JoPmt's picture
Rename browser (2).py to browser.py
8e94e55 verified
raw
history blame
13.5 kB
# Shamelessly stolen from Microsoft Autogen team: thanks to them for this great resource!
# https://github.com/microsoft/autogen/blob/gaia_multiagent_v01_march_1st/autogen/browser_utils.py
import json
import os
import requests
import re
import io
import uuid
import mimetypes
import time
import pathlib
import pathvalidate
from urllib.parse import urljoin, urlparse, unquote, parse_qs
from urllib.request import url2pathname
from typing import Any, Dict, List, Optional, Union, Tuple
from mdconvert import MarkdownConverter, UnsupportedFormatException, FileConversionException
from serpapi import GoogleSearch
from cookies import COOKIES
from duckduckgo_search import DDGS
class SimpleTextBrowser:
"""(In preview) An extremely simple text-based web browser comparable to Lynx. Suitable for Agentic use."""
def __init__(
self,
start_page: Optional[str] = None,
viewport_size: Optional[int] = 1024 * 8,
downloads_folder: Optional[Union[str, None]] = None,
##serpapi_key: Optional[Union[str, None]] = None,
request_kwargs: Optional[Union[Dict[str, Any], None]] = None,
):
self.start_page: str = start_page if start_page else "about:blank"
self.viewport_size = viewport_size # Applies only to the standard uri types
self.downloads_folder = downloads_folder
self.history: List[Tuple[str, float]] = list()
self.page_title: Optional[str] = None
self.viewport_current_page = 0
self.viewport_pages: List[Tuple[int, int]] = list()
self.set_address(self.start_page)
##self.serpapi_key = serpapi_key
self.request_kwargs = request_kwargs
self.request_kwargs["cookies"] = COOKIES
self._mdconvert = MarkdownConverter()
self._page_content: str = ""
self._find_on_page_query: Union[str, None] = None
self._find_on_page_last_result: Union[int, None] = None # Location of the last result
@property
def address(self) -> str:
"""Return the address of the current page."""
return self.history[-1][0]
def set_address(self, uri_or_path: str) -> None:
# TODO: Handle anchors
self.history.append((uri_or_path, time.time()))
# Handle special URIs
if uri_or_path == "about:blank":
self._set_page_content("")
elif uri_or_path.startswith("google:"):
self._serpapi_search(uri_or_path[len("google:"):].strip())
else:
if (
not uri_or_path.startswith("http:")
and not uri_or_path.startswith("https:")
and not uri_or_path.startswith("file:")
):
if len(self.history) > 1:
prior_address = self.history[-2][0]
uri_or_path = urljoin(prior_address, uri_or_path)
# Update the address with the fully-qualified path
self.history[-1] = (uri_or_path, self.history[-1][1])
self._fetch_page(uri_or_path)
self.viewport_current_page = 0
self.find_on_page_query = None
self.find_on_page_viewport = None
@property
def viewport(self) -> str:
"""Return the content of the current viewport."""
bounds = self.viewport_pages[self.viewport_current_page]
return self.page_content[bounds[0] : bounds[1]]
@property
def page_content(self) -> str:
"""Return the full contents of the current page."""
return self._page_content
def _set_page_content(self, content: str) -> None:
"""Sets the text content of the current page."""
self._page_content = content
self._split_pages()
if self.viewport_current_page >= len(self.viewport_pages):
self.viewport_current_page = len(self.viewport_pages) - 1
def page_down(self) -> None:
self.viewport_current_page = min(self.viewport_current_page + 1, len(self.viewport_pages) - 1)
def page_up(self) -> None:
self.viewport_current_page = max(self.viewport_current_page - 1, 0)
def find_on_page(self, query: str) -> Union[str, None]:
"""Searches for the query from the current viewport forward, looping back to the start if necessary."""
# Did we get here via a previous find_on_page search with the same query?
# If so, map to find_next
if query == self._find_on_page_query and self.viewport_current_page == self._find_on_page_last_result:
return self.find_next()
# Ok it's a new search start from the current viewport
self._find_on_page_query = query
viewport_match = self._find_next_viewport(query, self.viewport_current_page)
if viewport_match is None:
self._find_on_page_last_result = None
return None
else:
self.viewport_current_page = viewport_match
self._find_on_page_last_result = viewport_match
return self.viewport
def find_next(self) -> None:
"""Scroll to the next viewport that matches the query"""
if self._find_on_page_query is None:
return None
starting_viewport = self._find_on_page_last_result
if starting_viewport is None:
starting_viewport = 0
else:
starting_viewport += 1
if starting_viewport >= len(self.viewport_pages):
starting_viewport = 0
viewport_match = self._find_next_viewport(self._find_on_page_query, starting_viewport)
if viewport_match is None:
self._find_on_page_last_result = None
return None
else:
self.viewport_current_page = viewport_match
self._find_on_page_last_result = viewport_match
return self.viewport
def _find_next_viewport(self, query: str, starting_viewport: int) -> Union[int, None]:
"""Search for matches between the starting viewport looping when reaching the end."""
if query is None:
return None
# Normalize the query, and convert to a regular expression
nquery = re.sub(r"\*", "__STAR__", query)
nquery = " " + (" ".join(re.split(r"\W+", nquery))).strip() + " "
nquery = nquery.replace(" __STAR__ ", "__STAR__ ") # Merge isolated stars with prior word
nquery = nquery.replace("__STAR__", ".*").lower()
if nquery.strip() == "":
return None
idxs = list()
idxs.extend(range(starting_viewport, len(self.viewport_pages)))
idxs.extend(range(0, starting_viewport))
for i in idxs:
bounds = self.viewport_pages[i]
content = self.page_content[bounds[0] : bounds[1]]
# TODO: Remove markdown links and images
ncontent = " " + (" ".join(re.split(r"\W+", content))).strip().lower() + " "
if re.search(nquery, ncontent):
return i
return None
def visit_page(self, path_or_uri: str) -> str:
self.set_address(path_or_uri)
return self.viewport
def _split_pages(self) -> None:
# Do not split search results
if self.address.startswith("google:"):
self.viewport_pages = [(0, len(self._page_content))]
return
# Handle empty pages
if len(self._page_content) == 0:
self.viewport_pages = [(0, 0)]
return
# Break the viewport into pages
self.viewport_pages = []
start_idx = 0
while start_idx < len(self._page_content):
end_idx = min(start_idx + self.viewport_size, len(self._page_content)) # type: ignore[operator]
# Adjust to end on a space
while end_idx < len(self._page_content) and self._page_content[end_idx - 1] not in [" ", "\t", "\r", "\n"]:
end_idx += 1
self.viewport_pages.append((start_idx, end_idx))
start_idx = end_idx
def _serpapi_search(self, query: str, filter_year: Optional[int] = None) -> None:
with DDGS() as ddgs:
results = list(ddgs.text(query, max_results=10))
self.page_title = f"{query} - Search"
if not results:
year_filter_message = f" with filter year={filter_year}" if filter_year is not None else ""
self._set_page_content(f"No results found for '{query}'{year_filter_message}. Try with a more general query, or remove the year filter.")
return
web_snippets: List[str] = list()
for idx, page in enumerate(results, 1):
snippet = f"\n{page['body']}" if 'body' in page else ""
redacted_version = f"{idx}. [{page['title']}]({page['href']})\n{self._prev_visit(page['href'])}{snippet}"
web_snippets.append(redacted_version)
content = (f"A search for '{query}' found {len(web_snippets)} results:\n\n## Web Results\n" +
"\n\n".join(web_snippets))
self._set_page_content(content)
def _fetch_page(self, url: str) -> None:
download_path = ""
try:
if url.startswith("file://"):
download_path = os.path.normcase(os.path.normpath(unquote(url[7:])))
res = self._mdconvert.convert_local(download_path)
self.page_title = res.title
self._set_page_content(res.text_content)
else:
# Prepare the request parameters
request_kwargs = self.request_kwargs.copy() if self.request_kwargs is not None else {}
request_kwargs["stream"] = True
# Send a HTTP request to the URL
response = requests.get(url, **request_kwargs)
response.raise_for_status()
# If the HTTP request was successful
content_type = response.headers.get("content-type", "")
# Text or HTML
if "text/" in content_type.lower():
res = self._mdconvert.convert_response(response)
self.page_title = res.title
self._set_page_content(res.text_content)
# A download
else:
# Try producing a safe filename
fname = None
download_path = None
try:
fname = pathvalidate.sanitize_filename(os.path.basename(urlparse(url).path)).strip()
download_path = os.path.abspath(os.path.join(self.downloads_folder, fname))
suffix = 0
while os.path.exists(download_path) and suffix < 1000:
suffix += 1
base, ext = os.path.splitext(fname)
new_fname = f"{base}__{suffix}{ext}"
download_path = os.path.abspath(os.path.join(self.downloads_folder, new_fname))
except NameError:
pass
# No suitable name, so make one
if fname is None:
extension = mimetypes.guess_extension(content_type)
if extension is None:
extension = ".download"
fname = str(uuid.uuid4()) + extension
download_path = os.path.abspath(os.path.join(self.downloads_folder, fname))
# Open a file for writing
with open(download_path, "wb") as fh:
for chunk in response.iter_content(chunk_size=512):
fh.write(chunk)
# Render it
local_uri = pathlib.Path(download_path).as_uri()
self.set_address(local_uri)
except UnsupportedFormatException as e:
print(e)
self.page_title = ("Download complete.",)
self._set_page_content(f"# Download complete\n\nSaved file to '{download_path}'")
except FileConversionException as e:
print(e)
self.page_title = ("Download complete.",)
self._set_page_content(f"# Download complete\n\nSaved file to '{download_path}'")
except FileNotFoundError:
self.page_title = "Error 404"
self._set_page_content(f"## Error 404\n\nFile not found: {download_path}")
except requests.exceptions.RequestException as request_exception:
try:
self.page_title = f"Error {response.status_code}"
# If the error was rendered in HTML we might as well render it
content_type = response.headers.get("content-type", "")
if content_type is not None and "text/html" in content_type.lower():
res = self._mdconvert.convert(response)
self.page_title = f"Error {response.status_code}"
self._set_page_content(f"## Error {response.status_code}\n\n{res.text_content}")
else:
text = ""
for chunk in response.iter_content(chunk_size=512, decode_unicode=True):
text += chunk
self.page_title = f"Error {response.status_code}"
self._set_page_content(f"## Error {response.status_code}\n\n{text}")
except NameError:
self.page_title = f"Error"
self._set_page_content(f"## Error\n\n{str(request_exception)}")