Functions
def	csc_colors (endcap, station, ring, chamber)

def	draw_disk (geom1, geom2, endcap, station, filename, length_factor=1., angle_factor=100., colors=csc_colors, template_dir='./')

def	draw_station (geom1, geom2, station, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./')

def	draw_wheel (geom1, geom2, wheel, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./')

def	dt_colors (wheel, station, sector)

Function Documentation

◆ csc_colors()

def geometryDiffVisualization.csc_colors	(	endcap,
		station,
		ring,
		chamber
	)

Definition at line 11 of file geometryDiffVisualization.py.

References svgfig.rgb().

 def csc_colors(endcap, station, ring, chamber):
     return rgb(0.1, 0.9, 0.)
 

◆ draw_disk()

def geometryDiffVisualization.draw_disk	(	geom1,
		geom2,
		endcap,
		station,
		filename,
		length_factor = `1.`,
		angle_factor = `100.`,
		colors = `csc_colors`,
		template_dir = `'./'`
	)

Definition at line 116 of file geometryDiffVisualization.py.

References funct.cos(), createfilelist.int, svgfig.pathtoPath(), funct.sin(), and mkLumiAveragedPlots.tuple.

 def draw_disk(geom1, geom2, endcap, station, filename, length_factor=1., angle_factor=100., colors=csc_colors, template_dir='./'):
     if station == 1: 
         disk_template = load_svg(template_dir + "disk1_template.svg")
     if station in (2, 3): 
         disk_template = load_svg(template_dir + "disk23_template.svg")
     if endcap == 1 and station == 4: 
         disk_template = load_svg(template_dir + "diskp4_template.svg")
     if endcap == 2 and station == 4: 
         disk_template = load_svg(template_dir + "diskm4_template.svg")
 
     scale_factor = 0.233
 
     new_boxes = SVG("g")
 
     for treeindex, svgitem in disk_template:
         if isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"] == "fakecenter":
             fakecenter = pathtoPath(pathtoPath(svgitem).SVG())
             sumx = 0.
             sumy = 0.
             sum1 = 0.
             for i, di in enumerate(fakecenter.d):
                 if di[0] in ("M", "L"):
                     sumx += di[1]
                     sumy += di[2]
                     sum1 += 1.
             originx = sumx/sum1
             originy = sumy/sum1
 
     for treeindex, svgitem in disk_template:
         if isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"][:3] == "ME_":
             m = re.match("ME_([0-9]+)_([0-9]+)", svgitem["id"])
             if m is None: raise Exception
 
             ring, chamber = int(m.group(1)), int(m.group(2))
             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]
             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]
             phizdiff = -angle_factor * (geom1.csc[endcap, station, ring, chamber].phiz - geom2.csc[endcap, station, ring, chamber].phiz) * signConventions["CSC", endcap, station, ring, chamber][2]
 
             svgitem["style"] = "fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:1.0;stroke-dasharray:1, 1;stroke-dashoffset:0"
 
             newBox = pathtoPath(svgitem)
 
             # Inkscape outputs wrong SVG: paths are filled with movetos, rather than linetos; this fixes that
             first = True
             for i, di in enumerate(newBox.d):
                 if not first and di[0] == "m":
                     di = list(di)
                     di[0] = "l"
                     newBox.d[i] = tuple(di)
                 first = False
 
             # convert to absolute coordinates
             newBox = pathtoPath(newBox.SVG())
 
             # find the center of the object
             sumx = 0.
             sumy = 0.
             sum1 = 0.
             for i, di in enumerate(newBox.d):
                 if di[0] == "L":
                     sumx += di[1]
                     sumy += di[2]
                     sum1 += 1.
             centerx = sumx/sum1
             centery = sumy/sum1
 
             phipos = atan2(centery - originy, centerx - originx) - pi/2.
             for i, di in enumerate(newBox.d):
                 if di[0] in ("M", "L"):
                     di = list(di)
                     di[1] += cos(phipos)*xdiff - sin(phipos)*ydiff
                     di[2] += sin(phipos)*xdiff + cos(phipos)*ydiff
                     newBox.d[i] = tuple(di)
 
             centerx += cos(phipos)*xdiff - sin(phipos)*ydiff
             centery += sin(phipos)*xdiff + cos(phipos)*ydiff
 
             for i, di in enumerate(newBox.d):
                 if di[0] in ("M", "L"):
                     di = list(di)
                     dispx = cos(phizdiff) * (di[1] - centerx) - sin(phizdiff) * (di[2] - centery)
                     dispy = sin(phizdiff) * (di[1] - centerx) + cos(phizdiff) * (di[2] - centery)
                     di[1] = dispx + centerx
                     di[2] = dispy + centery
                     newBox.d[i] = tuple(di)
 
             newBox = newBox.SVG()
             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)
             newBox["id"] = newBox["id"] + "_moved"
 
             new_boxes.append(newBox)
 
     for treeindex, svgitem in disk_template:
         if isinstance(svgitem, SVG) and svgitem.t == "g" and "id" in svgitem.attr and svgitem["id"] == "chambers":
             svgitem.append(new_boxes)
 
         elif isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"] == "diskx":
             if endcap == 1: svgitem[0] = "Disk %+d" % station
             else: svgitem[0] = "Disk %+d" % (-station)
             svgitem[0] += " (length x%g, angle x%g)" % (length_factor, angle_factor)
 
     disk_template.save(filename)

◆ draw_station()

def geometryDiffVisualization.draw_station	(	geom1,
		geom2,
		station,
		filename,
		length_factor = `100.`,
		angle_factor = `100.`,
		colors = `dt_colors`,
		template_dir = `'./'`
	)

Definition at line 14 of file geometryDiffVisualization.py.

References dqmMemoryStats.float, and createfilelist.int.

 def draw_station(geom1, geom2, station, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./'):
     if station == 4: 
         station_template = load_svg(template_dir + "station4_template.svg")
     else: 
         station_template = load_svg(template_dir + "station_template.svg")
 
     if station == 1: x_scale_factor = 1/6.
     if station == 2: x_scale_factor = 1/7.
     if station == 3: x_scale_factor = 1/8.5
     if station == 4: x_scale_factor = 1/10.
     y_scale_factor = 1/7.
 
     # make a new group to put the moved chambers into
     new_boxes = SVG("g")
 
     # loop over the SVG tree, looking for our chambers (by id)
     for treeindex, svgitem in station_template:
         if isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"][:3] == "MB_":
             m = re.match("MB_([0-9mpz]+)_([0-9]+)", svgitem["id"])
             if m is None: raise Exception
 
             wheel = m.group(1)
             if wheel == "m2": wheel = -2
             elif wheel == "m1": wheel = -1
             elif wheel == "z": wheel = 0
             elif wheel == "p1": wheel = 1
             elif wheel == "p2": wheel = 2
             sector = int(m.group(2))
 
             xdiff = x_scale_factor * length_factor * (geom1.dt[wheel, station, sector].x - geom2.dt[wheel, station, sector].x) * signConventions["DT", wheel, station, sector][0]
             ydiff = -y_scale_factor * length_factor * (geom1.dt[wheel, station, sector].y - geom2.dt[wheel, station, sector].y) * signConventions["DT", wheel, station, sector][1]
             phizdiff = -angle_factor * (geom1.dt[wheel, station, sector].phiz - geom2.dt[wheel, station, sector].phiz) * signConventions["DT", wheel, station, sector][2]
 
             sx = float(svgitem["x"]) + float(svgitem["width"])/2.
             sy = float(svgitem["y"]) + float(svgitem["height"])/2.
 
             svgitem["transform"] = "translate(%g,%g)" % (sx, sy)
             svgitem["x"] = -float(svgitem["width"])/2.
             svgitem["y"] = -float(svgitem["height"])/2.
 
             svgitem["style"] = "fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:1.0;stroke-dasharray:1, 1;stroke-dashoffset:0"
 
             newBox = svgitem.clone()
             newBox["transform"] = "translate(%g,%g) rotate(%g) " % (sx + xdiff, sy + ydiff, phizdiff * 180./pi)
             newBox["style"] = "fill:%s;fill-opacity:0.5;stroke:#000000;stroke-width:1.0;stroke-opacity:1;stroke-dasharray:none" % colors(wheel, station, sector)
 
             new_boxes.append(newBox)
 
     for treeindex, svgitem in station_template:
         if isinstance(svgitem, SVG) and svgitem.t == "g" and "id" in svgitem.attr and svgitem["id"] == "chambers":
             svgitem.append(new_boxes)
 
         elif isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"] == "stationx":
             svgitem[0] = "Station %d" % station
             svgitem[0] += " (length x%g, angle x%g)" % (length_factor, angle_factor)
 
     station_template.save(filename)
 

◆ draw_wheel()

def geometryDiffVisualization.draw_wheel	(	geom1,
		geom2,
		wheel,
		filename,
		length_factor = `100.`,
		angle_factor = `100.`,
		colors = `dt_colors`,
		template_dir = `'./'`
	)

Definition at line 72 of file geometryDiffVisualization.py.

References funct.cos(), dqmMemoryStats.float, createfilelist.int, and funct.sin().

 def draw_wheel(geom1, geom2, wheel, filename, length_factor=100., angle_factor=100., colors=dt_colors, template_dir='./'):
     wheel_template = load_svg(template_dir + "wheel_template.svg")
 
     # make a new group to put the moved chambers into
     new_boxes = SVG("g")
 
     # loop over the SVG tree, looking for our chambers (by id)
     for treeindex, svgitem in wheel_template:
         if isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"][:3] == "MB_":
             m = re.match("MB_([0-9]+)_([0-9]+)", svgitem["id"])
             if m is None: raise Exception
 
             station, sector = int(m.group(1)), int(m.group(2))
             xdiff = -length_factor * (geom1.dt[wheel, station, sector].x - geom2.dt[wheel, station, sector].x) * signConventions["DT", wheel, station, sector][0]
             zdiff = length_factor * (geom1.dt[wheel, station, sector].z - geom2.dt[wheel, station, sector].z) * signConventions["DT", wheel, station, sector][2]
             phiydiff = -angle_factor * (geom1.dt[wheel, station, sector].phiy - geom2.dt[wheel, station, sector].phiy) * signConventions["DT", wheel, station, sector][1]
 
             m = re.search("translate\(([0-9\.\-\+eE]+),\s([0-9\.\-\+eE]+)\)\srotate\(([0-9\.\-\+eE]+)\)",svgitem["transform"])
 
             tx = float(m.group(1))
             ty = float(m.group(2))
             tr = float(m.group(3))
 
             newBox = svgitem.clone()
 
             svgitem["style"] = "fill:#e1e1e1;fill-opacity:1;stroke:#000000;stroke-width:5.0;stroke-dasharray:1, 1;stroke-dashoffset:0"
             newBox["style"] = "fill:%s;fill-opacity:0.5;stroke:#000000;stroke-width:5.0;stroke-opacity:1;stroke-dasharray:none" % colors(wheel, station, sector)
             newBox["id"] = newBox["id"] + "_moved"
 
             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) 
 
             new_boxes.append(newBox)
 
     for treeindex, svgitem in wheel_template:
         if isinstance(svgitem, SVG) and svgitem.t == "g" and "id" in svgitem.attr and svgitem["id"] == "chambers":
             svgitem.append(new_boxes)
 
         elif isinstance(svgitem, SVG) and "id" in svgitem.attr and svgitem["id"] == "wheelx":
             if wheel == 0: svgitem[0] = "Wheel 0"
             else: svgitem[0] = "Wheel %+d" % wheel
             svgitem[0] += " (length x%g, angle x%g)" % (length_factor, angle_factor)
 
     wheel_template.save(filename)
 

◆ dt_colors()

def geometryDiffVisualization.dt_colors	(	wheel,
		station,
		sector
	)

Definition at line 8 of file geometryDiffVisualization.py.

References svgfig.rgb().

 def dt_colors(wheel, station, sector):
     return rgb(0.1, 0.9, 0.)
 

Functions

Function Documentation

◆ csc_colors()

◆ draw_disk()

◆ draw_station()

◆ draw_wheel()

◆ dt_colors()