1 from __future__
import absolute_import
4 from .svgfig
import rgb, SVG, pathtoPath, load
as load_svg
5 from .geometryXMLparser
import *
6 from signConventions
import *
9 return rgb(0.1, 0.9, 0.)
12 return rgb(0.1, 0.9, 0.)
14 def draw_station(geom1, geom2, station, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./'):
16 station_template = load_svg(template_dir +
"station4_template.svg")
18 station_template = load_svg(template_dir +
"station_template.svg")
20 if station == 1: x_scale_factor = 1/6.
21 if station == 2: x_scale_factor = 1/7.
22 if station == 3: x_scale_factor = 1/8.5
23 if station == 4: x_scale_factor = 1/10.
30 for treeindex, svgitem
in station_template:
31 if isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"][:3] ==
"MB_":
32 m = re.match(
"MB_([0-9mpz]+)_([0-9]+)", svgitem[
"id"])
33 if m
is None:
raise Exception
36 if wheel ==
"m2": wheel = -2
37 elif wheel ==
"m1": wheel = -1
38 elif wheel ==
"z": wheel = 0
39 elif wheel ==
"p1": wheel = 1
40 elif wheel ==
"p2": wheel = 2
41 sector =
int(m.group(2))
43 xdiff = x_scale_factor * length_factor * (geom1.dt[wheel, station, sector].x - geom2.dt[wheel, station, sector].x) * signConventions[
"DT", wheel, station, sector][0]
44 ydiff = -y_scale_factor * length_factor * (geom1.dt[wheel, station, sector].y - geom2.dt[wheel, station, sector].y) * signConventions[
"DT", wheel, station, sector][1]
45 phizdiff = -angle_factor * (geom1.dt[wheel, station, sector].phiz - geom2.dt[wheel, station, sector].phiz) * signConventions[
"DT", wheel, station, sector][2]
47 sx =
float(svgitem[
"x"]) +
float(svgitem[
"width"])/2.
48 sy =
float(svgitem[
"y"]) +
float(svgitem[
"height"])/2.
50 svgitem[
"transform"] =
"translate(%g,%g)" % (sx, sy)
51 svgitem[
"x"] = -
float(svgitem[
"width"])/2.
52 svgitem[
"y"] = -
float(svgitem[
"height"])/2.
54 svgitem[
"style"] =
"fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:1.0;stroke-dasharray:1, 1;stroke-dashoffset:0" 56 newBox = svgitem.clone()
57 newBox[
"transform"] =
"translate(%g,%g) rotate(%g) " % (sx + xdiff, sy + ydiff, phizdiff * 180./pi)
58 newBox[
"style"] =
"fill:%s;fill-opacity:0.5;stroke:#000000;stroke-width:1.0;stroke-opacity:1;stroke-dasharray:none" %
colors(wheel, station, sector)
60 new_boxes.append(newBox)
62 for treeindex, svgitem
in station_template:
63 if isinstance(svgitem, SVG)
and svgitem.t ==
"g" and "id" in svgitem.attr
and svgitem[
"id"] ==
"chambers":
64 svgitem.append(new_boxes)
66 elif isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"] ==
"stationx":
67 svgitem[0] =
"Station %d" % station
68 svgitem[0] +=
" (length x%g, angle x%g)" % (length_factor, angle_factor)
70 station_template.save(filename)
72 def draw_wheel(geom1, geom2, wheel, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./'):
73 wheel_template = load_svg(template_dir +
"wheel_template.svg")
79 for treeindex, svgitem
in wheel_template:
80 if isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"][:3] ==
"MB_":
81 m = re.match(
"MB_([0-9]+)_([0-9]+)", svgitem[
"id"])
82 if m
is None:
raise Exception
84 station, sector =
int(m.group(1)),
int(m.group(2))
85 xdiff = -length_factor * (geom1.dt[wheel, station, sector].x - geom2.dt[wheel, station, sector].x) * signConventions[
"DT", wheel, station, sector][0]
86 zdiff = length_factor * (geom1.dt[wheel, station, sector].z - geom2.dt[wheel, station, sector].z) * signConventions[
"DT", wheel, station, sector][2]
87 phiydiff = -angle_factor * (geom1.dt[wheel, station, sector].phiy - geom2.dt[wheel, station, sector].phiy) * signConventions[
"DT", wheel, station, sector][1]
89 m = re.search(
"translate\(([0-9\.\-\+eE]+),\s([0-9\.\-\+eE]+)\)\srotate\(([0-9\.\-\+eE]+)\)",svgitem[
"transform"])
91 tx =
float(m.group(1))
92 ty =
float(m.group(2))
93 tr =
float(m.group(3))
95 newBox = svgitem.clone()
97 svgitem[
"style"] =
"fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:5.0;stroke-dasharray:1, 1;stroke-dashoffset:0" 98 newBox[
"style"] =
"fill:%s;fill-opacity:0.5;stroke:#000000;stroke-width:5.0;stroke-opacity:1;stroke-dasharray:none" %
colors(wheel, station, sector)
99 newBox[
"id"] = newBox[
"id"] +
"_moved" 101 newBox[
"transform"] =
"translate(%g,%g) rotate(%g)" % (tx - xdiff*
cos(tr*pi/180.) + zdiff*
sin(tr*pi/180.), ty - xdiff*
sin(tr*pi/180.) - zdiff*
cos(tr*pi/180.), tr - phiydiff*180./pi)
103 new_boxes.append(newBox)
105 for treeindex, svgitem
in wheel_template:
106 if isinstance(svgitem, SVG)
and svgitem.t ==
"g" and "id" in svgitem.attr
and svgitem[
"id"] ==
"chambers":
107 svgitem.append(new_boxes)
109 elif isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"] ==
"wheelx":
110 if wheel == 0: svgitem[0] =
"Wheel 0" 111 else: svgitem[0] =
"Wheel %+d" % wheel
112 svgitem[0] +=
" (length x%g, angle x%g)" % (length_factor, angle_factor)
114 wheel_template.save(filename)
116 def draw_disk(geom1, geom2, endcap, station, filename, length_factor=1., angle_factor=100., colors=csc_colors, template_dir='./'):
118 disk_template = load_svg(template_dir +
"disk1_template.svg")
119 if station
in (2, 3):
120 disk_template = load_svg(template_dir +
"disk23_template.svg")
121 if endcap == 1
and station == 4:
122 disk_template = load_svg(template_dir +
"diskp4_template.svg")
123 if endcap == 2
and station == 4:
124 disk_template = load_svg(template_dir +
"diskm4_template.svg")
130 for treeindex, svgitem
in disk_template:
131 if isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"] ==
"fakecenter":
136 for i, di
in enumerate(fakecenter.d):
137 if di[0]
in (
"M",
"L"):
144 for treeindex, svgitem
in disk_template:
145 if isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"][:3] ==
"ME_":
146 m = re.match(
"ME_([0-9]+)_([0-9]+)", svgitem[
"id"])
147 if m
is None:
raise Exception
149 ring, chamber =
int(m.group(1)),
int(m.group(2))
150 xdiff = scale_factor * length_factor * (geom1.csc[endcap, station, ring, chamber].x - geom2.csc[endcap, station, ring, chamber].x) * signConventions[
"CSC", endcap, station, ring, chamber][0]
151 ydiff = -scale_factor * length_factor * (geom1.csc[endcap, station, ring, chamber].y - geom2.csc[endcap, station, ring, chamber].y) * signConventions[
"CSC", endcap, station, ring, chamber][1]
152 phizdiff = -angle_factor * (geom1.csc[endcap, station, ring, chamber].phiz - geom2.csc[endcap, station, ring, chamber].phiz) * signConventions[
"CSC", endcap, station, ring, chamber][2]
154 svgitem[
"style"] =
"fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:1.0;stroke-dasharray:1, 1;stroke-dashoffset:0" 160 for i, di
in enumerate(newBox.d):
161 if not first
and di[0] ==
"m":
164 newBox.d[i] = tuple(di)
174 for i, di
in enumerate(newBox.d):
182 phipos = atan2(centery - originy, centerx - originx) - pi/2.
183 for i, di
in enumerate(newBox.d):
184 if di[0]
in (
"M",
"L"):
186 di[1] +=
cos(phipos)*xdiff -
sin(phipos)*ydiff
187 di[2] +=
sin(phipos)*xdiff +
cos(phipos)*ydiff
188 newBox.d[i] = tuple(di)
190 centerx +=
cos(phipos)*xdiff -
sin(phipos)*ydiff
191 centery +=
sin(phipos)*xdiff +
cos(phipos)*ydiff
193 for i, di
in enumerate(newBox.d):
194 if di[0]
in (
"M",
"L"):
196 dispx =
cos(phizdiff) * (di[1] - centerx) -
sin(phizdiff) * (di[2] - centery)
197 dispy =
sin(phizdiff) * (di[1] - centerx) +
cos(phizdiff) * (di[2] - centery)
198 di[1] = dispx + centerx
199 di[2] = dispy + centery
200 newBox.d[i] = tuple(di)
202 newBox = newBox.SVG()
203 newBox[
"style"] =
"fill:%s;fill-opacity:0.5;stroke:#000000;stroke-width:1.0;stroke-opacity:1;stroke-dasharray:none" %
colors(endcap, station, ring, chamber)
204 newBox[
"id"] = newBox[
"id"] +
"_moved" 206 new_boxes.append(newBox)
208 for treeindex, svgitem
in disk_template:
209 if isinstance(svgitem, SVG)
and svgitem.t ==
"g" and "id" in svgitem.attr
and svgitem[
"id"] ==
"chambers":
210 svgitem.append(new_boxes)
212 elif isinstance(svgitem, SVG)
and "id" in svgitem.attr
and svgitem[
"id"] ==
"diskx":
213 if endcap == 1: svgitem[0] =
"Disk %+d" % station
214 else: svgitem[0] =
"Disk %+d" % (-station)
215 svgitem[0] +=
" (length x%g, angle x%g)" % (length_factor, angle_factor)
217 disk_template.save(filename)
def draw_disk(geom1, geom2, endcap, station, filename, length_factor=1., angle_factor=100., colors=csc_colors, template_dir='./')
Sin< T >::type sin(const T &t)
def csc_colors(endcap, station, ring, chamber)
Cos< T >::type cos(const T &t)
def draw_wheel(geom1, geom2, wheel, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./')
def dt_colors(wheel, station, sector)
def draw_station(geom1, geom2, station, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./')
def rgb(r, g, b, maximum=1.)