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162 lines (137 loc) · 6.24 KB
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from UniversalClasses import System, State, AffinityRule, TransitionRule
#import SaveFile
import detGen
import oneSidedGen
import nonDetGen
import QuickRotate
import DirectCombine
red = "f03a47"
blue = "3f88c5"
green = "0ead69"
orange = "f39237"
black = "323031"
white = "DFE0E2"
grey = "9EA9A4"
light_blue = "C2DCFE"
def genSquare(value, model):
rectSys = ""
if model == "Deterministic":
rectSys = detGen.genRect(value)
if model == "Single-Transition":
rectSys = oneSidedGen.genRect(value)
if model == "Non-Deterministic":
rectSys = nonDetGen.genRect(value)
if rectSys == "":
return
rectSysB = QuickRotate.rotate(rectSys)
rectSysC = QuickRotate.rotate(rectSysB)
rectSysD = QuickRotate.rotate(rectSysC)
squareSys = DirectCombine.main(rectSys, rectSysB, "*")
squareSys = DirectCombine.main(squareSys, rectSysC, "#")
squareSys = DirectCombine.main(squareSys, rectSysD, "$")
squareSys.addState(State("pA", black))
squareSys.addState(State("pB", black))
squareSys.addState(State("pC", black))
squareSys.addTransitionRule(TransitionRule("N", "c", "N", "pA", "h"))
squareSys.addAffinity(AffinityRule("pA", "SA*", "h", 1))
squareSys.addTransitionRule(TransitionRule("N*", "c*", "N*", "pB", "v"))
squareSys.addAffinity(AffinityRule("pB", "SA#", "v", 1))
squareSys.addTransitionRule(TransitionRule("c#", "N#", "pC", "N#", "h"))
squareSys.addAffinity(AffinityRule("SA$", "pC", "h", 1))
squareSys.addInitialState(State("SA*", black))
squareSys.addInitialState(State("SA#", black))
squareSys.addInitialState(State("SA$", black))
squareSys.addState(State("pD", black))
squareSys.addTransitionRule(TransitionRule("c$", "N$", "pD", "N$", "v"))
squareSys.addTransitionRule(TransitionRule("pD", "0c$", "pD", "pD", "h"))
squareSys.addTransitionRule(TransitionRule("pD", "0cn$", "pD", "pD", "h"))
squareSys.addTransitionRule(TransitionRule("pD", "+$", "pD", "pD", "h"))
squareSys.addState(State("f", light_blue))
squareSys.addInitialState(State("f", light_blue))
squareSys.addAffinity(AffinityRule("pD", "f", "h", 1))
squareSys.addAffinity(AffinityRule("f", "f", "h", 1))
squareSys.addAffinity(AffinityRule("f", "f", "v", 1))
return squareSys
# Row Generator
# Note: Actual Row Length = length + 1
def simple_row_generator(length=0):
symbols = ['@', '#', '$', '!']
loop_counter = 0
seed_states = []
initial_states = []
complete_states = []
vertical_affinities = []
horizontal_affinities = []
vertical_transitions = []
horizontal_transitions = []
if(length > 3):
# For each sub-system...
for symbol in symbols:
if(loop_counter == 0): # System #0; Row
# Record Seed, Initial, and Complete States
for i in range(length):
tempState = State(str(i+1)+symbol, 'ffffff')
if(i == 0): # If it's the first tile, make it the seed.
seed_states.append(tempState)
else: # Otherwise, make it an initial state.
initial_states.append(tempState)
complete_states.append(tempState)
# Record necessary affinity rules
for i in range(length-1):
tempRule = AffinityRule(
str(i+1)+symbol, str(i+2)+symbol, 'h', 1)
horizontal_affinities.append(tempRule)
elif(loop_counter == 1): # System #1; Column
# Record States again
for i in range(length):
tempState = State(str(i+1)+symbol, 'ffffff')
initial_states.append(tempState)
complete_states.append(tempState)
# Establish affinity rules again
for i in range(length-2):
tempRule = AffinityRule(
str(i+1)+symbol, str(i+2)+symbol, 'v', 1)
vertical_affinities.append(tempRule)
# Connect System #1 to #0
tempRule = AffinityRule(
str(length)+symbols[0], "1"+symbol, 'v', 1)
vertical_affinities.append(tempRule)
elif(loop_counter == 2): # System #2; Row
# Record States again
for i in range(length):
tempState = State(str(i+1)+symbol, 'ffffff')
initial_states.append(tempState)
complete_states.append(tempState)
# Establish affinity rules again
for i in range(length-2):
tempRule = AffinityRule(
str(i+2)+symbol, str(i+1)+symbol, 'h', 1)
horizontal_affinities.append(tempRule)
# Connect System #2 to #1
tempRule = AffinityRule(
"1"+symbol, str(length-1) + symbols[1], 'h', 1)
horizontal_affinities.append(tempRule)
else:
# If we're at System #3, then we're just making filler squares.
tempState = State(symbol, 'ffff00')
initial_states.append(tempState)
complete_states.append(tempState)
tempState = State(symbol+'\'', '00ffff')
initial_states.append(tempState)
complete_states.append(tempState)
tempRule1 = AffinityRule(symbol, symbol, 'v', 1)
tempRule2 = AffinityRule(symbol, symbol+'\'', 'h', 1)
tempRule3 = AffinityRule(symbol+'\'', symbol+'\'', 'h', 1)
vertical_affinities.append(tempRule1)
horizontal_affinities.append(tempRule2)
horizontal_affinities.append(tempRule3)
# Connect System #3 to #2
tempRule = AffinityRule(
symbol, str(length-1)+symbols[2], 'v', 1)
vertical_affinities.append(tempRule)
# Increment loop counter.
loop_counter += 1
tempSystem = System(1, complete_states, initial_states, seed_states, vertical_affinities,
horizontal_affinities, vertical_transitions, horizontal_transitions)
#SaveFile.main(tempSystem, ["PStest.xml"])
simple_row_generator(25)