bcc/adventofcode2019
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

day9

Browse source
This commit is contained in:
Ben Charlton 2019-12-09 15:01:13 +00:00
parent 38118e4613
commit 2285e2b504
1 changed files with 171 additions and 0 deletions
Download patch file Download diff file Expand all files Collapse all files

171
9/9.py Executable file
View file

@ -0,0 +1,171 @@
#!/usr/bin/env python3
import sys
# run with '2' argument for part2 result.
part2 = (len(sys.argv) == 2 and sys.argv[1] == '2')
class IntComp:
def __init__(self, instructions, id):
self.instructions = instructions
self.pcounter = 0
self.finished = 0
self.ampid = id
self.inputs = []
self.relbase = 0
def terminated(self):
return self.finished
def r(self, pos, mode):
wantedpos = None
if mode == 0:
wantedpos = self.instructions[pos]
elif mode == 1:
wantedpos = pos
elif mode == 2:
wantedpos = self.relbase + self.instructions[pos]
else:
print ("Invalid mode!", mode)
exit(1)
# Allow reading from 'new' memory.
if wantedpos >= len(self.instructions):
for i in range(len(self.instructions), wantedpos+1):
self.instructions.append(0)
return int(self.instructions[wantedpos])
def w(self, pos, v, mode):
wantedpos = None
if mode == 0:
wantedpos = self.instructions[pos]
elif mode == 1:
wantedpos = pos
elif mode == 2:
wantedpos = self.relbase + self.instructions[pos]
else:
print ("Invalid mode!", mode)
exit(1)
# Allow writing to 'new' memory.
if wantedpos >= len(self.instructions):
for i in range(len(self.instructions), wantedpos+1):
self.instructions.append(0)
self.instructions[wantedpos] = v
def perform(self, inputs):
outputs = []
for inp in inputs:
self.inputs.append(inp)
while 1:
fullopcode = self.instructions[self.pcounter]
opcode = fullopcode % 100
mode_c = (int(fullopcode/100) % 10)
mode_b = (int(fullopcode/1000) % 10)
mode_a = (int(fullopcode/10000) % 10)
pos_c = self.pcounter+1
pos_b = self.pcounter+2
pos_a = self.pcounter+3
#print(self.ampid, "OP:", opcode, mode_c, mode_b, mode_a, pos_c, pos_b, pos_a)
# add
if opcode == 1:
val = self.r(pos_c,mode_c) + self.r(pos_b,mode_b)
self.w(pos_a, val, mode_a)
self.pcounter += 4
# multiply
elif opcode == 2:
val = self.r(pos_c, mode_c) * self.r(pos_b, mode_b)
self.w(pos_a, val, mode_a)
self.pcounter += 4
# input
elif opcode == 3:
print ("input:", self.inputs)
store = self.inputs.pop(0)
self.w(pos_c, store, mode_c)
self.pcounter += 2
# output
elif opcode == 4:
outputs.append(self.r(pos_c, mode_c))
self.pcounter += 2
#print("output:", outputs)
return (outputs, self.finished)
# jump-if-true
elif opcode == 5:
t = self.r(pos_c, mode_c)
if t != 0:
self.pcounter = self.r(pos_b, mode_b)
else:
self.pcounter += 3
# jump-if-false
elif opcode == 6:
t = self.r(pos_c, mode_c)
if t == 0:
self.pcounter = self.r(pos_b, mode_b)
else:
self.pcounter += 3
# less-than
elif opcode == 7:
c = self.r(pos_c, mode_c)
b = self.r(pos_b, mode_b)
if c < b:
self.w(pos_a, 1, mode_a)
else:
self.w(pos_a, 0, mode_a)
self.pcounter += 4
# equals
elif opcode == 8:
c = self.r(pos_c, mode_c)
b = self.r(pos_b, mode_b)
if c == b:
self.w(pos_a, 1, mode_a)
else:
self.w(pos_a, 0, mode_a)
self.pcounter += 4
# adjust-relbase
elif opcode == 9:
c = self.r(pos_c, mode_c)
self.relbase += c
self.pcounter += 2
# stop
elif opcode == 99:
self.finished = 1
break
return (outputs, self.finished)
for line in sys.stdin:
instructions = line.rstrip().split(',')
ints = []
for j in instructions:
ints.append(int(j))
a = IntComp(ints,0)
start = [1]
if part2:
start = [2]
ret = a.perform(start)
print(ret[0])
while not a.terminated():
ret = a.perform([])
print(ret[0])
print("================")