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

See Also:

setMetadata(X3DMetadataObject)

hasMetadata

public boolean hasMetadata()

Indicate whether an object is available for inputOutput SFNode field metadata.

Returns:

whether a properly typed node or ProtoInstance or CommentsBlock is available.

See Also:

getMetadata(), getMetadataProtoInstance(), X3D Scene Authoring Hints: Metadata Nodes

getSeparateBackColor

public boolean getSeparateBackColor()

Provide boolean value from inputOutput SFBool field named separateBackColor.

Tooltip: separateBackColor determines whether separate Material values are used for back faces.

• Warning: backface Material values are ignored unless you set separateBackColor='true'.

Specified by:

getSeparateBackColor in interface TwoSidedMaterial

Returns:

value of separateBackColor field

setSeparateBackColor

public TwoSidedMaterialObject setSeparateBackColor(boolean newValue)

Assign boolean value to inputOutput SFBool field named separateBackColor.

Tooltip: separateBackColor determines whether separate Material values are used for back faces. Warning: backface Material values are ignored unless you set separateBackColor='true'.

Specified by:

setSeparateBackColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the separateBackColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setSeparateBackColor

public TwoSidedMaterialObject setSeparateBackColor(SFBoolObject newValue)

Assign typed object value to SFBool separateBackColor field, similar to setSeparateBackColor(boolean).

Parameters:

newValue - is new value for the separateBackColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getShininess

public float getShininess()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named shininess.

Tooltip: [0,1] Lower shininess values provide soft specular glows, while higher values result in sharper, smaller highlights. Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getShininess in interface TwoSidedMaterial

Returns:

value of shininess field

setShininess

public TwoSidedMaterialObject setShininess(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named shininess.

Tooltip: [0,1] Lower shininess values provide soft specular glows, while higher values result in sharper, smaller highlights. Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setShininess in interface TwoSidedMaterial

Parameters:

newValue - is new value for the shininess field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setShininess

public TwoSidedMaterialObject setShininess(SFFloatObject newValue)

Assign typed object value to SFFloat shininess field, similar to setShininess(float).

Parameters:

newValue - is new value for the shininess field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getSpecularColor

public float[] getSpecularColor()

Provide array of 3-tuple float results using RGB values [0..1] using RGB values [0..1] from inputOutput SFColor field named specularColor.

Tooltip: [0,1] specular highlights are brightness reflections (example: shiny spots on an apple). Interchange profile hint: this field may be ignored, applying the default value regardless. *

Specified by:

getSpecularColor in interface TwoSidedMaterial

Returns:

value of specularColor field

setSpecularColor

public TwoSidedMaterialObject setSpecularColor(float[] newValue)

Assign 3-tuple float array using RGB values [0..1] using RGB values [0..1] to inputOutput SFColor field named specularColor.

Tooltip: [0,1] specular highlights are brightness reflections (example: shiny spots on an apple). Interchange profile hint: this field may be ignored, applying the default value regardless.

Specified by:

setSpecularColor in interface TwoSidedMaterial

Parameters:

newValue - is new value for the specularColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setSpecularColor

public TwoSidedMaterialObject setSpecularColor(SFColorObject newValue)

Assign typed object value to SFColor specularColor field, similar to setSpecularColor(float[]).

Parameters:

newValue - is new value for the specularColor field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setSpecularColor

public TwoSidedMaterialObject setSpecularColor(float red,
                                               float green,
                                               float blue)

Assign values to SFColor specularColor field, similar to setSpecularColor(float[]).

Parameters:

red - first component

green - second component

blue - third component

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

getTransparency

public float getTransparency()

Provide float value within allowed range of [0,1] from inputOutput SFFloat field named transparency.

Tooltip: [0,1] how "clear" an object is: 1.0 is completely transparent, 0.0 is completely opaque. Interchange profile hint: transparency &lt; .5 opaque, transparency &gt; .5 transparent. *

Specified by:

getTransparency in interface TwoSidedMaterial

Returns:

value of transparency field

setTransparency

public TwoSidedMaterialObject setTransparency(float newValue)

Assign float value within allowed range of [0,1] to inputOutput SFFloat field named transparency.

Tooltip: [0,1] how "clear" an object is: 1.0 is completely transparent, 0.0 is completely opaque. Interchange profile hint: transparency < .5 opaque, transparency > .5 transparent.

Specified by:

setTransparency in interface TwoSidedMaterial

Parameters:

newValue - is new value for the transparency field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setTransparency

public TwoSidedMaterialObject setTransparency(SFFloatObject newValue)

Assign typed object value to SFFloat transparency field, similar to setTransparency(float).

Parameters:

newValue - is new value for the transparency field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setDEF

public final TwoSidedMaterialObject setDEF(java.lang.String newValue)

Assign String value to inputOutput SFString field named DEF.

Tooltip: DEF defines a unique ID name for this node, referenceable by other nodes. Hint: descriptive DEF names improve clarity and help document a model. Hint: well-defined names can simplify design and debugging through improved author understanding. Hint: X3D Scene Authoring Hints, Naming Conventions http://www.web3d.org/x3d/content/examples/X3dSceneAuthoringHints.html#NamingConventions

Note that setting the DEF value clears the USE value.

Specified by:

setDEF in interface X3DNode

Specified by:

setDEF in interface TwoSidedMaterial

Specified by:

setDEF in interface X3DAppearanceChildNode

Specified by:

setDEF in interface X3DMaterialNode

Specified by:

setDEF in class X3DConcreteNode

Parameters:

newValue - is new value for the DEF field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setDEF

public TwoSidedMaterialObject setDEF(SFStringObject newValue)

Assign typed object value to SFString DEF field, similar to setDEF(String).

Parameters:

newValue - is new value for the DEF field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setUSE

public final TwoSidedMaterialObject setUSE(java.lang.String newValue)

Assign String value to inputOutput SFString field named USE.

Tooltip: USE means reuse an already DEF-ed node ID, excluding all child nodes and all other attributes (except for containerField, which can have a different value). Hint: USE references to previously defined DEF geometry (instead of duplicating nodes) can improve performance. Warning: do NOT include any child nodes, a DEF attribute, or any other attribute values (except for containerField) when defining a USE attribute. Warning: each USE value must match a corresponding DEF value that is defined earlier in the scene.

Note: each USE node is still an independent object, with the USE value matching the DEF value in the preceding object.

Warning: invoking the setUSE() method on this node resets all other fields to their default values (except for containerField) and also releases all child nodes.

Warning: no other operations can be performed to modify a USE node other than setting an alternate containerField value.

Specified by:

setUSE in interface X3DNode

Specified by:

setUSE in interface TwoSidedMaterial

Specified by:

setUSE in interface X3DAppearanceChildNode

Specified by:

setUSE in interface X3DMaterialNode

Specified by:

setUSE in class X3DConcreteNode

Parameters:

newValue - is new value for the USE field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setUSE

public TwoSidedMaterialObject setUSE(SFStringObject newValue)

Assign typed object value to SFString USE field, similar to setUSE(String).

Parameters:

newValue - is new value for the USE field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setCssClass

public final TwoSidedMaterialObject setCssClass(java.lang.String newValue)

Assign String value to inputOutput SFString field named class.

Tooltip: The class attribute is a space-separated list of classes, reserved for use by CSS cascading stylesheets. Warning: currently the class attribute is only supported in XML encoding of X3D scenes. Hint: W3C Cascading Style Sheets https://www.w3.org/Style/CSS

Specified by:

setCssClass in interface X3DNode

Specified by:

setCssClass in interface TwoSidedMaterial

Specified by:

setCssClass in interface X3DAppearanceChildNode

Specified by:

setCssClass in interface X3DMaterialNode

Specified by:

setCssClass in class X3DConcreteNode

Parameters:

newValue - is new value for the class field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

See Also:

W3C Cascading Style Sheets

setCssClass

public TwoSidedMaterialObject setCssClass(SFStringObject newValue)

Assign typed object value to SFString cssClass field, similar to setCssClass(String).

Parameters:

newValue - is new value for the class field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

setIS

public TwoSidedMaterialObject setIS(ISObject newValue)

Assign field named IS for establishing IS/connect field connections between ProtoInterface fields and internal ProtoBody nodes. The IS statement connects node fields defined inside a ProtoBody declaration back to corresponding ProtoInterface fields.

Specified by:

setIS in class X3DConcreteNode

Parameters:

newValue - is new value for the description field.

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

See Also:

X3D Tooltips: IS, X3D Tooltips: connect

getIS

public ISObject getIS()

Provide field named IS for establishing IS/connect field connections between ProtoInterface fields and internal ProtoBody nodes. The IS statement connects node fields defined inside a ProtoBody declaration back to corresponding ProtoInterface fields.

Specified by:

getIS in class X3DConcreteNode

Returns:

current ISObject, if any.

See Also:

X3D Tooltips: IS, X3D Tooltips: connect

setUSE

public TwoSidedMaterialObject setUSE(TwoSidedMaterialObject DEFnode)

Assign a USE reference to another DEF node of same node type, similar to setUSE(String).

Warning: note that the setUSE() method on this node resets all other fields to their default values (except for containerField) and also releases all child nodes.

Warning: no other operations can be performed to modify a USE node other than setting an alternate containerField value.

Parameters:

DEFnode - must have a DEF value defined

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive method invocations on the same object).

addComments

public TwoSidedMaterialObject addComments(java.lang.String newComment)

Add comment as String to contained commentsList.

Specified by:

addComments in class X3DConcreteElement

Parameters:

newComment - initial value

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive setAttribute method invocations).

addComments

public TwoSidedMaterialObject addComments(java.lang.String[] newComments)

Add comments as String[] array to contained commentsList.

Specified by:

addComments in class X3DConcreteElement

Parameters:

newComments - array of comments

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive setAttribute method invocations).

addComments

public TwoSidedMaterialObject addComments(CommentsBlock newCommentsBlock)

Add CommentsBlock to contained commentsList.

Specified by:

addComments in class X3DConcreteElement

Parameters:

newCommentsBlock - block of comments to add

Returns:

TwoSidedMaterialObject - namely this same object to allow sequential method pipelining (i.e. consecutive setAttribute method invocations).

toStringX3D

public java.lang.String toStringX3D(int indentLevel)

Recursive method to provide X3D string serialization of this model subgraph, utilizing XML encoding and conforming to X3D Canonical Form.

Specified by:

toStringX3D in class X3DConcreteElement

Parameters:

indentLevel - number of levels of indentation for this element

Returns:

X3D string

See Also:

X3DObject.FILE_EXTENSION_X3D, X3DObject.FILE_EXTENSION_XML, X3DObject.toStringXML(), X3DObject.toFileXML(String), X3DObject.toFileX3D(String), X3D XML Encoding, X3D Compressed Binary Encoding: X3D Canonical Form

toStringClassicVRML

public java.lang.String toStringClassicVRML(int indentLevel)

Recursive method to provide ClassicVRML string serialization.

Specified by:

toStringClassicVRML in class X3DConcreteElement

Parameters:

indentLevel - number of levels of indentation for this element

Returns:

ClassicVRML string

See Also:

X3DObject.FILE_EXTENSION_CLASSICVRML, X3D Resources: Virtual Reality Modeling Language (VRML) 97, Extensible 3D (X3D) encodings Part 2: Classic VRML encoding, Extensible 3D (X3D) encodings Part 2: Classic VRML encoding, Annex A: Grammar

toStringVRML97

public java.lang.String toStringVRML97(int indentLevel)

Recursive method to provide VRML97 string serialization.

Specified by:

toStringVRML97 in class X3DConcreteElement

Parameters:

indentLevel - number of levels of indentation for this element

Returns:

VRML97 string

See Also:

X3DObject.FILE_EXTENSION_VRML97, X3D Resources: Virtual Reality Modeling Language (VRML) 97, Virtual Reality Modeling Language (VRML) 97 specification, VRML 97 v2.1 Amendment

findElementByNameValue

public X3DConcreteElement findElementByNameValue(java.lang.String nameValue)

Recursive method to provide object reference to node or statement by name attribute, if found as part of this element or in a contained element. Elements with name fields include meta, Metadata* nodes, field/fieldValue, ProtoDeclare/ExternProtoDeclare/ProtoInstance, CAD and HAnim nodes.

Warning: first start with findAncestorSceneObject() to check entire scene graph, or findAncestorX3DObject() to check entire model document.

Warning: more than one element may be found that has the same name, this method does not handle that case.

Specified by:

findElementByNameValue in class X3DConcreteElement

Parameters:

nameValue - is value of the name field being searched for in this element and child elements(if any)

Returns:

object reference to found element, null otherwise

See Also:

findNodeByDEF(String), X3DConcreteElement.hasAncestorSceneObject(), X3DConcreteElement.findAncestorX3DObject()

findElementByNameValue

public X3DConcreteElement findElementByNameValue(java.lang.String nameValue,
                                                 java.lang.String elementName)

Recursive method to provide object reference to node or statement by name attribute, if found as part of this element or in a contained element. Elements with name fields include meta, Metadata* nodes, field/fieldValue, ProtoDeclare/ExternProtoDeclare/ProtoInstance, CAD and HAnim nodes.

Warning: first start with findAncestorSceneObject() to check entire scene graph, or findAncestorX3DObject() to check entire model document.

Warning: more than one element may be found that has the same name, this method does not handle that case.

Specified by:

findElementByNameValue in class X3DConcreteElement

Parameters:

nameValue - is value of the name field being searched for in this element and child elements(if any)

elementName - identifies the element of interest (meta MetadataString ProtoDeclare CADassembly ProtoInstance HAnimHumanoid etc.)

Returns:

object reference to found element, null otherwise

See Also:

findNodeByDEF(String), X3DConcreteElement.hasAncestorSceneObject(), X3DConcreteElement.findAncestorX3DObject()

hasElementByNameValue

public boolean hasElementByNameValue(java.lang.String nameValue,
                                     java.lang.String elementName)

Recursive method to determine whether node or statement with given name attribute is found, meaning both objects are attached to same scene graph.

Parameters:

nameValue - is value of the name field being searched for in this element and child elements(if any)

elementName - identifies the element of interest (meta MetadataString ProtoDeclare CADassembly ProtoInstance HAnimHumanoid etc.)

Returns:

whether node is found

See Also:

findElementByNameValue(String, String)

findNodeByDEF

public X3DConcreteNode findNodeByDEF(java.lang.String DEFvalue)

Recursive method to provide object reference to node by DEF, if found as this node or in a contained node.

Warning: first start with findAncestorSceneObject() to check entire scene graph, or findAncestorX3DObject() to check entire model document.

Warning: more than one element may be found that has the same DEF, this method does not handle that case.

Specified by:

findNodeByDEF in class X3DConcreteElement

Parameters:

DEFvalue - is value of the name field being searched for in this element and child elements(if any)

Returns:

object reference to found node, null otherwise

See Also:

findElementByNameValue(String), X3DConcreteElement.hasAncestorSceneObject(), X3DConcreteElement.findAncestorX3DObject()

hasNodeByDEF

public boolean hasNodeByDEF(java.lang.String DEFvalue)

Recursive method to determine whether node with DEFvalue is found, meaning both objects are attached to same scene graph.

Parameters:

DEFvalue - is value of the name field being searched for in this element and child elements(if any)

Returns:

whether node is found

See Also:

findNodeByDEF(String)

validate

public java.lang.String validate()

Recursive method to validate this element plus all contained nodes and statements, using both datatype-specification value checks and regular expression (regex) checking of corresponding string values.

Specified by:

validate in class X3DConcreteElement

Returns:

validation results (if any)