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from src.utils import get_valid_name_city,extract_before_parenthesis,extract_numbers_from_filenames
from tools.flights.apis import Flights
from tools.accommodations.apis import Accommodations
from tools.restaurants.apis import Restaurants
from tools.googleDistanceMatrix.apis import GoogleDistanceMatrix
from tools.attractions.apis import Attractions
import math
import json
import re
import os
import sys
from tqdm import tqdm
import argparse
sys.path.append(os.path.abspath(os.path.join(os.getcwd(), "..")))
os.chdir(os.path.dirname(os.path.abspath(__file__)))
flight = Flights()
accommodation = Accommodations()
restaurants = Restaurants()
googleDistanceMatrix = GoogleDistanceMatrix()
attractions = Attractions()
city_state_set = open('/home/user/app/database/background/citySet_with_states.txt','r').read().split('\n')
city_state_map = {x:y for x,y in [unit.split('\t') for unit in city_state_set]}
def load_line_json_data(filename):
data = []
with open(filename, 'r', encoding='utf-8') as f:
for line in f.read().strip().split('\n'):
unit = json.loads(line)
data.append(unit)
return data
def count_consecutive_values(lst):
if not lst:
return []
result = []
current_string = lst[0]
count = 1
for i in range(1, len(lst)):
if lst[i] == current_string:
count += 1
else:
result.append((current_string, count))
current_string = lst[i]
count = 1
result.append((current_string, count)) # Add the last group of values
return result
def transportation_match(text: str):
if 'taxi' in text.lower():
return 'Taxi'
elif 'self-driving' in text.lower():
return 'Self-driving'
elif 'flight' in text.lower():
return 'Flight'
def extract_from_to(text: str):
"""
Extracts 'A' and 'B' from the format "from A to B" in the given text, with B ending at a comma or the end of the string.
Args:
- text (str): The input string.
Returns:
- tuple: A tuple containing 'A' and 'B'. If no match is found, returns (None, None).
"""
pattern = r"from\s+(.+?)\s+to\s+([^,]+)(?=[,\s]|$)"
matches = re.search(pattern, text)
return matches.groups() if matches else (None, None)
def is_valid_city_sequence(city_list):
"""
Checks if the city sequence is valid. A valid sequence has every city (except the first and last)
appearing consecutively, and no city should appear again once its sequence is over.
Args:
- city_list (list): List of cities.
Returns:
- bool: True if the sequence is valid, False otherwise.
"""
# If the list has less than 3 cities, it's invalid.
if len(city_list) < 3:
return False
# Set to keep track of visited cities
visited_cities = set()
i = 0
while i < len(city_list):
city = city_list[i]
# If the city was already visited, it's invalid.
if city in visited_cities and (i != 0 and i != len(city_list) - 1):
return False
# Count the consecutive occurrences of the city
count = 0
while i < len(city_list) and city_list[i] == city:
count += 1
i += 1
# If the city appeared only once in the medium, it's invalid.
if count == 1 and 0 < i - 1 < len(city_list) - 1:
return False
visited_cities.add(city)
return True
def is_reasonalbe_visiting_city(question, tested_data):
city_list = []
# print(tested_data)
for i in range(min(question['days'],len(tested_data))):
city_value = tested_data[i]['current_city']
if 'from' in city_value:
city1, city2 = extract_from_to(city_value)
city1 = extract_before_parenthesis(city1)
city2 = extract_before_parenthesis(city2)
if i==0 and city1 != question['org']:
return False, f"The first day's city should be {question['org']}."
city_list += [city1, city2]
else:
city_list.append(extract_before_parenthesis(city_value))
if city_list[0] != city_list[-1]:
return False, "The trip should be a closed circle."
if not is_valid_city_sequence(city_list):
return False, "The city sequence is invalid."
for idx, city in enumerate(city_list):
if city not in city_state_map:
return False, f"{city} is not a valid city."
if idx not in [0,len(city_list)-1] and question['days'] >3 and city_state_map[city] != question['dest']:
return False, f"{city} is not in {question['dest']}."
return True, None
def is_valid_restaurants(question, tested_data):
restaurants_list = []
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-':
if unit['breakfast'] not in restaurants_list:
restaurants_list.append(unit['breakfast'])
else:
return False, f"The restaurant in day {i+1} breakfast is repeated."
# elif 'breakfast' not in unit :
# return False, f"No Breakfast Info."
if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-':
if unit['lunch'] not in restaurants_list:
restaurants_list.append(unit['lunch'])
else:
return False, f"The restaurant in day {i+1} lunch {unit['lunch']} is repeated."
# elif 'lunch' not in unit:
# return False, f"No Lunch Info."
if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-':
if unit['dinner'] not in restaurants_list:
restaurants_list.append(unit['dinner'])
else:
return False, f"The restaurant in day {i+1} dinner is repeated."
# elif 'dinner' not in unit:
# return False, f"No Dinner Info."
return True, None
def is_valid_attractions(question, tested_data):
attractions_list = []
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-':
for attraction in unit['attraction'].split(';')[:-1]:
if attraction not in attractions_list:
attractions_list.append(attraction)
else:
return False, f"The attraction '{attraction}' in day {i+1} is repeated."
# elif 'attraction' not in unit:
# return False, f"No Attraction Info."
return True, None
def is_valid_transportation(question, tested_data):
if tested_data[0]['transportation'] and tested_data[0]['transportation'] != '-':
transportation_list = [transportation_match(tested_data[0]['transportation'])]
else:
return False, "The transportation in day 1 should not be empty."
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if 'transportation' in unit and unit['transportation'] and unit['transportation'] != '-':
transportation_list.append(transportation_match(unit['transportation']))
# elif 'transportation' not in unit:
# return False, f"No Transportation Info."
if (('Self-driving' in transportation_list) and ('Flight' in transportation_list)) or (('Taxi' in transportation_list) and ('Self-driving' in transportation_list)):
return False, "The transportation is conflicting."
return True, None
def is_valid_information_in_current_city(question, tested_data):
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
current_city = unit['current_city']
final_city_list = []
if 'from' in current_city:
city1, city2 = extract_from_to(current_city)
city1 = extract_before_parenthesis(city1)
city2 = extract_before_parenthesis(city2)
final_city_list = [city1, city2]
else:
final_city_list = extract_before_parenthesis(current_city)
if 'transportation' in unit and unit['transportation'] and unit['transportation'] != '-':
for city in final_city_list:
if city not in unit['transportation']:
# print(city)
return False, f"The transportation in day {i+1} is invalid city choice."
# elif 'transportation' not in unit:
# return False, f"No Transportation Info."
if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-':
flag = False
for city in final_city_list:
if city in unit['breakfast']:
flag = True
if not flag:
return False, f"The breakfast in day {i+1} is invalid city choice."
# elif 'breakfast' not in unit:
# return False, f"No Breakfast Info."
if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-':
flag = False
for city in final_city_list:
if city in unit['lunch']:
flag = True
if not flag:
return False, f"The lunch in day {i+1} is invalid city choice."
# elif 'lunch' not in unit:
# return False, f"No Lunch Info."
if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-':
flag = False
for city in final_city_list:
if city in unit['dinner']:
flag = True
if not flag:
return False, f"The dinner in day {i+1} is invalid city choice."
# elif 'dinner' not in unit:
# return False, f"No Dinner Info."
if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-':
attraction_list = unit['attraction'].split(';')[:-1]
for attraction in attraction_list:
flag = False
for city in final_city_list:
if city in attraction:
flag = True
if not flag:
return False, f"The attraction in day {i+1} is invalid city choice."
# elif 'attraction' not in unit:
# return False, f"No Attraction Info."
if 'accommodation' in unit and unit['accommodation'] and unit['accommodation'] != '-':
if final_city_list[-1] not in unit['accommodation']:
return False, f"The accommodation in day {i+1} is invalid city choice."
# elif 'accommodation' not in unit:
# return False, f"No Accommodation Info."
return True, None
# hallucination
def is_valid_information_in_sandbox(question, tested_data):
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if unit['transportation'] and unit['transportation'] != '-':
value = unit['transportation']
org_city, dest_city = extract_from_to(value)
if org_city == None or dest_city == None:
org_city, dest_city = extract_from_to(unit['current_city'])
if 'flight number' in value.lower():
try:
org_city = extract_before_parenthesis(org_city)
dest_city = extract_before_parenthesis(dest_city)
except TypeError:
raise ValueError("The transportation {} in day {} can not be parsed.".format(value,i+1))
# print(value)
if len(flight.data[(flight.data['Flight Number'] == value.split('Flight Number: ')[1].split(',')[0]) & (flight.data['OriginCityName']==org_city) & (flight.data['DestCityName']==dest_city)]) < 1:
return False, f"The flight number in day {i+1} is invalid in the sandbox."
elif 'self-driving' in value.lower() or 'taxi' in value.lower():
try:
org_city = extract_before_parenthesis(org_city)
dest_city = extract_before_parenthesis(dest_city)
except TypeError:
org_city = '-'
dest_city = '-'
print("The transportation {} in day {} can not be parsed and '-' will be used instead.".format(value,i+1))
if 'self-driving' in value.lower():
if googleDistanceMatrix.run_for_evaluation(org_city, dest_city, mode='self-driving')['cost'] == None:
return False, f"The self-driving in day {i+1} is invalid in the sandbox."
else:
if googleDistanceMatrix.run_for_evaluation(org_city, dest_city, mode='taxi')['cost'] == None:
return False, f"The taxi in day {i+1} is invalid in the sandbox."
if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-':
name, city = get_valid_name_city(unit['breakfast'])
if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1:
return False, f"The breakfast in day {i+1} is invalid in the sandbox."
# elif 'breakfast' not in unit:
# return False, f"No Breakfast Info."
if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-':
name, city = get_valid_name_city(unit['lunch'])
if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1:
return False, f"The lunch in day {i+1} is invalid in the sandbox."
# elif 'lunch' not in unit:
# return False, f"No Lunch Info."
if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-':
name, city = get_valid_name_city(unit['dinner'])
if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1:
return False, f"The dinner in day {i+1} is invalid in the sandbox."
# elif 'dinner' not in unit:
# return False, f"No Dinner Info."
if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-':
attractions_list = unit['attraction'].split(';')[:-1]
for attraction in attractions_list:
name, city = get_valid_name_city(attraction)
if len(attractions.data[(attractions.data['Name'].astype(str).str.contains(re.escape(name))) & (attractions.data['City'] == city)]) < 1:
return False, f"The attraction {attraction} in day {i+1} is invalid in the sandbox."
# elif 'attraction' not in unit:
# return False, f"No Attraction Info."
if 'accommodation' in unit and unit['accommodation'] and unit['accommodation'] != '-':
name, city = get_valid_name_city(unit['accommodation'])
# print(name,city)
# print(accommodation.data[accommodation.data['NAME'].astype(str).str.contains(re.escape(name))])
if len(accommodation.data[(accommodation.data['NAME'].astype(str).str.contains(re.escape(name))) & (accommodation.data['city'] == city)]) < 1:
return False, f"The accommodation in day {i+1} is invalid in the sandbox."
# elif 'accommodation' not in unit:
# return False, f"No Accommodation Info."
return True, None
def is_valid_accommodaton(question, tested_data):
data = []
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if 'accommodation' not in unit:
return False, f"No Accommodation Info."
data.append(unit['accommodation'])
# data = [unit['accommodation'] for unit in tested_data]
consectutive_accommodation = count_consecutive_values(data)
for unit in consectutive_accommodation:
# print(unit)
if unit and unit[0] not in ['-',''] :
name, city = get_valid_name_city(unit[0])
# print(unit[0],name,city)
# try:
if len(accommodation.data[(accommodation.data['NAME'].astype(str).str.contains(re.escape(name))) & (accommodation.data['city'] == city)]) == 1 and unit[1] < accommodation.data[(accommodation.data['NAME'].astype(str).str.contains(re.escape(name))) & (accommodation.data['city'] == city)].iloc[0]['minimum nights']:
return False, f"The accommodation {unit[0]} do not obey the minumum nights rule."
# can not parse data
# except re.error:
# continue
return True, None
def is_valid_visiting_city_number(question, tested_data):
city_set = set()
for i in range(min(question['days'],len(tested_data))):
city_value = tested_data[i]['current_city']
if 'from' in city_value:
city1, city2 = extract_from_to(city_value)
city1 = extract_before_parenthesis(city1)
city2 = extract_before_parenthesis(city2)
if i==0 and city1 != question['org']:
return False, f"The first day's city should be {question['org']}."
city_set.add(city1)
city_set.add(city2)
else:
city_set.add(extract_before_parenthesis(city_value))
city_set.discard(question['org'])
if len(city_set) != question['visiting_city_number']:
return False, f"The number of visiting cities should be {question['visiting_city_number']}."
return True, None
def is_valid_days(question, tested_data):
lens = 0
for i in range(min(question['days'],len(tested_data))):
if tested_data[i] != {} and tested_data[i]['current_city'] != "You don't need to fill in the information for this or later days.":
lens += 1
if lens != question['days']:
# print(lens)
return False, f"The number of days should be {question['days']}."
else:
return True, None
def is_not_absent(question, tested_data):
needed_info = 6 * question['days']
total_valid_info = 0
if not is_valid_days(question, tested_data)[0]:
return False, "Invalid Days"
if not is_valid_visiting_city_number(question, tested_data)[0]:
return False, "Invalid City Number"
for i in range(min(question['days'],len(tested_data))):
unit = tested_data[i]
if 'transportation' not in unit:
return False, f"No Transportation Info."
if 'breakfast' not in unit:
return False, f"No Breakfast Info."
if 'lunch' not in unit:
return False, f"No Lunch Info."
if 'dinner' not in unit:
return False, f"No Dinner Info."
if 'attraction' not in unit:
return False, f"No Attraction Info."
if 'accommodation' not in unit:
return False, f"No Accommodation Info."
if ('from ' in unit['current_city'] or 'to ' in unit['current_city']) and unit['transportation'] in ['','-']:
return False, f"No transportation in day {i+1} is not allowed."
if ('from ' not in unit['current_city'] and ' to ' not in unit['current_city']) and unit['attraction'] in ['','-']:
return False, f"No attaction in day {i+1} is not allowed."
if i != question['days'] - 1 and unit['accommodation'] in ['','-']:
return False, f"No accommodation in day {i+1} is not allowed."
if (unit['breakfast'] in ['','-'] or unit['lunch'] in ['','-'] or unit['dinner'] in ['','-']) and 'from ' not in unit['current_city']:
return False, f"No meal in day {i+1} is not allowed."
for key in unit:
if unit[key] and unit[key] != '-':
total_valid_info += 1
if total_valid_info * 1.0 / needed_info < 0.5:
return False, f"The absent information is more than 50%."
return True, None
def evaluation(query_data, tested_data):
return_info = {}
return_info['is_reasonalbe_visiting_city'] = is_reasonalbe_visiting_city(query_data, tested_data)
return_info['is_valid_restaurants'] = is_valid_restaurants(query_data, tested_data)
return_info['is_valid_attractions'] = is_valid_attractions(query_data, tested_data)
return_info['is_valid_accommodation'] = is_valid_accommodaton(query_data, tested_data)
return_info['is_valid_transportation'] = is_valid_transportation(query_data, tested_data)
return_info['is_valid_information_in_current_city'] = is_valid_information_in_current_city(query_data, tested_data)
return_info['is_valid_information_in_sandbox'] = is_valid_information_in_sandbox(query_data, tested_data)
return_info['is_not_absent'] = is_not_absent(query_data, tested_data)
return return_info
def boolean_evaluation(query_data, tested_data):
return_info = {}
return_info['is_reasonalbe_visiting_city'] = is_reasonalbe_visiting_city(query_data, tested_data)
return_info['is_valid_restaurants'] = is_valid_restaurants(query_data, tested_data)
return_info['is_valid_accommodation'] = is_valid_accommodaton(query_data, tested_data)
return_info['is_valid_attractions'] = is_valid_attractions(query_data, tested_data)
return_info['is_valid_transportation'] = is_valid_transportation(query_data, tested_data)
return_info['is_valid_information_in_current_city'] = is_valid_information_in_current_city(query_data, tested_data)
return_info['is_valid_information_in_sandbox'] = is_valid_information_in_sandbox(query_data, tested_data)
return_info['is_not_absent'] = is_not_absent(query_data, tested_data)
for key in return_info:
if return_info[key][0] == False:
print(return_info[key][1])
return False
return True
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