Task C04-eps
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TaskC04/run.py
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171
TaskC04/run.py
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import sys
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import csv
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from tokenize import Comment
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from numpy import append
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DEBUG = False
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alfabet = "abc"
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EPS = "<eps>"
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sys.setrecursionlimit(4100)
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def print_debug(*args, **kwargs):
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if DEBUG:
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print(*args, **kwargs)
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if len(sys.argv) == 1:
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print("Default arguments parsed\n")
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sys.argv.append("eps.arg")
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sys.argv.append("eps.in")
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sys.argv.append("eps.exp")
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with open(sys.argv[1], mode="r", newline="", encoding="utf8") as csvfile:
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filereader = csv.reader(csvfile, delimiter="\t", quotechar="|")
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fsa_description = list(filereader)
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# skip first line with comment
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if fsa_description[0][0][0] == "#":
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fsa_description = fsa_description[1:]
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# get accepting states
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accepting_state = []
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for item in reversed(fsa_description):
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if len(item) == 1:
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accepting_state.append(item[0])
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else:
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break
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fsa_description = fsa_description[: -len(accepting_state)]
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fsa_description_map: dict[tuple[str, str], list[str]] = {}
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is_error = False
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for num, item in enumerate(fsa_description):
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if EPS in item[2]:
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item[2] = item[2].replace(EPS, "")
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tuple = (item[0], EPS)
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if (item[0], EPS) in fsa_description_map:
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print_debug(
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f"WARNING - duplicate letter: key = ({item[0]} | {EPS}) | line: {num + 1}"
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)
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# append to description map or create it if it doesn't exist
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fsa_description_map[tuple] = fsa_description_map.get(tuple, []) + [item[1]]
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for letter in item[2]:
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if letter not in alfabet:
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print_debug(
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"WARNING - letter not in alfabet: ", letter, "| line:", num + 1
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)
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tuple = (item[0], letter)
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if (item[0], letter) in fsa_description_map:
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print_debug(
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f"WARNING - duplicate letter: key = ({item[0]} | {letter}) | line: {num + 1}"
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)
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# append to description map or create it if it doesn't exist
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fsa_description_map[tuple] = fsa_description_map.get(tuple, []) + [item[1]]
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if is_error:
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exit(-1)
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states = {}
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for item in fsa_description_map:
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states[item[0]] = states[item[0]] + item[1] if item[0] in states else item[1]
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from collections import Counter
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# check if all letters are used once
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def is_permutation(str1, str2):
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return Counter(str1) == Counter(str2)
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def find_missing_letters(str1, str2) -> str:
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missing_letters = ""
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for char in str2:
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if char not in str1:
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missing_letters += char
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return missing_letters
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for state in states:
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if not is_permutation(states[state], alfabet):
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print_debug(
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f"WARNING - state {state} doesn't match full alphabet: {states[state]} | {alfabet} | diff - {find_missing_letters(states[state], alfabet)}"
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)
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# exit(-1)
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with open(sys.argv[2], mode="r", newline="", encoding="utf8") as file:
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content = file.read()
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test_in = content.splitlines()
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with open(sys.argv[3], mode="r", newline="", encoding="utf8") as file:
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content = file.read()
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test_out = content.splitlines()
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for i, _ in enumerate(test_out):
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test_out[i] = test_out[i].split(" ")[0]
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def is_correct(current_state: str) -> bool:
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if current_state in accepting_state:
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return True
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return False
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def go_threw_states(current_state: str, word: str, letter: str) -> str:
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next_states = fsa_description_map[(current_state, letter)]
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for next_state in next_states:
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ending_state = traverse_states(next_state, word)
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if is_correct(ending_state):
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return ending_state # found a correct state
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return current_state
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def traverse_states(current_state: str, word: str) -> str:
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if word == "" and (current_state, EPS) not in fsa_description_map:
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return current_state
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if (current_state, EPS) in fsa_description_map:
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next_states = fsa_description_map[(current_state, EPS)]
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for next_state in next_states:
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ending_state = traverse_states(next_state, word)
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if is_correct(ending_state):
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return ending_state # found a correct state
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for letter in word:
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if (current_state, letter) not in fsa_description_map:
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return "-1" # unspecified next state
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next_states = fsa_description_map[(current_state, letter)]
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for next_state in next_states:
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ending_state = traverse_states(next_state, word[1:])
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if is_correct(ending_state):
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return ending_state # found a correct state
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return "-2" # no correct state found
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is_difference = []
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for i, word in enumerate(test_in):
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current_state = "0"
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if len(word) != 0:
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current_state = traverse_states(current_state, word)
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print(str(i + 1) + "\t", end="")
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if current_state in accepting_state:
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print("YES\t", end="")
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if "YES" != test_out[i] and "TRUE" != test_out[i]:
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print("ERROR", word, end="")
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is_difference.append(i + 1)
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else:
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print("NO\t", end="")
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if "NO" != test_out[i] and "FALSE" != test_out[i]:
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print("ERROR", word, end="")
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is_difference.append(i + 1)
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print()
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if len(is_difference) != 0:
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print(is_difference)
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