fmeobjects.FMETriangleFan

appendPointsXYZ(points) 
appendPointXYZ(x, y, z) 

This method returns the bounding box of the geometry. 

This method returns the bounding cube of the geometry. 

Returns the bounds of the geometry. 

Remove all measures from the geometry. 

Copies all the attributes from the given feature to traits on this geometry, if they match the (optional) regular expression. 

Copies the name of the 'sourceGeometry' onto this geometry. 

Copies all the traits from the given geometry that match the (optional) regular expression. 

Copies all the traits from this geometry to attributes on the given feature, if they match the (optional) regular expression. 

Deletes the geometry's name. 


This method deletes the side specified by 'front' and indicates whether or not it existed before being deleted. 
Reduces the geometry to 2D. 


This sets the geometry's dimension to 3D. 
This method returns the appearance reference within the Library associated with this surface. 

Area calculation. 


Returns a triangular face defined by this triangle fan. 
Returns the wireframe of the surface as a 

Retrieve the names of the measures on this geometry. 


Get the value of the default measure at the 'index'. 

Returns the value of the default measure, or the value of the measure named by 'measureName'. 
This routine retrieves the 'name' of this geometry as a 


Gets a coordinate of this triangle fan at the specified index. 
Gets the points of the triangle fan as a list of 

Returns a line that contains the points in this triangle fan. 


Retrieves the geometry trait value of the specified trait name. 
Retrieve the names of the traits on this geometry. 

This method returns a tuple of a boolean, indicating if the trait is null, a boolean, indicating if the trait is missing, and an integer representing the type of the trait. 


Returns the type of given trait. 
Check if this geometry or any sub part of this geometry has measures. 

Returns whether or not the geometry has a name. 

Returns whether or not the geometry is 3D. 

Check if the geometry is an aggregate or multipart collection. 


Works similarly to 
A face with a donut area will not be oriented if the normal of any inner boundary has the same direction as the normal of the outer boundary. 


Returns 

Returns 
This returns the number of faces that are contained in this simple surface. 

Returns the number of coordinates in this triangle fan. 


Offsets the surface by the coords specified by 'offsetPoint'. 
Flips the front and the back of parts of the surface as required to create a surface that is oriented. 


Removes the measure with name 'measureName' if supplied, or the default measure, if there is one. 

This method has 4 modes: 

Renames the measure specified by 'oldMeasureName' to the new name, specified by 'newMeasureName'. 
Flips the surface such that the front and back of the surface are switched. 

This reverses the order of the surface's points. 


Rotates this surface about the zaxis by the specified angle, in degrees. 

Scale the feature by the given amounts. 
This method associates an appearance within the Library with this surface. 


Set the default measure to the given values. 

Set the default measure of the point at 'index' to the given 'measureValue'. 

Sets the geometry's name with a 

Sets a geometry trait with the specified value. 
This method supplies a null trait value with a type to the geometry. 


This method checks whether the side specified by 'front' exists. 
 class FMETriangleFan
FME Triangle Fan Class
Create an instance of a Triangle Fan geometry object.
init()
Default FMETriangleFan constructor.
 Return type:
 Returns:
An instance of a Triangle Fan Geometry object.
init(points)
Creates a line consisting of the list of points passed in.
 Parameters:
points (list[tuple[float]]) – The list of points to set to the triangle fan. The points are represented as (x, y, z) tuples.
 Return type:
 Returns:
An instance of a Triangle Fan Geometry object.
init(triangleFan)
Create a copy of the passed in Triangle Fan geometry object.
 Parameters:
triangleFan (FMETriangleFan) – The Triangle Fan geometry object to create a copy of.
 Return type:
 Returns:
An instance of a Triangle Fan Geometry object.
 __init__(*args, **kwargs)
 appendPointXYZ(x, y, z)
appendPointsXYZ(points)
Appends coordinates to the end of the coordinate list that defines the triangle fan. This operation effectively appends new triangles to the triangle fan. After the append operation, coordinates at indices 0, i + 1, and i + 2 define the ith triangle.
 appendPointsXYZ()
appendPointXYZ(x, y, z)
appendPointsXYZ(points)
Appends coordinates to the end of the coordinate list that defines the triangle fan. This operation effectively appends new triangles to the triangle fan. After the append operation, coordinates at indices 0, i + 1, and i + 2 define the ith triangle.
 boundingBox()
This method returns the bounding box of the geometry.
 boundingCube()
This method returns the bounding cube of the geometry.
 bounds()
Returns the bounds of the geometry.
 clearMeasures()
Remove all measures from the geometry.
 Return type:
None
 copyAttributesFromFeature(sourceFeature, overwriteExisting, regexp, prefix)
Copies all the attributes from the given feature to traits on this geometry, if they match the (optional) regular expression.
 Parameters:
sourceFeature (FMEFeature) – The feature to copy attributes from.
overwriteExisting (bool) – Existing traits will be overwritten only if overwriteExisting is
True
.regexp (str) – (Optional) The regular expression to match the attributes against. If regexp is not specified, then all attributes will be copied.
prefix (str) – (Optional) The prefix is put on all the trait names as they are copied. If it is not specified, a prefix will not be added to the trait names.
 Return type:
None
 copyNameFromGeometry(sourceGeometry)
Copies the name of the ‘sourceGeometry’ onto this geometry. If ‘sourceGeometry’s name is blank or
None
, this geometry’s name will becomeNone
. Parameters:
sourceGeometry (FMEGeometry) – The geometry to copy the name from.
 Return type:
None
 copyTraitsFromGeometry(sourceGeometry, overwriteExisting, regexp, prefix)
Copies all the traits from the given geometry that match the (optional) regular expression.
 Parameters:
sourceGeometry (FMEGeometry) – The geometry to copy traits from.
overwriteExisting (bool) – Existing traits will be overwritten only if overwriteExisting is
True
.regexp (str) – (Optional) The regular expression to match the traits against. If regexp is not specified, or is an empty string, then all traits will be copied.
prefix (str) – (Optional) The prefix is put on all the trait names as they are copied. If it is not specified, a prefix will not be added to the trait names.
 Return type:
None
 copyTraitsToFeature(destFeature, overwriteExisting, regexp, prefix)
Copies all the traits from this geometry to attributes on the given feature, if they match the (optional) regular expression.
 Parameters:
destFeature (FMEFeature) – The feature to copy traits to.
overwriteExisting (bool) – Existing attributes will be overwritten only if overwriteExisting is
True
.regexp (str) – (Optional) The regular expression to match the traits against. If regexp is not specified, or is an empty string, then all traits will be copied.
prefix (str) – (Optional) The prefix is put on all the attribute names as they are copied. If it is not specified, a prefix will not be added to the attribute names.
 Return type:
None
 deleteName()
Deletes the geometry’s name. If a name existed prior to this call then
True
is returned; otherwiseFalse
is returned. Return type:
 Returns:
Returns a boolean indicating whether or not the name existed before deletion.
 deleteSide(front)
This method deletes the side specified by ‘front’ and indicates whether or not it existed before being deleted.
 force2D()
Reduces the geometry to 2D.
 Return type:
None
 force3D(newZ)
This sets the geometry’s dimension to 3D. All Z values are set to the value passed in, even if the geometry is already 3D.
 Parameters:
newZ (float) – The new Z value.
 Return type:
None
 getAppearanceReference(front)
This method returns the appearance reference within the Library associated with this surface. The ‘front’ parameter controls whether this query should return the front or the back appearance reference. Both can be fetched independently. If this surface is a regular surface with no geometry instance, a
FMEException
will be thrown. Parameters:
front (bool) – Boolean indicating whether the appearance reference should be retrieved for the front or back of the surface.
 Return type:
 Returns:
The unique appearance reference for this appearance.
 Raises:
FMEException – An exception is raised if an error occurred or this surface is a regular surface with no geometry instance.
 getAsFaceAt(index)
Returns a triangular face defined by this triangle fan. The index indicates the specific triangular face to return. In particular, given an index i, the triangular face returned is specified by the coordinate indices 0, i + 1, and i + 2. If the specified index is out of range, then
None
is returned.
 getAsWireFrame()
Returns the wireframe of the surface as a
FMEMultiCurve
.None
is returned if a wireframe cannot be generated. Return type:
FMEMultiCurve or None
 Returns:
The wireframe of the surface as a
FMEMultiCurve
.
 getMeasureNames()
Retrieve the names of the measures on this geometry.
 Return type:
 Returns:
Return a tuple storing the names of the measures on this geometry. This will return an empty tuple if there are no measures. For
FMEAggregate
,FMEMultiSurface
, andFMECompositeSurface
, this will return the union of all measure names of all of its parts.
 getMeasureValueAt(index, measureName)
Get the value of the default measure at the ‘index’. If ‘measureName’ is supplied, this method gets the value of the named measure at ‘index’. Returns an error if the measure doesn’t exist or ‘index’ is out of range.
 Parameters:
 Return type:
 Returns:
The value of the default measure at the given index, or the measure named by ‘measureName’ at the given index.
 Raises:
FMEException – An exception is raised if an error occurred.
 getMeasureValues(measureName)
Returns the value of the default measure, or the value of the measure named by ‘measureName’.
 Parameters:
measureName (str) – (Optional) The name of the measure whose value is to be returned.
 Return type:
 Returns:
The values of the default measure, or the measures named by ‘measureName’.
 Raises:
FMEException – An exception is raised if an error occurred.
 getName()
This routine retrieves the ‘name’ of this geometry as a
str
. This will returnNone
if it did not have a name associated with it. Return type:
str or None
 Returns:
The geometry’s name.
 getPointAtXYZ(index)
Gets a coordinate of this triangle fan at the specified index. If index is out of range, then an error is generated.
 Parameters:
index (int) – The index to get the point from.
 Return type:
 Returns:
The point is represented as a (x, y, z) tuple.
 Raises:
FMEException – An exception is raised if an error occurred.
 getPoints()
Gets the points of the triangle fan as a list of
FMEPoint
objects. The size of the given list must be exactly equal to the value returned bynumPoints()
. If the triangle fan is 2D the z values of the triangle fan will be populated with 0.0 values. Returns an error if an error occurred. Return type:
 Returns:
A list of points contained within the triangle fan.
 Raises:
FMEException – An exception is raised if an error occurred.
 getPointsAsLine()
Returns a line that contains the points in this triangle fan. The line will have all the geometry traits and measures of the triangle fan.
 Return type:
 Returns:
A copy of a line that contains the points in this triangle fan.
 getTrait(traitName)
Retrieves the geometry trait value of the specified trait name. Null trait values will be returned as an empty string. Binary blob traits are returned as a bytearray.
None
is returned when the trait is not found on the geometry.
 getTraitNames()
Retrieve the names of the traits on this geometry.
 getTraitNullMissingAndType(traitName)
This method returns a tuple of a boolean, indicating if the trait is null, a boolean, indicating if the trait is missing, and an integer representing the type of the trait. The first boolean is
True
if ‘traitName’ maps to a null trait value on the geometry. Otherwise it isFalse
. The second boolean isTrue
if ‘traitName’ maps to a no value on the geometry. Otherwise it isFalse
. If the trait is absent,FME_ATTR_UNDEFINED
is returned for the type.The possible trait types are
FME_ATTR_UNDEFINED
,FME_ATTR_BOOLEAN
,FME_ATTR_INT8
,FME_ATTR_UINT8
,FME_ATTR_INT16
,FME_ATTR_UINT16
,FME_ATTR_INT32
,FME_ATTR_UINT32
,FME_ATTR_REAL32
,FME_ATTR_REAL64
,FME_ATTR_REAL80
,FME_ATTR_STRING
,FME_ATTR_ENCODED_STRING
,FME_ATTR_INT64
,FME_ATTR_UINT64
.
 getTraitType(traitName)
Returns the type of given trait. If the trait cannot be found,
FME_ATTR_UNDEFINED
will be returned.Returns one of
FME_ATTR_UNDEFINED
,FME_ATTR_BOOLEAN
,FME_ATTR_INT8
,FME_ATTR_UINT8
,FME_ATTR_INT16
,FME_ATTR_UINT16
,FME_ATTR_INT32
,FME_ATTR_UINT32
,FME_ATTR_REAL32
,FME_ATTR_REAL64
,FME_ATTR_REAL80
,FME_ATTR_STRING
,FME_ATTR_ENCODED_STRING
,FME_ATTR_INT64
,FME_ATTR_UINT64
.
 hasMeasures()
Check if this geometry or any sub part of this geometry has measures.
 hasName()
Returns whether or not the geometry has a name.
 is3D()
Returns whether or not the geometry is 3D.
 Return type:
 Returns:
Returns
True
if the geometry is 3D andFalse
otherwise. ForFMENull
, this method will always returnTrue
. ForFMEAggregate
,FMEMultiPoint
,FMEMultiArea
,FMEMultiText
andFMEMultiCurve
, this method will returnTrue
if any one of the subparts is 3D. If the collection is empty or all of its members are 2D, this method will returnFalse
.
 isCollection()
Check if the geometry is an aggregate or multipart collection.
 isInPlane(tolerance, normalVector, valD, recalculateD)
Works similarly to
isPlanar()
, but checks planarity with respect to given normal or given plane (if plane equation D is specified  see below).If given normal is the zero vector, the normal used to check the planarity is computed using Newell’s method as in
isPlanar()
. valD is a reference to a value of D in the plane equation AX + BY + CZ = D. It can be used to make sure that multiple pieces lie in the same plane. If ‘recalculateD’ is set toFalse
, the passed in value of D will be used in the calculation. If ‘recalcualteD’ is set toTrue
, the passed in value is ignored and is instead automatically calculated (and returned in the second position of the returned tuple). A useful calling pattern for ensuring coplanarity is to get valD computed on the first call to the function setting ‘recalculateD’ toTrue
, and then use this value for future calls with ‘recalculateD’ toFalse
. Parameters:
 Return type:
 Returns:
A tuple containing a boolean, tuple, and float representing: 1) Whether or not the surface is in plane; 2) The normal vector returned; and 3) The value ‘D’. Note: If recalculateD is
False
, the tuple returned will only contain the boolean and vector tuple (i.e. ‘valD’ is not returned).
 isOriented()
A face with a donut area will not be oriented if the normal of any inner boundary has the same direction as the normal of the outer boundary. Meshes and composite surfaces will return
False
if they have two parts that share an edge and those two parts are not consistently oriented with respect to each other. If the surface is improperly noded, the behaviour of this function is undefined.
 isPlanar(tolerance)
Returns
True
if this is planar within the given tolerance, andFalse
otherwise.The planarity condition is computed by the following algorithm. The normal vector <A, B, C> is determined by the vertices of this surface using Newell’s method. For the first point (x’, y’, z’) of this surface, we compute D’ = Ax’ + By’ + Cz’. Then, this surface is planar if and only if every subsequent point (x, y, z) of this surface gives a D = Ax + By + Cz, that is within the tolerance amount of D’. That is,  D  D’  <= tolerance.
If the specified tolerance is negative, then this method always returns
True
.
 measureExists(measureName)
Returns
True
if the specified measure exists andFalse
otherwise. If the ‘measureName’ parameter is not specified then the default measure is checked.
 numParts()
This returns the number of faces that are contained in this simple surface.
 Return type:
 Returns:
The number of faces in the simple surface.
 numPoints()
Returns the number of coordinates in this triangle fan.
 Return type:
 Returns:
The number of points in this triangle fan.
 offset(offsetPoint)
Offsets the surface by the coords specified by ‘offsetPoint’.
 Parameters:
offsetPoint (FMEPoint) – The
FMEPoint
to offset the surface by. Return type:
None
 Raises:
FMEException – An exception is raised if an error occurred.
 orient()
Flips the front and the back of parts of the surface as required to create a surface that is oriented. Refer to
isOriented()
for the specification of what it means to be an oriented surface. If the surface is improperly noded or nonorientable, the behaviour of this function is undefined. All measures are changed as needed, including the vertex normal measures. Note: The vertex normals are not flipped (scaled by 1). Return type:
None
 removeMeasure(measureName)
Removes the measure with name ‘measureName’ if supplied, or the default measure, if there is one.
 Parameters:
measureName (str) – (Optional) The name of the measure to remove.
 Return type:
None
 removeTraits(regexp)
This method has 4 modes:
Remove all traits at the top level: regex == NULL
Remove some traits at the top level: regex == <string>
Remove all traits at all levels: regex ==
kFME_RecurseAll
Remove some traits at all levels: regex ==
kFME_RecurseSome
<string>
For example, specifying regex == NULL for a multisurface will remove all traits at the root level of the multisurface, whereas specifying regex ==
kFME_RecurseSome
<string> will remove all traits from all levels of the multi surface that match <string>. If <string> is an illegal regular expression, no traits will be removed. Return type:
None
 renameMeasure(oldMeasureName, newMeasureName)
Renames the measure specified by ‘oldMeasureName’ to the new name, specified by ‘newMeasureName’.
 reorient()
Flips the surface such that the front and back of the surface are switched. All measures are changed as needed, including the vertex normal measures. Note: The vertex normals are not flipped (scaled by 1). Refer to
reverse()
if the vertex normals need to be flipped. Note:FMETriangleStrip
have a method calledisFlipped()
that is to be used in conjunction with the geometry to determine which side is the front. WhenisFlipped()
returnsTrue
, the front is actually the opposite side of what the coordinates of the first triangle in the strip indicate. Return type:
None
 reverse()
This reverses the order of the surface’s points.
 Return type:
None
 rotate2D(center, angle)
Rotates this surface about the zaxis by the specified angle, in degrees. The rotation is performed relative to the center specified. A positive angle corresponds to a counterclockwise rotation, when looking down onto the XYplane.
 Parameters:
 Return type:
None
 Raises:
FMEException – An exception is raised if an error occurred.
 scale(xScale, yScale, zScale)
Scale the feature by the given amounts.
 Parameters:
 Return type:
None
 Raises:
FMEException – An exception is raised if an error occurred.
 setAppearanceReference(appearanceRef, front)
This method associates an appearance within the Library with this surface. This is done by passing in the unique appearance reference for this appearance. Subsequent calls to this method on the same side, will override the previous appearance used with the new appearance passed in.
An appearance reference of ‘0’ represents the default appearance. Interpretation of the default appearance is left to the consumer of this geometry. When set at this
FMESurface
level, the appearance represents the default appearance to apply when the contained surfaces use the default appearance instead of a specific appearance. Contained surfaces may be found within nested surfaces, geometry instances that reference geometries containing surfaces, or as surfaces or multisurfaces.The second parameter controls whether this action should take place on the front of the contained surfaces or the back. Both can be set independently. The appearanceRef should be a valid reference to a definition stored in the
FMELibrary
. If the reference was not found in the library, it will still attach the reference to the instance, but will throw aFMEException
. This is an unhealthy situation as it represents a ‘dangling reference’. Parameters:
 Raises:
FMEException – An exception is raised if an error occurred or the reference was not found in the library and a dangling reference was attached.
 setMeasure(measureValues, measureName)
Set the default measure to the given values. Create the measure if it doesn’t already exist. If ‘measureName’ is supplied, this method sets the given measure to ‘measureValues’, or creates the measure if it doesn’t already exist. The size of ‘measureValues’ must be exactly equal to the value returned by
numPoints()
.
 setMeasureAt(index, measureValue, measureName)
Set the default measure of the point at ‘index’ to the given ‘measureValue’. If ‘measureName’ is supplied, this method sets the given measure of the point at ‘index’ to ‘measureValue’. Creates the measure if it doesn’t already exist and set the measures to all points other than the point at the given index to
None
. Return an error if the index is out of range. Parameters:
 Return type:
None
 Raises:
FMEException – An exception is raised if an error occurred.
 setName(name)
Sets the geometry’s name with a
str
. By supplying a blank name as input, this method will act asdeleteName()
. Parameters:
name (str) – The geometry’s new name.
 Return type:
None
 setTrait(traitName, traitValue)
Sets a geometry trait with the specified value. If the geometry trait already exists, its value and type will be changed. The following type numeric mappings are used:
PyInt ==> FME_Int32
PyFloat ==> FME_Real64
PyLong ==> FME_Int64
Binary values are to be specified as bytearray values or bytes values.
 setTraitNullWithType(traitName, traitType)
This method supplies a null trait value with a type to the geometry. If a trait with the same name already exists, it is overwritten.
Trait type must be one of
FME_ATTR_UNDEFINED
,FME_ATTR_BOOLEAN
,FME_ATTR_INT8
,FME_ATTR_UINT8
,FME_ATTR_INT16
,FME_ATTR_UINT16
,FME_ATTR_INT32
,FME_ATTR_UINT32
,FME_ATTR_REAL32
,FME_ATTR_REAL64
,FME_ATTR_REAL80
,FME_ATTR_STRING
,FME_ATTR_ENCODED_STRING
,FME_ATTR_INT64
,FME_ATTR_UINT64
.