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import re
import json
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
from cryptography.hazmat.primitives import padding
from cryptography.hazmat.backends import default_backend
from vaderSentiment.vaderSentiment import SentimentIntensityAnalyzer
class Element:
def __init__(self, name, symbol, representation, properties, interactions, defense_ability):
self.name = name
self.symbol = symbol
self.representation = representation
self.properties = properties
self.interactions = interactions
self.defense_ability = defense_ability
def display_properties(self):
print(f"Properties of {self.name} ({self.symbol}):")
for prop in self.properties:
print(f" - {prop}")
def display_interactions(self):
print(f"Interactions of {self.name} ({self.symbol}):")
for interaction in self.interactions:
print(f" - {interaction}")
def display_defense_ability(self):
print(f"Defense Ability of {self.name} ({self.symbol}): {self.defense_ability}")
def execute_defense_function(self):
defense_functions = {
"evasion": self.evasion,
"adaptability": self.adaptability,
"fortification": self.fortification,
"barrier": self.barrier,
"regeneration": self.regeneration,
"resilience": self.resilience,
"illumination": self.illumination,
"shield": self.shield,
"reflection": self.reflection,
"protection": self.protection
}
defense_function = defense_functions.get(self.defense_ability.lower(), self.no_defense)
defense_function()
def evasion(self):
print(f"{self.name} uses Evasion to avoid threats and remain undetected.")
def adaptability(self):
print(f"{self.name} adapts to changing environments and evolves to overcome challenges.")
def fortification(self):
print(f"{self.name} strengthens defenses and fortifies positions to withstand attacks.")
def barrier(self):
print(f"{self.name} creates barriers to protect against external threats.")
def regeneration(self):
print(f"{self.name} regenerates lost or damaged parts to maintain functionality.")
def resilience(self):
print(f"{self.name} exhibits resilience to recover quickly from setbacks.")
def illumination(self):
print(f"{self.name} uses illumination to reveal hidden threats and illuminate dark areas.")
def shield(self):
print(f"{self.name} uses a shield to block incoming attacks and protect allies.")
def reflection(self):
print(f"{self.name} reflects attacks back to the source, turning the enemy's power against them.")
def protection(self):
print(f"{self.name} offers protection to prevent harm and ensure safety.")
def no_defense(self):
print("No defense function available.")
class CustomRecognizer:
class RecognizerResult:
def __init__(self, text):
self.text = text
self.intents = []
class Intent:
def __init__(self, name, score):
self.name = name
self.score = score
def recognize(self, text):
recognizer_result = self.RecognizerResult(text)
regex_element = re.compile(r"^(Hydrogen|Carbon|Iron|Silicon|Oxygen|Nitrogen|Phosphorus|Gold|Silver|Lead|Diamond)$", re.IGNORECASE)
is_element = regex_element.match(text)
if is_element:
recognizer_result.intents.append(self.Intent("ElementDefense", 100))
return recognizer_result
def get_top_intent(self, recognizer_result):
recognizer_result.intents.sort(key=lambda x: x.score, reverse=True)
return recognizer_result.intents[0].name if recognizer_result.intents else None
class DataProtector:
sensitive_keywords = {"AI", "sensitive", "confidential", "data"}
@staticmethod
def contains_sensitive_info(text):
return any(keyword.lower() in text.lower() for keyword in DataProtector.sensitive_keywords)
@staticmethod
def mask_sensitive_info(text):
for keyword in DataProtector.sensitive_keywords:
text = re.sub(keyword, '*' * len(keyword), text, flags=re.IGNORECASE)
return text
@staticmethod
def encrypt_string(plain_text, key):
backend = default_backend()
key_bytes = key.encode('utf-8')
iv = key_bytes[:16]
cipher = Cipher(algorithms.AES(key_bytes), modes.CBC(iv), backend=backend)
encryptor = cipher.encryptor()
padder = padding.PKCS7(algorithms.AES.block_size).padder()
padded_data = padder.update(plain_text.encode('utf-8')) + padder.finalize()
encrypted_data = encryptor.update(padded_data) + encryptor.finalize()
return encrypted_data.hex()
@staticmethod
def decrypt_string(cipher_text, key):
backend = default_backend()
key_bytes = key.encode('utf-8')
iv = key_bytes[:16]
cipher = Cipher(algorithms.AES(key_bytes), modes.CBC(iv), backend=backend)
decryptor = cipher.decryptor()
encrypted_data = bytes.fromhex(cipher_text)
decrypted_padded_data = decryptor.update(encrypted_data) + decryptor.finalize()
unpadder = padding.PKCS7(algorithms.AES.block_size).unpadder()
decrypted_data = unpadder.update(decrypted_padded_data) + unpadder.finalize()
return decrypted_data.decode('utf-8')
def analyze_sentiment(text):
analyzer = SentimentIntensityAnalyzer()
sentiment = analyzer.polarity_scores(text)
return sentiment
def initialize_elements():
elements = [
Element(
name="Hydrogen",
symbol="H",
representation="Lua",
properties=["Simple", "Lightweight", "Versatile"],
interactions=["Easily integrates with other languages and systems"],
defense_ability="Evasion"
),
Element(
name="Carbon",
symbol="C",
representation="Python",
properties=["Flexible", "Widely used", "Powerful"],
interactions=["Can be used for a variety of tasks, from web development to data analysis"],
defense_ability="Adaptability"
),
Element(
name="Iron",
symbol="Fe",
representation="C++",
properties=["Strong", "Durable", "Efficient"],
interactions=["Used in system programming and game development"],
defense_ability="Fortification"
),
Element(
name="Silicon",
symbol="Si",
representation="Java",
properties=["Robust", "Platform-independent", "Secure"],
interactions=["Widely used in enterprise applications"],
defense_ability="Barrier"
),
Element(
name="Oxygen",
symbol="O",
representation="JavaScript",
properties=["Dynamic", "Versatile", "Ubiquitous"],
interactions=["Essential for web development"],
defense_ability="Regeneration"
),
Element(
name="Nitrogen",
symbol="N",
representation="Ruby",
properties=["Elegant", "Productive", "Flexible"],
interactions=["Popular in web development with Rails"],
defense_ability="Resilience"
),
Element(
name="Phosphorus",
symbol="P",
representation="PHP",
properties=["Server-side", "Web-focused", "Embedded"],
interactions=["Commonly used in web development"],
defense_ability="Illumination"
),
Element(
name="Gold",
symbol="Au",
representation="Swift",
properties=["Modern", "Safe", "Fast"],
interactions=["Used for iOS and macOS development"],
defense_ability="Shield"
),
Element(
name="Silver",
symbol="Ag",
representation="Go",
properties=["Concurrent", "Efficient", "Scalable"],
interactions=["Ideal for cloud services and backend systems"],
defense_ability="Reflection"
),
Element(
name="Lead",
symbol="Pb",
representation="Rust",
properties=["Safe", "Concurrent", "Fast"],
interactions=["Used for system-level programming"],
defense_ability="Protection"
),
Element(
name="Diamond",
symbol="D",
representation="Kotlin",
properties=["Modern", "Concise", "Safe"],
interactions=["Used for Android development"],
defense_ability="Adaptability"
)
]
return elements
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