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from annotation.src.utils import get_valid_name_city,extract_before_parenthesis,extract_numbers_from_filenames |
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from tools.flights.apis import Flights |
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from tools.accommodations.apis import Accommodations |
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from tools.restaurants.apis import Restaurants |
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from tools.googleDistanceMatrix.apis import GoogleDistanceMatrix |
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from tools.attractions.apis import Attractions |
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import math |
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import json |
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import re |
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import os |
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import sys |
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from tqdm import tqdm |
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import argparse |
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sys.path.append(os.path.abspath(os.path.join(os.getcwd(), ".."))) |
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os.chdir(os.path.dirname(os.path.abspath(__file__))) |
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flight = Flights() |
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accommodation = Accommodations() |
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restaurants = Restaurants() |
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googleDistanceMatrix = GoogleDistanceMatrix() |
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attractions = Attractions() |
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city_state_set = open('/home/user/app/database/background/citySet_with_states.txt','r').read().split('\n') |
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city_state_map = {x:y for x,y in [unit.split('\t') for unit in city_state_set]} |
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def load_line_json_data(filename): |
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data = [] |
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with open(filename, 'r', encoding='utf-8') as f: |
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for line in f.read().strip().split('\n'): |
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unit = json.loads(line) |
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data.append(unit) |
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return data |
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def count_consecutive_values(lst): |
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if not lst: |
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return [] |
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result = [] |
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current_string = lst[0] |
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count = 1 |
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for i in range(1, len(lst)): |
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if lst[i] == current_string: |
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count += 1 |
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else: |
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result.append((current_string, count)) |
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current_string = lst[i] |
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count = 1 |
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result.append((current_string, count)) |
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return result |
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def transportation_match(text: str): |
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if 'taxi' in text.lower(): |
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return 'Taxi' |
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elif 'self-driving' in text.lower(): |
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return 'Self-driving' |
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elif 'flight' in text.lower(): |
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return 'Flight' |
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def extract_from_to(text: str): |
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""" |
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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. |
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Args: |
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- text (str): The input string. |
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Returns: |
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- tuple: A tuple containing 'A' and 'B'. If no match is found, returns (None, None). |
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""" |
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pattern = r"from\s+(.+?)\s+to\s+([^,]+)(?=[,\s]|$)" |
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matches = re.search(pattern, text) |
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return matches.groups() if matches else (None, None) |
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def is_valid_city_sequence(city_list): |
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""" |
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Checks if the city sequence is valid. A valid sequence has every city (except the first and last) |
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appearing consecutively, and no city should appear again once its sequence is over. |
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Args: |
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- city_list (list): List of cities. |
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Returns: |
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- bool: True if the sequence is valid, False otherwise. |
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""" |
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if len(city_list) < 3: |
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return False |
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visited_cities = set() |
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i = 0 |
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while i < len(city_list): |
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city = city_list[i] |
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if city in visited_cities and (i != 0 and i != len(city_list) - 1): |
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return False |
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count = 0 |
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while i < len(city_list) and city_list[i] == city: |
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count += 1 |
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i += 1 |
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if count == 1 and 0 < i - 1 < len(city_list) - 1: |
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return False |
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visited_cities.add(city) |
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return True |
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def is_reasonalbe_visiting_city(question, tested_data): |
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city_list = [] |
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for i in range(min(question['days'],len(tested_data))): |
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city_value = tested_data[i]['current_city'] |
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if 'from' in city_value: |
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city1, city2 = extract_from_to(city_value) |
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city1 = extract_before_parenthesis(city1) |
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city2 = extract_before_parenthesis(city2) |
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if i==0 and city1 != question['org']: |
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return False, f"The first day's city should be {question['org']}." |
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city_list += [city1, city2] |
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else: |
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city_list.append(extract_before_parenthesis(city_value)) |
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if city_list[0] != city_list[-1]: |
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return False, "The trip should be a closed circle." |
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if not is_valid_city_sequence(city_list): |
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return False, "The city sequence is invalid." |
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for idx, city in enumerate(city_list): |
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if city not in city_state_map: |
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return False, f"{city} is not a valid city." |
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if idx not in [0,len(city_list)-1] and question['days'] >3 and city_state_map[city] != question['dest']: |
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return False, f"{city} is not in {question['dest']}." |
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return True, None |
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def is_valid_restaurants(question, tested_data): |
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restaurants_list = [] |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-': |
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if unit['breakfast'] not in restaurants_list: |
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restaurants_list.append(unit['breakfast']) |
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else: |
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return False, f"The restaurant in day {i+1} breakfast is repeated." |
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if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-': |
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if unit['lunch'] not in restaurants_list: |
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restaurants_list.append(unit['lunch']) |
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else: |
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return False, f"The restaurant in day {i+1} lunch {unit['lunch']} is repeated." |
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if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-': |
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if unit['dinner'] not in restaurants_list: |
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restaurants_list.append(unit['dinner']) |
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else: |
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return False, f"The restaurant in day {i+1} dinner is repeated." |
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return True, None |
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def is_valid_attractions(question, tested_data): |
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attractions_list = [] |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-': |
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for attraction in unit['attraction'].split(';')[:-1]: |
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if attraction not in attractions_list: |
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attractions_list.append(attraction) |
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else: |
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return False, f"The attraction '{attraction}' in day {i+1} is repeated." |
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return True, None |
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def is_valid_transportation(question, tested_data): |
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if tested_data[0]['transportation'] and tested_data[0]['transportation'] != '-': |
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transportation_list = [transportation_match(tested_data[0]['transportation'])] |
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else: |
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return False, "The transportation in day 1 should not be empty." |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if 'transportation' in unit and unit['transportation'] and unit['transportation'] != '-': |
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transportation_list.append(transportation_match(unit['transportation'])) |
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if (('Self-driving' in transportation_list) and ('Flight' in transportation_list)) or (('Taxi' in transportation_list) and ('Self-driving' in transportation_list)): |
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return False, "The transportation is conflicting." |
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return True, None |
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def is_valid_information_in_current_city(question, tested_data): |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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current_city = unit['current_city'] |
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final_city_list = [] |
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if 'from' in current_city: |
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city1, city2 = extract_from_to(current_city) |
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city1 = extract_before_parenthesis(city1) |
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city2 = extract_before_parenthesis(city2) |
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final_city_list = [city1, city2] |
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else: |
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final_city_list = extract_before_parenthesis(current_city) |
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if 'transportation' in unit and unit['transportation'] and unit['transportation'] != '-': |
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for city in final_city_list: |
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if city not in unit['transportation']: |
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return False, f"The transportation in day {i+1} is invalid city choice." |
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if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-': |
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flag = False |
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for city in final_city_list: |
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if city in unit['breakfast']: |
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flag = True |
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if not flag: |
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return False, f"The breakfast in day {i+1} is invalid city choice." |
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if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-': |
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flag = False |
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for city in final_city_list: |
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if city in unit['lunch']: |
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flag = True |
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if not flag: |
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return False, f"The lunch in day {i+1} is invalid city choice." |
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if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-': |
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flag = False |
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for city in final_city_list: |
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if city in unit['dinner']: |
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flag = True |
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if not flag: |
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return False, f"The dinner in day {i+1} is invalid city choice." |
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if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-': |
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attraction_list = unit['attraction'].split(';')[:-1] |
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for attraction in attraction_list: |
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flag = False |
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for city in final_city_list: |
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if city in attraction: |
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flag = True |
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if not flag: |
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return False, f"The attraction in day {i+1} is invalid city choice." |
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if 'accommodation' in unit and unit['accommodation'] and unit['accommodation'] != '-': |
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if final_city_list[-1] not in unit['accommodation']: |
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return False, f"The accommodation in day {i+1} is invalid city choice." |
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return True, None |
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def is_valid_information_in_sandbox(question, tested_data): |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if unit['transportation'] and unit['transportation'] != '-': |
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value = unit['transportation'] |
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org_city, dest_city = extract_from_to(value) |
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if org_city == None or dest_city == None: |
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org_city, dest_city = extract_from_to(unit['current_city']) |
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if 'flight number' in value.lower(): |
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try: |
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org_city = extract_before_parenthesis(org_city) |
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dest_city = extract_before_parenthesis(dest_city) |
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except TypeError: |
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raise ValueError("The transportation {} in day {} can not be parsed.".format(value,i+1)) |
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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: |
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return False, f"The flight number in day {i+1} is invalid in the sandbox." |
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elif 'self-driving' in value.lower() or 'taxi' in value.lower(): |
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try: |
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org_city = extract_before_parenthesis(org_city) |
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dest_city = extract_before_parenthesis(dest_city) |
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except TypeError: |
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org_city = '-' |
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dest_city = '-' |
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print("The transportation {} in day {} can not be parsed and '-' will be used instead.".format(value,i+1)) |
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if 'self-driving' in value.lower(): |
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if googleDistanceMatrix.run_for_evaluation(org_city, dest_city, mode='self-driving')['cost'] == None: |
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return False, f"The self-driving in day {i+1} is invalid in the sandbox." |
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else: |
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if googleDistanceMatrix.run_for_evaluation(org_city, dest_city, mode='taxi')['cost'] == None: |
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return False, f"The taxi in day {i+1} is invalid in the sandbox." |
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if 'breakfast' in unit and unit['breakfast'] and unit['breakfast'] != '-': |
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name, city = get_valid_name_city(unit['breakfast']) |
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if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1: |
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return False, f"The breakfast in day {i+1} is invalid in the sandbox." |
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if 'lunch' in unit and unit['lunch'] and unit['lunch'] != '-': |
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name, city = get_valid_name_city(unit['lunch']) |
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if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1: |
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return False, f"The lunch in day {i+1} is invalid in the sandbox." |
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if 'dinner' in unit and unit['dinner'] and unit['dinner'] != '-': |
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name, city = get_valid_name_city(unit['dinner']) |
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if len(restaurants.data[(restaurants.data['Name'].astype(str).str.contains(re.escape(name))) & (restaurants.data['City'] == city)]) < 1: |
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return False, f"The dinner in day {i+1} is invalid in the sandbox." |
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if 'attraction' in unit and unit['attraction'] and unit['attraction'] != '-': |
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attractions_list = unit['attraction'].split(';')[:-1] |
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for attraction in attractions_list: |
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name, city = get_valid_name_city(attraction) |
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if len(attractions.data[(attractions.data['Name'].astype(str).str.contains(re.escape(name))) & (attractions.data['City'] == city)]) < 1: |
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return False, f"The attraction {attraction} in day {i+1} is invalid in the sandbox." |
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if 'accommodation' in unit and unit['accommodation'] and unit['accommodation'] != '-': |
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name, city = get_valid_name_city(unit['accommodation']) |
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if len(accommodation.data[(accommodation.data['NAME'].astype(str).str.contains(re.escape(name))) & (accommodation.data['city'] == city)]) < 1: |
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return False, f"The accommodation in day {i+1} is invalid in the sandbox." |
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return True, None |
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def is_valid_accommodaton(question, tested_data): |
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data = [] |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if 'accommodation' not in unit: |
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return False, f"No Accommodation Info." |
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data.append(unit['accommodation']) |
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consectutive_accommodation = count_consecutive_values(data) |
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for unit in consectutive_accommodation: |
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if unit and unit[0] not in ['-',''] : |
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name, city = get_valid_name_city(unit[0]) |
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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']: |
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return False, f"The accommodation {unit[0]} do not obey the minumum nights rule." |
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return True, None |
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def is_valid_visiting_city_number(question, tested_data): |
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city_set = set() |
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for i in range(min(question['days'],len(tested_data))): |
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city_value = tested_data[i]['current_city'] |
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if 'from' in city_value: |
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city1, city2 = extract_from_to(city_value) |
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city1 = extract_before_parenthesis(city1) |
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city2 = extract_before_parenthesis(city2) |
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if i==0 and city1 != question['org']: |
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return False, f"The first day's city should be {question['org']}." |
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city_set.add(city1) |
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city_set.add(city2) |
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else: |
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city_set.add(extract_before_parenthesis(city_value)) |
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city_set.discard(question['org']) |
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if len(city_set) != question['visiting_city_number']: |
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return False, f"The number of visiting cities should be {question['visiting_city_number']}." |
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return True, None |
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def is_valid_days(question, tested_data): |
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lens = 0 |
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for i in range(min(question['days'],len(tested_data))): |
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if tested_data[i] != {} and tested_data[i]['current_city'] != "You don't need to fill in the information for this or later days.": |
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lens += 1 |
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if lens != question['days']: |
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return False, f"The number of days should be {question['days']}." |
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else: |
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return True, None |
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def is_not_absent(question, tested_data): |
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needed_info = 6 * question['days'] |
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total_valid_info = 0 |
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if not is_valid_days(question, tested_data)[0]: |
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return False, "Invalid Days" |
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if not is_valid_visiting_city_number(question, tested_data)[0]: |
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return False, "Invalid City Number" |
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for i in range(min(question['days'],len(tested_data))): |
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unit = tested_data[i] |
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if 'transportation' not in unit: |
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return False, f"No Transportation Info." |
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if 'breakfast' not in unit: |
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return False, f"No Breakfast Info." |
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if 'lunch' not in unit: |
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return False, f"No Lunch Info." |
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if 'dinner' not in unit: |
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return False, f"No Dinner Info." |
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if 'attraction' not in unit: |
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return False, f"No Attraction Info." |
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if 'accommodation' not in unit: |
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return False, f"No Accommodation Info." |
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if ('from ' in unit['current_city'] or 'to ' in unit['current_city']) and unit['transportation'] in ['','-']: |
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return False, f"No transportation in day {i+1} is not allowed." |
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if ('from ' not in unit['current_city'] and ' to ' not in unit['current_city']) and unit['attraction'] in ['','-']: |
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return False, f"No attaction in day {i+1} is not allowed." |
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if i != question['days'] - 1 and unit['accommodation'] in ['','-']: |
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return False, f"No accommodation in day {i+1} is not allowed." |
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if (unit['breakfast'] in ['','-'] or unit['lunch'] in ['','-'] or unit['dinner'] in ['','-']) and 'from ' not in unit['current_city']: |
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return False, f"No meal in day {i+1} is not allowed." |
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for key in unit: |
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if unit[key] and unit[key] != '-': |
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total_valid_info += 1 |
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if total_valid_info * 1.0 / needed_info < 0.5: |
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return False, f"The absent information is more than 50%." |
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return True, None |
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def evaluation(query_data, tested_data): |
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return_info = {} |
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return_info['is_reasonalbe_visiting_city'] = is_reasonalbe_visiting_city(query_data, tested_data) |
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return_info['is_valid_restaurants'] = is_valid_restaurants(query_data, tested_data) |
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return_info['is_valid_attractions'] = is_valid_attractions(query_data, tested_data) |
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return_info['is_valid_accommodation'] = is_valid_accommodaton(query_data, tested_data) |
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return_info['is_valid_transportation'] = is_valid_transportation(query_data, tested_data) |
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return_info['is_valid_information_in_current_city'] = is_valid_information_in_current_city(query_data, tested_data) |
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return_info['is_valid_information_in_sandbox'] = is_valid_information_in_sandbox(query_data, tested_data) |
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return_info['is_not_absent'] = is_not_absent(query_data, tested_data) |
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return return_info |
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def boolean_evaluation(query_data, tested_data): |
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return_info = {} |
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return_info['is_reasonalbe_visiting_city'] = is_reasonalbe_visiting_city(query_data, tested_data) |
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return_info['is_valid_restaurants'] = is_valid_restaurants(query_data, tested_data) |
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return_info['is_valid_accommodation'] = is_valid_accommodaton(query_data, tested_data) |
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return_info['is_valid_attractions'] = is_valid_attractions(query_data, tested_data) |
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return_info['is_valid_transportation'] = is_valid_transportation(query_data, tested_data) |
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return_info['is_valid_information_in_current_city'] = is_valid_information_in_current_city(query_data, tested_data) |
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return_info['is_valid_information_in_sandbox'] = is_valid_information_in_sandbox(query_data, tested_data) |
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return_info['is_not_absent'] = is_not_absent(query_data, tested_data) |
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for key in return_info: |
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if return_info[key][0] == False: |
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print(return_info[key][1]) |
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return False |
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return True |
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if __name__ == "__main__": |
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set_type = ["train",'dev','test'][0] |
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query_data_list = load_line_json_data(f'/home/xj/toolAugEnv/code/toolConstraint/data/final_data/{set_type}/query/query.jsonl') |
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commonsense_statistic= {level:{day:[] for day in [3,5,7]} for level in ['easy','medium','hard']} |
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not_satified = [] |
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for idx in tqdm(range(1,len(query_data_list)+1)): |
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query_data = query_data_list[idx-1] |
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generated_plan = json.load(open(f'/home/xj/toolAugEnv/code/toolConstraint/data/final_data/{set_type}/plan/plan_{idx}.json')) |
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try: |
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store_plan = json.load(open(f'/home/xj/toolAugEnv/code/toolConstraint/results/{set_type}/plan_{idx}.json')) |
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except FileNotFoundError: |
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store_plan = [{}] |
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info_box = evaluation(query_data,generated_plan[1]) |
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store_plan[-1][f'human_anno_commonsense_constraint'] = info_box |
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with open(f'/home/xj/toolAugEnv/code/toolConstraint/results/{set_type}/plan_{idx}.json','w') as f: |
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json.dump(store_plan,f) |
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commonsense_statistic[query_data['level']][query_data['days']].append(info_box) |
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print(not_satified) |
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with open(f'/home/xj/toolAugEnv/code/toolConstraint/results/{set_type}/human_anno_commonsense_constraint.json','w') as f: |
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json.dump(commonsense_statistic,f) |
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