public class PointForce extends ModelComponentBase implements RenderableLine, RenderableComponent, ScalableUnits, ForceComponent, TransformableGeometry, CopyableComponent
ModelComponent.NavpanelVisibility
Modifier and Type | Field and Description |
---|---|
static PropertyList |
myProps |
enforceUniqueCompositeNames, enforceUniqueNames, myNumber, NULL_OBJ, useCompactPathNames
TRANSLUCENT, TWO_DIMENSIONAL
ARTICULATED, SIMULATING
COPY_REFERENCES
Constructor and Description |
---|
PointForce() |
PointForce(Point p) |
PointForce(java.lang.String name) |
PointForce(Vector3d f,
Point p) |
Modifier and Type | Method and Description |
---|---|
void |
addPosJacobian(SparseNumberedBlockMatrix M,
double s)
Scales the components of the position Jacobian associated with this force
effector and adds it to the supplied solve matrix M.
|
void |
addSolveBlocks(SparseNumberedBlockMatrix M)
Adds any needed blocks to a solve matrix in order to accomodate the
Jacobian terms associated with this force effector.
|
void |
addVelJacobian(SparseNumberedBlockMatrix M,
double s)
Scales the components of the velocity Jacobian associated with this force
effector and adds it to the supplied solve matrix M.
|
void |
applyForces(double t)
Adds forces to the components affected by this force effector at a
particular time.
|
ModelComponent |
copy(int flags,
java.util.Map<ModelComponent,ModelComponent> copyMap)
Create a copy of this component.
|
RenderProps |
createRenderProps()
Factory method to create render properties appropriate to this object.
|
PropertyList |
getAllPropertyInfo()
Returns a list giving static information about all properties exported by
this object.
|
double |
getAxisLength() |
boolean |
getCopyReferences(java.util.List<ModelComponent> refs,
ModelComponent ancestor)
Collects external references which must also be copied in order to
duplicate this component.
|
Vector3d |
getDirection() |
Vector3d |
getForce() |
double |
getForceScaling() |
void |
getHardReferences(java.util.List<ModelComponent> refs)
Appends all hard references for this component to a list.
|
int |
getJacobianType()
Returns a code indicating the matrix type that results when the Jacobian
terms of this force effector are added to the solve matrix.
|
double |
getMagnitude() |
Point |
getPoint() |
float[] |
getRenderColor()
Returns the rgb components (in the range [0,1]) of a color that overrides
the default color indicated by the render props.
|
float[] |
getRenderCoords0() |
float[] |
getRenderCoords1() |
int |
getRenderHints()
Returns a bit code giving rendering hints about this renderable.
|
RenderProps |
getRenderProps()
Returns the render properities for this object.
|
void |
getSelection(java.util.LinkedList<java.lang.Object> list,
int qid)
Append to
list the component (or components) associated with
the qid -th selection query issued by this component's render
method. |
boolean |
isDuplicatable()
Returns true if this component can be duplicated.
|
boolean |
isSelectable()
Returns true if this object is in fact selectable.
|
int |
numSelectionQueriesNeeded()
If this selectable manages its own selection (by issuing selection
queries within its
render method), then this method should
return the maximum number of selection queries that will be
required. |
void |
prerender(RenderList list)
Prepare for rendering, and potentially add itself to a list to be drawn
by a GLRenderer.
|
void |
render(GLRenderer renderer,
int flags)
Render this object using Open GL via the JOGL.
|
void |
scaleDistance(double s)
Scales all distance coordinates.
|
void |
scaleMass(double s)
Scales all mass units.
|
void |
scan(ReaderTokenizer rtok,
java.lang.Object ref)
Scans this element from a ReaderTokenizer.
|
void |
setAxisLength(double len) |
void |
setDirection(Vector3d dir) |
void |
setForce(Vector3d f) |
void |
setForceScaling(double forceScaling) |
void |
setMagnitude(double mag) |
void |
setPoint(Point pnt) |
void |
setRenderProps(RenderProps props)
Assigns a new set of render properties to this object.
|
void |
transformGeometry(AffineTransform3dBase X)
Applies an affine transformation to the geometry of this object.
|
void |
transformGeometry(AffineTransform3dBase X,
TransformableGeometry topObject,
int flags)
Applies an affine transformation to the geometry of this object.
|
void |
updateBounds(Point3d pmin,
Point3d pmax)
Update the minimum and maximum points for this object.
|
checkFlag, checkName, checkNameUniqueness, clearFlag, clone, connectToHierarchy, createTempFlag, disconnectFromHierarchy, getChildren, getGrandParent, getName, getNameRange, getNavpanelVisibility, getNavpanelVisibility, getNumber, getParent, getProperty, getSoftReferences, hasChildren, hasState, isFixed, isMarked, isSelected, isWritable, makeValidName, makeValidName, notifyParentOfChange, postscan, printReferences, recursivelyContained, recursivelyContains, removeTempFlag, setFixed, setFlag, setMarked, setName, setNavpanelVisibility, setNavpanelVisibility, setNumber, setParent, setSelected, updateReferences, write
equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
isSelected
connectToHierarchy, disconnectFromHierarchy, getName, getNavpanelVisibility, getNumber, getParent, getSoftReferences, hasState, isFixed, isMarked, isSelected, notifyParentOfChange, postscan, setFixed, setMarked, setName, setNumber, setParent, setSelected, updateReferences
getProperty
getChildren, hasChildren
isWritable, write
public static PropertyList myProps
public PointForce()
public PointForce(java.lang.String name)
public PointForce(Point p)
public PropertyList getAllPropertyInfo()
HasProperties
getAllPropertyInfo
in interface HasProperties
getAllPropertyInfo
in class ModelComponentBase
public Point getPoint()
public void setPoint(Point pnt)
public void applyForces(double t)
ForceEffector
applyForces
in interface ForceEffector
t
- time (seconds)public void scan(ReaderTokenizer rtok, java.lang.Object ref) throws java.io.IOException
ModelComponentBase
write
.scan
in interface ModelComponent
scan
in interface Scannable
scan
in class ModelComponentBase
rtok
- Tokenizer from which to scan the elementref
- optional reference object which can be used for resolving references to
other objectsjava.io.IOException
- if an I/O or formatting error occuredpublic float[] getRenderCoords0()
getRenderCoords0
in interface RenderableLine
public float[] getRenderCoords1()
getRenderCoords1
in interface RenderableLine
public RenderProps getRenderProps()
HasRenderProps
getRenderProps
in interface HasRenderProps
public void setRenderProps(RenderProps props)
HasRenderProps
null
will remove render properties from this object.setRenderProps
in interface HasRenderProps
props
- new render properties for this objectpublic RenderProps createRenderProps()
HasRenderProps
createRenderProps
in interface HasRenderProps
public void prerender(RenderList list)
GLRenderable
prerender
in interface GLRenderable
public void updateBounds(Point3d pmin, Point3d pmax)
GLRenderable
updateBounds
in interface GLRenderable
pmin
- minimum pointpmax
- maximum pointpublic int getRenderHints()
GLRenderable
TRANSLUCENT
.getRenderHints
in interface GLRenderable
public boolean isSelectable()
GLSelectable
isSelectable
in interface GLSelectable
public int numSelectionQueriesNeeded()
GLSelectable
render
method), then this method should
return the maximum number of selection queries that will be
required. Otherwise, this method should return -1.numSelectionQueriesNeeded
in interface GLSelectable
public void render(GLRenderer renderer, int flags)
GLRenderable
render
in interface GLRenderable
renderer
- renderer object which is used to perform the rendering. Provides pointers
to GL and GLU, along with helper functions.flags
- supplies flags that may be used to control different
aspects of the rendering. Flags are defined in GLRenderer
and currently include
GLRenderer.SELECTED
,
GLRenderer.VERTEX_COLORING
,
GLRenderer.HSV_COLOR_INTERPOLATION
,
GLRenderer.SORT_FACES
, and
GLRenderer.CLEAR_MESH_DISPLAY_LISTS
.public float[] getRenderColor()
RenderableLine
getRenderColor
in interface RenderableLine
public void getSelection(java.util.LinkedList<java.lang.Object> list, int qid)
GLSelectable
list
the component (or components) associated with
the qid
-th selection query issued by this component's render
method. This will only be called if this component manages its own
selection (i.e., the number nums
returned by GLSelectable.numSelectionQueriesNeeded()
is positive), and qid
will in
turn be a number between 0 and nums
-1.getSelection
in interface GLSelectable
list
- selected objects are appended to the end of this listqid
- index of the selection querypublic void scaleDistance(double s)
ScalableUnits
scaleDistance
in interface ScalableUnits
s
- scaling factorpublic void scaleMass(double s)
ScalableUnits
scaleMass
in interface ScalableUnits
s
- scaling factorpublic Vector3d getDirection()
public void setDirection(Vector3d dir)
public Vector3d getForce()
public void setForce(Vector3d f)
public double getMagnitude()
public void setMagnitude(double mag)
public double getAxisLength()
public void setAxisLength(double len)
public double getForceScaling()
public void setForceScaling(double forceScaling)
public void transformGeometry(AffineTransform3dBase X, TransformableGeometry topObject, int flags)
TransformableGeometry
topComponent
should be the component for which the method
was initially invoked. The variable flags
provides
information about the context in which the transformation is
being applied. At present, the available flags are
TransformableGeometry.SIMULATING
and TransformableGeometry.ARTICULATED
.transformGeometry
in interface TransformableGeometry
X
- affine transformationtopObject
- component on which the method was initially invokedflags
- provides information about the context in which the
transformation is being applied.public void transformGeometry(AffineTransform3dBase X)
TransformableGeometry
transformGeometry (X, this, 0);
transformGeometry
in interface TransformableGeometry
X
- affine transformationpublic void addSolveBlocks(SparseNumberedBlockMatrix M)
ForceEffector
getSolveIndex
) for all dynamic or attached components affected by this
force effector.addSolveBlocks
in interface ForceEffector
M
- solve matrix to which blocks should be addedpublic void addPosJacobian(SparseNumberedBlockMatrix M, double s)
ForceEffector
M is guaranteed to be the same matrix supplied in the most recent call to
addSolveBlocks
, and so implementations may choose
to cache the relevant matrix blocks from that call, instead of retrieving
them directly from M.
addPosJacobian
in interface ForceEffector
M
- solve matrix to which scaled position Jacobian is to be addeds
- scaling factor for position Jacobianpublic void addVelJacobian(SparseNumberedBlockMatrix M, double s)
ForceEffector
M is guaranteed to be the same matrix supplied in the most recent call to
addSolveBlocks
, and so implementations may choose
to cache the relevant matrix blocks from that call, instead of retrieving
them directly from M.
addVelJacobian
in interface ForceEffector
M
- solve matrix to which scaled velocity Jacobian is to be addeds
- scaling factor for velocity Jacobianpublic int getJacobianType()
ForceEffector
Matrix.SYMMETRIC
or Matrix.POSITIVE_DEFINITE
. The former should be set if adding the Jacobian
terms preserves symmetry, and the latter should be set if positive
definiteness if preserved. Both should be set if there is no Jacobian for
this effector (i.e., the Jacobian methods are not implemented). Matrix
types from all the force effectors are logically and-ed together to
determine the type for the entire solve matrix.getJacobianType
in interface ForceEffector
public boolean isDuplicatable()
true
if and only if CopyableComponent.getCopyReferences(java.util.List<artisynth.core.modelbase.ModelComponent>, artisynth.core.modelbase.ModelComponent)
returns true.
This method is not currently used. It is intended to provide a faster
way of determining if a component can be duplicated, without having to
use CopyableComponent.getCopyReferences(java.util.List<artisynth.core.modelbase.ModelComponent>, artisynth.core.modelbase.ModelComponent)
to build the list of copy references.
isDuplicatable
in interface CopyableComponent
true
if this component can be duplicated.public boolean getCopyReferences(java.util.List<ModelComponent> refs, ModelComponent ancestor)
CopyableComponent
true
if and only if CopyableComponent.isDuplicatable()
returns
true.getCopyReferences
in interface CopyableComponent
refs
- list to which references are appendedancestor
- root node of the hierarchy from which references are to be excludedpublic ModelComponent copy(int flags, java.util.Map<ModelComponent,ModelComponent> copyMap)
CopyableComponent
COPY_REFERENCES
is set in flags
, then any component referenced
by this component should itself be set to a copy. This
should be done first checking copyMap
for an
existing copy of the referenced component. If there is no existing
copy, then a copy should be created by calling copy
recursively and adding the new copy to copyMap
.copy
in interface CopyableComponent
copy
in class ModelComponentBase
public void getHardReferences(java.util.List<ModelComponent> refs)
ModelComponentBase
getHardReferences
in interface ModelComponent
getHardReferences
in class ModelComponentBase
refs
- list to which hard references are appended