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""" |
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Utilities for code parsing, diffing, and manipulation |
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""" |
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import re |
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from typing import Dict, List, Optional, Tuple, Union |
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def parse_evolve_blocks(code: str) -> List[Tuple[int, int, str]]: |
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""" |
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Parse evolve blocks from code |
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Args: |
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code: Source code with evolve blocks |
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Returns: |
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List of tuples (start_line, end_line, block_content) |
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""" |
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lines = code.split("\n") |
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blocks = [] |
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in_block = False |
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start_line = -1 |
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block_content = [] |
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for i, line in enumerate(lines): |
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if "# EVOLVE-BLOCK-START" in line: |
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in_block = True |
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start_line = i |
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block_content = [] |
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elif "# EVOLVE-BLOCK-END" in line and in_block: |
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in_block = False |
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blocks.append((start_line, i, "\n".join(block_content))) |
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elif in_block: |
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block_content.append(line) |
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return blocks |
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def apply_diff( |
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original_code: str, |
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diff_text: str, |
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diff_pattern: str = r"<<<<<<< SEARCH\n(.*?)=======\n(.*?)>>>>>>> REPLACE", |
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) -> str: |
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""" |
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Apply a diff to the original code |
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Args: |
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original_code: Original source code |
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diff_text: Diff in the SEARCH/REPLACE format |
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diff_pattern: Regex pattern for the SEARCH/REPLACE format |
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Returns: |
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Modified code |
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""" |
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original_lines = original_code.split("\n") |
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result_lines = original_lines.copy() |
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diff_blocks = extract_diffs(diff_text, diff_pattern) |
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for search_text, replace_text in diff_blocks: |
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search_lines = search_text.split("\n") |
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replace_lines = replace_text.split("\n") |
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for i in range(len(result_lines) - len(search_lines) + 1): |
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if result_lines[i : i + len(search_lines)] == search_lines: |
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result_lines[i : i + len(search_lines)] = replace_lines |
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break |
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return "\n".join(result_lines) |
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def extract_diffs( |
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diff_text: str, diff_pattern: str = r"<<<<<<< SEARCH\n(.*?)=======\n(.*?)>>>>>>> REPLACE" |
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) -> List[Tuple[str, str]]: |
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""" |
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Extract diff blocks from the diff text |
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Args: |
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diff_text: Diff in the SEARCH/REPLACE format |
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diff_pattern: Regex pattern for the SEARCH/REPLACE format |
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Returns: |
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List of tuples (search_text, replace_text) |
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""" |
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diff_blocks = re.findall(diff_pattern, diff_text, re.DOTALL) |
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return [(match[0].rstrip(), match[1].rstrip()) for match in diff_blocks] |
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def parse_full_rewrite(llm_response: str, language: str = "python") -> Optional[str]: |
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""" |
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Extract a full rewrite from an LLM response |
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Args: |
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llm_response: Response from the LLM |
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language: Programming language |
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Returns: |
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Extracted code or None if not found |
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""" |
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code_block_pattern = r"```" + language + r"\n(.*?)```" |
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matches = re.findall(code_block_pattern, llm_response, re.DOTALL) |
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if matches: |
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return matches[0].strip() |
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code_block_pattern = r"```(.*?)```" |
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matches = re.findall(code_block_pattern, llm_response, re.DOTALL) |
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if matches: |
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return matches[0].strip() |
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return llm_response |
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def format_diff_summary(diff_blocks: List[Tuple[str, str]]) -> str: |
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""" |
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Create a human-readable summary of the diff |
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Args: |
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diff_blocks: List of (search_text, replace_text) tuples |
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Returns: |
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Summary string |
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""" |
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summary = [] |
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for i, (search_text, replace_text) in enumerate(diff_blocks): |
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search_lines = search_text.strip().split("\n") |
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replace_lines = replace_text.strip().split("\n") |
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if len(search_lines) == 1 and len(replace_lines) == 1: |
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summary.append(f"Change {i+1}: '{search_lines[0]}' to '{replace_lines[0]}'") |
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else: |
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search_summary = ( |
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f"{len(search_lines)} lines" if len(search_lines) > 1 else search_lines[0] |
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) |
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replace_summary = ( |
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f"{len(replace_lines)} lines" if len(replace_lines) > 1 else replace_lines[0] |
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) |
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summary.append(f"Change {i+1}: Replace {search_summary} with {replace_summary}") |
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return "\n".join(summary) |
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def calculate_edit_distance(code1: str, code2: str) -> int: |
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""" |
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Calculate the Levenshtein edit distance between two code snippets |
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Args: |
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code1: First code snippet |
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code2: Second code snippet |
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Returns: |
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Edit distance (number of operations needed to transform code1 into code2) |
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""" |
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if code1 == code2: |
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return 0 |
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m, n = len(code1), len(code2) |
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dp = [[0 for _ in range(n + 1)] for _ in range(m + 1)] |
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for i in range(m + 1): |
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dp[i][0] = i |
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for j in range(n + 1): |
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dp[0][j] = j |
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for i in range(1, m + 1): |
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for j in range(1, n + 1): |
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cost = 0 if code1[i - 1] == code2[j - 1] else 1 |
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dp[i][j] = min( |
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dp[i - 1][j] + 1, |
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dp[i][j - 1] + 1, |
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dp[i - 1][j - 1] + cost, |
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) |
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return dp[m][n] |
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def extract_code_language(code: str) -> str: |
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""" |
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Try to determine the language of a code snippet |
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Args: |
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code: Code snippet |
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Returns: |
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Detected language or "unknown" |
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""" |
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if re.search(r"^(import|from|def|class)\s", code, re.MULTILINE): |
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return "python" |
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elif re.search(r"^(package|import java|public class)", code, re.MULTILINE): |
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return "java" |
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elif re.search(r"^(#include|int main|void main)", code, re.MULTILINE): |
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return "cpp" |
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elif re.search(r"^(function|var|let|const|console\.log)", code, re.MULTILINE): |
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return "javascript" |
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elif re.search(r"^(module|fn|let mut|impl)", code, re.MULTILINE): |
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return "rust" |
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elif re.search(r"^(SELECT|CREATE TABLE|INSERT INTO)", code, re.MULTILINE): |
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return "sql" |
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return "unknown" |
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