-
-
Notifications
You must be signed in to change notification settings - Fork 401
/
reference-line.py
119 lines (98 loc) · 4.42 KB
/
reference-line.py
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
import numpy as np
import matplotlib.pyplot as plt
fig = plt.figure(figsize=(4.25,6*.55))
ax = fig.add_axes([0,0,1,1], xlim=[0,11], ylim=[0.5,6.5], frameon=False,
xticks=[], yticks=[])
y = 6
def split(n_segment):
width = 9
segment_width = 0.75*(width/n_segment)
segment_pad = (width - n_segment*segment_width)/(n_segment-1)
X0 = 1+np.arange(n_segment)*(segment_width+segment_pad)
X1 = X0 + segment_width
return X0, X1
# Color
# ----------------------------------------------------------------------------
X0, X1 = split(10)
for i, (x0,x1) in enumerate(zip(X0,X1)):
ax.plot([x0,x1], [y,y], color = "C%d" % i,
linewidth=10, solid_capstyle="butt")
plt.text((x0+x1)/2, y-0.2, '"C%d"' % i,
size="x-small", ha="center", va="top", family="monospace")
ax.text(X0[0]-0.25, y+0.2, "Line color", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "color / c", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
# Line width
# ----------------------------------------------------------------------------
X0, X1 = split(5)
LW = np.arange(1,6)
for x0,x1,lw in zip(X0,X1,LW):
ax.plot([x0,x1], [y,y], color="black", linewidth=lw, solid_capstyle="round")
plt.text((x0+x1)/2, y-0.2, '%d' % lw,
size="x-small", ha="center", va="top")
ax.text(X0[0]-0.25, y+0.2, "Line width", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "linewidth / lw", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
# Solid capstyle
# ----------------------------------------------------------------------------
X0, X1 = split(3)
styles = "butt", "round", "projecting"
for x0,x1,style in zip(X0,X1,styles):
ax.plot([x0,x1],[y,y], color=".85",
solid_capstyle="projecting", linewidth=7)
ax.plot([x0,x1],[y,y], color="black",
solid_capstyle=style, linewidth=7)
ax.text((x0+x1)/2, y-0.2, '"%s"' % style,
size="x-small", ha="center", va="top", family="monospace")
ax.text(X0[0]-0.25, y+0.2, "Cap style", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "solid_capstyle", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
# Dash capstyle
# ----------------------------------------------------------------------------
X0, X1 = split(3)
styles = "butt", "round", "projecting"
for x0,x1,style in zip(X0,X1,styles):
ax.plot([x0,x1],[y,y], color=".85", dash_capstyle="projecting",
linewidth=7, linestyle="--")
ax.plot([x0,x1],[y,y], color="black", linewidth=7,
linestyle="--", dash_capstyle=style)
ax.text((x0+x1)/2, y-0.2, '"%s"' % style,
size="x-small", ha="center", va="top", family="monospace")
ax.text(X0[0]-0.25, y+0.2, "Dash cap style", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "dash_capstyle", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
# Line style
# ----------------------------------------------------------------------------
X0, X1 = split(5)
styles = "-", ":", "--", "-.", (0,(0.01,2))
for x0,x1,style in zip(X0,X1,styles):
ax.plot([x0,x1],[y,y], color="black", linestyle=style,
solid_capstyle="round", dash_capstyle="round", linewidth=3)
if isinstance(style,str): text = '"%s"' % style
else: text = '%s' % str(style)
ax.text((x0+x1)/2, y-0.2, text,
size="x-small", ha="center", va="top", family="monospace")
ax.text(X0[0]-0.25, y+0.2, "Line style", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "linestyle / ls", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
# Color
# ----------------------------------------------------------------------------
X0, X1 = split(2)
for i, (x0,x1) in enumerate(zip(X0,X1)):
X = np.linspace(x0,x1,500)
Y = y + .1*np.cos(5*np.pi*(X-x0)/(x1-x0))
ax.plot(X, Y, color = "black", linewidth=0.75, antialiased=i,
rasterized=1-i)
plt.text((x0+x1)/2, y-0.2, '%s' % bool(i),
size="x-small", ha="center", va="top", family="monospace")
ax.text(X0[0]-0.25, y+0.2, "Antialias", size="small", ha="left", va="baseline")
ax.text(X1[-1]+0.25, y+0.2, "antialiased", color="blue",
size="small", ha="right", va="baseline", family="monospace")
y -= 1
plt.savefig("reference-line.pdf", dpi=200)
plt.show()