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solver.py
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solver.py
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import re
import os
import time
import json
import random
import requests
import functools
from requests.exceptions import JSONDecodeError
from dotenv import load_dotenv
from bs4 import BeautifulSoup
from openai import OpenAI
import openai
from selenium import webdriver
from selenium.webdriver.common.by import By
from selenium.webdriver.support.ui import WebDriverWait
from selenium.webdriver.support import expected_conditions as EC
from selenium.common.exceptions import (
TimeoutException,
ElementClickInterceptedException,
)
import re
PREMIUM_ACCOUNT = False
# load the setting.json file
with open("setting.json", "r") as f:
SETTING = json.load(f)
BASE_URL = "https://leetcode.com"
# load the .env file
load_dotenv()
# set up openai client
client = OpenAI(api_key=os.getenv("OPENAI_API_KEY"))
USERNAME = os.getenv("LEETCODE_USERNAME")
PASSWORD = os.getenv("LEETCODE_PASSWORD")
# rate limiting decorator
def rate_limited(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
max_attempts = 10
base_wait_time = 30
for attempt in range(1, max_attempts + 1):
try:
response = func(*args, **kwargs)
# Check if the response indicates rate limiting
if isinstance(response, requests.Response):
if response.status_code == 429:
raise requests.exceptions.RequestException(
"Rate limit exceeded"
)
# Check for rate limiting information in response body
try:
body = response.json()
if (
"rate_limit_exceeded" in body
or "error" in body
and "rate" in body["error"].lower()
):
raise requests.exceptions.RequestException(
"Rate limit exceeded"
)
except ValueError:
pass # Response body is not JSON
return response
except requests.exceptions.HTTPError as e:
# Check if the error is due to rate limiting
if e.response is not None and e.response.status_code == 429:
wait_time = e.response.headers.get("Retry-After")
if wait_time is not None:
wait_time = int(
wait_time
) # Convert to integer if it's a string
else:
wait_time = base_wait_time * (2 ** (attempt - 1))
jitter = random.uniform(0, 0.1 * wait_time)
total_wait = wait_time + jitter
print(
f"Rate limit exceeded. Sleeping for {total_wait:.2f} seconds... (Attempt {attempt}/{max_attempts})"
)
time.sleep(total_wait)
else:
raise # Re-raise the exception if it's not a rate limit error
except requests.exceptions.RequestException as e:
if attempt == max_attempts:
raise
print(f"Error during request: {e}. Retrying...")
return wrapper
# Retry decorator
def retry(max_attempts=3, wait_time=2):
def decorator(func):
def wrapper(*args, **kwargs):
for attempt in range(max_attempts):
try:
return func(*args, **kwargs)
except Exception as e:
if attempt < max_attempts - 1: # If not the last attempt
print(
f"Attempt {attempt + 1} failed: {e}. Retrying in {wait_time} seconds..."
)
time.sleep(wait_time)
else:
print(f"All {max_attempts} attempts failed.")
raise # Re-raise the last exception
return wrapper
return decorator
# format the header
def get_common_header(suffix):
return {
"User-Agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/128.0.0.0 Safari/537.36",
"Referer": f"{BASE_URL}/{suffix}",
"Content-Type": "application/json",
"X-CSRFToken": COOKIES.get("csrftoken", ""),
"X-Requested-With": "XMLHttpRequest",
}
# login to the leetcode -> since leetcode use CAPTCHA, we need to use 3rd party login to wrok around that
def login_to_leetcode():
print("Initializing WebDriver...")
driver = webdriver.Chrome()
wait = WebDriverWait(driver, 30)
try:
print("Navigating to LeetCode login page...")
driver.get(f"{BASE_URL}/accounts/login/")
# Wait for the loading overlay to disappear
try:
wait.until(EC.invisibility_of_element_located((By.ID, "initial-loading")))
except TimeoutException:
print("Loading overlay did not disappear. Attempting to continue...")
# Wait for and click GitHub login button
max_attempts = 3
for attempt in range(max_attempts):
try:
github_login_button = wait.until(
EC.element_to_be_clickable(
(By.CSS_SELECTOR, 'a[href*="github/login"]')
)
)
github_login_button.click()
break
except (TimeoutException, ElementClickInterceptedException) as e:
if attempt < max_attempts - 1:
print(f"Attempt {attempt + 1} failed. Retrying in 5 seconds...")
time.sleep(5)
else:
print(
"Failed to click GitHub login button after multiple attempts."
)
raise e
# Wait for the "Continue" button on GitHub authorization page and click it
print("Waiting for Continue button...")
try:
continue_button = wait.until(
EC.element_to_be_clickable(
(By.XPATH, '//div[@id="base_content"]//button[text()="Continue"]')
)
)
continue_button.click()
print("Clicked Continue button.")
except TimeoutException:
print("Continue button not found. Please check the page manually.")
input(
"Press Enter after manually clicking Continue or if you need to proceed..."
)
# Wait for GitHub login page to load
print("Waiting for GitHub login page to load...")
wait.until(EC.presence_of_element_located((By.ID, "login_field")))
driver.find_element(By.ID, "login_field").send_keys(USERNAME)
driver.find_element(By.ID, "password").send_keys(PASSWORD)
# Click Sign in button
sign_in_button = wait.until(
EC.element_to_be_clickable(
(By.CSS_SELECTOR, 'input[type="submit"][value="Sign in"]')
)
)
sign_in_button.click()
# Wait for login to complete
wait.until(EC.url_contains(f"{BASE_URL}/"))
print("Login successful.")
# Get all cookies
cookies = driver.get_cookies()
cookie_dict = {cookie["name"]: cookie["value"] for cookie in cookies}
return cookie_dict
finally:
driver.quit()
def get_account_info():
print("Getting account info...")
# get the account info from the leetcode
url = f"{BASE_URL}/graphql"
query = """
query getUserInfo {
user {
isCurrentUserPremium
}
}
"""
response = requests.post(
url,
json={"query": query},
headers=get_common_header(""),
cookies=COOKIES,
)
response.raise_for_status()
data = response.json()
if data["data"]["user"]["isCurrentUserPremium"]:
return True
else:
return False
# list certain amount of questions
def list_questions():
print("Fetching all questions...")
url = f"{BASE_URL}/graphql"
query = """
query problemsetQuestionList($categorySlug: String, $limit: Int, $skip: Int, $filters: QuestionListFilterInput) {
problemsetQuestionList: questionList(
categorySlug: $categorySlug
limit: $limit
skip: $skip
filters: $filters
) {
total: totalNum
questions: data {
questionId
acRate
difficulty
freqBar
frontendQuestionId: questionFrontendId
isFavor
paidOnly: isPaidOnly
status
title
titleSlug
topicTags {
name
id
slug
}
hasSolution
hasVideoSolution
}
}
}
"""
variables = {
"categorySlug": "",
"skip": 0,
"limit": 5000, # A large number to fetch all questions
"filters": {},
}
response = requests.post(
url,
json={"query": query, "variables": variables},
headers=get_common_header(""),
cookies=COOKIES,
)
response.raise_for_status()
data = response.json()
questions = data["data"]["problemsetQuestionList"]["questions"]
total = data["data"]["problemsetQuestionList"]["total"]
print(f"{total} questions fetched.")
# if not premium account, filter out the paid only questions
if not PREMIUM_ACCOUNT:
questions = [question for question in questions if not question["isPaidOnly"]]
return questions
# get the detailed info of the selected question
def get_question_details(problem_slug):
print(f"Fetching question {problem_slug} details...")
url = f"{BASE_URL}/graphql"
query = f"""
query getQuestionDetail($titleSlug: String!) {{
question(titleSlug: $titleSlug) {{
questionId
title
content
hints
exampleTestcases
codeSnippets {{
lang
langSlug
code
}}
}}
}}
"""
variables = {"titleSlug": problem_slug}
response = requests.post(
url,
json={"query": query, "variables": variables},
headers=get_common_header(""),
cookies=COOKIES,
)
response.raise_for_status() # Raise an exception for bad status codes
if response.status_code == 200:
questions = response.json()["data"]["question"]
# get the question id
question_id = questions["questionId"]
# get the problem title
problem_title = questions["title"]
# get the content
content = questions["content"]
# chnage the content from html to markdown for better processing
content = BeautifulSoup(content, "html.parser").get_text()
# get the hints
hints = questions["hints"]
# get the example test cases
exampleTestcases = questions["exampleTestcases"]
# get the code snippets
codeSnippets = questions["codeSnippets"]
# reformat the codeSnippets to be a dicts with lang as key and code as value
# To this
codeSnippets = {
snippet["lang"]: {"langSlug": snippet["langSlug"], "code": snippet["code"]}
for snippet in codeSnippets
}
# if snippet is Python, change language name (key) to Python2.7
if "Python" in codeSnippets:
codeSnippets["Python2.7"] = codeSnippets.pop("Python")
# format question to a json
question = {
"question_id": question_id,
"problem_slug": problem_slug,
"problem_title": problem_title,
"content": content,
"hints": hints,
"exampleTestcases": exampleTestcases,
"codeSnippets": codeSnippets,
}
return question
else:
raise Exception(f"Failed to get question details: {response.status_code}")
# submit the solution, check the submit status
@rate_limited
def submit(question_id, slug, lang, code):
url = f"{BASE_URL}/problems/{slug}/submit/"
data = {
"lang": lang,
"question_id": question_id,
"typed_code": code,
}
try:
response = requests.post(
url,
json=data,
headers=get_common_header(slug),
cookies=COOKIES,
)
# This will raise an exception for 4xx and 5xx status codes
response.raise_for_status()
submit_result = response.json()
submission_id = submit_result.get("submission_id")
if not submission_id:
raise Exception("Submission ID not found in the response.")
return check_submission(submission_id, slug)
except requests.exceptions.RequestException as e:
print(f"Error during submission: {e}")
raise
# Check the result
@rate_limited
def check_submission(submission_id, slug):
time.sleep(2) # Initial wait before checking the status
submit_status_url = f"{BASE_URL}/submissions/detail/{submission_id}/check/"
max_attempts = 10
for attempt in range(max_attempts):
try:
response = requests.get(
submit_status_url,
headers=get_common_header(f"problems/{slug}/"),
cookies=COOKIES,
)
response.raise_for_status()
result = response.json()
if result.get("state") == "SUCCESS":
return result
elif result.get("state") in ["PENDING", "STARTED"]:
sleep_time = 2**attempt # Exponential backoff
jitter = random.uniform(0, 0.1 * sleep_time) # Add jitter
time.sleep(sleep_time + jitter)
else:
print(
f"Unexpected state: {result.get('state')}, Message: {result.get('status_msg')}"
)
raise Exception(f"Unexpected submission state: {result}")
except JSONDecodeError:
print(f"Failed to decode JSON on attempt {attempt + 1}. Retrying...")
except KeyError:
print(f"Unexpected response format on attempt {attempt + 1}. Retrying...")
except requests.exceptions.RequestException as e:
print(f"Error checking submission status: {e}")
raise
raise Exception("Timed out waiting for submission result")
# send the test soution, check the test status
@rate_limited
def test(question_id, problem_slug, lang, code, test_case):
print(f"Testing the solution...")
test_url = f"{BASE_URL}/problems/{problem_slug}/interpret_solution/"
data = {
"question_id": str(question_id),
"lang": lang,
"typed_code": code,
"data_input": test_case,
}
try:
response = requests.post(
test_url,
headers=get_common_header(f"problems/{problem_slug}/"),
json=data,
cookies=COOKIES,
)
response.raise_for_status() # Raise an exception for 4xx and 5xx status codes
interpret_id = response.json().get("interpret_id")
if not interpret_id:
raise Exception("Interpret ID not found in the response.")
except requests.exceptions.RequestException as e:
print(f"Error during testing: {e}")
raise
# Now, let's check the result
time.sleep(2)
test_status_url = f"https://leetcode.com/submissions/detail/{interpret_id}/check/"
max_attempts = 10
for attempt in range(max_attempts):
try:
response = requests.get(
test_status_url,
headers=get_common_header(f"problems/{problem_slug}/"),
cookies=COOKIES,
)
response.raise_for_status()
result = response.json()
if result.get("state") == "SUCCESS":
return result
elif result.get("state") in ["PENDING", "STARTED"]:
sleep_time = 2**attempt # Exponential backoff
jitter = random.uniform(0, 0.1 * sleep_time) # Add jitter
time.sleep(sleep_time + jitter)
else:
print(
f"Unexpected state: {result.get('state')}, Message: {result.get('status_msg')}"
)
raise Exception(f"Unexpected submission state: {result}")
except JSONDecodeError:
print(f"Failed to decode JSON on attempt {attempt + 1}. Retrying...")
except KeyError:
print(f"Unexpected response format on attempt {attempt + 1}. Retrying...")
except requests.exceptions.RequestException as e:
print(f"Error checking test status: {e}")
raise
raise Exception("Timed out waiting for submission result")
# extract the code from the markdown code block
def extract_code(markdown_code):
# Pattern to match code blocks
pattern = r"```(\w+)?\n(.*?)```"
matches = re.findall(pattern, markdown_code, re.DOTALL)
# extract the first code block
language, code = matches[0]
# Remove leading/trailing whitespace and any extra newlines
code = code.strip()
# Remove common leading whitespace to preserve indentation
lines = code.split("\n")
if lines:
common_indent = len(re.match(r"\s*", lines[0]).group())
code = "\n".join(line[common_indent:] for line in lines)
return code
# generate the solution using GPT model
@retry(max_attempts=3, wait_time=2)
def generate(language, question, codeSnippets):
print(f"Generating the solution...")
response = client.chat.completions.create(
model=SETTING["openai_model"],
messages=[
{
"role": "system",
"content": "You are a master of solving LeetCode problems and generating solutions.",
},
{
"role": "user",
"content": f"""
### Instruction:
**Solve this LeetCode problem in {language}** using the most efficient approach with optimal time complexity unless specified otherwise.
### Format:
- **Solution must be written in {language}**
- **Class and function definitions** must match the ones provided.
- Return **only the solution code**—no explanations, comments, or additional text.
### Problem:
```json
{question}
```
### Provided Code:
```
{codeSnippets}
```
""",
},
],
)
codeblock = response.choices[0].message.content
return extract_code(codeblock)
# debug the code if there is an error
@retry(max_attempts=3, wait_time=2)
def debug(
language,
question,
codeSnippet,
current_code,
submit_result,
submit_history,
):
print(f"Debugging the solution...")
# Create the prompt for debugging
response = client.chat.completions.create(
model=SETTING["openai_model"],
messages=[
{
"role": "system",
"content": "You are a master of solving LeetCode problems and debugging solutions.",
},
{
"role": "user",
"content": f"""
### Instruction:
We encountered an error while solving a LeetCode problem in {language}.
### Task:
1. Please review the problem, the current code, the result of the last submission, the history of submissions.
2. Pay attention to the **last test case** that failed and the **runtime error** message. **Identify the issue causing the error and fix the code.**
4. ***Use different approach to solve the problem if necessary, do not stick to the current code.***
### Format:
- **Solution must be written in {language}**
- **Class and function definitions** must match the ones provided.
- Return **only the solution code**—no explanations, comments, or additional text.
[Problem]
```json
{question}
```
[End of Problem]
[Current Code]
```
{current_code}
```
[End of Current Code]
[Last Submission Result]
```json
{submit_result}
```
[End of Last Submission Result]
[Provided Code]
```
{codeSnippet}
```
[End of Provided Code]
[Submission History]
```json
{submit_history}
```
[End of Submission History]
""",
},
],
)
# Extract the generated code from the response
codeblock = response.choices[0].message.content
return extract_code(codeblock)
# get the next unsolved question
def get_next_unsolved():
questions = list_questions()
if not questions:
return None # No more questions available
if SETTING["allow_skip"]:
questions_unsolved = [question for question in questions if question["status"] != "ac" and question["status"] != "notac"]
else:
questions_unsolved = [question for question in questions if question["status"] != "ac"]
if len(questions_unsolved) == 0:
print("No more unsolved questions found.")
return None # Couldn't find an unsolved question within the limit
# sorted the question by the id
questions_unsolved.sort(key=lambda x: x["frontendQuestionId"])
return questions_unsolved[0]
# check and shorten the test cases if there is any test case is too long
def check_and_shorten_test_cases_in_question_detailed(question_detailed):
exampleTestcases = question_detailed["exampleTestcases"].split("\n")
# if there is any tests is longer than 1000 char, omit the middle part with "..." and keep the first and last chars, to avoid long test case exceed model token limit
if any(len(test) > 1000 for test in exampleTestcases):
exampleTestcases = [
test[:500] + "..." + test[-500:] if len(test) > 1000 else test
for test in exampleTestcases
]
# join the example test cases back to string
question_detailed["exampleTestcases"] = "\n".join(exampleTestcases)
return question_detailed
# check and shorten the test cases if there is any test case is too long
def check_and_shorten_test_cases_in_result(submit_result):
if "last_testcase" in submit_result:
if len(submit_result["last_testcase"]) > 1000:
submit_result["last_testcase"] = (
submit_result["last_testcase"][:500]
+ "..."
+ submit_result["last_testcase"][-500:]
)
return submit_result
# main logic of the solver
def solver():
print("--- Solver Start ---")
langSlug = ""
while True: # Outer loop to continuously solve problems
# reset language
language = SETTING["default_language"] # default language
# get the next unsolved question -> get question details
question = get_next_unsolved()
if not question:
print("No more unsolved questions found. Exiting.")
break
current_question_id = int(question["questionId"])
print(f"Next unsolved question: {question}.")
# get the question details
question_detailed = get_question_details(question["titleSlug"])
print(f"{question_detailed['problem_slug']} details fetched.")
# check if the language selected is in the codeSnippets
if language not in question_detailed["codeSnippets"]:
# change language to the first available language
language = list(question_detailed["codeSnippets"].keys())[0]
print(f"Change language to {language}")
# leetcode api takes the langSlug instead of the language name
langSlug = question_detailed["codeSnippets"][language]["langSlug"]
# extract the codeSnippets from the question_detailed
codeSnippets = question_detailed.pop("codeSnippets")[language]["code"]
# generate the solution
try:
# check for long test cases
question_detailed_shortened = (
check_and_shorten_test_cases_in_question_detailed(question_detailed)
)
# generate the solution
solution = generate(language, question_detailed_shortened, codeSnippets)
except openai.BadRequestError as e:
print(f"Failed to generate solution: {e}")
continue
submit_count = 0
submit_result = {"status_msg": "None"}
submit_history = []
# if solution is not accpeted -> debug the solution
while (
submit_result["status_msg"] != "Accepted"
and submit_count < SETTING["max_submit_retries"]
):
print(f"Submitting attempt {submit_count}")
time.sleep(1)
# submit the solution
submit_result = submit(
current_question_id, question["titleSlug"], langSlug, solution
)
if submit_result["status_msg"] == "Accepted":
break
else:
if "compare_result" in submit_result:
print(
f"Submission failed: {submit_result['compare_result']}. Start debugging..."
)
else:
print(
f"Submission failed: {submit_result['status_msg']}. Start debugging..."
)
submit_history.append(
{
"solution": solution,
"result": check_and_shorten_test_cases_in_result(submit_result),
}
)
# check if the last test case is already in the example test cases string
if (
"last_testcase" in submit_result
and submit_result["last_testcase"]
in question_detailed["exampleTestcases"]
):
print(f"Last test case already in the example test cases")
elif "last_testcase" in submit_result:
# add the last test case to the example test cases
question_detailed["exampleTestcases"] += (
"\n" + submit_result["last_testcase"]
)
print(f"Last test case added to the example test cases")
debug_count = 0
test_result = submit_result
while debug_count < SETTING["max_debug_retries"]:
print(f"Debugging attempt {debug_count}")
# debug the solution
try:
# check for long test cases
question_detailed_shortened = (
check_and_shorten_test_cases_in_question_detailed(
question_detailed
)
)
last_test_result_shortened = check_and_shorten_test_cases_in_result(
test_result
)
solution = debug(
language=language,
question=question_detailed_shortened,
codeSnippet=codeSnippets,
current_code=solution,
submit_result=last_test_result_shortened,
submit_history=submit_history
)
except openai.BadRequestError as e:
print(f"Failed to debug solution: {e}")
continue
time.sleep(1)
# submit the solution
test_result = test(
current_question_id,
question["titleSlug"],
langSlug,
solution,
question_detailed["exampleTestcases"],
)
# Check if the test result indicates success
if (
"compare_result" in test_result
and "0" not in test_result["compare_result"]
):
print(f"Debugging success: {test_result['compare_result']}")
break # Exit the debugging loop on success
elif "compare_result" in test_result:
print(f"Debugging failed: {test_result['compare_result']}")
debug_count += 1 # Increment debug count to track attempts
else:
print(f"Debugging failed: {test_result['status_msg']}")
debug_count += 1 # Increment debug count to track attempts
# Check if maximum retries were reached
if debug_count >= SETTING["max_debug_retries"]:
print(
f"Debugging failed after {debug_count} attempts. Move to next question."
)
break
submit_count += 1
if submit_result["status_msg"] != "Accepted":
print(
f"question solving failed after {submit_count} attempts, move to next question"
)
else:
submit_result.pop("last_testcase")
print("question solved successfully: ", submit_result)
if __name__ == "__main__":
COOKIES = login_to_leetcode()
PREMIUM_ACCOUNT = get_account_info()
solver()