def get_group_top_content(req_obj): # Establish database connection gc.connect_to_database() group_guid = get_group_guid(req_obj['url']) # Get the guids of all content within group guid_list = gc.content.get_top_content(group_guid) # Get the clean group name from the guid group_name = gc.groups.name_from_guid(group_guid) # Build regex string from guids regex_str = '' if len(guid_list) == 0: # If no content is found create an unmatchable string regex_str = 'a^' else: l = guid_list.values.astype(str).tolist() for i in range(len(l)): # ADD FIX TO GCCONNEX regex_str = regex_str + ('/' + l[i][0] + '/|') # Remove trailing pipe regex_str = regex_str[:-1] # Send google analytics request with regex string ga = gcga() ga.set_platform('gccollab') ret = ga.content_views(regex_str) # Format results and print to stdout ret['group_name'] = group_name print(json.dumps(ret))
def get_group_name_db(req_obj, write=True): gc.connect_to_database() url = req_obj['url'] url2 = url[url.find('profile/'):] url3 = url2[url2.find('/') + 1:] group_guid = url3[:url3.find('/')] group_name = gc.groups.name_from_guid(group_guid) if write == False: return group_name else: print(json.dumps({'name': group_name}))
def get_group_name(urlString, req_type): try: url2 = urlString[urlString.find('profile/'):] url3 = url2[url2.find('/') + 1:] url4 = url3[url3.find('/') + 1:] return url4 except: gc.connect_to_database() gc.create_session() url = req_type['filter'] url2 = url[url.find('profile/'):] url3 = url2[url2.find('/') + 1:] group_guid = url3[:url3.find('/')] group_name = gc.groups.name_from_guid(group_guid) return group_name
def connect_to_collab(): """ Helper function to streamline connection to the GCcollab database """ engine, conn = gccollab.connect_to_database() session, Base = gccollab.create_session() return engine, conn, session, Base
def get_group_members_by_department(req_obj): gc.connect_to_database() # Determine group guid group_guid = get_group_guid(req_obj['url']) members = gc.groups.get_group_members(group_guid) # The index used below could be any column, not important members = members.groupby('department').count().reset_index().set_index( 'time_created').sort_index(ascending=False).reset_index() send_obj = { 'departments': members['department'].values.tolist(), 'members': members['time_created'].values.tolist() } print(json.dumps(send_obj))
def main(testing=False): # Get JSON object from stdin if testing == False: req_obj = read_in() else: req_obj = json.loads(testing) # Pick apart request object req_type = req_obj['reqType'] metric = req_obj['metric'] metric2 = req_obj['metric2'] start_time = req_obj['time']['startDate'] end_time = req_obj['time']['endDate'] all_time = req_obj['time']['allTime'] #https://gcconnex.gc.ca/newsfeed/ # https://gcconnex.gc.ca/groups/profile/24345174/endata-visualizationfr # https://gcconnex.gc.ca/groups/profile/272967/enblueprint-2020-objectif-2020fr # Start parsing the request. This is where it gets interesting / messy! # Type if req_type['category'] == 1: # Groups url = req_type['filter'] if metric == 1: # Pageviews ga = gcga() ga.set_platform('gccollab') group_name = get_group_name(url, req_type) # Request a dataframe containing pageviews and corresponding dates ret = ga.pageviews([url, 'NOToffset'], intervals=True, start_date=start_time, end_date=end_time) ret['group_name'] = group_name print(json.dumps(ret)) elif metric == 2: # Top content # Establish database connection gc.connect_to_database() gc.create_session() # Figure out group guid from url url2 = url[url.find('profile/'):] url3 = url2[url2.find('/') + 1:] group_guid = url3[:url3.find('/')] # Get the guids of all content within group guid_list = gc.content.get_top_content(group_guid) # Get the clean group name from the guid group_name = gc.groups.name_from_guid(group_guid) # Build regex string from guids regex_str = '' l = guid_list.values.astype(str).tolist() for i in range(len(l)): regex_str = regex_str + ('/' + l[i][0] + '/|' ) # ADD FIX TO GCCONNEX # Remove trailing pipe regex_str = regex_str[:-1] # Send google analytics request with regex string ga = gcga() ga.set_platform('gccollab') ret = ga.content_views(regex_str) # Format results and print to stdout ret['group_name'] = group_name print(json.dumps(ret)) elif metric == 3: # Number of members # Establish database connection gc.connect_to_database() gc.create_session() # Determine group guid group_guid = get_group_guid(url) # Query the database group_members = gc.groups.get_group_members(group_guid, cleaned=False) group_name = gc.groups.name_from_guid(group_guid) # Get mungin' # Convert timjes to datetime objects group_members['time_created'] = group_members[ 'time_created'].apply(lambda x: pd.to_datetime(x)) group_members.set_index('time_created', inplace=True) group_members = group_members[ group_members.index > pd.to_datetime('2000-01-01')] # Daily group_members_daily = group_members['user_name'].groupby( pd.TimeGrouper(freq='D')).count().cumsum() group_members_daily = group_members_daily.reset_index() # Only keep current time selection group_members_daily = group_members_daily[ group_members_daily['time_created'] >= pd.to_datetime( start_time)] group_members_daily = group_members_daily[ group_members_daily['time_created'] <= pd.to_datetime( end_time)] # If the requested start date predates the oldest time on the dataframe, pad with 0s if min(group_members_daily['time_created']) > pd.to_datetime( start_time): ix = pd.DatetimeIndex(start=pd.to_datetime(start_time), end=max( group_members_daily['time_created']), freq='D') group_members_daily = group_members_daily.set_index( 'time_created').reindex(ix, fill_value=0).reset_index() group_members_daily.rename(columns={'index': 'time_created'}, inplace=True) group_members_daily['time_created'] = group_members_daily[ 'time_created'].apply(lambda x: x.strftime('%Y%m%d')) # Monthly group_members_monthly = group_members['user_name'].groupby( pd.TimeGrouper(freq='M')).count().cumsum() group_members_monthly = group_members_monthly.reset_index() # Only keep current time selection group_members_monthly = group_members_monthly[ group_members_monthly['time_created'] >= pd.to_datetime( start_time)] group_members_monthly = group_members_monthly[ group_members_monthly['time_created'] <= pd.to_datetime( end_time)] # (monthly) If the requested start date predates the oldest time on the dataframe, pad with 0s if min(group_members_monthly['time_created']) > pd.to_datetime( start_time): ix = pd.DatetimeIndex( start=pd.to_datetime(start_time), end=max(group_members_monthly['time_created']), freq='M') group_members_monthly = group_members_monthly.set_index( 'time_created').reindex(ix, fill_value=0).reset_index() group_members_monthly.rename(columns={'index': 'time_created'}, inplace=True) group_members_monthly['time_created'] = group_members_monthly[ 'time_created'].apply(lambda x: x.strftime('%Y%m%d')) send_obj = { 'monthly': { 'dates': group_members_monthly['time_created'].values.tolist(), 'users': group_members_monthly['user_name'].values.tolist() }, 'daily': { 'dates': group_members_daily['time_created'].values.tolist(), 'users': group_members_daily['user_name'].values.tolist(), }, 'group_name': group_name } print(json.dumps(send_obj)) elif metric == 4: # Group members by department gc.connect_to_database() gc.create_session() # Determine group guid group_guid = get_group_guid(url) members = gc.groups.get_group_members(group_guid) # The index used below could be any column, not important members = members.groupby('department').count().reset_index( ).set_index('time_created').sort_index( ascending=False).reset_index() send_obj = { 'departments': members['department'].values.tolist(), 'members': members['time_created'].values.tolist() } print(json.dumps(send_obj)) elif req_type['category'] == 2: # Users if req_type['filter'] == 1: # All users # This is for both 'Registered users' and 'Active users' queries. # (The queries only differ by one line) gc.connect_to_database() gc.create_session() users = gc.users.get_all() users['time_created'] = users['time_created'].apply( lambda x: pd.to_datetime(x)) # Get monthly totals monthly = users.set_index('time_created').groupby( pd.TimeGrouper(freq='M')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] monthly['time_created'] = monthly['time_created'].apply( lambda x: x.strftime('%Y%m%d')) # Get daily totals daily = users.set_index('time_created').groupby( pd.TimeGrouper(freq='D')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] daily['time_created'] = daily['time_created'].apply( lambda x: x.strftime('%Y%m%d')) send_obj = { 'monthly': { 'dates': monthly['time_created'].values.tolist(), 'users': monthly['email'].values.tolist() }, 'daily': { 'dates': daily['time_created'].values.tolist(), 'users': daily['email'].values.tolist() } } print(json.dumps(send_obj)) elif req_type['filter'] == 2: # Users from a particular department if metric2 == 1: # Number of users from particular department gc.connect_to_database() gc.create_session() users = gc.users.department() users['time_created'] = users['time_created'].apply( lambda x: pd.to_datetime(x)) # Only keep users from indicated department # Need to import that list of deps to parse the number from dep_list = [] with open('en_dpts.json') as depts: depts_dict = json.load(depts) for dep in depts_dict.values(): dep_list.append(dep) # Figure out the corresponding index dep = dep_list[metric] users = users[users['string'].str.contains(dep)] # Get monthly totals monthly = users.set_index('time_created').groupby( pd.TimeGrouper(freq='M')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] monthly['time_created'] = monthly['time_created'].apply( lambda x: x.strftime('%Y%m%d')) # Get daily totals daily = users.set_index('time_created').groupby( pd.TimeGrouper(freq='D')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] daily['time_created'] = daily['time_created'].apply( lambda x: x.strftime('%Y%m%d')) send_obj = { 'monthly': { 'dates': monthly['time_created'].values.tolist(), 'users': monthly['email'].values.tolist() }, 'daily': { 'dates': daily['time_created'].values.tolist(), 'users': daily['email'].values.tolist() } } print(json.dumps(send_obj)) elif metric2 == 2: # Users opted in to oppurtunities platform from particular department gc.connect_to_database() gc.create_session() users = gc.micromissions.get_users() dep_list = [] with open('en_dpts.json') as depts: depts_dict = json.load(depts) for dep in depts_dict.values(): dep_list.append(dep) # Figure out the corresponding index dep = dep_list[metric] users = users[users['department'].str.contains(dep)] users = users[users['opt-in'].str.contains('yes')] # Get monthly totals monthly = users.set_index('time_created').groupby( pd.TimeGrouper(freq='M')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] monthly['time_created'] = monthly['time_created'].apply( lambda x: x.strftime('%Y%m%d')) # Get daily totals daily = users.set_index('time_created').groupby( pd.TimeGrouper(freq='D')).count().cumsum().reset_index()[[ 'time_created', 'email' ]] daily['time_created'] = daily['time_created'].apply( lambda x: x.strftime('%Y%m%d')) send_obj = { 'monthly': { 'dates': monthly['time_created'].values.tolist(), 'users': monthly['email'].values.tolist() }, 'daily': { 'dates': daily['time_created'].values.tolist(), 'users': daily['email'].values.tolist() } } print(json.dumps(send_obj))
def get_group_members_over_time(req_obj): # Establish database connection gc.connect_to_database() # Determine group guid group_guid = get_group_guid(req_obj['url']) # Query the database group_members = gc.groups.get_group_members(group_guid, cleaned=False) group_name = gc.groups.name_from_guid(group_guid) # Get mungin' # Convert times to datetime objects group_members['time_created'] = group_members['time_created'].apply( lambda x: pd.to_datetime(x)) group_members.set_index('time_created', inplace=True) group_members = group_members[ group_members.index > pd.to_datetime('2000-01-01')] # Daily group_members_daily = group_members['user_name'].groupby( pd.TimeGrouper(freq='D')).count().cumsum() group_members_daily = group_members_daily.reset_index() # If the requested start date predates the dataframe, pad with 0s if min(group_members_daily['time_created']) > pd.to_datetime( req_obj['start_date']): ix = pd.DatetimeIndex(start=pd.to_datetime(req_obj['start_date']), end=max(group_members_daily['time_created']), freq='D') group_members_daily = group_members_daily.set_index( 'time_created').reindex(ix, fill_value=0).reset_index() group_members_daily.rename(columns={'index': 'time_created'}, inplace=True) # If the requested end date is after the end of the dataframe, pad with last value if max(group_members_daily['time_created']) < pd.to_datetime( req_obj['end_date']): ix = pd.DatetimeIndex(start=pd.to_datetime(req_obj['start_date']), end=pd.to_datetime(req_obj['end_date']), freq='D') group_members_daily = group_members_daily.set_index( 'time_created').reindex( ix, fill_value=max( group_members_daily['user_name'])).reset_index() group_members_daily.rename(columns={'index': 'time_created'}, inplace=True) # Only keep current time selection group_members_daily = group_members_daily[ group_members_daily['time_created'] >= pd.to_datetime( req_obj['start_date'])] group_members_daily = group_members_daily[ group_members_daily['time_created'] <= pd.to_datetime( req_obj['end_date'])] group_members_daily['time_created'] = group_members_daily[ 'time_created'].apply(lambda x: x.strftime('%Y%m%d')) # Monthly group_members_monthly = group_members['user_name'].groupby( pd.TimeGrouper(freq='M')).count().cumsum() group_members_monthly = group_members_monthly.reset_index() # (monthly) If the requested start date predates the oldest time on the dataframe, pad with 0s if min(group_members_monthly['time_created']) > pd.to_datetime( req_obj['start_date']): ix = pd.DatetimeIndex(start=pd.to_datetime(req_obj['start_date']), end=max(group_members_monthly['time_created']), freq='M') group_members_monthly = group_members_monthly.set_index( 'time_created').reindex(ix, fill_value=0).reset_index() group_members_monthly.rename(columns={'index': 'time_created'}, inplace=True) # If the requested end date is after the end of the dataframe, pad with last value if max(group_members_monthly['time_created']) < pd.to_datetime( req_obj['end_date']): ix = pd.DatetimeIndex(start=pd.to_datetime(req_obj['start_date']), end=pd.to_datetime(req_obj['end_date']), freq='M') group_members_monthly = group_members_monthly.set_index( 'time_created').reindex( ix, fill_value=max( group_members_monthly['user_name'])).reset_index() group_members_monthly.rename(columns={'index': 'time_created'}, inplace=True) # Only keep current time selection group_members_monthly = group_members_monthly[ group_members_monthly['time_created'] >= pd.to_datetime( req_obj['start_date'])] group_members_monthly = group_members_monthly[ group_members_monthly['time_created'] <= pd.to_datetime( req_obj['end_date'])] group_members_monthly['time_created'] = group_members_monthly[ 'time_created'].apply(lambda x: x.strftime('%Y%m%d')) send_obj = { 'monthly': { 'dates': group_members_monthly['time_created'].values.tolist(), 'users': group_members_monthly['user_name'].values.tolist() }, 'daily': { 'dates': group_members_daily['time_created'].values.tolist(), 'users': group_members_daily['user_name'].values.tolist(), }, 'group_name': group_name } print(json.dumps(send_obj))