speccoll_corrected_col1.py

#!/usr/bin/python 
from poly import polygon
from poly import face 
from gi.repository import Gtk


from drawlight import drawlight

sources = []
allpolys = []

tgtlen = 1.5
#tgtrad = 0.04
#tgtrad = 0.002
tgtrad = 0.0025

target = polygon( ([-tgtlen/2,-tgtrad], [tgtlen/2, -tgtrad], [tgtlen/2,tgtrad], [-tgtlen/2,tgtrad]) )


#################################################################

######inner photon collimator (Col 1)
# Previous implementation assumed it was a solid shape from front face to back face, 
# but this neglects the fact that it tapers inwards a lot in the first 30cm and then 
# untapers in the last 10cm - updating by splitting into 5 segments

x1_inner_photon_1=0.024
z1_inner_photon_1=5.175

x2_inner_photon_1=0.031703
z2_inner_photon_1=5.175

x3_inner_photon_1=0.031703
z3_inner_photon_1=5.275

x4_inner_photon_1=0.024
z4_inner_photon_1=5.275

x1_inner_photon_2=0.020386
z1_inner_photon_2=5.275

x2_inner_photon_2=0.028703
z2_inner_photon_2=5.275

x3_inner_photon_2=0.028703
z3_inner_photon_2=5.375

x4_inner_photon_2=0.020386
z4_inner_photon_2=5.375

x1_inner_photon_3=0.018696
z1_inner_photon_3=5.375

x2_inner_photon_3=0.026703
z2_inner_photon_3=5.375

x3_inner_photon_3=0.026703
z3_inner_photon_3=5.475

x4_inner_photon_3=0.018696
z4_inner_photon_3=5.475

x1_inner_photon_4=0.015529
z1_inner_photon_4=5.475

x2_inner_photon_4=0.026703
z2_inner_photon_4=5.475

x3_inner_photon_4=0.026703
z3_inner_photon_4=5.575

x4_inner_photon_4=0.015529
z4_inner_photon_4=5.575

x1_inner_photon_5=0.015529
z1_inner_photon_5=5.575

x2_inner_photon_5=0.026703
z2_inner_photon_5=5.575

x3_inner_photon_5=0.026703
z3_inner_photon_5=5.675

x4_inner_photon_5=0.015808
z4_inner_photon_5=5.675

# one has to assign the coordinates in anti-clock sequence
coll_inner_photon_top_1    = polygon( ([z1_inner_photon_1,  x1_inner_photon_1], [z4_inner_photon_1,  x4_inner_photon_1], [z3_inner_photon_1,  x3_inner_photon_1], [z2_inner_photon_1,  x2_inner_photon_1] ), notSource=False)
coll_inner_photon_bottom_1 = polygon( ([z2_inner_photon_1, -x2_inner_photon_1], [z3_inner_photon_1, -x3_inner_photon_1], [z4_inner_photon_1, -x4_inner_photon_1], [z1_inner_photon_1, -x1_inner_photon_1] ), notSource=False)

coll_inner_photon_top_2    = polygon( ([z1_inner_photon_2,  x1_inner_photon_2], [z4_inner_photon_2,  x4_inner_photon_2], [z3_inner_photon_2,  x3_inner_photon_2], [z2_inner_photon_2,  x2_inner_photon_2] ), notSource=False)
coll_inner_photon_bottom_2 = polygon( ([z2_inner_photon_2, -x2_inner_photon_2], [z3_inner_photon_2, -x3_inner_photon_2], [z4_inner_photon_2, -x4_inner_photon_2], [z1_inner_photon_2, -x1_inner_photon_2] ), notSource=False)

coll_inner_photon_top_3    = polygon( ([z1_inner_photon_3,  x1_inner_photon_3], [z4_inner_photon_3,  x4_inner_photon_3], [z3_inner_photon_3,  x3_inner_photon_3], [z2_inner_photon_3,  x2_inner_photon_3] ), notSource=False)
coll_inner_photon_bottom_3 = polygon( ([z2_inner_photon_3, -x2_inner_photon_3], [z3_inner_photon_3, -x3_inner_photon_3], [z4_inner_photon_3, -x4_inner_photon_3], [z1_inner_photon_3, -x1_inner_photon_3] ), notSource=False)

coll_inner_photon_top_4    = polygon( ([z1_inner_photon_4,  x1_inner_photon_4], [z4_inner_photon_4,  x4_inner_photon_4], [z3_inner_photon_4,  x3_inner_photon_4], [z2_inner_photon_4,  x2_inner_photon_4] ), notSource=False)
coll_inner_photon_bottom_4 = polygon( ([z2_inner_photon_4, -x2_inner_photon_4], [z3_inner_photon_4, -x3_inner_photon_4], [z4_inner_photon_4, -x4_inner_photon_4], [z1_inner_photon_4, -x1_inner_photon_4] ), notSource=False)

coll_inner_photon_top_5    = polygon( ([z1_inner_photon_5,  x1_inner_photon_5], [z4_inner_photon_5,  x4_inner_photon_5], [z3_inner_photon_5,  x3_inner_photon_5], [z2_inner_photon_5,  x2_inner_photon_5] ), notSource=False)
coll_inner_photon_bottom_5 = polygon( ([z2_inner_photon_5, -x2_inner_photon_5], [z3_inner_photon_5, -x3_inner_photon_5], [z4_inner_photon_5, -x4_inner_photon_5], [z1_inner_photon_5, -x1_inner_photon_5] ), notSource=False)


#########collimator 2,  three segments

bigger=0*0.1515

#seg 1
x1_coll_2_1=-0.15 -bigger+ (-0.5)
z1_coll_2_1=5.875

x2_coll_2_1=-0.098
z2_coll_2_1=5.875

x3_coll_2_1=-0.098
z3_coll_2_1=5.975

x4_coll_2_1=-0.15 -bigger+(-0.5)
z4_coll_2_1=5.975


coll_2_1   = polygon( ([z1_coll_2_1, x1_coll_2_1], [z4_coll_2_1, x4_coll_2_1], [z3_coll_2_1, x3_coll_2_1], [z2_coll_2_1, x2_coll_2_1] ), notSource=False)


#seg 2

x1_coll_2_2=-0.0353
z1_coll_2_2=5.875

x2_coll_2_2=-0.026
z2_coll_2_2=5.875

x3_coll_2_2=-0.026
z3_coll_2_2=5.975

x4_coll_2_2=-0.0353
z4_coll_2_2=5.975


coll_2_2   = polygon( ([z1_coll_2_2, x1_coll_2_2], [z4_coll_2_2, x4_coll_2_2], [z3_coll_2_2, x3_coll_2_2], [z2_coll_2_2, x2_coll_2_2] ), notSource=False)

#seg 3

x1_coll_2_3=0.026
z1_coll_2_3=5.875

x2_coll_2_3=0.15 +bigger+0.5
z2_coll_2_3=5.875

x3_coll_2_3=0.15 +bigger+0.5
z3_coll_2_3=5.975

x4_coll_2_3=0.026
z4_coll_2_3=5.975


coll_2_3   = polygon( ([z1_coll_2_3, x1_coll_2_3], [z4_coll_2_3, x4_coll_2_3], [z3_coll_2_3, x3_coll_2_3], [z2_coll_2_3, x2_coll_2_3] ), notSource=False)


#############inner_pipe

x1_inner_pipe=0.0265
z1_inner_pipe=5.975

x2_inner_pipe=0.0295
z2_inner_pipe=5.975

x3_inner_pipe=0.034
z3_inner_pipe=7.92

x4_inner_pipe=0.031
z4_inner_pipe=7.92


coll_inner_pipe_1   = polygon( ([z1_inner_pipe, x1_inner_pipe], [z4_inner_pipe, x4_inner_pipe], [z3_inner_pipe, x3_inner_pipe], [z2_inner_pipe, x2_inner_pipe] ), notSource=False)
coll_inner_pipe_2   = polygon( ([z2_inner_pipe, -x2_inner_pipe], [z3_inner_pipe, -x3_inner_pipe], [z4_inner_pipe, -x4_inner_pipe], [z1_inner_pipe, -x1_inner_pipe] ), notSource=False)

################# collimator 4, 3 segmentations

downstream_col4_shift=-1.5
dss=downstream_col4_shift ### This shift is largely arbitrary FIXME (doesn't include the lead photon collimator Rakitha added)


#seg 1

x1_coll_4_1=-0.254#Was simulation -0.300 # Was CAD -0.254
z1_coll_4_1=9.775+dss

x2_coll_4_1=-0.1655#Was -0.23495
z2_coll_4_1=9.775+dss

x3_coll_4_1=-0.1655#Was -0.23495
z3_coll_4_1=9.875+dss

x4_coll_4_1=-0.254#Was simulation -0.300 # Was CAD -0.254
z4_coll_4_1=9.875+dss


coll_4_1   = polygon( ([z1_coll_4_1, x1_coll_4_1], [z4_coll_4_1, x4_coll_4_1], [z3_coll_4_1, x3_coll_4_1], [z2_coll_4_1, x2_coll_4_1]), notSource=False)


#seg 2

x1_coll_4_2=-0.0525#Was -0.06377
z1_coll_4_2=9.775+dss

x2_coll_4_2=-0.030
z2_coll_4_2=9.775+dss

x3_coll_4_2=-0.030
z3_coll_4_2=9.875+dss

x4_coll_4_2=-0.0525#Was -0.06377
z4_coll_4_2=9.875+dss


coll_4_2   = polygon( ([z1_coll_4_2, x1_coll_4_2], [z4_coll_4_2, x4_coll_4_2], [z3_coll_4_2, x3_coll_4_2], [z2_coll_4_2, x2_coll_4_2]), notSource=False)

#seg 3

x1_coll_4_3=0.030
z1_coll_4_3=9.775+dss

x2_coll_4_3=0.254#Was simulation -0.300 # Was CAD -0.254
z2_coll_4_3=9.775+dss

x3_coll_4_3=0.254#Was simulation -0.300 # Was CAD -0.254
z3_coll_4_3=9.875+dss

x4_coll_4_3=0.030
z4_coll_4_3=9.875+dss


coll_4_3   = polygon( ([z1_coll_4_3, x1_coll_4_3], [z4_coll_4_3, x4_coll_4_3], [z3_coll_4_3, x3_coll_4_3], [z2_coll_4_3, x2_coll_4_3]), notSource=False)

#############inner_pipe_2

x1_inner_pipe_2=0.033
z1_inner_pipe_2=9.875+dss

x2_inner_pipe_2=0.036
z2_inner_pipe_2=9.875+dss 

x3_inner_pipe_2_tmp=0.0396
z3_inner_pipe_2_tmp=11.450+dss

x4_inner_pipe_2_tmp=0.0366
z4_inner_pipe_2_tmp=11.450+dss
## extend forward only the first bit of the pipe (ARBITRARILY FIXME)

z3=11.45+0.4
x3_inner_pipe_2=(x3_inner_pipe_2_tmp-x2_inner_pipe_2)/(z3_inner_pipe_2_tmp-z2_inner_pipe_2)*(z3-z2_inner_pipe_2)+x2_inner_pipe_2
z3_inner_pipe_2=z3

z4=11.45+0.4
x4_inner_pipe_2=(x4_inner_pipe_2_tmp-x1_inner_pipe_2)/(z4_inner_pipe_2_tmp-z1_inner_pipe_2)*(z4-z1_inner_pipe_2)+x1_inner_pipe_2
z4_inner_pipe_2=z4


coll_inner_pipe_2_1   = polygon( ([z1_inner_pipe_2, x1_inner_pipe_2], [z4_inner_pipe_2, x4_inner_pipe_2], [z3_inner_pipe_2, x3_inner_pipe_2], [z2_inner_pipe_2, x2_inner_pipe_2]), notSource=False)
coll_inner_pipe_2_2   = polygon( ([z2_inner_pipe_2, -x2_inner_pipe_2], [z3_inner_pipe_2, -x3_inner_pipe_2], [z4_inner_pipe_2, -x4_inner_pipe_2], [z1_inner_pipe_2, -x1_inner_pipe_2]), notSource=False)


#########collimator 5, 1 seg
x1_coll_5=-0.1055
z1_coll_5=12.8

x2_coll_5=-0.042
z2_coll_5=12.8

x3_coll_5=-0.042
z3_coll_5=12.87

x4_coll_5=-0.1055
z4_coll_5=12.87


coll_5   = polygon( ([z1_coll_5, x1_coll_5], [z4_coll_5, x4_coll_5], [z3_coll_5, x3_coll_5], [z2_coll_5, x2_coll_5]), notSource=False)


#### quartz

#quartz1 = polygon( ([28.0, 0.6], [28.01, 0.6], [28.01, 1.4], [28, 1.4]), isDetector=True )
#quartz2 = polygon( ([28.0, -1.4], [28.01, -1.4], [28.01, -0.6], [28, -0.6]), isDetector=True )

quartz1 = polygon( ([28.0, 0.55], [28.02, 0.55], [28.02, 1.3], [28, 1.3]), isDetector=True )
quartz2 = polygon( ([28.0, -1.3], [28.02, -1.3], [28.02, -0.55], [28, -0.55]), isDetector=True )

##################################################################################################################################

sources.append(target)

allpolys.append(coll_inner_photon_top_1)
allpolys.append(coll_inner_photon_bottom_1)
allpolys.append(coll_inner_photon_top_2)
allpolys.append(coll_inner_photon_bottom_2)
allpolys.append(coll_inner_photon_top_3)
allpolys.append(coll_inner_photon_bottom_3)
allpolys.append(coll_inner_photon_top_4)
allpolys.append(coll_inner_photon_bottom_4)
allpolys.append(coll_inner_photon_top_5)
allpolys.append(coll_inner_photon_bottom_5)

allpolys.append(coll_2_1)
allpolys.append(coll_2_2)
allpolys.append(coll_2_3)

allpolys.append(coll_inner_pipe_1)
allpolys.append(coll_inner_pipe_2)

allpolys.append(coll_4_1)
allpolys.append(coll_4_2)
allpolys.append(coll_4_3)

allpolys.append(coll_inner_pipe_2_1)
allpolys.append(coll_inner_pipe_2_2)

allpolys.append(coll_5)

allpolys.append(quartz1)
allpolys.append(quartz2)

########################################################################
#  Rough out blocking areas

#for i in range(6):
#    z = 10 + i*3.0
#    ghost  = polygon(([z,-1.4],[z+0.001,-1.4],[z+0.001,1.4], [z,1.4]), isEthereal=True )
#   ghost  = polygon(([z,-1.4],[z+1.5,-1.4],[z+1.5,1.4], [z,1.4]), isEthereal=True )
#    allpolys.append(ghost)

#  One bounce ghost regions
##################################1
#ghost1a = polygon(([28,-1.4], [28, -1.39], [uscoll1_z-uscoll1_thick/2+0.01, uscoll1_r1_up], [uscoll1_z-uscoll1_thick/2, uscoll1_r1_up]), isEthereal=True)
###############################################2
#ghost1b = polygon(([28,-0.6], [28, -0.59], [uscoll1_z+uscoll1_thick/2+0.01, uscoll1_r1_dn], [uscoll1_z+uscoll1_thick/2, uscoll1_r1_dn]), isEthereal=True)

#ghost2a = polygon(([28,-1.4], [28, -1.39], [dscoll1_z-dscoll1_thick/2+0.01, dscoll1_r1], [dscoll1_z-dscoll1_thick/2, dscoll1_r1]), isEthereal=True)

#ghost2b = polygon(([28,-0.6], [28, -0.59], [dscoll1_z+dscoll1_thick/2+0.01, dscoll1_r1], [dscoll1_z+dscoll1_thick/2, dscoll1_r1]), isEthereal=True)

#allpolys.append(ghost1a)
#allpolys.append(ghost1b)
#allpolys.append(ghost2a)
#allpolys.append(ghost2b)

#  Raw

#z1 = 6.1
#z2 = 7.1

#t = uscoll2_r2 - uscoll2_r1

#slope = (dscoll2_r1- uscoll2_r1)/(dscoll2_thick/2+dscoll2_z - uscoll2_z-uscoll2_thick/2)

#gr1 = uscoll2_r1 + slope*(z1 - uscoll2_z - uscoll2_thick/2)
#gr2 = uscoll2_r1 + slope*(z2 - uscoll2_z - uscoll2_thick/2)

#smallghost1 = polygon(( [z1, -gr1-t], [z2, -gr2-t], [z2, -gr2], [z1, -gr1]), isEthereal = False)

#print "Ghost blocking points:"
#print smallghost1.pts[0][0], smallghost1.pts[0][1]
#print "\t", smallghost1.pts[3][1]
#print smallghost1.pts[1][0], smallghost1.pts[1][1]
#print "\t", smallghost1.pts[2][1]


#smallghost2 = polygon( ([10.1729, -0.0277], [10.7712, -0.0738], [13.7226, -0.1123], [11.374, -0.0320] ), isEthereal=False)

#smallghost1 = polygon(( [6.3932, -0.0350], [8.0240, -0.0425], [7.6242, -0.0334], [6.2734, -0.0281]), isEthereal = False)
#smallghost2 = polygon( ([10.1729, -0.0277], [10.6515, -0.0566], [13.2529, -0.0882], [11.374, -0.0320] ), isEthereal=False)


# straight z
#smallghost1 = polygon(( [6.2734, -0.0334], [7.6852, -0.0385], [7.6852, -0.0334], [6.2734, -0.0281]), isEthereal = False)
#smallghost2 = polygon( ([10.1729, -0.0277], [10.1729, -0.0566], [11.3749, -0.0566], [11.374, -0.0320] ), isEthereal=False)

# Reduce z
#smallghost1 = polygon(( [6.273, -0.039 ], [7.874, -0.0474], [7.874, -0.0383691664116], [6.273, -0.0274]), isEthereal = False)
#smallghost2 = polygon( ([10.472, -0.0431780215291], [10.472, -0.0697], [12.074, -0.079], [12.074, -0.0490] ), isEthereal=False)

#################################################################
#allpolys.append(smallghost1)
###by YX3
#################################################################

#allpolys.append(smallghost2)

#print sources
#print allpolys

print "Starting"

for apoly in allpolys:
    otherpolys = list(allpolys)
    otherpolys.remove(apoly)
    apoly.light( sources, otherpolys )

print "Doing once bounce lighting"

# One bounce
for apoly in allpolys:
    otherpolys = list(allpolys)
    otherpolys.remove(apoly)
    apoly.light(otherpolys, [], 2 )
    #apoly.light(otherpolys, [], 2 )

#print "Ghost intersections:"

#  Print out ghost region values
#for aghost in [ghost1a, ghost1b, smallghost1]:
#    for aface in aghost.faces:
#	print "Of ", aface.v1[0], aface.v1[1], " -> ", aface.v2[0], aface.v2[1]
#	for lface in aface.getlitfaces():
#	    print "\t", lface.v1[0], lface.v1[1], " -> ", lface.v2[0], lface.v2[1]

mydraw = drawlight(allpolys+sources)

Gtk.main()