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main.py
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main.py
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#!/usr/bin/env python3
import os
from time import sleep
import csv
import pandas as pd
import datetime
import shutil
import calendar
screen_col = shutil.get_terminal_size().columns
def start():
df = pd.read_csv('directives.csv')
points_e = 0
weight_e = 0
directives_e = 0
for i in range(1, len(df)):
if df.iat[i,7] == 'Y':
points_e += df.iat[i,5]
weight_e += df.iat[i,6]
directives_e += 1
index_e = round(((points_e/weight_e)*100), 3)
pd.options.display.max_rows = 100
global screen_col
screen_col = shutil.get_terminal_size().columns
os.system('clear')
e = datetime.datetime.now()
print('\n\n','Welcome to Dashboard!'.center(screen_col))
print(('Day ' + str(e.strftime("%j"))).center(screen_col))
print(e.strftime("%d %B, %Y").center(screen_col))
print(e.strftime("%A, %I:%M:%S %p").center(screen_col))
print(('Critical Index = ' + str(index_e,)).center(screen_col))
print('\n')
#print(calendar.month(int(e.strftime("%Y")),int(e.strftime("%m"))))
with open('taskpad.txt', 'r+') as t:
print('Tasks for today:')
print(t.read())
print(' Choose option below:')
print(' | ')
print(' |–– 1: View all Directives')
print(' |–– 2: View selected Directives')
print(' |–– 3: View incomplete Directives')
print(' | ')
print(' |–– 4: View completed Directives')
print(' |–– 5: View Statistics')
print(' |–– 6: Execute Directives')
print(' | ')
print(' |–– 7: Reset all Directives')
print(' |–– 8: Reset daily Directives')
print(' | ')
print(' |–– 9: Write to Notepad')
print(' |–– 10: Read from Notepad')
print(' | ')
print(' |–– 11: Update Tasks')
print(' | ')
print(' |–– 12: Exit\n')
options_dict = {
1: viewAll,
2: viewTime,
3: inComp,
4: comp,
5: Stats,
6: Execute,
7: Reset,
8: partReset,
9: notePad,
10: readPad,
11: taskPad,
12: exit}
inpu = input()
option = int(inpu) if inpu.isnumeric() == True else start()
return options_dict[option]() if option in options_dict else start()
def continual():
print('\n','PRESS ENTER TO CONTINUE'.center(screen_col),'\n')
option = input().upper()
if option == '' :
os.system('clear')
return start()
exit()
def viewAll():
os.system('clear')
pd.options.display.max_rows = 100
df = pd.read_csv('directives.csv')
total = 0
for i in range(len(df)):
total += df.iat[i,6]
print('\nALL DIRECTIVES')
print(df)
print('\nTotal weight =',total,'points\n')
return continual()
def viewTime():
os.system('clear')
pd.options.display.max_rows = 100
df = pd.read_csv('directives.csv')
print('Which directives would you like to see?\n')
print('M: Morning')
print('A: All-day')
print('E: Evening')
print('R: Repeat')
print('L: All time-based\n')
print('N: Entropy')
print('Q: Quotidian')
print('T: All type-based\n')
print('C: CRITICAL\n')
print('Enter: Return')
option = input().upper()
def options(arg):
def optionsContinual():
print('\nWould you like to see more directives Y/N?\n')
option = input().upper()
if option == 'Y':
return viewTime()
return continual()
dic1 = {
'M':'Morning',
'A':'All-Day',
'E':'Evening',
'R':'Repeat',
}
dic2 = {
'N':'Entropic',
'Q':'Quotidian'
}
if arg in dic1:
time = dic1[arg]
df2 = df.query("Time == @time")
elif arg in dic2:
time = dic2[arg]
df2 = df.query("Entropy == @time")
elif arg == 'X':
return start()
elif arg == 'L':
for i in dic1:
print('\n{}\n'.format(str(dic1[i]).upper()))
time = dic1[i]
df2 = df.query("Time == @time")
print(df2)
return optionsContinual()
elif arg == 'T':
for i in dic2:
print('\n{}\n'.format(str(dic2[i]).upper()))
time = dic2[i]
df2 = df.query("Entropy == @time")
print(df2)
return optionsContinual()
elif arg == 'C':
print('CRITICAL')
df2 = df.query("Crit == 'Y'")
time = 'CRITICAL'
elif arg == '':
return start()
else:
return viewTime()
total = sum([df2.iat[i,6] for i in range(len(df2))])
print('\n{} DIRECTIVES\n'.format(time.upper()))
print('Total Weight =', total, 'points\n' )
print(df2)
return optionsContinual()
return options(str(option))
def inComp():
df = pd.read_csv('directives.csv')
total = 0
df2 = df.query("Points == 0")
for i in range(len(df2)):
total += df2.iat[i,6]
print('\nINCOMPLETE DIRECTIVES\n')
print('Total Weight =', total, 'points\n' )
print(df2)
return continual()
def comp():
df = pd.read_csv('directives.csv')
total = 0
df2 = df.query("Points != 0")
for i in range(len(df2)):
total += df2.iat[i,6]
print('\nCOMPLETED DIRECTIVES\n')
print('Total Weight =', total, 'points\n' )
print(df2)
return continual()
def Stats():
os.system('clear')
df = pd.read_csv('directives.csv')
points = 0
weight = 0
directives = 0
points_ent = 0
weight_ent = 0
directives_ent = 0
points_q = 0
weight_q = 0
directives_q = 0
points_e = 0
weight_e = 0
directives_e = 0
for i in range(1, len(df)):
directives +=1
points += df.iat[i,5]
weight += df.iat[i,6]
if df.iat[i,7] == 'Y':
points_e += df.iat[i,5]
weight_e += df.iat[i,6]
directives_e += 1
if df.iat[i,3] == 'Entropic':
points_ent += df.iat[i,5]
weight_ent += df.iat[i,6]
directives_ent += 1
elif df.iat[i,3] == 'Quotidian':
points_q += df.iat[i,5]
weight_q += df.iat[i,6]
directives_q += 1
index = round(((points/weight)*100), 3)
index_ent = round(((points_ent/weight_ent)*100), 3)
index_e = round(((points_e/weight_e)*100), 3)
index_q = round(((points_q/weight_q)*100), 3)
print('\n\n\n')
print('\n',' OVERALL INDEX\n')
print(' Active directives =', directives)
print(' Current fulfilment =', points)
print(' Total requirement =', weight)
print(' Fulfilment ratio =', index,'\n')
print('\n',' DAILY PERFORMANCE INDEX\n')
print(' Active directives =', directives_q)
print(' Current fulfilment =', points_q)
print(' Total requirement =', weight_q)
print(' Fulfilment ratio =', index_q,'\n')
print('\n',' ENTROPY INDEX\n')
print(' Active directives =', directives_ent)
print(' Current fulfilment =', points_ent)
print(' Total requirement =', weight_ent)
print(' Fulfilment ratio =', index_ent,'\n')
print('\n',' CRITICAL INDEX\n')
print(' Active directives =', directives_e)
print(' Current fulfilment =', points_e)
print(' Total requirement =', weight_e)
print(' Fulfilment ratio =', index_e,'\n')
return continual()
def Reset():
os.system('clear')
df = pd.read_csv('directives.csv')
directives = 0
for i in range(len(df)):
directives += 1
df.iat[i,5] = 0
df.to_csv('directives.csv', index = False)
print(directives,'directives reset to 0')
return continual()
def partReset():
os.system('clear')
df = pd.read_csv('directives.csv')
directives = 0
for i in range(len(df)):
if df.iat[i,3] == 'Quotidian':
directives += 1
df.iat[i,5] = 0
df.to_csv('directives.csv', index = False)
print(directives,'directives reset to 0')
return continual()
def Execute():
os.system('clear')
df = pd.read_csv('directives.csv')
print(df, '\n')
while True:
try:
print('Enter DX-ID of directive, Ctrl^D to exit, DO NOT PRESS ENTER:')
option = str(input())
if option == '\n':
continue
for i in range(len(df)):
if option in df.iat[i,0]:
df.iat[i,5] = df.iat[i,6]
print(df.iat[i,0], 'executed')
df.to_csv('directives.csv', index = False)
except EOFError:
break
return continual()
def notePad():
os.system('clear')
#enter = '>>>>>>>>>>>>>>>>> Write text below. Ctrl^D to close. <<<<<<<<<<<<<<<<<)
print('\n',('>>>>>>>>>>>>>>>>> Write text below. Ctrl^D to close. <<<<<<<<<<<<<<<<<').center(screen_col))
print('------------------------------------------------------------------')
contents = []
while True:
try:
line = input()
except EOFError:
break
contents.append(line)
#text = input()
e = datetime.datetime.now()
timestamp = str(e.strftime("%d %b %y: ")) + str(e.strftime("%a, %I:%M %p"))
with open ('notepad.txt', 'a') as h:
h.write('\n\n')
h.write('>>>>>>>>>>>>>>>>>>>>>> ' + str(timestamp) + ' <<<<<<<<<<<<<<<<<<<<<<')
h.write('\n')
for i in contents:
h.write(i)
h.write('\n')
return continual()
def readPad():
os.system('clear')
with open ('notepad.txt', 'r') as h:
print(h.read().center(screen_col))
return continual()
def taskPad():
os.system('clear')
def overwrite(contents):
with open ('taskpad.txt', 'w') as h:
for i in contents:
h.write(i)
h.write('\n')
return start()
def append(contents):
with open ('taskpad.txt', 'a') as h:
for i in contents:
h.write(i)
h.write('\n')
return start()
print('Overwrite tasks Y/N?\n')
option = input().upper()
print('Write tasks below. Ctrl^D to close.\n')
contents = []
while True:
try:
line = input()
except EOFError:
break
contents.append(line)
if option == 'Y':
return overwrite(contents)
else:
return append(contents)
def status():
os.system('clear')
def overwrite(contents):
with open ('status.txt', 'w') as h:
for i in contents:
h.write(i)
h.write('\n')
return start()
def append(contents):
with open ('status.txt', 'a') as h:
for i in contents:
h.write(i)
h.write('\n')
return start()
print('Overwrite STATUS Y/N?\n')
option = input().upper()
print('Update STATUS below. Ctrl^D to close.\n')
contents = []
while True:
try:
line = input()
except EOFError:
break
contents.append(line)
if option == 'Y':
return overwrite(contents)
else:
return append(contents)
start()