From a6719c56c50a8101a1e12b70122d8c3100bc3bce Mon Sep 17 00:00:00 2001 From: Andy Date: Sat, 23 Jul 2016 17:15:22 -0700 Subject: [PATCH] fixed __init__.py --- svgpathtools/__init__.py | 2 +- svgpathtools/path.py | 86 ++++++++++++++++++++++++++++++++++++++-- 2 files changed, 83 insertions(+), 5 deletions(-) diff --git a/svgpathtools/__init__.py b/svgpathtools/__init__.py index 47830f4..a57b18d 100644 --- a/svgpathtools/__init__.py +++ b/svgpathtools/__init__.py @@ -9,7 +9,7 @@ from .path import (Path, Line, QuadraticBezier, CubicBezier, Arc, path_encloses_pt, bbox2path) from .parser import parse_path from .paths2svg import disvg, wsvg -from .polytools import polyroots, polytools01, rational_limit, real, imag +from .polytools import polyroots, polyroots01, rational_limit, real, imag from .misctools import hex2rgb, rgb2hex from .smoothing import smoothed_path, smoothed_joint, is_differentiable, kinks diff --git a/svgpathtools/path.py b/svgpathtools/path.py index fbe8c4e..25c4184 100644 --- a/svgpathtools/path.py +++ b/svgpathtools/path.py @@ -524,6 +524,16 @@ class Line(object): """returns the curvature of the line, which is always zero.""" return 0 + # def icurvature(self, kappa): + # """returns a list of t-values such that 0 <= t<= 1 and + # seg.curvature(t) = kappa.""" + # if kappa: + # raise ValueError("The .icurvature() method for Line elements will " + # "return an empty list if kappa is nonzero and " + # "will raise this exception when kappa is zero as " + # "this is true at every point on the line.") + # return [] + def reversed(self): """returns a copy of the Line object with its orientation reversed.""" return Line(self.end, self.start) @@ -769,6 +779,17 @@ class QuadraticBezier(object): """returns the curvature of the segment at t.""" return segment_curvature(self, t) + # def icurvature(self, kappa): + # """returns a list of t-values such that 0 <= t<= 1 and + # seg.curvature(t) = kappa.""" + # z = self.poly() + # x, y = real(z), imag(z) + # dx, dy = x.deriv(), y.deriv() + # ddx, ddy = dx.deriv(), dy.deriv() + # + # p = kappa**2*(dx**2 + dy**2)**3 - (dx*ddy - ddx*dy)**2 + # return polyroots01(p) + def reversed(self): """returns a copy of the QuadraticBezier object with its orientation reversed.""" @@ -1001,6 +1022,17 @@ class CubicBezier(object): """returns the curvature of the segment at t.""" return segment_curvature(self, t) + # def icurvature(self, kappa): + # """returns a list of t-values such that 0 <= t<= 1 and + # seg.curvature(t) = kappa.""" + # z = self.poly() + # x, y = real(z), imag(z) + # dx, dy = x.deriv(), y.deriv() + # ddx, ddy = dx.deriv(), dy.deriv() + # + # p = kappa**2*(dx**2 + dy**2)**3 - (dx*ddy - ddx*dy)**2 + # return polyroots01(p) + def reversed(self): """returns a copy of the CubicBezier object with its orientation reversed.""" @@ -1395,6 +1427,43 @@ class Arc(object): """returns the curvature of the segment at t.""" return segment_curvature(self, t) + # def icurvature(self, kappa): + # """returns a list of t-values such that 0 <= t<= 1 and + # seg.curvature(t) = kappa.""" + # + # a, b = self.radius.real, self.radius.imag + # if kappa > min(a, b)/max(a, b)**2 or kappa <= 0: + # return [] + # if a==b: + # if kappa != 1/a: + # return [] + # else: + # raise ValueError( + # "The .icurvature() method for Arc elements with " + # "radius.real == radius.imag (i.e. circle segments) " + # "will raise this exception when kappa is 1/radius.real as " + # "this is true at every point on the circle segment.") + # + # # kappa = a*b / (a^2sin^2(tau) + b^2cos^2(tau))^(3/2), tau=2*pi*phase + # sin2 = np.poly1d([1, 0]) + # p = kappa**2*(a*sin2 + b*(1 - sin2))**3 - a*b + # sin2s = polyroots01(p) + # taus = [] + # + # for sin2 in sin2s: + # taus += [np.arcsin(sqrt(sin2)), np.arcsin(-sqrt(sin2))] + # + # # account for the other branch of arcsin + # sgn = lambda x: x/abs(x) if x else 0 + # other_taus = [sgn(tau)*np.pi - tau for tau in taus if abs(tau) != np.pi/2] + # taus = taus + other_taus + # + # # get rid of points not included in segment + # ts = [phase2t(tau) for tau in taus] + # + # return [t for t in ts if 0<=t<=1] + + def reversed(self): """returns a copy of the Arc object with its orientation reversed.""" return Arc(self.end, self.radius, self.rotation, self.large_arc, @@ -1404,7 +1473,6 @@ class Arc(object): """Given phase -pi < psi <= pi, returns the t value such that exp(1j*psi) = self.u1transform(self.point(t)). - Note: This is non-trivial beca """ def _deg(rads, domain_lower_limit): # Convert rads to degrees in [0, 360) domain @@ -1425,7 +1493,7 @@ class Arc(object): def intersect(self, other_seg, tol=1e-12): - """NOT IMPLEMENTED. Finds the intersections of two segments. + """NOT FULLY IMPLEMENTED. Finds the intersections of two segments. returns a list of tuples (t1, t2) such that self.point(t1) == other_seg.point(t2). Note: This will fail if the two segments coincide for more than a @@ -1959,12 +2027,12 @@ class Path(MutableSequence): float('inf') if not differentiable at T.""" seg_idx, t = self.T2t(T) seg = self[seg_idx] - if np.isclose(t, 0) and (seg_idx != 0 or self.isclosed()): + if np.isclose(t, 0) and (seg_idx != 0 or self.end==self.start): previous_seg_in_path = self._segments[ (seg_idx - 1) % len(self._segments)] if not seg.joins_smoothl_with(previous_seg_in_path): return float('inf') - elif np.isclose(t, 1) and (seg_idx != len(self) - 1 or self.isclosed()): + elif np.isclose(t, 1) and (seg_idx != len(self) - 1 or self.end==self.start): next_seg_in_path = self._segments[ (seg_idx + 1) % len(self._segments)] if not next_seg_in_path.joins_smoothly_with(seg): @@ -1975,6 +2043,16 @@ class Path(MutableSequence): ddx, ddy = ddz.real, ddz.imag return abs(dx*ddy - dy*ddx)/(dx*dx + dy*dy)**1.5 + # def icurvature(self, kappa): + # """returns a list of T-values such that 0 <= T <= 1 and + # seg.curvature(t) = kappa. + # Note: not implemented for paths containing Arc segments.""" + # assert is_bezier_path(self) + # Ts = [] + # for i, seg in enumerate(self): + # Ts += [self.t2T(i, t) for t in seg.icurvature(kappa)] + # return Ts + def area(self): """returns the area enclosed by this Path object. Note: negative area results from CW (as opposed to CCW)