Freestyle Types (freestyle.types)¶
This module contains core classes of the Freestyle Python API, including data types of view map components (0D and 1D elements), base classes for user-defined line stylization rules (predicates, functions, chaining iterators, and stroke shaders), and operators.
Class hierarchy:
-
class
freestyle.types.
AdjacencyIterator
¶ Class hierarchy:
Iterator
>AdjacencyIterator
Class for representing adjacency iterators used in the chaining process. An AdjacencyIterator is created in the increment() and decrement() methods of a
ChainingIterator
and passed to the traverse() method of the ChainingIterator.-
__init__
()¶ -
__init__
(brother) -
__init__
(vertex, restrict_to_selection=True, restrict_to_unvisited=True) Builds an
AdjacencyIterator
using the default constructor, copy constructor or the overloaded constructor.- Parameters
brother (
AdjacencyIterator
) – An AdjacencyIterator object.vertex (
ViewVertex
) – The vertex which is the next crossing.restrict_to_selection (bool) – Indicates whether to force the chaining to stay within the set of selected ViewEdges or not.
restrict_to_unvisited (bool) – Indicates whether a ViewEdge that has already been chained must be ignored ot not.
-
is_incoming
¶ True if the current ViewEdge is coming towards the iteration vertex, and False otherwise.
- Type
bool
-
-
class
freestyle.types.
BinaryPredicate0D
¶ Base class for binary predicates working on
Interface0D
objects. A BinaryPredicate0D is typically an ordering relation between two Interface0D objects. The predicate evaluates a relation between the two Interface0D instances and returns a boolean value (true or false). It is used by invoking the __call__() method.-
__init__
()¶ Default constructor.
-
__call__
(inter1, inter2)¶ Must be overload by inherited classes. It evaluates a relation between two Interface0D objects.
- Parameters
inter1 (
Interface0D
) – The first Interface0D object.inter2 (
Interface0D
) – The second Interface0D object.
- Returns
True or false.
- Return type
bool
-
name
¶ The name of the binary 0D predicate.
- Type
str
-
-
class
freestyle.types.
BinaryPredicate1D
¶ Base class for binary predicates working on
Interface1D
objects. A BinaryPredicate1D is typically an ordering relation between two Interface1D objects. The predicate evaluates a relation between the two Interface1D instances and returns a boolean value (true or false). It is used by invoking the __call__() method.-
__init__
()¶ Default constructor.
-
__call__
(inter1, inter2)¶ Must be overload by inherited classes. It evaluates a relation between two Interface1D objects.
- Parameters
inter1 (
Interface1D
) – The first Interface1D object.inter2 (
Interface1D
) – The second Interface1D object.
- Returns
True or false.
- Return type
bool
-
name
¶ The name of the binary 1D predicate.
- Type
str
-
-
class
freestyle.types.
Chain
¶ Class hierarchy:
Interface1D
>Curve
>Chain
Class to represent a 1D elements issued from the chaining process. A Chain is the last step before the
Stroke
and is used in the Splitting and Creation processes.-
__init__
()¶ -
__init__
(brother) -
__init__
(id) Builds a
Chain
using the default constructor, copy constructor or from anId
.
-
-
class
freestyle.types.
ChainingIterator
¶ Class hierarchy:
Iterator
>ViewEdgeIterator
>ChainingIterator
Base class for chaining iterators. This class is designed to be overloaded in order to describe chaining rules. It makes the description of chaining rules easier. The two main methods that need to overloaded are traverse() and init(). traverse() tells which
ViewEdge
to follow, among the adjacent ones. If you specify restriction rules (such as “Chain only ViewEdges of the selection”), they will be included in the adjacency iterator (i.e, the adjacent iterator will only stop on “valid” edges).-
__init__
(restrict_to_selection=True, restrict_to_unvisited=True, begin=None, orientation=True)¶ -
__init__
(brother) Builds a Chaining Iterator from the first ViewEdge used for iteration and its orientation or by using the copy constructor.
- Parameters
restrict_to_selection (bool) – Indicates whether to force the chaining to stay within the set of selected ViewEdges or not.
restrict_to_unvisited (bool) – Indicates whether a ViewEdge that has already been chained must be ignored ot not.
begin (
ViewEdge
or None) – The ViewEdge from which to start the chain.orientation (bool) – The direction to follow to explore the graph. If true, the direction indicated by the first ViewEdge is used.
brother (ChainingIterator) –
-
init
()¶ Initializes the iterator context. This method is called each time a new chain is started. It can be used to reset some history information that you might want to keep.
-
traverse
(it)¶ This method iterates over the potential next ViewEdges and returns the one that will be followed next. Returns the next ViewEdge to follow or None when the end of the chain is reached.
- Parameters
it (
AdjacencyIterator
) – The iterator over the ViewEdges adjacent to the end vertex of the current ViewEdge. The adjacency iterator reflects the restriction rules by only iterating over the valid ViewEdges.- Returns
Returns the next ViewEdge to follow, or None if chaining ends.
- Return type
ViewEdge
or None
-
is_incrementing
¶ True if the current iteration is an incrementation.
- Type
bool
-
next_vertex
¶ The ViewVertex that is the next crossing.
- Type
-
-
class
freestyle.types.
Curve
¶ Class hierarchy:
Interface1D
>Curve
Base class for curves made of CurvePoints.
SVertex
is the type of the initial curve vertices. AChain
is a specialization of a Curve.-
__init__
()¶ -
__init__
(brother) -
__init__
(id) Builds a
FrsCurve
using a default constructor, copy constructor or from anId
.
-
push_vertex_back
(vertex)¶ Adds a single vertex at the end of the Curve.
- Parameters
vertex (
SVertex
orCurvePoint
) – A vertex object.
-
push_vertex_front
(vertex)¶ Adds a single vertex at the front of the Curve.
- Parameters
vertex (
SVertex
orCurvePoint
) – A vertex object.
-
is_empty
¶ True if the Curve doesn’t have any Vertex yet.
- Type
bool
-
segments_size
¶ The number of segments in the polyline constituting the Curve.
- Type
int
-
-
class
freestyle.types.
CurvePoint
¶ Class hierarchy:
Interface0D
>CurvePoint
Class to represent a point of a curve. A CurvePoint can be any point of a 1D curve (it doesn’t have to be a vertex of the curve). Any
Interface1D
is built upon ViewEdges, themselves built upon FEdges. Therefore, a curve is basically a polyline made of a list ofSVertex
objects. Thus, a CurvePoint is built by linearly interpolating twoSVertex
instances. CurvePoint can be used as virtual points while querying 0D information along a curve at a given resolution.-
__init__
()¶ -
__init__
(brother) -
__init__
(first_vertex, second_vertex, t2d) -
__init__
(first_point, second_point, t2d) Builds a CurvePoint using the default constructor, copy constructor, or one of the overloaded constructors. The over loaded constructors can either take two
SVertex
or twoCurvePoint
objects and an interpolation parameter- Parameters
brother (
CurvePoint
) – A CurvePoint object.first_vertex (
SVertex
) – The first SVertex.second_vertex (
SVertex
) – The second SVertex.first_point (
CurvePoint
) – The first CurvePoint.second_point (
CurvePoint
) – The second CurvePoint.t2d (float) – A 2D interpolation parameter used to linearly interpolate first_vertex and second_vertex or first_point and second_point.
-
fedge
¶ Gets the FEdge for the two SVertices that given CurvePoints consists out of. A shortcut for CurvePoint.first_svertex.get_fedge(CurvePoint.second_svertex).
- Type
-
t2d
¶ The 2D interpolation parameter.
- Type
float
-
-
class
freestyle.types.
CurvePointIterator
¶ Class hierarchy:
Iterator
>CurvePointIterator
Class representing an iterator on a curve. Allows an iterating outside initial vertices. A CurvePoint is instantiated and returned through the .object attribute.
-
__init__
()¶ -
__init__
(brother) -
__init__
(step=0.0) Builds a CurvePointIterator object using either the default constructor, copy constructor, or the overloaded constructor.
- Parameters
brother (
CurvePointIterator
) – A CurvePointIterator object.step (float) – A resampling resolution with which the curve is resampled. If zero, no resampling is done (i.e., the iterator iterates over initial vertices).
-
object
¶ The CurvePoint object currently pointed by this iterator.
- Type
-
t
¶ The curvilinear abscissa of the current point.
- Type
float
-
u
¶ The point parameter at the current point in the stroke (0 <= u <= 1).
- Type
float
-
-
class
freestyle.types.
FEdge
¶ Class hierarchy:
Interface1D
>FEdge
Base Class for feature edges. This FEdge can represent a silhouette, a crease, a ridge/valley, a border or a suggestive contour. For silhouettes, the FEdge is oriented so that the visible face lies on the left of the edge. For borders, the FEdge is oriented so that the face lies on the left of the edge. An FEdge can represent an initial edge of the mesh or runs across a face of the initial mesh depending on the smoothness or sharpness of the mesh. This class is specialized into a smooth and a sharp version since their properties slightly vary from one to the other.
-
FEdge
()¶ -
FEdge
(brother) Builds an
FEdge
using the default constructor, copy constructor, or between twoSVertex
objects.
-
is_smooth
¶ True if this FEdge is a smooth FEdge.
- Type
bool
-
next_fedge
¶ The FEdge following this one in the ViewEdge. The value is None if this FEdge is the last of the ViewEdge.
- Type
-
previous_fedge
¶ The FEdge preceding this one in the ViewEdge. The value is None if this FEdge is the first one of the ViewEdge.
- Type
-
-
class
freestyle.types.
FEdgeSharp
¶ Class hierarchy:
Interface1D
>FEdge
>FEdgeSharp
Class defining a sharp FEdge. A Sharp FEdge corresponds to an initial edge of the input mesh. It can be a silhouette, a crease or a border. If it is a crease edge, then it is bordered by two faces of the mesh. Face a lies on its right whereas Face b lies on its left. If it is a border edge, then it doesn’t have any face on its right, and thus Face a is None.
-
__init__
()¶ -
__init__
(brother) -
__init__
(first_vertex, second_vertex) Builds an
FEdgeSharp
using the default constructor, copy constructor, or between twoSVertex
objects.- Parameters
brother (
FEdgeSharp
) – An FEdgeSharp object.first_vertex (
SVertex
) – The first SVertex object.second_vertex (
SVertex
) – The second SVertex object.
-
face_mark_left
¶ The face mark of the face lying on the left of the FEdge.
- Type
bool
-
face_mark_right
¶ The face mark of the face lying on the right of the FEdge. If this FEdge is a border, it has no face on the right and thus this property is set to false.
- Type
bool
-
material_index_left
¶ The index of the material of the face lying on the left of the FEdge.
- Type
int
-
material_index_right
¶ The index of the material of the face lying on the right of the FEdge. If this FEdge is a border, it has no Face on its right and therefore no material.
- Type
int
-
material_right
¶ The material of the face lying on the right of the FEdge. If this FEdge is a border, it has no Face on its right and therefore no material.
- Type
-
normal_left
¶ The normal to the face lying on the left of the FEdge.
- Type
-
normal_right
¶ The normal to the face lying on the right of the FEdge. If this FEdge is a border, it has no Face on its right and therefore no normal.
- Type
-
-
class
freestyle.types.
FEdgeSmooth
¶ Class hierarchy:
Interface1D
>FEdge
>FEdgeSmooth
Class defining a smooth edge. This kind of edge typically runs across a face of the input mesh. It can be a silhouette, a ridge or valley, a suggestive contour.
-
__init__
()¶ -
__init__
(brother) -
__init__
(first_vertex, second_vertex) Builds an
FEdgeSmooth
using the default constructor, copy constructor, or between twoSVertex
.- Parameters
brother (
FEdgeSmooth
) – An FEdgeSmooth object.first_vertex (
SVertex
) – The first SVertex object.second_vertex (
SVertex
) – The second SVertex object.
-
face_mark
¶ The face mark of the face that this FEdge is running across.
- Type
bool
-
material_index
¶ The index of the material of the face that this FEdge is running across.
- Type
int
-
normal
¶ The normal of the face that this FEdge is running across.
- Type
-
-
class
freestyle.types.
Id
¶ Class for representing an object Id.
-
__init__
(brother)¶ -
__init__
(first=0, second=0) Build the Id from two numbers or another
Id
using the copy constructor.- Parameters
brother (
Id
:arg first: The first number.) – An Id object.second (int) – The second number.
-
first
¶ The first number constituting the Id.
- Type
int
-
second
¶ The second number constituting the Id.
- Type
int
-
-
class
freestyle.types.
IntegrationType
¶ Class hierarchy: int >
IntegrationType
Different integration methods that can be invoked to integrate into a single value the set of values obtained from each 0D element of an 1D element:
IntegrationType.MEAN: The value computed for the 1D element is the mean of the values obtained for the 0D elements.
IntegrationType.MIN: The value computed for the 1D element is the minimum of the values obtained for the 0D elements.
IntegrationType.MAX: The value computed for the 1D element is the maximum of the values obtained for the 0D elements.
IntegrationType.FIRST: The value computed for the 1D element is the first of the values obtained for the 0D elements.
IntegrationType.LAST: The value computed for the 1D element is the last of the values obtained for the 0D elements.
-
class
freestyle.types.
Interface0D
¶ Base class for any 0D element.
-
__init__
()¶ Default constructor.
-
get_fedge
(inter)¶ Returns the FEdge that lies between this 0D element and the 0D element given as the argument.
- Parameters
inter (
Interface0D
) – A 0D element.- Returns
The FEdge lying between the two 0D elements.
- Return type
-
name
¶ The string of the name of this 0D element.
- Type
str
-
point_2d
¶ The 2D point of this 0D element.
- Type
-
point_3d
¶ The 3D point of this 0D element.
- Type
-
projected_x
¶ The X coordinate of the projected 3D point of this 0D element.
- Type
float
-
projected_y
¶ The Y coordinate of the projected 3D point of this 0D element.
- Type
float
-
projected_z
¶ The Z coordinate of the projected 3D point of this 0D element.
- Type
float
-
-
class
freestyle.types.
Interface0DIterator
¶ Class hierarchy:
Iterator
>Interface0DIterator
Class defining an iterator over Interface0D elements. An instance of this iterator is always obtained from a 1D element.
-
__init__
(brother)¶ -
__init__
(it) Construct a nested Interface0DIterator using either the copy constructor or the constructor that takes an he argument of a Function0D.
- Parameters
brother (
Interface0DIterator
) – An Interface0DIterator object.it (
SVertexIterator
,CurvePointIterator
, orStrokeVertexIterator
) – An iterator object to be nested.
-
at_last
¶ True if the iterator points to the last valid element. For its counterpart (pointing to the first valid element), use it.is_begin.
- Type
bool
-
object
¶ The 0D object currently pointed to by this iterator. Note that the object may be an instance of an Interface0D subclass. For example if the iterator has been created from the vertices_begin() method of the
Stroke
class, the .object property refers to aStrokeVertex
object.- Type
Interface0D
or one of its subclasses.
-
t
¶ The curvilinear abscissa of the current point.
- Type
float
-
u
¶ The point parameter at the current point in the 1D element (0 <= u <= 1).
- Type
float
-
-
class
freestyle.types.
Interface1D
¶ Base class for any 1D element.
-
__init__
()¶ Default constructor.
-
points_begin
(t=0.0)¶ Returns an iterator over the Interface1D points, pointing to the first point. The difference with vertices_begin() is that here we can iterate over points of the 1D element at a any given sampling. Indeed, for each iteration, a virtual point is created.
- Parameters
t (float) – A sampling with which we want to iterate over points of this 1D element.
- Returns
An Interface0DIterator pointing to the first point.
- Return type
-
points_end
(t=0.0)¶ Returns an iterator over the Interface1D points, pointing after the last point. The difference with vertices_end() is that here we can iterate over points of the 1D element at a given sampling. Indeed, for each iteration, a virtual point is created.
- Parameters
t (float) – A sampling with which we want to iterate over points of this 1D element.
- Returns
An Interface0DIterator pointing after the last point.
- Return type
-
vertices_begin
()¶ Returns an iterator over the Interface1D vertices, pointing to the first vertex.
- Returns
An Interface0DIterator pointing to the first vertex.
- Return type
-
vertices_end
()¶ Returns an iterator over the Interface1D vertices, pointing after the last vertex.
- Returns
An Interface0DIterator pointing after the last vertex.
- Return type
-
length_2d
¶ The 2D length of this Interface1D.
- Type
float
-
name
¶ The string of the name of the 1D element.
- Type
str
-
time_stamp
¶ The time stamp of the 1D element, mainly used for selection.
- Type
int
-
-
class
freestyle.types.
Iterator
¶ Base class to define iterators.
-
__init__
()¶ Default constructor.
-
decrement
()¶ Makes the iterator point the previous element.
-
increment
()¶ Makes the iterator point the next element.
-
is_begin
¶ True if the iterator points to the first element.
- Type
bool
-
is_end
¶ True if the iterator points to the last element.
- Type
bool
-
name
¶ The string of the name of this iterator.
- Type
str
-
-
class
freestyle.types.
Material
¶ Class defining a material.
-
__init__
()¶ -
__init__
(brother) -
__init__
(line, diffuse, ambient, specular, emission, shininess, priority) Creates a
FrsMaterial
using either default constructor, copy constructor, or an overloaded constructor- Parameters
brother (
Material
) – A Material object to be used as a copy constructor.line (
mathutils.Vector
, list or tuple of 4 float values) – The line color.diffuse (
mathutils.Vector
, list or tuple of 4 float values) – The diffuse color.ambient (
mathutils.Vector
, list or tuple of 4 float values) – The ambient color.specular (
mathutils.Vector
, list or tuple of 4 float values) – The specular color.emission (
mathutils.Vector
, list or tuple of 4 float values) – The emissive color.shininess (float) – The shininess coefficient.
priority (int) – The line color priority.
-
ambient
¶ RGBA components of the ambient color of the material.
- Type
-
diffuse
¶ RGBA components of the diffuse color of the material.
- Type
-
emission
¶ RGBA components of the emissive color of the material.
- Type
-
line
¶ RGBA components of the line color of the material.
- Type
-
priority
¶ Line color priority of the material.
- Type
int
-
shininess
¶ Shininess coefficient of the material.
- Type
float
-
specular
¶ RGBA components of the specular color of the material.
- Type
-
-
class
freestyle.types.
MediumType
¶ Class hierarchy: int >
MediumType
The different blending modes available to similate the interaction media-medium:
Stroke.DRY_MEDIUM: To simulate a dry medium such as Pencil or Charcoal.
Stroke.HUMID_MEDIUM: To simulate ink painting (color subtraction blending).
Stroke.OPAQUE_MEDIUM: To simulate an opaque medium (oil, spray…).
-
class
freestyle.types.
Nature
¶ Class hierarchy: int >
Nature
Different possible natures of 0D and 1D elements of the ViewMap.
Vertex natures:
Nature.POINT: True for any 0D element.
Nature.S_VERTEX: True for SVertex.
Nature.VIEW_VERTEX: True for ViewVertex.
Nature.NON_T_VERTEX: True for NonTVertex.
Nature.T_VERTEX: True for TVertex.
Nature.CUSP: True for CUSP.
Edge natures:
Nature.NO_FEATURE: True for non feature edges (always false for 1D elements of the ViewMap).
Nature.SILHOUETTE: True for silhouettes.
Nature.BORDER: True for borders.
Nature.CREASE: True for creases.
Nature.RIDGE: True for ridges.
Nature.VALLEY: True for valleys.
Nature.SUGGESTIVE_CONTOUR: True for suggestive contours.
Nature.MATERIAL_BOUNDARY: True for edges at material boundaries.
Nature.EDGE_MARK: True for edges having user-defined edge marks.
-
class
freestyle.types.
Noise
¶ Class to provide Perlin noise functionalities.
-
__init__
(seed=- 1)¶ Builds a Noise object. Seed is an optional argument. The seed value is used as a seed for random number generation if it is equal to or greater than zero; otherwise, time is used as a seed.
- Parameters
seed (int) – Seed for random number generation.
Undocumented, consider contributing.
-
smoothNoise1
(v)¶ Returns a smooth noise value for a 1D element.
- Parameters
v (float) – One-dimensional sample point.
- Returns
A smooth noise value.
- Return type
float
-
smoothNoise2
(v)¶ Returns a smooth noise value for a 2D element.
- Parameters
v (
mathutils.Vector
, list or tuple of 2 real numbers) – Two-dimensional sample point.- Returns
A smooth noise value.
- Return type
float
-
smoothNoise3
(v)¶ Returns a smooth noise value for a 3D element.
- Parameters
v (
mathutils.Vector
, list or tuple of 3 real numbers) – Three-dimensional sample point.- Returns
A smooth noise value.
- Return type
float
-
turbulence1
(v, freq, amp, oct=4)¶ Returns a noise value for a 1D element.
- Parameters
v (float) – One-dimensional sample point.
freq (float) – Noise frequency.
amp (float) – Amplitude.
oct (int) – Number of octaves.
- Returns
A noise value.
- Return type
float
-
turbulence2
(v, freq, amp, oct=4)¶ Returns a noise value for a 2D element.
- Parameters
v (
mathutils.Vector
, list or tuple of 2 real numbers) – Two-dimensional sample point.freq (float) – Noise frequency.
amp (float) – Amplitude.
oct (int) – Number of octaves.
- Returns
A noise value.
- Return type
float
-
turbulence3
(v, freq, amp, oct=4)¶ Returns a noise value for a 3D element.
- Parameters
v (
mathutils.Vector
, list or tuple of 3 real numbers) – Three-dimensional sample point.freq (float) – Noise frequency.
amp (float) – Amplitude.
oct (int) – Number of octaves.
- Returns
A noise value.
- Return type
float
Undocumented, consider contributing.
-
-
class
freestyle.types.
NonTVertex
¶ Class hierarchy:
Interface0D
>ViewVertex
>NonTVertex
View vertex for corners, cusps, etc. associated to a single SVertex. Can be associated to 2 or more view edges.
-
__init__
()¶ -
__init__
(svertex) Builds a
NonTVertex
using the default constructor or aSVertex
.- Parameters
svertex (
SVertex
) – An SVertex object.
-
-
class
freestyle.types.
Operators
¶ Class defining the operators used in a style module. There are five types of operators: Selection, chaining, splitting, sorting and creation. All these operators are user controlled through functors, predicates and shaders that are taken as arguments.
-
static
bidirectional_chain
(it, pred)¶ -
static
bidirectional_chain
(it) Builds a set of chains from the current set of ViewEdges. Each ViewEdge of the current list potentially starts a new chain. The chaining operator then iterates over the ViewEdges of the ViewMap using the user specified iterator. This operator iterates both using the increment and decrement operators and is therefore bidirectional. This operator works with a ChainingIterator which contains the chaining rules. It is this last one which can be told to chain only edges that belong to the selection or not to process twice a ViewEdge during the chaining. Each time a ViewEdge is added to a chain, its chaining time stamp is incremented. This allows you to keep track of the number of chains to which a ViewEdge belongs to.
- Parameters
it (
ChainingIterator
) – The ChainingIterator on the ViewEdges of the ViewMap. It contains the chaining rule.pred (
UnaryPredicate1D
) – The predicate on the ViewEdge that expresses the stopping condition. This parameter is optional, you make not want to pass a stopping criterion when the stopping criterion is already contained in the iterator definition.
-
static
chain
(it, pred, modifier)¶ -
static
chain
(it, pred) Builds a set of chains from the current set of ViewEdges. Each ViewEdge of the current list starts a new chain. The chaining operator then iterates over the ViewEdges of the ViewMap using the user specified iterator. This operator only iterates using the increment operator and is therefore unidirectional.
- Parameters
it (
ViewEdgeIterator
) – The iterator on the ViewEdges of the ViewMap. It contains the chaining rule.pred (
UnaryPredicate1D
) – The predicate on the ViewEdge that expresses the stopping condition.modifier (
UnaryFunction1DVoid
) – A function that takes a ViewEdge as argument and that is used to modify the processed ViewEdge state (the timestamp incrementation is a typical illustration of such a modifier). If this argument is not given, the time stamp is automatically managed.
-
static
create
(pred, shaders)¶ Creates and shades the strokes from the current set of chains. A predicate can be specified to make a selection pass on the chains.
- Parameters
pred (
UnaryPredicate1D
) – The predicate that a chain must verify in order to be transform as a stroke.shaders (list of
StrokeShader
objects) – The list of shaders used to shade the strokes.
-
static
get_chain_from_index
(i)¶ Returns the Chain at the index in the current set of Chains.
- Parameters
i (int) – index (0 <= i < Operators.get_chains_size()).
- Returns
The Chain object.
- Return type
-
static
get_chains_size
()¶ Returns the number of Chains.
- Returns
The number of Chains.
- Return type
int
-
static
get_stroke_from_index
(i)¶ Returns the Stroke at the index in the current set of Strokes.
- Parameters
i (int) – index (0 <= i < Operators.get_strokes_size()).
- Returns
The Stroke object.
- Return type
-
static
get_strokes_size
()¶ Returns the number of Strokes.
- Returns
The number of Strokes.
- Return type
int
-
static
get_view_edges_size
()¶ Returns the number of ViewEdges.
- Returns
The number of ViewEdges.
- Return type
int
-
static
get_viewedge_from_index
(i)¶ Returns the ViewEdge at the index in the current set of ViewEdges.
- Parameters
i (int) – index (0 <= i < Operators.get_view_edges_size()).
- Returns
The ViewEdge object.
- Return type
-
static
recursive_split
(func, pred_1d, sampling=0.0)¶ -
static
recursive_split
(func, pred_0d, pred_1d, sampling=0.0) Splits the current set of chains in a recursive way. We process the points of each chain (with a specified sampling) to find the point minimizing a specified function. The chain is split in two at this point and the two new chains are processed in the same way. The recursivity level is controlled through a predicate 1D that expresses a stopping condition on the chain that is about to be processed.
The user can also specify a 0D predicate to make a first selection on the points that can potentially be split. A point that doesn’t verify the 0D predicate won’t be candidate in realizing the min.
- Parameters
func (
UnaryFunction0DDouble
) – The Unary Function evaluated at each point of the chain. The splitting point is the point minimizing this function.pred_0d (
UnaryPredicate0D
) – The Unary Predicate 0D used to select the candidate points where the split can occur. For example, it is very likely that would rather have your chain splitting around its middle point than around one of its extremities. A 0D predicate working on the curvilinear abscissa allows to add this kind of constraints.pred_1d (
UnaryPredicate1D
) – The Unary Predicate expressing the recursivity stopping condition. This predicate is evaluated for each curve before it actually gets split. If pred_1d(chain) is true, the curve won’t be split anymore.sampling (float) – The resolution used to sample the chain for the predicates evaluation. (The chain is not actually resampled; a virtual point only progresses along the curve using this resolution.)
-
static
reset
(delete_strokes=True)¶ Resets the line stylization process to the initial state. The results of stroke creation are accumulated if delete_strokes is set to False.
- Parameters
delete_strokes (bool) – Delete the strokes that are currently stored.
-
static
select
(pred)¶ Selects the ViewEdges of the ViewMap verifying a specified condition.
- Parameters
pred (
UnaryPredicate1D
) – The predicate expressing this condition.
-
static
sequential_split
(starting_pred, stopping_pred, sampling=0.0)¶ -
static
sequential_split
(pred, sampling=0.0) Splits each chain of the current set of chains in a sequential way. The points of each chain are processed (with a specified sampling) sequentially. The first point of the initial chain is the first point of one of the resulting chains. The splitting ends when no more chain can start.
Tip
By specifiying a starting and stopping predicate allows the chains to overlapp rather than chains partitioning.
- Parameters
starting_pred (
UnaryPredicate0D
) – The predicate on a point that expresses the starting condition. Each time this condition is verified, a new chain beginsstopping_pred (
UnaryPredicate0D
) – The predicate on a point that expresses the stopping condition. The chain ends as soon as this predicate is verified.pred (
UnaryPredicate0D
) – The predicate on a point that expresses the splitting condition. Each time the condition is verified, the chain is split into two chains. The resulting set of chains is a partition of the initial chainsampling (float) – The resolution used to sample the chain for the predicates evaluation. (The chain is not actually resampled; a virtual point only progresses along the curve using this resolution.)
-
static
sort
(pred)¶ Sorts the current set of chains (or viewedges) according to the comparison predicate given as argument.
- Parameters
pred (
BinaryPredicate1D
) – The binary predicate used for the comparison.
-
static
-
class
freestyle.types.
SShape
¶ Class to define a feature shape. It is the gathering of feature elements from an identified input shape.
-
__init__
()¶ -
__init__
(brother) Creates a
SShape
class using either a default constructor or copy constructor.- Parameters
brother (
SShape
) – An SShape object.
-
add_vertex
(vertex)¶ Adds an SVertex to the list of SVertex of this Shape. The SShape attribute of the SVertex is also set to this SShape.
- Parameters
vertex (
SVertex
) – An SVertex object.
-
compute_bbox
()¶ Compute the bbox of the SShape.
-
name
¶ The name of the SShape.
- Type
str
-
-
class
freestyle.types.
SVertex
¶ Class hierarchy:
Interface0D
>SVertex
Class to define a vertex of the embedding.
-
__init__
()¶ -
__init__
(brother) -
__init__
(point_3d, id) Builds a
SVertex
using the default constructor, copy constructor or the overloaded constructor which builds aSVertex
from 3D coordinates and an Id.- Parameters
brother (
SVertex
) – A SVertex object.point_3d (
mathutils.Vector
) – A three-dimensional vector.id (
Id
) – An Id object.
-
add_fedge
(fedge)¶ Add an FEdge to the list of edges emanating from this SVertex.
- Parameters
fedge (
FEdge
) – An FEdge.
-
add_normal
(normal)¶ Adds a normal to the SVertex’s set of normals. If the same normal is already in the set, nothing changes.
- Parameters
normal (
mathutils.Vector
, list or tuple of 3 real numbers) – A three-dimensional vector.
-
curvatures
¶ Curvature information expressed in the form of a seven-element tuple (K1, e1, K2, e2, Kr, er, dKr), where K1 and K2 are scalar values representing the first (maximum) and second (minimum) principal curvatures at this SVertex, respectively; e1 and e2 are three-dimensional vectors representing the first and second principal directions, i.e. the directions of the normal plane where the curvature takes its maximum and minimum values, respectively; and Kr, er and dKr are the radial curvature, radial direction, and the derivative of the radial curvature at this SVertex, respectively.
- Type
tuple
-
normals
¶ The normals for this Vertex as a list. In a sharp surface, an SVertex has exactly one normal. In a smooth surface, an SVertex can have any number of normals.
- Type
list of
mathutils.Vector
objects
-
normals_size
¶ The number of different normals for this SVertex.
- Type
int
-
point_2d
¶ The projected 3D coordinates of the SVertex.
- Type
-
point_3d
¶ The 3D coordinates of the SVertex.
- Type
-
viewvertex
¶ If this SVertex is also a ViewVertex, this property refers to the ViewVertex, and None otherwise.
- Type
-
-
class
freestyle.types.
SVertexIterator
¶ Class hierarchy:
Iterator
>SVertexIterator
Class representing an iterator over
SVertex
of aViewEdge
. An instance of an SVertexIterator can be obtained from a ViewEdge by calling verticesBegin() or verticesEnd().-
__init__
()¶ -
__init__
(brother) -
__init__
(vertex, begin, previous_edge, next_edge, t) -
Build an SVertexIterator using either the default constructor, copy constructor,
-
or the overloaded constructor that starts iteration from an SVertex object vertex.
- Parameters
brother (
SVertexIterator
) – An SVertexIterator object.vertex (
SVertex
) – The SVertex from which the iterator starts iteration.begin (
SVertex
) – The first SVertex of a ViewEdge.previous_edge (
FEdge
) – The previous FEdge coming to vertex.next_edge (
FEdge
) – The next FEdge going out from vertex.t (float) – The curvilinear abscissa at vertex.
-
t
¶ The curvilinear abscissa of the current point.
- Type
float
-
u
¶ The point parameter at the current point in the 1D element (0 <= u <= 1).
- Type
float
-
-
class
freestyle.types.
Stroke
¶ Class hierarchy:
Interface1D
>Stroke
Class to define a stroke. A stroke is made of a set of 2D vertices (
StrokeVertex
), regularly spaced out. This set of vertices defines the stroke’s backbone geometry. Each of these stroke vertices defines the stroke’s shape and appearance at this vertex position.-
compute_sampling
(n)¶ Compute the sampling needed to get N vertices. If the specified number of vertices is less than the actual number of vertices, the actual sampling value is returned. (To remove Vertices, use the RemoveVertex() method of this class.)
- Parameters
n (int) – The number of stroke vertices we eventually want in our Stroke.
- Returns
The sampling that must be used in the Resample(float) method.
- Return type
float
-
insert_vertex
(vertex, next)¶ Inserts the StrokeVertex given as argument into the Stroke before the point specified by next. The length and curvilinear abscissa are updated consequently.
- Parameters
vertex (
StrokeVertex
) – The StrokeVertex to insert in the Stroke.next (
StrokeVertexIterator
) – A StrokeVertexIterator pointing to the StrokeVertex before which vertex must be inserted.
-
remove_all_vertices
()¶ Removes all vertices from the Stroke.
-
remove_vertex
(vertex)¶ Removes the StrokeVertex given as argument from the Stroke. The length and curvilinear abscissa are updated consequently.
- Parameters
vertex (
StrokeVertex
) – the StrokeVertex to remove from the Stroke.
-
resample
(n)¶ -
resample
(sampling) Resamples the stroke so using one of two methods with the goal of creating a stroke with fewer points and the same shape.
- Parameters
n (int) – Resamples the stroke so that it eventually has N points. That means it is going to add N-vertices_size, where vertices_size is the number of points we already have. If vertices_size >= N, no resampling is done.
sampling (float) – Resamples the stroke with a given sampling value. If the sampling is smaller than the actual sampling value, no resampling is done.
-
stroke_vertices_begin
(t=0.0)¶ Returns a StrokeVertexIterator pointing on the first StrokeVertex of the Stroke. One can specify a sampling value to re-sample the Stroke on the fly if needed.
- Parameters
t (float) – The resampling value with which we want our Stroke to be resampled. If 0 is specified, no resampling is done.
- Returns
A StrokeVertexIterator pointing on the first StrokeVertex.
- Return type
-
stroke_vertices_end
()¶ Returns a StrokeVertexIterator pointing after the last StrokeVertex of the Stroke.
- Returns
A StrokeVertexIterator pointing after the last StrokeVertex.
- Return type
-
stroke_vertices_size
()¶ Returns the number of StrokeVertex constituting the Stroke.
- Returns
The number of stroke vertices.
- Return type
int
-
update_length
()¶ Updates the 2D length of the Stroke.
-
length_2d
¶ The 2D length of the Stroke.
- Type
float
-
medium_type
¶ The MediumType used for this Stroke.
- Type
-
texture_id
¶ The ID of the texture used to simulate th marks system for this Stroke.
- Type
int
-
tips
¶ True if this Stroke uses a texture with tips, and false otherwise.
- Type
bool
-
-
class
freestyle.types.
StrokeAttribute
¶ Class to define a set of attributes associated with a
StrokeVertex
. The attribute set stores the color, alpha and thickness values for a Stroke Vertex.-
__init__
()¶ -
__init__
(brother) -
__init__
(red, green, blue, alpha, thickness_right, thickness_left) -
__init__
(attribute1, attribute2, t) Creates a
StrokeAttribute
object using either a default constructor, copy constructor, overloaded constructor, or and interpolation constructor to interpolate between twoStrokeAttribute
objects.- Parameters
brother (
StrokeAttribute
) – A StrokeAttribute object to be used as a copy constructor.red (float) – Red component of a stroke color.
green (float) – Green component of a stroke color.
blue (float) – Blue component of a stroke color.
alpha (float) – Alpha component of a stroke color.
thickness_right (float) – Stroke thickness on the right.
thickness_left (float) – Stroke thickness on the left.
attribute1 (
StrokeAttribute
) – The first StrokeAttribute object.attribute2 (
StrokeAttribute
) – The second StrokeAttribute object.t (float) – The interpolation parameter (0 <= t <= 1).
-
get_attribute_real
(name)¶ Returns an attribute of float type.
- Parameters
name (str) – The name of the attribute.
- Returns
The attribute value.
- Return type
float
-
get_attribute_vec2
(name)¶ Returns an attribute of two-dimensional vector type.
- Parameters
name (str) – The name of the attribute.
- Returns
The attribute value.
- Return type
-
get_attribute_vec3
(name)¶ Returns an attribute of three-dimensional vector type.
- Parameters
name (str) – The name of the attribute.
- Returns
The attribute value.
- Return type
-
has_attribute_real
(name)¶ Checks whether the attribute name of float type is available.
- Parameters
name (str) – The name of the attribute.
- Returns
True if the attribute is available.
- Return type
bool
-
has_attribute_vec2
(name)¶ Checks whether the attribute name of two-dimensional vector type is available.
- Parameters
name (str) – The name of the attribute.
- Returns
True if the attribute is available.
- Return type
bool
-
has_attribute_vec3
(name)¶ Checks whether the attribute name of three-dimensional vector type is available.
- Parameters
name (str) – The name of the attribute.
- Returns
True if the attribute is available.
- Return type
bool
-
set_attribute_real
(name, value)¶ Adds a user-defined attribute of float type. If there is no attribute of the given name, it is added. Otherwise, the new value replaces the old one.
- Parameters
name (str) – The name of the attribute.
value (float) – The attribute value.
-
set_attribute_vec2
(name, value)¶ Adds a user-defined attribute of two-dimensional vector type. If there is no attribute of the given name, it is added. Otherwise, the new value replaces the old one.
- Parameters
name (str) – The name of the attribute.
value (
mathutils.Vector
, list or tuple of 2 real numbers) – The attribute value.
-
set_attribute_vec3
(name, value)¶ Adds a user-defined attribute of three-dimensional vector type. If there is no attribute of the given name, it is added. Otherwise, the new value replaces the old one.
- Parameters
name (str) – The name of the attribute.
value (
mathutils.Vector
, list or tuple of 3 real numbers) – The attribute value.
-
alpha
¶ Alpha component of the stroke color.
- Type
float
-
color
¶ RGB components of the stroke color.
- Type
-
thickness
¶ Right and left components of the stroke thickness. The right (left) component is the thickness on the right (left) of the vertex when following the stroke.
- Type
-
visible
¶ The visibility flag. True if the StrokeVertex is visible.
- Type
bool
-
-
class
freestyle.types.
StrokeShader
¶ Base class for stroke shaders. Any stroke shader must inherit from this class and overload the shade() method. A StrokeShader is designed to modify stroke attributes such as thickness, color, geometry, texture, blending mode, and so on. The basic way for this operation is to iterate over the stroke vertices of the
Stroke
and to modify theStrokeAttribute
of each vertex. Here is a code example of such an iteration:it = ioStroke.strokeVerticesBegin() while not it.is_end: att = it.object.attribute ## perform here any attribute modification it.increment()
-
__init__
()¶ Default constructor.
-
shade
(stroke)¶ The shading method. Must be overloaded by inherited classes.
- Parameters
stroke (
Stroke
) – A Stroke object.
-
name
¶ The name of the stroke shader.
- Type
str
-
-
class
freestyle.types.
StrokeVertex
¶ Class hierarchy:
Interface0D
>CurvePoint
>StrokeVertex
Class to define a stroke vertex.
-
__init__
()¶ -
__init__
(brother) -
__init__
(first_vertex, second_vertex, t3d) -
__init__
(point) -
__init__
(svertex) -
__init__
(svertex, attribute) Builds a
StrokeVertex
using the default constructor, copy constructor, from 2StrokeVertex
and an interpolation parameter, from a CurvePoint, from a SVertex, or aSVertex
and aStrokeAttribute
object.- Parameters
brother (
StrokeVertex
) – A StrokeVertex object.first_vertex (
StrokeVertex
) – The first StrokeVertex.second_vertex (
StrokeVertex
) – The second StrokeVertex.t3d (float) – An interpolation parameter.
point (
CurvePoint
) – A CurvePoint object.svertex (
SVertex
) – An SVertex object.svertex – An SVertex object.
attribute (
StrokeAttribute
) – A StrokeAttribute object.
-
attribute
¶ StrokeAttribute for this StrokeVertex.
- Type
-
curvilinear_abscissa
¶ Curvilinear abscissa of this StrokeVertex in the Stroke.
- Type
float
-
point
¶ 2D point coordinates.
- Type
-
stroke_length
¶ Stroke length (it is only a value retained by the StrokeVertex, and it won’t change the real stroke length).
- Type
float
-
u
¶ Curvilinear abscissa of this StrokeVertex in the Stroke.
- Type
float
-
-
class
freestyle.types.
StrokeVertexIterator
¶ Class hierarchy:
Iterator
>StrokeVertexIterator
Class defining an iterator designed to iterate over the
StrokeVertex
of aStroke
. An instance of a StrokeVertexIterator can be obtained from a Stroke by calling iter(), stroke_vertices_begin() or stroke_vertices_begin(). It is iterating over the same vertices as anInterface0DIterator
. The difference resides in the object access: an Interface0DIterator only allows access to an Interface0D while one might need to access the specialized StrokeVertex type. In this case, one should use a StrokeVertexIterator. To call functions of the UnaryFuntion0D type, a StrokeVertexIterator can be converted to an Interface0DIterator by by calling Interface0DIterator(it).-
__init__
()¶ -
__init__
(brother) Creates a
StrokeVertexIterator
using either the default constructor or the copy constructor.- Parameters
brother (
StrokeVertexIterator
) – A StrokeVertexIterator object.
-
decremented
()¶ Returns a copy of a decremented StrokeVertexIterator.
- Returns
A StrokeVertexIterator pointing the previous StrokeVertex.
- Return type
-
incremented
()¶ Returns a copy of an incremented StrokeVertexIterator.
- Returns
A StrokeVertexIterator pointing the next StrokeVertex.
- Return type
-
reversed
()¶ Returns a StrokeVertexIterator that traverses stroke vertices in the reversed order.
- Returns
A StrokeVertexIterator traversing stroke vertices backward.
- Return type
-
at_last
¶ True if the iterator points to the last valid element. For its counterpart (pointing to the first valid element), use it.is_begin.
- Type
bool
-
object
¶ The StrokeVertex object currently pointed to by this iterator.
- Type
-
t
¶ The curvilinear abscissa of the current point.
- Type
float
-
u
¶ The point parameter at the current point in the stroke (0 <= u <= 1).
- Type
float
-
-
class
freestyle.types.
TVertex
¶ Class hierarchy:
Interface0D
>ViewVertex
>TVertex
Class to define a T vertex, i.e. an intersection between two edges. It points towards two SVertex and four ViewEdges. Among the ViewEdges, two are front and the other two are back. Basically a front edge hides part of a back edge. So, among the back edges, one is of invisibility N and the other of invisibility N+1.
-
__init__
()¶ Default constructor.
-
get_mate
(viewedge)¶ Returns the mate edge of the ViewEdge given as argument. If the ViewEdge is frontEdgeA, frontEdgeB is returned. If the ViewEdge is frontEdgeB, frontEdgeA is returned. Same for back edges.
-
get_svertex
(fedge)¶ Returns the SVertex (among the 2) belonging to the given FEdge.
-
-
class
freestyle.types.
UnaryFunction0D
¶ Base class for Unary Functions (functors) working on
Interface0DIterator
. A unary function will be used by invoking __call__() on an Interface0DIterator. In Python, several different subclasses of UnaryFunction0D are used depending on the types of functors’ return values. For example, you would inherit from aUnaryFunction0DDouble
if you wish to define a function that returns a double value. Available UnaryFunction0D subclasses are:-
name
¶ The name of the unary 0D function.
- Type
str
-
class
freestyle.types.
UnaryFunction0DDouble
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DDouble
Base class for unary functions (functors) that work on
Interface0DIterator
and return a float value.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DEdgeNature
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DEdgeNature
Base class for unary functions (functors) that work on
Interface0DIterator
and return aNature
object.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DFloat
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DFloat
Base class for unary functions (functors) that work on
Interface0DIterator
and return a float value.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DId
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DId
Base class for unary functions (functors) that work on
Interface0DIterator
and return anId
object.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DMaterial
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DMaterial
Base class for unary functions (functors) that work on
Interface0DIterator
and return aMaterial
object.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DUnsigned
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DUnsigned
Base class for unary functions (functors) that work on
Interface0DIterator
and return an int value.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DVec2f
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DVec2f
Base class for unary functions (functors) that work on
Interface0DIterator
and return a 2D vector.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DVec3f
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DVec3f
Base class for unary functions (functors) that work on
Interface0DIterator
and return a 3D vector.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DVectorViewShape
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DVectorViewShape
Base class for unary functions (functors) that work on
Interface0DIterator
and return a list ofViewShape
objects.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction0DViewShape
¶ Class hierarchy:
UnaryFunction0D
>UnaryFunction0DViewShape
Base class for unary functions (functors) that work on
Interface0DIterator
and return aViewShape
object.-
__init__
()¶ Default constructor.
-
-
class
freestyle.types.
UnaryFunction1D
¶ Base class for Unary Functions (functors) working on
Interface1D
. A unary function will be used by invoking __call__() on an Interface1D. In Python, several different subclasses of UnaryFunction1D are used depending on the types of functors’ return values. For example, you would inherit from aUnaryFunction1DDouble
if you wish to define a function that returns a double value. Available UnaryFunction1D subclasses are:-
name
¶ The name of the unary 1D function.
- Type
str
-
class
freestyle.types.
UnaryFunction1DDouble
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DDouble
Base class for unary functions (functors) that work on
Interface1D
and return a float value.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DEdgeNature
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DEdgeNature
Base class for unary functions (functors) that work on
Interface1D
and return aNature
object.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DFloat
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DFloat
Base class for unary functions (functors) that work on
Interface1D
and return a float value.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DUnsigned
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DUnsigned
Base class for unary functions (functors) that work on
Interface1D
and return an int value.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DVec2f
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DVec2f
Base class for unary functions (functors) that work on
Interface1D
and return a 2D vector.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DVec3f
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DVec3f
Base class for unary functions (functors) that work on
Interface1D
and return a 3D vector.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DVectorViewShape
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DVectorViewShape
Base class for unary functions (functors) that work on
Interface1D
and return a list ofViewShape
objects.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using the default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryFunction1DVoid
¶ Class hierarchy:
UnaryFunction1D
>UnaryFunction1DVoid
Base class for unary functions (functors) working on
Interface1D
.-
__init__
()¶ -
__init__
(integration_type) Builds a unary 1D function using either a default constructor or the integration method given as an argument.
- Parameters
integration_type (
IntegrationType
) – An integration method.
-
integration_type
¶ The integration method.
- Type
-
-
class
freestyle.types.
UnaryPredicate0D
¶ Base class for unary predicates that work on
Interface0DIterator
. A UnaryPredicate0D is a functor that evaluates a condition on an Interface0DIterator and returns true or false depending on whether this condition is satisfied or not. The UnaryPredicate0D is used by invoking its __call__() method. Any inherited class must overload the __call__() method.-
__init__
()¶ Default constructor.
-
__call__
(it)¶ Must be overload by inherited classes.
- Parameters
it (
Interface0DIterator
) – The Interface0DIterator pointing onto the Interface0D at which we wish to evaluate the predicate.- Returns
True if the condition is satisfied, false otherwise.
- Return type
bool
-
name
¶ The name of the unary 0D predicate.
- Type
str
-
-
class
freestyle.types.
UnaryPredicate1D
¶ Base class for unary predicates that work on
Interface1D
. A UnaryPredicate1D is a functor that evaluates a condition on a Interface1D and returns true or false depending on whether this condition is satisfied or not. The UnaryPredicate1D is used by invoking its __call__() method. Any inherited class must overload the __call__() method.-
__init__
()¶ Default constructor.
-
__call__
(inter)¶ Must be overload by inherited classes.
- Parameters
inter (
Interface1D
) – The Interface1D on which we wish to evaluate the predicate.- Returns
True if the condition is satisfied, false otherwise.
- Return type
bool
-
name
¶ The name of the unary 1D predicate.
- Type
str
-
-
class
freestyle.types.
ViewEdge
¶ Class hierarchy:
Interface1D
>ViewEdge
Class defining a ViewEdge. A ViewEdge in an edge of the image graph. it connects two
ViewVertex
objects. It is made by connecting a set of FEdges.-
__init__
()¶ -
__init__
(brother) Builds a
ViewEdge
using the default constructor or the copy constructor.- Parameters
brother (
ViewEdge
) – A ViewEdge object.
-
update_fedges
()¶ Sets Viewedge to this for all embedded fedges.
-
chaining_time_stamp
¶ The time stamp of this ViewEdge.
- Type
int
-
first_viewvertex
¶ The first ViewVertex.
- Type
-
is_closed
¶ True if this ViewEdge forms a closed loop.
- Type
bool
-
last_viewvertex
¶ The second ViewVertex.
- Type
-
occludee
¶ The shape that is occluded by the ViewShape to which this ViewEdge belongs to. If no object is occluded, this property is set to None.
- Type
-
qi
¶ The quantitative invisibility.
- Type
int
-
-
class
freestyle.types.
ViewEdgeIterator
¶ Class hierarchy:
Iterator
>ViewEdgeIterator
Base class for iterators over ViewEdges of the
ViewMap
Graph. Basically the increment() operator of this class should be able to take the decision of “where” (on which ViewEdge) to go when pointing on a given ViewEdge.-
__init__
(begin=None, orientation=True)¶ -
__init__
(brother) Builds a ViewEdgeIterator from a starting ViewEdge and its orientation or the copy constructor.
- Parameters
begin (
ViewEdge
or None) – The ViewEdge from where to start the iteration.orientation (bool) – If true, we’ll look for the next ViewEdge among the ViewEdges that surround the ending ViewVertex of begin. If false, we’ll search over the ViewEdges surrounding the ending ViewVertex of begin.
brother (
ViewEdgeIterator
) – A ViewEdgeIterator object.
-
change_orientation
()¶ Changes the current orientation.
-
orientation
¶ The orientation of the pointed ViewEdge in the iteration. If true, the iterator looks for the next ViewEdge among those ViewEdges that surround the ending ViewVertex of the “begin” ViewEdge. If false, the iterator searches over the ViewEdges surrounding the ending ViewVertex of the “begin” ViewEdge.
- Type
bool
-
-
class
freestyle.types.
ViewMap
¶ Class defining the ViewMap.
-
__init__
()¶ Default constructor.
-
get_closest_fedge
(x, y)¶ Gets the FEdge nearest to the 2D point specified as arguments.
- Parameters
x (float) – X coordinate of a 2D point.
y (float) – Y coordinate of a 2D point.
- Returns
The FEdge nearest to the specified 2D point.
- Return type
-
get_closest_viewedge
(x, y)¶ Gets the ViewEdge nearest to the 2D point specified as arguments.
- Parameters
x (float) – X coordinate of a 2D point.
y (float) – Y coordinate of a 2D point.
- Returns
The ViewEdge nearest to the specified 2D point.
- Return type
-
-
class
freestyle.types.
ViewShape
¶ Class gathering the elements of the ViewMap (i.e.,
ViewVertex
andViewEdge
) that are issued from the same input shape.-
__init__
()¶ -
__init__
(brother) -
__init__
(sshape) Builds a
ViewShape
using the default constructor, copy constructor, or from aSShape
.
-
add_edge
(edge)¶ Adds a ViewEdge to the list of ViewEdge objects.
- Parameters
edge (
ViewEdge
) – A ViewEdge object.
-
add_vertex
(vertex)¶ Adds a ViewVertex to the list of the ViewVertex objects.
- Parameters
vertex (
ViewVertex
) – A ViewVertex object.
-
library_path
¶ The library path of the ViewShape.
- Type
str, or None if the ViewShape is not part of a library
-
name
¶ The name of the ViewShape.
- Type
str
-
vertices
¶ The list of ViewVertex objects contained in this ViewShape.
- Type
List of
ViewVertex
objects
-
-
class
freestyle.types.
ViewVertex
¶ Class hierarchy:
Interface0D
>ViewVertex
Class to define a view vertex. A view vertex is a feature vertex corresponding to a point of the image graph, where the characteristics of an edge (e.g., nature and visibility) might change. A
ViewVertex
can be of two kinds: ATVertex
when it corresponds to the intersection between two ViewEdges or aNonTVertex
when it corresponds to a vertex of the initial input mesh (it is the case for vertices such as corners for example). Thus, this class can be specialized into two classes, theTVertex
class and theNonTVertex
class.-
edges_begin
()¶ Returns an iterator over the ViewEdges that goes to or comes from this ViewVertex pointing to the first ViewEdge of the list. The orientedViewEdgeIterator allows to iterate in CCW order over these ViewEdges and to get the orientation for each ViewEdge (incoming/outgoing).
- Returns
An orientedViewEdgeIterator pointing to the first ViewEdge.
- Return type
-
edges_end
()¶ Returns an orientedViewEdgeIterator over the ViewEdges around this ViewVertex, pointing after the last ViewEdge.
- Returns
An orientedViewEdgeIterator pointing after the last ViewEdge.
- Return type
-
-
class
freestyle.types.
orientedViewEdgeIterator
¶ Class hierarchy:
Iterator
>orientedViewEdgeIterator
Class representing an iterator over oriented ViewEdges around a
ViewVertex
. This iterator allows a CCW iteration (in the image plane). An instance of an orientedViewEdgeIterator can only be obtained from a ViewVertex by calling edges_begin() or edges_end().-
__init__
()¶ -
__init__
(iBrother) Creates an
orientedViewEdgeIterator
using either the default constructor or the copy constructor.- Parameters
iBrother (
orientedViewEdgeIterator
) – An orientedViewEdgeIterator object.
-