/usr/share/pyshared/mpl_toolkits/axisartist/clip_path.py is in python-matplotlib 1.1.1~rc1+git20120423-0ubuntu1.
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 | import numpy as np
from math import degrees
import math
def atan2(dy, dx):
if dx == 0 and dx == 0:
print "warning"
return 0
else:
return math.atan2(dy, dx)
# FIXME : The current algorithm seems to return incorrect angle when the line
# ends at the boundary.
def clip(xlines, ylines, x0, clip="right", xdir=True, ydir=True):
clipped_xlines = []
clipped_ylines = []
_pos_angles = []
if xdir:
xsign = 1
else:
xsign = -1
if ydir:
ysign = 1
else:
ysign = -1
for x, y in zip(xlines, ylines):
if clip in ["up", "right"]:
b = (x < x0).astype("i")
db = b[1:] - b[:-1]
else:
b = (x > x0).astype("i")
db = b[1:] - b[:-1]
if b[0]:
ns = 0
else:
ns = -1
segx, segy = [], []
for (i,) in np.argwhere(db!=0):
c = db[i]
if c == -1:
dx = (x0 - x[i])
dy = (y[i+1] - y[i]) * (dx/ (x[i+1] - x[i]))
y0 = y[i] + dy
clipped_xlines.append(np.concatenate([segx, x[ns:i+1], [x0]]))
clipped_ylines.append(np.concatenate([segy, y[ns:i+1], [y0]]))
ns = -1
segx, segy = [], []
if dx == 0. and dy == 0:
dx = x[i+1] - x[i]
dy = y[i+1] - y[i]
a = degrees(atan2(ysign*dy, xsign*dx))
_pos_angles.append((x0, y0, a))
elif c == 1:
dx = (x0 - x[i])
dy = (y[i+1] - y[i]) * (dx / (x[i+1] - x[i]))
y0 = y[i] + dy
segx, segy = [x0], [y0]
ns = i+1
if dx == 0. and dy == 0:
dx = x[i+1] - x[i]
dy = y[i+1] - y[i]
a = degrees(atan2(ysign*dy, xsign*dx))
_pos_angles.append((x0, y0, a))
#print x[i], x[i+1]
if ns != -1:
clipped_xlines.append(np.concatenate([segx, x[ns:]]))
clipped_ylines.append(np.concatenate([segy, y[ns:]]))
#clipped_pos_angles.append(_pos_angles)
return clipped_xlines, clipped_ylines, _pos_angles
def clip_line_to_rect(xline, yline, bbox):
x0, y0, x1, y1 = bbox.extents
xdir = x1 > x0
ydir = y1 > y0
if x1 > x0:
lx1, ly1, c_right_ = clip([xline], [yline], x1, clip="right", xdir=xdir, ydir=ydir)
lx2, ly2, c_left_ = clip(lx1, ly1, x0, clip="left", xdir=xdir, ydir=ydir)
else:
lx1, ly1, c_right_ = clip([xline], [yline], x0, clip="right", xdir=xdir, ydir=ydir)
lx2, ly2, c_left_ = clip(lx1, ly1, x1, clip="left", xdir=xdir, ydir=ydir)
if y1 > y0:
ly3, lx3, c_top_ = clip(ly2, lx2, y1, clip="right", xdir=ydir, ydir=xdir)
ly4, lx4, c_bottom_ = clip(ly3, lx3, y0, clip="left", xdir=ydir, ydir=xdir)
else:
ly3, lx3, c_top_ = clip(ly2, lx2, y0, clip="right", xdir=ydir, ydir=xdir)
ly4, lx4, c_bottom_ = clip(ly3, lx3, y1, clip="left", xdir=ydir, ydir=xdir)
# lx1, ly1, c_right_ = clip([xline], [yline], x1, clip="right")
# lx2, ly2, c_left_ = clip(lx1, ly1, x0, clip="left")
# ly3, lx3, c_top_ = clip(ly2, lx2, y1, clip="right")
# ly4, lx4, c_bottom_ = clip(ly3, lx3, y0, clip="left")
#c_left = [((x, y), (a+90)%180-180) for (x, y, a) in c_left_ \
# if bbox.containsy(y)]
c_left = [((x, y), (a+90)%180-90) for (x, y, a) in c_left_ \
if bbox.containsy(y)]
c_bottom = [((x, y), (90 - a)%180) for (y, x, a) in c_bottom_ \
if bbox.containsx(x)]
c_right = [((x, y), (a+90)%180+90) for (x, y, a) in c_right_ \
if bbox.containsy(y)]
c_top = [((x, y), (90 - a)%180+180) for (y, x, a) in c_top_ \
if bbox.containsx(x)]
return zip(lx4, ly4), [c_left, c_bottom, c_right, c_top]
if __name__ == "__main__":
import matplotlib.pyplot as plt
x = np.array([-3, -2, -1, 0., 1, 2, 3, 2, 1, 0, -1, -2, -3, 5])
#x = np.array([-3, -2, -1, 0., 1, 2, 3])
y = np.arange(len(x))
#x0 = 2
plt.plot(x, y, lw=1)
from matplotlib.transforms import Bbox
bb = Bbox.from_extents(-2, 3, 2, 12.5)
lxy, ticks = clip_line_to_rect(x, y, bb)
for xx, yy in lxy:
plt.plot(xx, yy, lw=1, color="g")
ccc = iter(["ro", "go", "rx", "bx"])
for ttt in ticks:
cc = ccc.next()
for (xx, yy), aa in ttt:
plt.plot([xx], [yy], cc)
#xlim(
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