def scrape_data(zc): st = zc conn = boto.connect_s3() bucket = conn.get_bucket('zillowstreamjk') # Create 11 variables from the scrapped HTML data. # These variables will make up the final output dataframe. # df = pd.DataFrame({'address': [], # 'bathrooms': [], # 'bedrooms': [], # 'city': [], # 'days_on_zillow': [], # 'price': [], # 'sale_type': [], # 'state': [], # 'sqft': [], # 'url': [], # 'zip': []}) # Get total number of search terms. numSearchTerms = len(st) # Start the scraping. for k in range(numSearchTerms): # Define search term (must be str object). search_term = st[k] # Enter search term and execute search. if zl.enter_search_term(driver, search_term): print("Entering search term number " + str(k + 1) + " out of " + str(numSearchTerms)) else: print("Search term " + str(k + 1) + " failed, moving onto next search term\n***") continue # Check to see if any results were returned from the search. # If there were none, move onto the next search. if zl.results_test(driver): print("Search " + str(search_term) + " returned zero results. Moving onto the next search\n***") continue # Pull the html for each page of search results. Zillow caps results at # 20 pages, each page can contain 26 home listings, thus the cap on home # listings per search is 520. rawdata = zl.get_html(driver) print(str(len(rawdata)) + " pages of listings found") listings = zl.get_listings(rawdata) # Take the extracted HTML and split it up by individual home listings. k = boto.s3.key.Key(bucket) localtime = time.localtime() timeString = time.strftime("%Y%m%d%H%M%S", localtime) k.key = 'market/general/LA' + ''.join(timeString) k.content_type = 'text/html' k.set_contents_from_string(str(listings), policy='public-read')
for k in range(num_search_terms): # Define search term (must be str object). search_term = st[k] # Enter search term and execute search. if zl.enter_search_term(driver, search_term): print("Entering search term number " + str(k + 1) + " out of " + str(num_search_terms)) else: print("Search term " + str(k + 1) + " failed, moving onto next search term\n***") continue # Check to see if any results were returned from the search. # If there were none, move onto the next search. if zl.results_test(driver): print("Search " + str(search_term) + " returned zero results. Moving onto the next search\n***") continue # Pull the html for each page of search results. Zillow caps results at # 20 pages, each page can contain 26 home listings, thus the cap on home # listings per search is 520. raw_data = zl.get_html(driver) print(str(len(raw_data)) + " pages of listings found") # Take the extracted HTML and split it up by individual home listings. listings = zl.get_listings(raw_data) # For each home listing, extract the 11 variables that will populate that # specific observation within the output dataframe.
count = 0 # Get total number of search terms. numSearchTerms = len(st) for k in range(len(st)): # Define search term (must be str object). search_term = st[k] # Enter search term and execute search. zl.enter_search_term(driver, search_term, k, numSearchTerms) time.sleep(3) # Check to see if any results were returned from the search. # If there were none, move onto the next search. if zl.results_test(driver, search_term): continue # Pull the html for each page of search results. Zillow caps results at # 20 pages, each page can contain 26 home listings, thus the cap on home # listings per search is 520. rawdata = zl.get_html(driver) # Take the extracted HTML and split it up by individual home listings. listings = zl.get_listings(rawdata) for n in range(len(listings)): # Street address, city, state, and zipcode addressSplit, address = zl.get_street_address(listings[n]) if addressSplit != 'NA': city = zl.get_city(addressSplit, address)
def search(event): # Create list of search terms. # Function zipcodes_list() creates a list of US zip codes that will be # passed to the scraper. For example, st = zipcodes_list(['10', '11', '606']) # will yield every US zip code that begins with '10', begins with "11", or # begins with "606" as a single list. # I recommend using zip codes, as they seem to be the best option for catching # as many house listings as possible. If you want to use search terms other # than zip codes, simply skip running zipcodes_list() function below, and add # a line of code to manually assign values to object st, for example: # st = ['Chicago', 'New Haven, CT', '77005', 'Jacksonville, FL'] # Keep in mind that, for each search term, the number of listings scraped is # capped at 520, so in using a search term like "Chicago" the scraper would # end up missing most of the results. # Param st_items can be either a list of zipcode strings, or a single zipcode # string. global list_of_zipcodes if len(list_of_zipcodes) == 0: print("No inputs given") zipcodes_label['text'] = "No Inputs Given" return st = zl.zipcodes_list(st_items=list(list_of_zipcodes)) # Initialize the webdriver. driver = zl.init_driver( "/Users/jasontu/Projects/Real_Estate_Aggregator/Zillow/chromedriver") # Go to www.zillow.com/homes zl.navigate_to_website(driver, "http://www.zillow.com/homes") # Click the "buy" button. zl.click_buy_button(driver) # Create 11 variables from the scrapped HTML data. # These variables will make up the final output dataframe. df = pd.DataFrame({ 'address': [], 'bathrooms': [], 'bedrooms': [], 'city': [], 'days_on_zillow': [], 'price': [], 'sale_type': [], 'state': [], 'sqft': [], 'url': [], 'zip': [] }) # Get total number of search terms. num_search_terms = len(st) # Start the scraping. for k in range(num_search_terms): # Define search term (must be str object). search_term = st[k] # Enter search term and execute search. if zl.enter_search_term(driver, search_term): print("Entering search term number " + str(k + 1) + ": '" + search_term + "' " + " out of " + str(num_search_terms)) else: print("Search term " + str(k + 1) + ": '" + search_term + "' " + " failed, moving onto next search term\n***") continue # Check to see if any results were returned from the search. # If there were none, move onto the next search. if zl.results_test(driver): print("Search " + str(search_term) + " returned zero results. Moving onto the next search\n***") continue # Pull the html for each page of search results. Zillow caps results at # 20 pages, each page can contain 26 home listings, thus the cap on home # listings per search is 520. raw_data = zl.get_html(driver) print(str(len(raw_data)) + " pages of listings found") # Take the extracted HTML and split it up by individual home listings. listings = zl.get_listings(raw_data) # For each home listing, extract the 11 variables that will populate that # specific observation within the output dataframe. for n in range(len(listings)): soup = BeautifulSoup(listings[n], "lxml") new_obs = [] # List that contains number of beds, baths, and total sqft (and # sometimes price as well). card_info = zl.get_card_info(soup) # Street Address new_obs.append(zl.get_street_address(soup)) # Bathrooms new_obs.append(zl.get_bathrooms(card_info)) # Bedrooms new_obs.append(zl.get_bedrooms(card_info)) # City new_obs.append(zl.get_city(soup)) # Days on the Market/Zillow new_obs.append(zl.get_days_on_market(soup)) # Price new_obs.append(zl.get_price(soup, card_info)) # Sale Type (House for Sale, New Construction, Foreclosure, etc.) new_obs.append(zl.get_sale_type(soup)) # Sqft new_obs.append(zl.get_sqft(card_info)) # State new_obs.append(zl.get_state(soup)) # URL for each house listing new_obs.append(zl.get_url(soup)) # Zipcode new_obs.append(zl.get_zipcode(soup)) # Append new_obs to df as a new observation if len(new_obs) == len(df.columns): df.loc[len(df.index)] = new_obs # Close the webdriver connection. zl.close_connection(driver) # Write df to CSV. columns = [ 'address', 'city', 'state', 'zip', 'price', 'sqft', 'bedrooms', 'bathrooms', 'days_on_zillow', 'sale_type', 'url' ] df = df[columns] dt = time.strftime("%Y-%m-%d") + "_" + time.strftime("%H%M%S") file_name = str(dt) + ".csv" df.to_csv(file_name, index=False) zipcodes_label[ 'text'] = "Scraping Complete. Review the following CSV file: \n" + str( dt) + ".csv" return