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v.1.5.1 ... v.2.1.0a

Author SHA1 Message Date
anima
35ee16479a set to v.2.1.0a 2021-06-08 00:53:28 +02:00
anima
3da9195697 release version 2.1.0 2021-06-08 00:38:26 +02:00
anima
e4d533b249 fix formatting 2021-06-04 21:19:33 +02:00
anima
b774ec6e1e add readme.md 2021-06-04 21:15:47 +02:00
anima
fc3f350e96 Aplha Release from Python TimeTrack 2021-06-04 11:28:22 +02:00
3 changed files with 650 additions and 540 deletions
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README.md Normal file
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# Timetrack
Simple time tracking
## Requirements
- Python 3.9 or higher
## Usage
*as of v.2.1.0a*
Start the script and follow the menu.
Currently no further usability.
## Agenda
- [ ] Reports
- [x] by day
- [ ] by week
- [ ] by month
- [ ] by user
- [ ] Manual time entries
- [ ] Break in time entries
- [ ] User management
- [ ] Categories
- [ ] Clients
- [ ] References
- [ ] GUI

626
timeTrack.py Normal file
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#!/usr/bin/env python3
#########################
#
# timeTrack.py
# by 4nima
# v.2.1.0
#
#########################
# simple time tracking with database
#########################
import datetime
import sqlite3
import json
import os
import logging
# Main class
class TimeTrack:
def __init__(self, DATABASE='timetrack.db', CONFIG='timetrack.conf'):
self.DATABASE = DATABASE
self.CONFIG = CONFIG
self.USERID = 0
self.USERNAME = ''
self.OLDEVENT = 2
self.LOGFILE = 'timetrack.log'
self.DBCON = sqlite3.connect(self.DATABASE, detect_types=sqlite3.PARSE_DECLTYPES | sqlite3.PARSE_COLNAMES)
logging.basicConfig(
filename=self.LOGFILE,
level=logging.DEBUG,
format='%(asctime)s - %(process)d-%(levelname)s: %(message)s',
datefmt='%Y-%m-%d %H:%M:%S'
)
self.db_setup()
self.load_config()
def __del__(self):
self.DBCON.close()
## Prepartation
### Check OS and clear screen
def clear_screen(self):
if os.name == 'posix':
logging.debug('Unix/Linux system detected')
_ = os.system('clear')
else:
logging.debug('Winwos System detected')
_ = os.system('cls')
### Loads or creates a config file
def load_config(self):
if os.path.isfile(self.CONFIG):
logging.info('Config file was found')
try:
with open(self.CONFIG) as config_data:
data = json.load(config_data)
except ValueError:
logging.error('Config file has no valid JSON syntax')
print('TimeTrack wird beendet: Fehler in der JSON-Konfig ({})'.format(self.CONFIG))
quit()
else:
logging.info('Config file was loaded successfully')
self.USERID = data['user']
self.OLDEVENT = data['oldevent']
logging.debug('UserID {} was used'.format(data['user']))
self.set_user()
else:
logging.warning('Config file not found')
config = {
'default' : 'interactive',
'user' : 1,
'oldevent' : 2
}
with open(self.CONFIG, "w") as outfile:
json.dump(config, outfile, indent=4, sort_keys=True)
logging.info('Config file created successfully')
#> wenn man keine datei erstellen darf/kann, fällt das skript in einen loop ?
self.load_config()
### Creates a database if none is found
def db_setup(self):
if os.path.isfile(self.DATABASE):
logging.info('Database file was found')
else:
logging.info('Database file was not found, will create ')
sql = []
sql.append("""
CREATE TABLE IF NOT EXISTS time_entries (
id INTEGER PRIMARY KEY AUTOINCREMENT,
starttime TIMESTAMP NOT NULL,
endtime TIMESTAMP NOT NULL,
user_id INTEGER NOT NULL,
activity TEXT,
reference TEXT,
category_id INTEGER,
client_id INTEGER,
lock BOOLEAN
)
""")
sql.append("""
CREATE TABLE IF NOT EXISTS active_events (
id INTEGER PRIMARY KEY AUTOINCREMENT,
starttime TIMESTAMP NOT NULL,
user_id INT NOT NULL
)
""")
sql.append("""
CREATE TABLE IF NOT EXISTS users (
id INTEGER PRIMARY KEY AUTOINCREMENT,
name TEXT NOT NULL,
worktime INT,
worktime_span INT
)
""")
sql.append("""
CREATE TABLE IF NOT EXISTS clients (
id INTEGER PRIMARY KEY AUTOINCREMENT,
name TEXT NOT NULL
)
""")
sql.append("""
CREATE TABLE IF NOT EXISTS categories (
id INTEGER PRIMARY KEY AUTOINCREMENT,
name TEXT NOT NULL
)
""")
logging.debug('Create initial database tables')
try:
with self.DBCON as con:
for SQL in sql:
con.execute(SQL)
except sqlite3.Error as err:
logging.error('Table could not be created')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('TimeTrack wird beendet: Fehler bei Datanbank Setup')
quit()
else:
logging.debug('Table was created successfully or already exists')
### Get an active event based on a user or event ID
def get_active_event(self, USERID='', EVENTID=''):
if USERID:
logging.debug('Search events based on userid: {}'.format(USERID))
sql = "SELECT * FROM active_events WHERE user_id = ?"
searchdata = [USERID]
elif EVENTID:
logging.debug('Search event based on eventid: {}'.format(EVENTID))
sql = "SELECT * FROM active_events WHERE id = ?"
searchdata = [EVENTID]
else:
sql = "SELECT * FROM active_events"
searchdata = False
try:
with sqlite3.connect(self.DATABASE, detect_types=sqlite3.PARSE_DECLTYPES | sqlite3.PARSE_COLNAMES) as con:
cur = con.cursor()
if searchdata:
logging.debug('Search event')
cur.execute(sql, searchdata)
else:
logging.debug('Get all Events')
cur.execute(sql)
eventdata = cur.fetchall()
except sqlite3.Error as err:
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Fehler beim auslesen der aktiven Events')
else:
logging.debug('Events could be read out successfully')
con.close()
if eventdata == []:
logging.debug('No active events found')
return 0
else:
logging.debug('{} events found'.format(len(eventdata)))
return eventdata[0]
### Get time entries based on various criteria
def get_time_entry(self, USERID='', TIMEID='', CATEGORYID='', CLIENTID='', REFERENCE='', STARTTIME='', ENDTIME='', DAY=''):
if USERID:
logging.debug('Search time entries based on userid: {}'.format(USERID))
sql = "SELECT * FROM time_entries WHERE user_id = ?"
searchdata = [USERID]
elif TIMEID:
logging.debug('Search time entrys based on timeid: {}'.format(TIMEID))
sql = "SELECT * FROM time_entries WHERE id = ?"
searchdata = [TIMEID]
elif CATEGORYID:
logging.debug('Search time entrys based on categoryid: {}'.format(CATEGORYID))
sql = "SELECT * FROM time_entries WHERE category_id = ?"
searchdata = [CATEGORYID]
elif CLIENTID:
logging.debug('Search time entrys based on clientid: {}'.format(CLIENTID))
sql = "SELECT * FROM time_entries WHERE client_id = ?"
searchdata = [CLIENTID]
elif REFERENCE:
logging.debug('Search time entrys based on reference: {}'.format(REFERENCE))
sql = "SELECT * FROM time_entries WHERE reference = ?"
searchdata = [REFERENCE]
else:
sql = "SELECT * FROM time_entries"
searchdata = False
try:
with sqlite3.connect(self.DATABASE, detect_types=sqlite3.PARSE_DECLTYPES | sqlite3.PARSE_COLNAMES) as con:
cur = con.cursor()
if searchdata:
logging.debug('Search time entry')
cur.execute(sql, searchdata)
else:
logging.debug('Get all time entries')
cur.execute(sql)
timedata = cur.fetchall()
except sqlite3.Error as err:
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Fehler beim auslesen der Zeiteinträge')
else:
logging.debug('Time entries could be read out successfully')
con.close()
if DAY:
logging.debug('Search time entries by date: {}'.format(DAY))
tmp = []
for entry in timedata:
if entry[1].date() == DAY:
tmp.append(entry)
timedata = tmp[:]
else:
tmp = []
if STARTTIME:
logging.debug('Search time entries by starttime: {}'.format(STARTTIME))
for entry in timedata:
if entry[1] > STARTTIME:
tmp.append(entry)
timedata = tmp[:]
pass
tmp = []
if ENDTIME:
logging.debug('Search time entrie by endtime: {}'.format(ENDTIME))
for entry in timedata:
if entry[2] < ENDTIME:
tmp.append(entry)
timedata = tmp[:]
if timedata == []:
logging.debug('No time entries found')
return 0
else:
logging.debug('{} time entries found'.format(len(timedata)))
return timedata
## user handling
### Creates a user who does not yet exist
def create_user(self, USER=''):
if USER == '':
username = input('Benutzername eingaben: ')
logging.debug('Selected username: {}'.format(username))
else:
username = USER
while self.get_users(NAME=username):
print('Der gewünsche Benutzername ({}) ist schon vergeben'.format(username))
username = input('Wähle einen anderen Benutzernamen: ')
logging.debug('Try again: Selected username: {}'.format(username))
logging.debug('Accepted username: {}'.format(username))
sql = "INSERT INTO users ( name ) values ( ? )"
try:
with self.DBCON as con:
con.execute(sql, [username])
except sqlite3.Error as err:
logging.error('User could not be saved in database')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
else:
logging.info('User was saved successfully')
### Outputs existing users from the DB
def get_users(self, UID=0, NAME=''):
if not UID == 0:
logging.debug('Get user by ID: {}'.format(UID))
data = UID
sql = "SELECT * FROM users WHERE id = ?"
elif not NAME == '':
logging.debug('Get user by username: {}'.format(NAME))
data = NAME
sql = "SELECT * FROM users WHERE name LIKE ?"
else:
logging.debug('Get all users')
data = ''
sql = "SELECT * FROM users"
try:
with self.DBCON as con:
cur = con.cursor()
if data:
cur.execute(sql, [data])
else:
cur.execute(sql)
data = cur.fetchall()
except sqlite3.Error as err:
logging.error('Could not get user')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Fehler beim Zugriff auf die Benutzer Datenbank')
return 1
else:
logging.debug('User database read out successfully')
return data
### Defines a user for the session
def set_user(self):
data = self.get_users()
if not data:
logging.info("No user was found")
print("Es wurde kein Benutzer gefunden, bitte legen sie einen neuen an.")
self.create_user()
data = self.get_users(UID=self.USERID)
if data == []:
logging.error('User ID was not found')
else:
self.USERNAME = data[0][1]
## Time handling
### Creates an active event if none exists for the user
def save_event(self, TIME=datetime.datetime.now()):
if not self.get_active_event(USERID=self.USERID):
logging.debug('No active events found for the user: {}'.format(self.USERID))
sql = "INSERT INTO active_events ( starttime, user_id ) VALUES ( ?, ? )"
try:
with self.DBCON as con:
con.execute(sql, [TIME, self.USERID])
except sqlite3.Error as err:
logging.error('Event could not be created')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Event konnte nicht gespeichert werden.')
return False
else:
logging.info('Event was created successfully')
return True
else:
logging.warning('Active events found for the user, new event could not be created')
return False
### Deletes an active event based on a user or event ID
def delete_event(self, ENTRYID='', USERID=''):
if not ENTRYID == '':
logging.info('Deletes event based on eventid: {}'.format(ENTRYID))
sql = "DELETE FROM active_events WHERE id = ?"
data = ENTRYID
elif not USERID == '':
logging.info('Deletes events based on userid: {}'.format(USERID))
sql = "DELETE FROM active_events WHERE user_id = ?"
data = USERID
else:
logging.warning('No indication of what should be deleted')
print('Keine angabe was gelöscht werden soll')
return 0
try:
with self.DBCON as con:
con.execute(sql, [data])
except sqlite3.Error as err:
logging.error('Event could not be deleted')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Fehler beim löschen des Events.')
else:
logging.debug('Event was successfully deleted')
# Checks for existing time entries and creates a new one if none is available.
def time_start(self, AUTOFORWARD=True):
self.clear_screen()
starttime = datetime.datetime.now()
logging.debug('New Event process started at {}'.format(starttime))
if self.save_event(starttime):
print('Neues Event gestartet um {}'.format(starttime.strftime("%H:%M")))
if AUTOFORWARD:
self.time_stop()
else:
data = self.get_active_event(USERID=self.USERID)
print('Es existiert bereits ein aktives Event.')
if (data[1] + datetime.timedelta(hours=self.OLDEVENT)) <= datetime.datetime.now():
logging.info('Event exceeds allowed duration')
print('Zeiteintrag ist zu alt laut den Einstellungen (älter {} Stunden)'.format(self.OLDEVENT))
if datetime.date.today() == data[1].date():
print('Start um: {}'.format(data[1].strftime("%H:%M")))
else:
print('Start am: {}'.format(data[1].strftime("%d.%m.%Y um %H:%M")))
elapsed = datetime.datetime.now() - data[1]
if elapsed.days:
logging.debug('Event older than 1 day ({} days)'.format(elapsed.days))
print('Vergangene Zeit: >{} Tage'.format(elapsed.days))
else:
logging.debug('Event younger than 1 day')
print('Vergangene Zeit: >{} Stunden'.format(int(elapsed.seconds/3600)))
userinput = 0
while not 0 < int(userinput) < 4:
print('Soll das Event fortgesetzt oder gelöscht werden?')
print('[1] für fortsetzen')
print('[2] für löschen')
print('[3] für abbrechen')
userinput = input('Aktion: ')
logging.debug('User input: {}'.format(userinput))
try:
int(userinput)
except ValueError:
userinput = 0
self.clear_screen()
if userinput == "1":
logging.debug('Event should be continued')
self.time_stop()
elif userinput == "2":
logging.info('Event should be deleted (eventid: {})'.format(data[0]))
self.delete_event(data[0])
self.time_start()
else:
logging.debug('Terminated by the user')
exit()
else:
logging.debug('Event continues (eventid{})'.format(data[0]))
print('Event von {} Uhr geladen'.format(data[1].strftime("%H:%M")))
self.time_stop()
# Stops existing time entries
def time_stop(self):
data = self.get_active_event(USERID=self.USERID)
logging.debug('Event stop progess is started')
if data:
self.clear_screen()
userinput = 0
while not 0 < int(userinput) < 4:
print('Event von {} Uhr beenden?'.format(data[1].strftime("%H:%M")))
print('[1] für beenden')
print('[2] für löschen')
print('[3] für abbrechen')
userinput = input('Aktion: ')
logging.debug('User input: {}'.format(userinput))
try:
int(userinput)
except ValueError:
userinput = 0
self.clear_screen()
if userinput == "1":
logging.debug('Event is ended')
print('Eingabe beenden mittels doppelter Leerzeile.')
print('Durchgeführte Tätigkeiten:')
userinput = []
while True:
try:
if userinput[-1] == '' and userinput[-2] == '':
break
except IndexError:
pass
userinput.append(input())
logging.debug('User input: {}'.format(userinput))
del userinput[-1]
del userinput[-1]
action = ''
for i in userinput:
if not action == '':
action += "\n"
action += i
endtime = datetime.datetime.now()
logging.debug('Event end process start at {}'.format(endtime))
sql = "INSERT INTO time_entries ( starttime, endtime, user_id, activity ) VALUES ( ?, ?, ?, ? )"
try:
with self.DBCON as con:
con.execute(sql, [data[1], endtime, self.USERID, action])
except sqlite3.Error as err:
logging.error('Time entry could not be created')
logging.debug(sql)
logging.error('SQLError: {}'.format(err))
print('Zeiteintrag konnte nicht gespeichert werden.')
return False
else:
logging.info('Time entry was created successfully')
self.delete_event(data[0])
self.print_time_entry(STARTTIME=data[1], ENDTIME=endtime, ACTIVITY=action)
print('Zeiteintrag wurde gespeichert.')
userinput = 0
while not 0 < int(userinput) < 3:
print('Nächsten Zeiteintrag beginnen ?')
print('[1] Ja')
print('[2] Nein')
userinput = input('Aktion: ')
logging.debug('User input: {}'.format(userinput))
try:
int(userinput)
except ValueError:
userinput = 0
self.clear_screen()
if userinput == "1":
self.time_start()
else:
self.start_interactive_mode()
elif userinput == "2":
logging.info('Event should be deleted (eventid: {})'.format(data[0]))
self.delete_event(data[0])
else:
logging.debug('Terminated by the user')
exit()
def timedela_to_string(self, TIME):
s = TIME.seconds
hours, remainder = divmod(s, 3600)
minutes, seconds = divmod(remainder, 60)
output = '{:02}:{:02}:{:02}'.format(int(hours), int(minutes), int(seconds))
return output
# Shows a time entry
def print_time_entry(self, STARTTIME='', ENDTIME='', ACTIVITY=''):
self.clear_screen()
s = (ENDTIME - STARTTIME).seconds
hours, remainder = divmod(s, 3600)
minutes, seconds = divmod(remainder, 60)
print(50*"-")
print('Start: {} Uhr'.format(STARTTIME.strftime('%H:%M')))
print('Ende: {} Uhr'.format(ENDTIME.strftime('%H:%M')))
print('Dauer: {:02}:{:02}:{:02}'.format(int(hours), int(minutes), int(seconds)))
if not ACTIVITY == '':
print('Aktivität:')
print(ACTIVITY)
print(50*"-")
def report_by_day(self, DATE=datetime.date.today(), USER=''):
if not USER:
USER = self.USERID
timedata = self.get_time_entry(DAY=DATE, USERID=USER)
STARTTIMES = []
ENDTIMES = []
DURATIONS = []
for entry in timedata:
STARTTIMES.append(entry[1])
ENDTIMES.append(entry[2])
DURATIONS.append(entry[2] - entry[1])
if timedata:
FIRSTSTARTTIME = min(STARTTIMES)
LASTENDTIME = max(ENDTIMES)
TRACKEDTIMESPAN = (LASTENDTIME - FIRSTSTARTTIME)
TRACKEDTIME = sum(DURATIONS, datetime.timedelta())
NONTRACKEDTIME = (TRACKEDTIMESPAN - TRACKEDTIME)
ENTRIECOUNT = len(timedata)
self.clear_screen()
print('{:40} {}'.format("Beginn des ersten Zeiteintrags:", FIRSTSTARTTIME.strftime('%d.%m.%Y %H:%M')))
print('{:40} {}'.format("Ende des letzen Zeiteintrags:", LASTENDTIME.strftime('%d.%m.%Y %H:%M')))
print('{:40} {}'.format("Maximal erfassbare Zeit:", self.timedela_to_string(TRACKEDTIMESPAN)))
print('{:40} {}'.format("Nicht erfasste Zeit:", self.timedela_to_string(NONTRACKEDTIME)))
print('{:40} {}'.format("Erfasste Zeit:", self.timedela_to_string(TRACKEDTIME)))
print('{:40} {}'.format("Zeiteinträge:", ENTRIECOUNT))
def start_interactive_mode(self):
self.clear_screen()
userinput = 0
while not 0 < int(userinput) < 4:
print('Was willst du tun?')
print('[1] für Zeiterfassung starten')
print('[2] für heutiger Report')
print('[3] für Report für Tag x')
print('[9] für Programm verlassen')
userinput = input('Aktion: ')
logging.debug('User input: {}'.format(userinput))
try:
int(userinput)
except ValueError:
userinput = 0
else:
if int(userinput) == 9:
logging.debug('Terminated by the user')
exit()
self.clear_screen()
if userinput == "1":
logging.debug('Start TimeTrack')
self.time_start()
elif userinput == "2":
logging.info('Print todays report')
self.report_by_day()
input()
self.start_interactive_mode()
elif userinput == "3":
print('commig soon ...')
input()
self.start_interactive_mode()
print(userinput)
if __name__ == "__main__":
test = TimeTrack()
test.start_interactive_mode()
test.DBCON.close()

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timeTrack.sh
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#!/bin/bash
#==========
#
# timeTrack.sh
# by 4nima
# v.1.5.1
#
#==========
# Einfaches Erfassen von Zeiten mit einer SQLDB (SQLite, kein Server)
#==========
# Variablen Definieren
#=====================
# Pfad zur Datenbank (Vollständiger Pfad benutzen!)
DBDIR="/root/time/work/.timeTrack.db"
DB="timeTrack"
## Verfügbare Kategorien (0 = Default)
### ACHTUNG: in der DB werden die IDs gespeichert, verändern der Rheinfolge verfälscht Reports
# Alternativ neben Kategorien noch Tags oder Projekte anbieten
declare -a categories
categories[0]="Junk"
categories+=("Kunden")
categories+=("Internes")
categories+=("Meetings")
categories+=("Schulung")
categories+=("Pause")
categories+=("Sonstiges")
categories+=("Privates")
# Funktionen
#===========
## DB
### Erstellt eine Datenbank Datei
function createDB {
sqlite3 $DBDIR "
CREATE TABLE IF NOT EXISTS $DB (
id INTEGER PRIMARY KEY,
date INTEGER,
day INTEGER,
kw INTEGER,
task TEXT,
category INTEGER,
worktime INTEGER
);
"
}
### Fügt einen Task in die DB ein
function insertTask {
sqlite3 $DBDIR "
INSERT INTO $DB (
date,
day,
kw,
task,
category,
worktime
) VALUES (
'$(date +%s)',
'$(date +%u)',
'$(date +%V)',
'$1',
'$2',
'$3'
);
"
}
### Eintrag aus der Datenbank löschen
function eraseTask {
echo "<================================================>"
sqlite3 $DBDIR "
DELETE
FROM $DB
WHERE id = $DBID
"
echo "Task wurde gelöscht"
echo "<================================================>"
}
### Suche
#### Anhand der ID
function searchById {
echo "<================================================>"
sqlite3 $DBDIR -column -header "
SELECT *
FROM $DB
WHERE id = $DBID
"
echo "<================================================>"
}
#### Anhand eines Strings (in Tasks)
function searchByString {
echo "<================================================>"
sqlite3 $DBDIR -column -header "
SELECT *
FROM $DB
WHERE task LIKE '%$SEARCH%'
"
echo "<================================================>"
}
### Updates
#### Datum
function updateDate {
echo "<================================================>"
sqlite3 $DBDIR "
UPDATE $DB
SET date = '$UPDATEVALUE'
WHERE id = $DBID
"
echo "Datum geupdatet"
echo "<================================================>"
}
function updateTask {
echo "<================================================>"
sqlite3 $DBDIR "
UPDATE $DB
SET task = '$UPDATEVALUE'
WHERE id = $DBID
"
echo "Task geupdatet"
echo "<================================================>"
}
function updateCategory {
echo "<================================================>"
sqlite3 $DBDIR "
UPDATE $DB
SET category = '$UPDATEVALUE'
WHERE id = $DBID
"
echo "Kategorie geupdatet"
echo "<================================================>"
}
function updateWorktime {
echo "<================================================>"
sqlite3 $DBDIR "
UPDATE $DB
SET worktime = '$UPDATEVALUE'
WHERE id = $DBID
"
echo " Arbeitszeit geupdatet"
echo "<================================================>"
}
### Reports
#### Auslesen aller Heutigen Tasks
function dailyReport {
echo "<================================================>"
day=$(convertDay $(date +%u))
echo "Daly Report vom $day - KW $(date +%V)"
sqlite3 $DBDIR -column -header "
SELECT
count(id) AS 'Tasks',
time(sum(worktime), 'unixepoch') AS 'Arbeitszeit'
FROM $DB
WHERE kw = '$(date +%V)'
AND day = '$(date +%u)'
"
echo
}
function weeklyReport {
echo "<================================================>"
echo "Weekly Report vom KW $(date +%V)"
sqlite3 $DBDIR -column -header "
SELECT
count(id) AS 'Tasks',
time(sum(worktime), 'unixepoch') AS 'Arbeitszeit'
FROM $DB
WHERE kw = '$(date +%V)'
"
echo
}
function dailyCategoryReport {
day=$(convertDay $(date +%u))
for i in ${!categories[@]}; do
echo "<================================================>"
echo "Report für Kategorie: ${categories[i]}"
echo "Für $day in KW: $(date +%V)"
sqlite3 $DBDIR -column -header "
SELECT
count(id) AS 'Tasks',
time(sum(worktime), 'unixepoch') AS 'Arbeitszeit'
FROM $DB
WHERE kw = '$(date +%V)'
AND day = '$(date +%u)'
AND category = '$i'
"
echo
done
}
function weeklyCategoryReport {
week=$(convertDay $(date +%u))
for i in ${!categories[@]}; do
echo "<================================================>"
echo "Report für Kategorie: ${categories[i]}"
echo "In KW: $(date +%V)"
sqlite3 $DBDIR -column -header "
SELECT
count(id) AS 'Tasks',
time(sum(worktime), 'unixepoch') AS 'Arbeitszeit'
FROM $DB
WHERE kw = '$(date +%V)'
AND category = '$i'
"
echo
done
}
## Abläufe
### Prüft ob SQLite3 installiert ist und erstellt eine Datenbank wenn nicht schon vorhanden
function checkRequirements {
dpkg -l sqlite3
if [ $? -ne 0 ]; then
echo "Bitte sqlite3 installieren!"
exit
fi
if [ ! -d $DIR ];then
mkdir -r $DIR
fi
createDB
}
### Start des Trackings und Tätigkeits Abfrage
function startTracking {
starttime=$(date +%s)
echo "<================================================>"
echo "Time Tracking gestartet um: $(date +%H:%M)"
IFS= read -a doingwords -p "Tätigkeit? `echo $'\n> '`"
doing=${doingwords[0]}
}
### Beendet das Tacking und Kategorie Abfrage
function endTracking {
for i in ${!categories[@]}; do
echo "$i. ${categories[i]}"
done
IFS= read -p "Kategorie? `echo $'\n> '`" category
endtime=$(date +%s)
worktime=$(($endtime - $starttime))
}
### Erstellt eine Zusammenfassung zu dem eben Bearbeiteten Task
#### Verbesserung: Möglichkeit auch Tasks aus der DB erneut auszugeben
function printTask {
echo "<================================================>"
echo "Time Tracking beendet um $(date +%H:%M) - $outputtime"
echo "<================================================>"
echo "Du hast $outputtime in ${categories[$category]} investiert"
echo "<================================================>"
echo "Task: $doing"
echo "<================================================>"
}
### Aufruf bei -D(atenbank)
function showDB {
sqlite3 $DBDIR -column -header "SELECT * from $DB"
}
### Aufruf bei -c(onfig) [/path/to/config.file]
function config {
if [ -f $OPTARG ];then
config=$OPTARG
echo $config
# Datei einlesen; Prüfung was angepasst wurde (DB / DB file / Kategorien); validieren; weiter oder exit.
else
echo "Dieses Konfigfile existiert nicht"
exit
fi
}
### Aufruf bei -e(rase) [DB ID]
function erase {
if [[ $OPTARG =~ ^[0-9]+$ ]]; then
DBID=$OPTARG
searchById
IFS= read -p "Diesen Eintrag löschen?(y/n) `echo $'\n> '`" DELIT
if [ $DELIT == "Y" ] || [ $DELIT == "y" ]; then
eraseTask
fi
else
echo "Gib die ID des zu löschenden Tasks ein"
echo "Mit '-s' kannst du eine Suche starten"
exit
fi
}
### Aufruf bei -h(elp)
function printHelp {
echo '
Benutzung: ./timeTrack.sh [option [argument]]
Ohne Option wird das Skript für eine Zeitmessung ausgeführt und dann beendet.
Optionen:
-D # Listet die Tabelle der Datenbank auf
-c [arg] # Konfigurationsdatei
-e [DB ID] # Eintrag aus Tabelle löschen (Siehe -s)
-h # Zeigt diese Hilfe
-H [option] # Zeigt Detail Hilfe zu der Option
-i # Startet eine Aufgaben speicherung mit eigenen Zeiteingaben
-l # Startet das Skript im Loop (abbrechen mit Strg + C)
-r [type] # Zeigt Reports für [day / week / month / category / ...]
-s [string] # Sucht in der Datenbank nach [string] (nur im Aufgaben Feld)
-u [DB ID] # Update für bereits vorhandene Einträge in der Datenbank (Siehe -s)
'
}
### Aufrug bei -H(elp) [option]
function helpTo {
case $1 in
c)
echo '
Benutzung: ./timeTrack.sh -c /path/to/my.conf
Mit der Option -c kann ein eine Konigurationsdatei angegeben werden.
In der Konfigurationsdatei können individuelle Parameter übergeben werden:
Pfad zur Datenbankdatei:
DBDIR="/path/to/file.db" # Vollständigen Pfad angeben
In der Datenbankdatei die Tabelle festlegen:
DB="myTable" # Keine Sonder- oder Leerzeichen
Eigene Kategorien:
categories[0]="Default") # Standard Kategorie
categories+=("newCategory") # Hinzufügen einer Kategorie (wiederholbar)
'
;;
*)
exit
;;
esac
}
### Aufruf bei -i(nsert)
function insert {
IFS= read -p "Tätigkeit? `echo $'\n> '`" TASK
IFS= read -p "Dauer? `echo $'\n> '`" WORKTIME
IFS= read -p "Endzeit? `echo $'\n> '`" ENDDATE
IFS= read -p "Kategorie? `echo $'\n> '`" CATEGORY
}
### Aufruf bei -r(eport) [Ansicht...]
function report {
REPORT=$OPTARG
clear
case $REPORT in
day|daily)
dailyReport
dailyCategoryReport
;;
week|weekly)
weeklyReport
weeklyCategoryReport
;;
*)
dailyReport
;;
esac
}
### Standard Aufruf
function default {
checkRequirements
clear
startTracking
endTracking
calcWorktime $worktime
insertTask "$doing" "$category" "$worktime"
clear
printTask
}
### Aufruf bei -s(earch) [Suchstring]
function search {
# Optionen ob damit was gemacht werden soll (Update / Löschen)
SEARCH=$OPTARG
searchByString
}
### Aufruf bei -u(pdate) [DB ID]
function update {
# Prüfung ob angaben stimmen, weitere eingaben ändern
DBID=$OPTARG
searchById
echo "
1. Datum
2. Task
3. Kategorie
4. Arbeitszeit
"
IFS= read -p "Was soll geupdatet werden? `echo $'\n> '`" UPDATETYPE
IFS= read -p "Was soll eingetragen werden? `echo $'\n> '`" UPDATEVALUE
case $UPDATETYPE in
1|Datum)
updateDate
;;
2|Task)
updateTask
;;
3|Kategorie)
updateCategory
;;
4|Arbeitszeit)
updateWorktime
;;
*)
echo "Falsche angabe"
exit
;;
esac
}
## Umwandlung / Umrechnung
### Rechnet die Sekunden in Stunden und Minuten um
function calcWorktime {
if [ $1 -ge 3600 ]; then
hworktime=$((worktime / 3600))
mworktime=$(((worktime % 3600) / 60))
gmworktime=$((worktime / 60))
outputtime="$gmworktime min ($hworktime:$mworktime H)"
else
gmworktime=$((worktime / 60))
outputtime="$gmworktime min"
fi
}
function convertDay {
case $1 in
1)
echo "Montag"
;;
2)
echo "Dienstag"
;;
3)
echo "Mittwoch"
;;
4)
echo "Donnerstag"
;;
5)
echo "Freitag"
;;
6)
echo "Samstag"
;;
7)
echo "Sonntag"
;;
esac
}
# Argumente auslesen
#===============================
while getopts "Dc:e:hH:ilr:s:Tu:" opt; do
case $opt in
D)
showDB
exit
;;
c)
config
exit
;;
e)
erase
exit
;;
h)
printHelp
exit
;;
H)
helpTo $OPTARG
exit
;;
i)
insert
exit
;;
l)
while true; do
default
done
;;
r)
report
exit
;;
s)
search
exit
;;
T)
# Testing
results=($(sqlite3 $DBDIR "
SELECT *
FROM $DB
"))
#for i in ${!results[@]}; do
for i in "${!results[@]}"; do
echo "<================================================>"
echo "Test für: ${results[i]}"
echo "Record No. $i: ${results[$i]}"
fieldA=${results[0]};
fieldB=${results[1]};
fieldC=${results[2]};
fieldD=${results[3]};
done
echo $fieldA $fieldB $fieldC $fieldD
exit
;;
u)
update
exit
;;
*)
exit
;;
esac
done
default