class TogglPyTests(unittest.TestCase):
def setUp(self):
self.api_key = os.environ['TOGGL_API_KEY']
if self.api_key is None:
raise Exception("Unable to execute api tests without an api key")
self.workspace_id = os.environ['WORKSPACE_ID']
if self.workspace_id is None:
raise Exception("Unable to execute api tests without a workspace key to query")
self.toggl = Toggl()
self.toggl.setAPIKey(self.api_key)
def test_connect(self):
response = self.toggl.request("https://www.toggl.com/api/v8/clients")
self.assertTrue(response is not None)
def test_putTimeEntry(self):
request_args = {
'workspace_id': self.workspace_id,
}
entries = self.toggl.getDetailedReport(request_args)
#for this tests I'm tagging my Pomodoro Entries
missing_projects = [r for r in entries['data'] if r['project'] is None and 'Pomodoro' in r['description'] ]
me = missing_projects[0]
me_id = me['id'] #remember for later
#I've tagged my pomodoro entries as Self/Self
cp = self.toggl.getClientProject("Self", "Self")
project_id = cp['data']['id']
me['pid'] = project_id
#his is the new stuff
response = self.toggl.putTimeEntry({"id": me_id, "pid":project_id})
self.assertTrue(response is not None)
self.assertTrue('data' in response)
self.assertTrue(response['data']['pid'] == project_id)
def test_getDetailedReportCSV(self):
data = {
'workspace_id': self.workspace_id,
}
csvfile = 'data.csv'
self.toggl.getDetailedReportCSV(data, csvfile)
self.assertTrue(os.path.isfile(csvfile))
os.remove(csvfile)
data = self.toggl.getDetailedReportCSV(data)
self.assertTrue(data is not None)
def test_getDetailedReport(self):
data = {
'workspace_id': self.workspace_id,
}
d = self.toggl.getDetailedReport(data)
self.assertTrue(d is not None)
self.assertTrue(len(d.keys()) > 0 )
fields = ['total_count', 'total_currencies', 'total_billable', 'data']
for f in fields:
self.assertTrue(f in d.keys())
data = d['data']
self.assertTrue(len(data)>0)
dr = data[0]
self.assertTrue('client' in dr)
self.assertTrue('start' in dr)
self.assertTrue('end' in dr)
self.assertTrue('task' in dr)
self.assertTrue('user' in dr)
self.assertTrue('project' in dr)
class TogglPyTests(unittest.TestCase):
def setUp(self):
self.api_key = os.environ['TOGGL_API_KEY']
if self.api_key is None:
raise Exception("Unable to execute api tests without an api key")
self.workspace_id = os.environ['WORKSPACE_ID']
if self.workspace_id is None:
raise Exception(
"Unable to execute api tests without a workspace key to query")
self.toggl = Toggl()
self.toggl.setAPIKey(self.api_key)
def test_connect(self):
response = self.toggl.request(
"https://api.track.toggl.com/api/v8/clients")
self.assertTrue(response is not None)
def test_putTimeEntry(self):
request_args = {
'workspace_id': self.workspace_id,
}
entries = self.toggl.getDetailedReport(request_args)
#for this tests I'm tagging my Pomodoro Entries
missing_projects = [
r for r in entries['data']
if r['project'] is None and 'Pomodoro' in r['description']
]
me = missing_projects[0]
me_id = me['id'] #remember for later
#I've tagged my pomodoro entries as Self/Self
cp = self.toggl.getClientProject("Self", "Self")
project_id = cp['data']['id']
me['pid'] = project_id
#his is the new stuff
response = self.toggl.putTimeEntry({"id": me_id, "pid": project_id})
self.assertTrue(response is not None)
self.assertTrue('data' in response)
self.assertTrue(response['data']['pid'] == project_id)
def test_getDetailedReportCSV(self):
data = {
'workspace_id': self.workspace_id,
}
csvfile = 'data.csv'
self.toggl.getDetailedReportCSV(data, csvfile)
self.assertTrue(os.path.isfile(csvfile))
os.remove(csvfile)
data = self.toggl.getDetailedReportCSV(data)
self.assertTrue(data is not None)
def test_getDetailedReport(self):
data = {
'workspace_id': self.workspace_id,
}
d = self.toggl.getDetailedReport(data)
self.assertTrue(d is not None)
self.assertTrue(len(d.keys()) > 0)
fields = ['total_count', 'total_currencies', 'total_billable', 'data']
for f in fields:
self.assertTrue(f in d.keys())
data = d['data']
self.assertTrue(len(data) > 0)
dr = data[0]
self.assertTrue('client' in dr)
self.assertTrue('start' in dr)
self.assertTrue('end' in dr)
self.assertTrue('task' in dr)
self.assertTrue('user' in dr)
self.assertTrue('project' in dr)
class TogglReportingApp(tk.Tk):
def __init__(self, *args, **kwargs):
self.toggl_setup()
self.tkinter_setup(*args, **kwargs)
def toggl_setup(self):
self.connect_to_toggl()
self.get_toggl_project_data()
self.get_toggl_report_data()
self.define_preset_date_bounds()
self.group_by = 'Project'
self.description_groupings = []
self.date_bounds = {}
def tkinter_setup(self, *args, **kwargs):
tk.Tk.__init__(self, *args, **kwargs)
tk.Tk.wm_title(self, "Toggl Reporting")
container = ttk.Frame(self)
container.pack(side="top", fill="both", expand=True)
container.grid_rowconfigure(0, weight=1)
container.grid_columnconfigure(0, weight=1)
self.frames = {}
frame = StartPage(container, self)
self.frames[StartPage] = frame
frame.grid(row=0, column=0, sticky='nsew')
"""
for F in (StartPage):
frame = F(container, self)
self.frames[F] = frame
frame.grid(row=0, column=0, sticky="nsew")
"""
self.show_frame(StartPage)
def show_frame(self, cont):
frame = self.frames[cont]
frame.tkraise()
# Establish the connection to the TogglAPI, and collect the project data.
def connect_to_toggl(self):
self.toggl = Toggl()
self.toggl.setAPIKey(config.API_KEY)
# Get information about the user's projects from Toggl
def get_toggl_project_data(self):
self.user_data = self.toggl.request(
"https://www.toggl.com/api/v8/me?with_related_data=true")
project_data = self.remove_empty_projects(
self.user_data['data']['projects'])
project_data_dict = {
project_data[i]['name']: project_data[i]
for i in range(0, len(project_data))
}
self.master_project_list = project_data_dict # Unchanging "master" list
client_data = self.user_data['data']['clients']
client_data_dict = {
client_data[i]['name']: client_data[i]
for i in range(0, len(client_data))
}
self.master_client_list = client_data_dict # Unchanging "master" list
self.client_list = client_data_dict # List of active projects to be displayed in the graph
# Assigning clients to projects.
for client in client_data:
client_id = client['id']
client_name = client['name']
for project_name in self.master_project_list:
if not 'cid' in self.master_project_list[project_name]:
self.master_project_list[project_name]['client'] = False
elif self.master_project_list[project_name][
'cid'] == client_id:
self.master_project_list[project_name][
'client'] = client_name
#self.project_list = list(self.master_project_list.keys())
self.project_list = []
# Return a version of the project list, where all projects without any tracked hours are removed.
# (This also removes projects which have been deleted via Toggl, but are still retrieved via the API)
def remove_empty_projects(self, project_list):
to_delete = []
for i in range(0, len(project_list)):
if not 'actual_hours' in project_list[i]:
to_delete.append(i)
for i in sorted(to_delete, reverse=True):
del project_list[i]
return project_list
def get_toggl_report_data(self):
years = 1
date_bounds = {
'start': datetime.now() -
timedelta(days=365 * years), #Get reports from the last n years.
'end': datetime.now()
}
split_bounds = self.split_date_bounds(date_bounds)
# A list of all the reports we gather from Toggl. (Max 1 year each)
reports = []
for bounds in split_bounds:
params = {'start': bounds['start'], 'end': bounds['end']}
reports.append(self.get_report(params))
self.full_toggl_report = self.join_reports(reports)
def define_preset_date_bounds(self):
year = 365
month = 30
self.preset_date_bounds = {
'Past Week': 7,
'Past Month': month,
'Past 6 Months': month * 6,
'Past Year': year,
'Past 2 Years': year * 2,
'Past 5 Years': year * 5,
'Custom': 0
}
def set_group_by(self, group_by):
self.group_by = group_by
# Make a request to Toggl to get a report of all data from a given time frame.
def get_report(self, params):
data = {
'workspace_id': config.WORKSPACE_ID,
'since': params['start'],
'until': params['end'],
}
return self.toggl.getDetailedReportCSV(data)
def is_included_project(self, project):
if project in self.project_list:
return True
else:
return False
def is_included_client(self, client):
if client in self.client_list:
return True
else:
return False
def main_sequence(self):
self.update_project_data()
self.update_client_data()
self.update_description_restrictions()
report = self.full_toggl_report
day = self.get_day()
day = self.populate_day(day, report)
self.create_graph(day)
def update_project_data(self):
user_selection = self.project_list
self.project_list = {}
for project_name in user_selection:
self.project_list[project_name] = self.master_project_list[
project_name]
def update_client_data(self):
user_selection = self.client_list
self.client_list = {}
for client_name in user_selection:
self.client_list[client_name] = self.master_client_list[
client_name]
# Return a list containing a series of bounds, each of at most 1 year long.
def split_date_bounds(self, bounds):
span = self.get_report_span(bounds['start'], bounds['end'])
number_of_years = math.ceil(span / 365)
bounds = []
for year in range(number_of_years):
remaining_days_after_subtraction = span - 365
start = datetime.now() - timedelta(days=span)
if (remaining_days_after_subtraction > 0):
span = remaining_days_after_subtraction
end = datetime.now() - timedelta(
days=span + 1
) #(Plus 1 so we don't get an overlap at the edge of the bounds)
else:
end = datetime.now()
bounds.append({'start': start, 'end': end})
bounds.reverse(
) # We reverse the order, because we need reverse-chronological in order to signal when to stop the populate_day function.
return bounds
# Return the length of time that a report covers. (In days)
def get_report_span(self, start, end):
span = end - start
return span.days
# Join the given reports together, saving them as a temporary csv file.
def join_reports(self, reports_list):
temporary_csv_file = tempfile.NamedTemporaryFile()
for report in reports_list:
with open(temporary_csv_file.name, 'ab') as csv:
csv.write(report)
return temporary_csv_file
def update_description_restrictions(self):
self.allowed_descriptions = []
self.excluded_descriptions = []
for i in self.description_search_list:
description_row = self.description_search_list[i]
value = description_row['entry'].get().lower()
excluded = bool(description_row['exclude_checkbox_value'].get())
if excluded:
self.excluded_descriptions.append(value)
else:
self.allowed_descriptions.append(value)
# If there are no specifically allowed descriptions, say that an empty string is allowed. (Otherwise we'll return nothing).
if not self.allowed_descriptions:
self.allowed_descriptions = ['']
# Return an dictionary containing projects with minutes set to zero.
def get_day(self):
minutesInDay = (
60 * 24
) - 1 #Subtract 1 because it is zero indexed. Minute 1440 is the following midnight, which will be empty.
day = {}
emptyDay = {}
for i in range(0, minutesInDay + 1):
emptyDay[i] = 0
if self.group_by == 'Project':
for project in self.project_list:
day[project] = emptyDay.copy()
if self.group_by == 'Description':
for grouping in self.description_groupings:
day[grouping['title']] = emptyDay.copy()
if self.group_by == 'Timeframe':
for timeframe in self.date_bounds.values():
day[timeframe['name']] = emptyDay.copy()
if self.group_by == 'None':
day = emptyDay
return day
# Return the earliest date from a set of timeframes.
def find_earliest_date_bound(self, timeframes):
earliest = datetime.today()
for date_bounds_pair in self.date_bounds.values():
start = date_bounds_pair['start']
if start < earliest:
earliest = start
return earliest
# Populate the day dictionary with data from the report.
def populate_day(self, day, report):
earliest_date_bound = self.find_earliest_date_bound(self.date_bounds)
with open(report.name, 'r') as file:
reader = csv.DictReader(file)
for row in reader:
print(row)
try:
entry_date = datetime.strptime(row['Start date'],
'%Y-%m-%d')
except ValueError:
continue
if entry_date < earliest_date_bound: # If the entry is earlier than our earliest date bound, we stop.
break
print(row)
project = row['Project']
description = row['Description']
client = row['Client']
# Skipping header rows from merged csv.
if row['Email'] == 'Email':
continue
if not self.is_included_project(project):
continue
if not self.is_included_client(client):
continue
matched_timeframes = []
# Skipping entries which are outside of our date bounds.
within_bounds = False
for date_bounds_pair in self.date_bounds.values():
if date_bounds_pair[
'start'] <= entry_date <= date_bounds_pair['end']:
within_bounds = True
if self.group_by == 'Timeframe':
timeframe_name = date_bounds_pair['name']
if not timeframe_name in matched_timeframes:
matched_timeframes.append(timeframe_name)
if not within_bounds:
continue
description_match = False
if self.group_by == 'Description':
matched_description_groups = []
for description_grouping in self.description_groupings:
for user_description in description_grouping[
'descriptions']:
if user_description in description.lower():
description_match = True
grouping_title = description_grouping['title']
if not grouping_title in matched_description_groups:
matched_description_groups.append(
grouping_title)
else:
for allowed_description in self.allowed_descriptions:
if allowed_description in description.lower():
description_match = True
break
for excluded_description in self.excluded_descriptions:
if excluded_description in description.lower():
description_match = False
if not description_match:
continue
startMinutes = self.getTimeInMinutes(row['Start time'])
duration = self.getTimeInMinutes(row['Duration'])
for i in range(startMinutes + 1, startMinutes + duration + 1):
targetMinute = i
if targetMinute >= 1440:
targetMinute = abs(1440 - i)
if self.group_by == 'Project':
day[project][targetMinute] += 1
elif self.group_by == 'Description':
for description_group in matched_description_groups:
day[description_group][targetMinute] += 1
elif self.group_by == 'Timeframe':
for timeframe in matched_timeframes:
day[timeframe][targetMinute] += 1
elif self.group_by == 'None':
day[targetMinute] += 1
day = self.remove_empty_categories(day)
return day
# Remove all the categories from a day which have zero minutes tracked over the time span.
def remove_empty_categories(self, day):
empty_categories = []
for category_name in day:
if all(value == 0 for value in day[category_name].values()):
empty_categories.append(category_name)
for category_name in empty_categories:
del day[category_name]
return day
def getTimeInMinutes(self, time):
split = re.split(':', time)
hours = int(split[0])
minutes = int(split[1])
minutes += 60 * hours
return minutes
def get_minutes_since_midnight(self):
now = datetime.now()
midnight = now.replace(hour=0, minute=0, second=0, microsecond=0)
minutes = (now - midnight).seconds / 60
return minutes
def create_graph(self, day):
if self.group_by == 'Project':
for project_name in day:
hex_color = self.project_list[project_name]['hex_color']
plt.plot(list(day[project_name].keys()),
list(day[project_name].values()),
label=project_name,
color=hex_color)
elif self.group_by == 'Description':
for grouping in self.description_groupings:
title = grouping['title']
plt.plot(list(day[title].keys()),
list(day[title].values()),
label=title)
elif self.group_by == 'Timeframe':
for timeframe_name in day:
plt.plot(list(day[timeframe_name].keys()),
list(day[timeframe_name].values()),
label=timeframe_name)
elif self.group_by == 'None':
plt.plot(list(day.keys()), list(day.values()))
plt.ylabel('Frequency')
positions = []
labels = []
for i in range(0, 24):
positions.append(i * 60)
time = str(i) + ':00'
if len(time) < 5:
time = '0' + time
labels.append(time)
if self.highlight_current_time.get():
minutes_since_midnight = self.get_minutes_since_midnight()
plt.axvline(x=minutes_since_midnight)
plt.xticks(positions, labels)
plt.grid()
plt.legend()
mng = plt.get_current_fig_manager()
mng.full_screen_toggle()
plt.show()
