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Commite0d3da1

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committed
correctly compute bounding box for path
1 parente55e79b commite0d3da1

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5 files changed

+253
-24
lines changed

5 files changed

+253
-24
lines changed
Lines changed: 27 additions & 0 deletions
Original file line numberDiff line numberDiff line change
@@ -0,0 +1,27 @@
1+
2+
Functions to compute a Path's size
3+
----------------------------------
4+
5+
Various functions were added to `~.bezier.BezierSegment` and `~.path.Path` to
6+
allow computation of the shape/size of a `~.path.Path` and its composite Bezier
7+
curves.
8+
9+
In addition to the fixes below, `~.bezier.BezierSegment` has gained more
10+
documentation and usability improvements, including properties that contain its
11+
dimension, degree, control_points, and more.
12+
13+
Better interface for Path segment iteration
14+
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
15+
16+
`~.path.Path.iter_bezier` iterates through the `~.bezier.BezierSegment`'s that
17+
make up the Path. This is much more useful typically than the existing
18+
`~.path.Path.iter_segments` function, which returns the absolute minimum amount
19+
of information possible to reconstruct the Path.
20+
21+
Fixed bug that computed a Path's Bbox incorrectly
22+
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
23+
24+
Historically, `~.path.Path.get_extents` has always simply returned the Bbox of
25+
a curve's control points, instead of the Bbox of the curve itself. While this is
26+
a correct upper bound for the path's extents, it can differ dramatically from
27+
the Path's actual extents for non-linear Bezier curves.

‎lib/matplotlib/bezier.py

Lines changed: 124 additions & 11 deletions
Original file line numberDiff line numberDiff line change
@@ -2,12 +2,24 @@
22
A module providing some utility functions regarding Bezier path manipulation.
33
"""
44

5+
fromfunctoolsimportlru_cache
56
importmath
7+
importwarnings
68

79
importnumpyasnp
810

911
importmatplotlib.cbookascbook
1012

13+
# same algorithm as 3.8's math.comb
14+
@np.vectorize
15+
@lru_cache(maxsize=128)
16+
def_comb(n,k):
17+
ifk>n:
18+
return0
19+
k=min(k,n-k)
20+
i=np.arange(1,k+1)
21+
returnnp.prod((n+1-i)/i).astype(int)
22+
1123

1224
classNonIntersectingPathException(ValueError):
1325
pass
@@ -168,26 +180,127 @@ def find_bezier_t_intersecting_with_closedpath(
168180

169181
classBezierSegment:
170182
"""
171-
AD-dimensional Bezier segment.
183+
Ad-dimensional Bezier segment.
172184
173185
Parameters
174186
----------
175-
control_points : (N,D) array
187+
control_points : (N,d) array
176188
Location of the *N* control points.
177189
"""
178190

179191
def__init__(self,control_points):
180-
n=len(control_points)
181-
self._orders=np.arange(n)
182-
coeff= [math.factorial(n-1)
183-
// (math.factorial(i)*math.factorial(n-1-i))
184-
foriinrange(n)]
185-
self._px=np.asarray(control_points).T*coeff
192+
self._cpoints=np.asarray(control_points)
193+
self._N,self._d=self._cpoints.shape
194+
self._orders=np.arange(self._N)
195+
coeff= [math.factorial(self._N-1)
196+
// (math.factorial(i)*math.factorial(self._N-1-i))
197+
foriinrange(self._N)]
198+
self._px= (self._cpoints.T*coeff).T
199+
200+
def__call__(self,t):
201+
"""
202+
Evaluate the Bezier curve at point(s) t in [0, 1].
203+
204+
Parameters
205+
----------
206+
t : float (k,), array_like
207+
Points at which to evaluate the curve.
208+
209+
Returns
210+
-------
211+
float (k, d), array_like
212+
Value of the curve for each point in *t*.
213+
"""
214+
t=np.asarray(t)
215+
return (np.power.outer(1-t,self._orders[::-1])
216+
*np.power.outer(t,self._orders)) @self._px
186217

187218
defpoint_at_t(self,t):
188-
"""Return the point on the Bezier curve for parameter *t*."""
189-
returntuple(
190-
self._px @ (((1-t)**self._orders)[::-1]*t**self._orders))
219+
"""Evaluate curve at a single point *t*. Returns a Tuple[float*d]."""
220+
returntuple(self(t))
221+
222+
@property
223+
defcontrol_points(self):
224+
"""The control points of the curve."""
225+
returnself._cpoints
226+
227+
@property
228+
defdimension(self):
229+
"""The dimension of the curve."""
230+
returnself._d
231+
232+
@property
233+
defdegree(self):
234+
"""The number of control points in the curve."""
235+
returnself._N-1
236+
237+
@property
238+
defpolynomial_coefficients(self):
239+
r"""
240+
The polynomial coefficients of the Bezier curve.
241+
242+
.. warning:: Follows opposite convention from `numpy.polyval`.
243+
244+
Returns
245+
-------
246+
float, (n+1, d) array_like
247+
Coefficients after expanding in polynomial basis, where :math:`n`
248+
is the degree of the bezier curve and :math:`d` its dimension.
249+
These are the numbers (:math:`C_j`) such that the curve can be
250+
written :math:`\sum_{j=0}^n C_j t^j`.
251+
252+
Notes
253+
-----
254+
The coefficients are calculated as
255+
256+
.. math::
257+
258+
{n \choose j} \sum_{i=0}^j (-1)^{i+j} {j \choose i} P_i
259+
260+
where :math:`P_i` are the control points of the curve.
261+
"""
262+
n=self.degree
263+
# matplotlib uses n <= 4. overflow plausible starting around n = 15.
264+
ifn>10:
265+
warnings.warn("Polynomial coefficients formula unstable for high "
266+
"order Bezier curves!",RuntimeWarning)
267+
P=self.control_points
268+
j=np.arange(n+1)[:,None]
269+
i=np.arange(n+1)[None, :]# _comb is non-zero for i <= j
270+
prefactor= (-1)**(i+j)*_comb(j,i)# j on axis 0, i on axis 1
271+
return_comb(n,j)*prefactor @P# j on axis 0, self.dimension on 1
272+
273+
defaxis_aligned_extrema(self):
274+
"""
275+
Return the dimension and location of the curve's interior extrema.
276+
277+
The extrema are the points along the curve where one of its partial
278+
derivatives is zero.
279+
280+
Returns
281+
-------
282+
dims : int, array_like
283+
Index :math:`i` of the partial derivative which is zero at each
284+
interior extrema.
285+
dzeros : float, array_like
286+
Of same size as dims. The :math:`t` such that :math:`d/dx_i B(t) =
287+
0`
288+
"""
289+
n=self.degree
290+
Cj=self.polynomial_coefficients
291+
dCj=np.arange(1,n+1)[:,None]*Cj[1:]
292+
iflen(dCj)==0:
293+
returnnp.array([]),np.array([])
294+
dims= []
295+
roots= []
296+
fori,piinenumerate(dCj.T):
297+
r=np.roots(pi[::-1])
298+
roots.append(r)
299+
dims.append(np.full_like(r,i))
300+
roots=np.concatenate(roots)
301+
dims=np.concatenate(dims)
302+
in_range=np.isreal(roots)& (roots>=0)& (roots<=1)
303+
returndims[in_range],np.real(roots)[in_range]
191304

192305

193306
defsplit_bezier_intersecting_with_closedpath(

‎lib/matplotlib/path.py

Lines changed: 69 additions & 11 deletions
Original file line numberDiff line numberDiff line change
@@ -17,6 +17,7 @@
1717
importmatplotlibasmpl
1818
from .import_path,cbook
1919
from .cbookimport_to_unmasked_float_array,simple_linear_interpolation
20+
from .bezierimportBezierSegment
2021

2122

2223
classPath:
@@ -420,6 +421,53 @@ def iter_segments(self, transform=None, remove_nans=True, clip=None,
420421
curr_vertices=np.append(curr_vertices,next(vertices))
421422
yieldcurr_vertices,code
422423

424+
defiter_bezier(self,**kwargs):
425+
"""
426+
Iterate over each bezier curve (lines included) in a Path.
427+
428+
Parameters
429+
----------
430+
**kwargs
431+
Forwarded to `.iter_segments`.
432+
433+
Yields
434+
------
435+
B : matplotlib.bezier.BezierSegment
436+
The bezier curves that make up the current path. Note in particular
437+
that freestanding points are bezier curves of order 0, and lines
438+
are bezier curves of order 1 (with two control points).
439+
code : Path.code_type
440+
The code describing what kind of curve is being returned.
441+
Path.MOVETO, Path.LINETO, Path.CURVE3, Path.CURVE4 correspond to
442+
bezier curves with 1, 2, 3, and 4 control points (respectively).
443+
Path.CLOSEPOLY is a Path.LINETO with the control points correctly
444+
chosen based on the start/end points of the current stroke.
445+
"""
446+
first_vert=None
447+
prev_vert=None
448+
forverts,codeinself.iter_segments(**kwargs):
449+
iffirst_vertisNone:
450+
ifcode!=Path.MOVETO:
451+
raiseValueError("Malformed path, must start with MOVETO.")
452+
ifcode==Path.MOVETO:# a point is like "CURVE1"
453+
first_vert=verts
454+
yieldBezierSegment(np.array([first_vert])),code
455+
elifcode==Path.LINETO:# "CURVE2"
456+
yieldBezierSegment(np.array([prev_vert,verts])),code
457+
elifcode==Path.CURVE3:
458+
yieldBezierSegment(np.array([prev_vert,verts[:2],
459+
verts[2:]])),code
460+
elifcode==Path.CURVE4:
461+
yieldBezierSegment(np.array([prev_vert,verts[:2],
462+
verts[2:4],verts[4:]])),code
463+
elifcode==Path.CLOSEPOLY:
464+
yieldBezierSegment(np.array([prev_vert,first_vert])),code
465+
elifcode==Path.STOP:
466+
return
467+
else:
468+
raiseValueError("Invalid Path.code_type: "+str(code))
469+
prev_vert=verts[-2:]
470+
423471
@cbook._delete_parameter("3.3","quantize")
424472
defcleaned(self,transform=None,remove_nans=False,clip=None,
425473
quantize=False,simplify=False,curves=False,
@@ -528,22 +576,32 @@ def contains_path(self, path, transform=None):
528576
transform=transform.frozen()
529577
return_path.path_in_path(self,None,path,transform)
530578

531-
defget_extents(self,transform=None):
579+
defget_extents(self,transform=None,**kwargs):
532580
"""
533-
Return the extents (*xmin*, *ymin*, *xmax*, *ymax*) of the path.
581+
Get Bbox of the path.
534582
535-
Unlike computing the extents on the *vertices* alone, this
536-
algorithm will take into account the curves and deal with
537-
control points appropriately.
583+
Parameters
584+
----------
585+
transform : matplotlib.transforms.Transform, optional
586+
Transform to apply to path before computing extents, if any.
587+
**kwargs
588+
Forwarded to `.iter_bezier`.
589+
590+
Returns
591+
-------
592+
matplotlib.transforms.Bbox
593+
The extents of the path Bbox([[xmin, ymin], [xmax, ymax]])
538594
"""
539595
from .transformsimportBbox
540-
path=self
541596
iftransformisnotNone:
542-
transform=transform.frozen()
543-
ifnottransform.is_affine:
544-
path=self.transformed(transform)
545-
transform=None
546-
returnBbox(_path.get_path_extents(path,transform))
597+
self=transform.transform_path(self)
598+
bbox=Bbox.null()
599+
forcurve,codeinself.iter_bezier(**kwargs):
600+
# places where the derivative is zero can be extrema
601+
_,dzeros=curve.axis_aligned_extrema()
602+
# as can the ends of the curve
603+
bbox.update_from_data_xy(curve([0,*dzeros,1]),ignore=False)
604+
returnbbox
547605

548606
defintersects_path(self,other,filled=True):
549607
"""

‎lib/matplotlib/tests/test_path.py

Lines changed: 31 additions & 0 deletions
Original file line numberDiff line numberDiff line change
@@ -49,6 +49,37 @@ def test_contains_points_negative_radius():
4949
np.testing.assert_equal(result, [True,False,False])
5050

5151

52+
_test_paths= [
53+
# interior extrema determine extents and degenerate derivative
54+
Path([[0,0], [1,0], [1,1], [0,1]],
55+
[Path.MOVETO,Path.CURVE4,Path.CURVE4,Path.CURVE4]),
56+
# a quadratic curve
57+
Path([[0,0], [0,1], [1,0]], [Path.MOVETO,Path.CURVE3,Path.CURVE3]),
58+
# a linear curve, degenerate vertically
59+
Path([[0,1], [1,1]], [Path.MOVETO,Path.LINETO]),
60+
# a point
61+
Path([[1,2]], [Path.MOVETO]),
62+
]
63+
64+
65+
_test_path_extents= [(0.,0.,0.75,1.), (0.,0.,1.,0.5), (0.,1.,1.,1.),
66+
(1.,2.,1.,2.)]
67+
68+
69+
@pytest.mark.parametrize('path, extents',zip(_test_paths,_test_path_extents))
70+
deftest_exact_extents(path,extents):
71+
# notice that if we just looked at the control points to get the bounding
72+
# box of each curve, we would get the wrong answers. For example, for
73+
# hard_curve = Path([[0, 0], [1, 0], [1, 1], [0, 1]],
74+
# [Path.MOVETO, Path.CURVE4, Path.CURVE4, Path.CURVE4])
75+
# we would get that the extents area (0, 0, 1, 1). This code takes into
76+
# account the curved part of the path, which does not typically extend all
77+
# the way out to the control points.
78+
# Note that counterintuitively, path.get_extents() returns a Bbox, so we
79+
# have to get that Bbox's `.extents`.
80+
assertnp.all(path.get_extents().extents==extents)
81+
82+
5283
deftest_point_in_path_nan():
5384
box=np.array([[0,0], [1,0], [1,1], [0,1], [0,0]])
5485
p=Path(box)

‎lib/matplotlib/transforms.py

Lines changed: 2 additions & 2 deletions
Original file line numberDiff line numberDiff line change
@@ -845,8 +845,8 @@ def ignore(self, value):
845845

846846
defupdate_from_path(self,path,ignore=None,updatex=True,updatey=True):
847847
"""
848-
Update the bounds of the `Bbox`based on thepassed in
849-
data. After updating, the bounds will have positive *width*
848+
Update the bounds of the `Bbox`to contain thevertices of the
849+
provided path. After updating, the bounds will have positive *width*
850850
and *height*; *x0* and *y0* will be the minimal values.
851851
852852
Parameters

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