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from dora import DoraStatus
import pylcs
import os
import pyarrow as pa
from transformers import AutoModelForCausalLM, AutoTokenizer
import torch
import gc # garbage collect library
import re
import time
CHATGPT = False
MODEL_NAME_OR_PATH = "TheBloke/deepseek-coder-6.7B-instruct-GPTQ"
CODE_MODIFIER_TEMPLATE = """
### Instruction
Respond with one block of modified code only in ```python block. No explaination.
```python
{code}
```
{user_message}
### Response:
"""
model = AutoModelForCausalLM.from_pretrained(
MODEL_NAME_OR_PATH,
device_map="auto",
trust_remote_code=True,
revision="main",
max_length=1024,
).to("cuda:0")
tokenizer = AutoTokenizer.from_pretrained(MODEL_NAME_OR_PATH, use_fast=True)
def extract_python_code_blocks(text):
"""
Extracts Python code blocks from the given text that are enclosed in triple backticks with a python language identifier.
Parameters:
- text: A string that may contain one or more Python code blocks.
Returns:
- A list of strings, where each string is a block of Python code extracted from the text.
"""
pattern = r"```python\n(.*?)\n```"
matches = re.findall(pattern, text, re.DOTALL)
if len(matches) == 0:
pattern = r"```python\n(.*?)(?:\n```|$)"
matches = re.findall(pattern, text, re.DOTALL)
if len(matches) == 0:
return [text]
else:
matches = [remove_last_line(matches[0])]
return matches
def remove_last_line(python_code):
"""
Removes the last line from a given string of Python code.
Parameters:
- python_code: A string representing Python source code.
Returns:
- A string with the last line removed.
"""
lines = python_code.split("\n") # Split the string into lines
if lines: # Check if there are any lines to remove
lines.pop() # Remove the last line
return "\n".join(lines) # Join the remaining lines back into a string
def calculate_similarity(source, target):
"""
Calculate a similarity score between the source and target strings.
This uses the edit distance relative to the length of the strings.
"""
edit_distance = pylcs.edit_distance(source, target)
max_length = max(len(source), len(target))
# Normalize the score by the maximum possible edit distance (the length of the longer string)
similarity = 1 - (edit_distance / max_length)
return similarity
def find_best_match_location(source_code, target_block):
"""
Find the best match for the target_block within the source_code by searching line by line,
considering blocks of varying lengths.
"""
source_lines = source_code.split("\n")
target_lines = target_block.split("\n")
best_similarity = 0
best_start_index = 0
best_end_index = -1
# Iterate over the source lines to find the best matching range for all lines in target_block
for start_index in range(len(source_lines) - len(target_lines) + 1):
for end_index in range(start_index + len(target_lines), len(source_lines) + 1):
current_window = "\n".join(source_lines[start_index:end_index])
current_similarity = calculate_similarity(current_window, target_block)
if current_similarity > best_similarity:
best_similarity = current_similarity
best_start_index = start_index
best_end_index = end_index
# Convert line indices back to character indices for replacement
char_start_index = len("\n".join(source_lines[:best_start_index])) + (
1 if best_start_index > 0 else 0
)
char_end_index = len("\n".join(source_lines[:best_end_index]))
return char_start_index, char_end_index
def replace_code_in_source(source_code, replacement_block: str):
"""
Replace the best matching block in the source_code with the replacement_block, considering variable block lengths.
"""
replacement_block = extract_python_code_blocks(replacement_block)[0]
start_index, end_index = find_best_match_location(source_code, replacement_block)
if start_index != -1 and end_index != -1:
# Replace the best matching part with the replacement block
new_source = (
source_code[:start_index] + replacement_block + source_code[end_index:]
)
return new_source
else:
return source_code
class Operator:
def __init__(self) -> None:
self.policy_init = False
def on_event(
self,
dora_event,
send_output,
) -> DoraStatus:
global model, tokenizer
if dora_event["type"] == "INPUT" and dora_event["id"] == "text":
input = dora_event["value"][0].as_py()
# Path to the current file
current_file_path = __file__
# Directory of the current file
current_directory = os.path.dirname(current_file_path)
path = current_directory + "/policy.py"
with open(path, "r", encoding="utf8") as f:
code = f.read()
user_message = input
start_llm = time.time()
output = self.ask_llm(
CODE_MODIFIER_TEMPLATE.format(code=code, user_message=user_message)
)
source_code = replace_code_in_source(code, output)
print("response time:", time.time() - start_llm, flush=True)
print("response: ", output, flush=True)
with open(path, "w") as file:
file.write(source_code)
gc.collect()
torch.cuda.empty_cache()
return DoraStatus.CONTINUE
def ask_llm(self, prompt):
# Generate output
# prompt = PROMPT_TEMPLATE.format(system_message=system_message, prompt=prompt))
input = tokenizer(prompt, return_tensors="pt")
input_ids = input.input_ids.cuda()
# add attention mask here
attention_mask = input.attention_mask.cuda()
output = model.generate(
inputs=input_ids,
temperature=0.7,
do_sample=True,
top_p=0.95,
top_k=40,
max_new_tokens=512,
attention_mask=attention_mask,
eos_token_id=tokenizer.eos_token_id,
)
# Get the tokens from the output, decode them, print them
# Get text between im_start and im_end
return tokenizer.decode(output[0], skip_special_tokens=True)[len(prompt) :]
if __name__ == "__main__":
op = Operator()
# Path to the current file
current_file_path = __file__
# Directory of the current file
current_directory = os.path.dirname(current_file_path)
path = current_directory + "/policy.py"
with open(path, "r", encoding="utf8") as f:
raw = f.read()
op.on_event(
{
"type": "INPUT",
"id": "text",
"value": pa.array(
[
{
"path": path,
"user_message": "go to the office, and then, say I know that you work hard, so I brought some a chocolate, wait for 10 seconds, and then play the office song and then go to the kitchen,",
},
]
),
"metadata": [],
},
print,
)
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