# flake8: noqa import time from sys import platform from typing import ( TYPE_CHECKING, Any, Dict, Iterable, List, Optional, Set, Tuple, TypedDict, Union, ) if TYPE_CHECKING: from playwright.sync_api import Browser, CDPSession, Page, sync_playwright black_listed_elements: Set[str] = { "html", "head", "title", "meta", "iframe", "body", "script", "style", "path", "svg", "br", "::marker", } class ElementInViewPort(TypedDict): """A typed dictionary containing information about elements in the viewport.""" node_index: str backend_node_id: int node_name: Optional[str] node_value: Optional[str] node_meta: List[str] is_clickable: bool origin_x: int origin_y: int center_x: int center_y: int class Crawler: """A crawler for web pages. **Security Note**: This is an implementation of a crawler that uses a browser via Playwright. This crawler can be used to load arbitrary webpages INCLUDING content from the local file system. Control access to who can submit crawling requests and what network access the crawler has. Make sure to scope permissions to the minimal permissions necessary for the application. See https://python.langchain.com/docs/security for more information. """ def __init__(self) -> None: try: from playwright.sync_api import sync_playwright except ImportError: raise ImportError( "Could not import playwright python package. " "Please install it with `pip install playwright`." ) self.browser: Browser = ( sync_playwright().start().chromium.launch(headless=False) ) self.page: Page = self.browser.new_page() self.page.set_viewport_size({"width": 1280, "height": 1080}) self.page_element_buffer: Dict[int, ElementInViewPort] self.client: CDPSession def go_to_page(self, url: str) -> None: self.page.goto(url=url if "://" in url else "http://" + url) self.client = self.page.context.new_cdp_session(self.page) self.page_element_buffer = {} def scroll(self, direction: str) -> None: if direction == "up": self.page.evaluate( "(document.scrollingElement || document.body).scrollTop = (document.scrollingElement || document.body).scrollTop - window.innerHeight;" ) elif direction == "down": self.page.evaluate( "(document.scrollingElement || document.body).scrollTop = (document.scrollingElement || document.body).scrollTop + window.innerHeight;" ) def click(self, id: Union[str, int]) -> None: # Inject javascript into the page which removes the target= attribute from all links js = """ links = document.getElementsByTagName("a"); for (var i = 0; i < links.length; i++) { links[i].removeAttribute("target"); } """ self.page.evaluate(js) element = self.page_element_buffer.get(int(id)) if element: x: float = element["center_x"] y: float = element["center_y"] self.page.mouse.click(x, y) else: print("Could not find element") # noqa: T201 def type(self, id: Union[str, int], text: str) -> None: self.click(id) self.page.keyboard.type(text) def enter(self) -> None: self.page.keyboard.press("Enter") def crawl(self) -> List[str]: page = self.page page_element_buffer = self.page_element_buffer start = time.time() page_state_as_text = [] device_pixel_ratio: float = page.evaluate("window.devicePixelRatio") if platform == "darwin" and device_pixel_ratio == 1: # lies device_pixel_ratio = 2 win_upper_bound: float = page.evaluate("window.pageYOffset") win_left_bound: float = page.evaluate("window.pageXOffset") win_width: float = page.evaluate("window.screen.width") win_height: float = page.evaluate("window.screen.height") win_right_bound: float = win_left_bound + win_width win_lower_bound: float = win_upper_bound + win_height # percentage_progress_start = (win_upper_bound / document_scroll_height) * 100 # percentage_progress_end = ( # (win_height + win_upper_bound) / document_scroll_height # ) * 100 percentage_progress_start = 1 percentage_progress_end = 2 page_state_as_text.append( { "x": 0, "y": 0, "text": "[scrollbar {:0.2f}-{:0.2f}%]".format( round(percentage_progress_start, 2), round(percentage_progress_end) ), } ) tree = self.client.send( "DOMSnapshot.captureSnapshot", {"computedStyles": [], "includeDOMRects": True, "includePaintOrder": True}, ) strings: Dict[int, str] = tree["strings"] document: Dict[str, Any] = tree["documents"][0] nodes: Dict[str, Any] = document["nodes"] backend_node_id: Dict[int, int] = nodes["backendNodeId"] attributes: Dict[int, Dict[int, Any]] = nodes["attributes"] node_value: Dict[int, int] = nodes["nodeValue"] parent: Dict[int, int] = nodes["parentIndex"] node_names: Dict[int, int] = nodes["nodeName"] is_clickable: Set[int] = set(nodes["isClickable"]["index"]) input_value: Dict[str, Any] = nodes["inputValue"] input_value_index: List[int] = input_value["index"] input_value_values: List[int] = input_value["value"] layout: Dict[str, Any] = document["layout"] layout_node_index: List[int] = layout["nodeIndex"] bounds: Dict[int, List[float]] = layout["bounds"] cursor: int = 0 child_nodes: Dict[str, List[Dict[str, Any]]] = {} elements_in_view_port: List[ElementInViewPort] = [] anchor_ancestry: Dict[str, Tuple[bool, Optional[int]]] = {"-1": (False, None)} button_ancestry: Dict[str, Tuple[bool, Optional[int]]] = {"-1": (False, None)} def convert_name( node_name: Optional[str], has_click_handler: Optional[bool] ) -> str: if node_name == "a": return "link" if node_name == "input": return "input" if node_name == "img": return "img" if ( node_name == "button" or has_click_handler ): # found pages that needed this quirk return "button" else: return "text" def find_attributes( attributes: Dict[int, Any], keys: List[str] ) -> Dict[str, str]: values = {} for [key_index, value_index] in zip(*(iter(attributes),) * 2): if value_index < 0: continue key = strings[key_index] value = strings[value_index] if key in keys: values[key] = value keys.remove(key) if not keys: return values return values def add_to_hash_tree( hash_tree: Dict[str, Tuple[bool, Optional[int]]], tag: str, node_id: int, node_name: Optional[str], parent_id: int, ) -> Tuple[bool, Optional[int]]: parent_id_str = str(parent_id) if not parent_id_str in hash_tree: parent_name = strings[node_names[parent_id]].lower() grand_parent_id = parent[parent_id] add_to_hash_tree( hash_tree, tag, parent_id, parent_name, grand_parent_id ) is_parent_desc_anchor, anchor_id = hash_tree[parent_id_str] # even if the anchor is nested in another anchor, we set the "root" for all descendants to be ::Self if node_name == tag: value: Tuple[bool, Optional[int]] = (True, node_id) elif ( is_parent_desc_anchor ): # reuse the parent's anchor_id (which could be much higher in the tree) value = (True, anchor_id) else: value = ( False, None, ) # not a descendant of an anchor, most likely it will become text, an interactive element or discarded hash_tree[str(node_id)] = value return value for index, node_name_index in enumerate(node_names): node_parent = parent[index] node_name: Optional[str] = strings[node_name_index].lower() is_ancestor_of_anchor, anchor_id = add_to_hash_tree( anchor_ancestry, "a", index, node_name, node_parent ) is_ancestor_of_button, button_id = add_to_hash_tree( button_ancestry, "button", index, node_name, node_parent ) try: cursor = layout_node_index.index( index ) # todo replace this with proper cursoring, ignoring the fact this is O(n^2) for the moment except: continue if node_name in black_listed_elements: continue [x, y, width, height] = bounds[cursor] x /= device_pixel_ratio y /= device_pixel_ratio width /= device_pixel_ratio height /= device_pixel_ratio elem_left_bound = x elem_top_bound = y elem_right_bound = x + width elem_lower_bound = y + height partially_is_in_viewport = ( elem_left_bound < win_right_bound and elem_right_bound >= win_left_bound and elem_top_bound < win_lower_bound and elem_lower_bound >= win_upper_bound ) if not partially_is_in_viewport: continue meta_data: List[str] = [] # inefficient to grab the same set of keys for kinds of objects, but it's fine for now element_attributes = find_attributes( attributes[index], ["type", "placeholder", "aria-label", "title", "alt"] ) ancestor_exception = is_ancestor_of_anchor or is_ancestor_of_button ancestor_node_key = ( None if not ancestor_exception else str(anchor_id) if is_ancestor_of_anchor else str(button_id) ) ancestor_node = ( None if not ancestor_exception else child_nodes.setdefault(str(ancestor_node_key), []) ) if node_name == "#text" and ancestor_exception and ancestor_node: text = strings[node_value[index]] if text == "|" or text == "•": continue ancestor_node.append({"type": "type", "value": text}) else: if ( node_name == "input" and element_attributes.get("type") == "submit" ) or node_name == "button": node_name = "button" element_attributes.pop( "type", None ) # prevent [button ... (button)..] for key in element_attributes: if ancestor_exception and ancestor_node: ancestor_node.append( { "type": "attribute", "key": key, "value": element_attributes[key], } ) else: meta_data.append(element_attributes[key]) element_node_value = None if node_value[index] >= 0: element_node_value = strings[node_value[index]] if ( element_node_value == "|" ): # commonly used as a separator, does not add much context - lets save ourselves some token space continue elif ( node_name == "input" and index in input_value_index and element_node_value is None ): node_input_text_index = input_value_index.index(index) text_index = input_value_values[node_input_text_index] if node_input_text_index >= 0 and text_index >= 0: element_node_value = strings[text_index] # remove redundant elements if ancestor_exception and (node_name != "a" and node_name != "button"): continue elements_in_view_port.append( { "node_index": str(index), "backend_node_id": backend_node_id[index], "node_name": node_name, "node_value": element_node_value, "node_meta": meta_data, "is_clickable": index in is_clickable, "origin_x": int(x), "origin_y": int(y), "center_x": int(x + (width / 2)), "center_y": int(y + (height / 2)), } ) # lets filter further to remove anything that does not hold any text nor has click handlers + merge text from leaf#text nodes with the parent elements_of_interest = [] id_counter = 0 for element in elements_in_view_port: node_index = element.get("node_index") node_name = element.get("node_name") element_node_value = element.get("node_value") node_is_clickable = element.get("is_clickable") node_meta_data: Optional[List[str]] = element.get("node_meta") inner_text = f"{element_node_value} " if element_node_value else "" meta = "" if node_index in child_nodes: for child in child_nodes[node_index]: entry_type = child.get("type") entry_value = child.get("value") if entry_type == "attribute" and node_meta_data: entry_key = child.get("key") node_meta_data.append(f'{entry_key}="{entry_value}"') else: inner_text += f"{entry_value} " if node_meta_data: meta_string = " ".join(node_meta_data) meta = f" {meta_string}" if inner_text != "": inner_text = f"{inner_text.strip()}" converted_node_name = convert_name(node_name, node_is_clickable) # not very elegant, more like a placeholder if ( (converted_node_name != "button" or meta == "") and converted_node_name != "link" and converted_node_name != "input" and converted_node_name != "img" and converted_node_name != "textarea" ) and inner_text.strip() == "": continue page_element_buffer[id_counter] = element if inner_text != "": elements_of_interest.append( f"""<{converted_node_name} id={id_counter}{meta}>{inner_text}""" ) else: elements_of_interest.append( f"""<{converted_node_name} id={id_counter}{meta}/>""" ) id_counter += 1 print("Parsing time: {:0.2f} seconds".format(time.time() - start)) # noqa: T201 return elements_of_interest