|
| 1 | +importrandom |
| 2 | +importjson |
| 3 | + |
| 4 | +white_possibles=list(range(1,70)) |
| 5 | +red_possibles=list(range(1,27)) |
| 6 | + |
| 7 | +tickets_per_drawing=100 |
| 8 | +num_drawings=15600 |
| 9 | + |
| 10 | +total_spent=0 |
| 11 | +earnings=0 |
| 12 | + |
| 13 | +times_won= { |
| 14 | +"5+P":0, |
| 15 | +"5":0, |
| 16 | +"4+P":0, |
| 17 | +"4":0, |
| 18 | +"3+P":0, |
| 19 | +"3":0, |
| 20 | +"2+P":0, |
| 21 | +"1+P":0, |
| 22 | +"P":0, |
| 23 | +"0":0, |
| 24 | +} |
| 25 | + |
| 26 | + |
| 27 | +defcalc_win_amt(my_numbers,winning_numbers): |
| 28 | +win_amt=0 |
| 29 | + |
| 30 | +white_matches=len(my_numbers["whites"].intersection( |
| 31 | +winning_numbers["whites"])) |
| 32 | +power_match=my_numbers["red"]==winning_numbers["red"] |
| 33 | + |
| 34 | +ifwhite_matches==5: |
| 35 | +ifpower_match: |
| 36 | +win_amt=2_000_000_000 |
| 37 | +times_won["5+P"]+=1 |
| 38 | +else: |
| 39 | +win_amt=1_000_000 |
| 40 | +times_won["5"]+=1 |
| 41 | +elifwhite_matches==4: |
| 42 | +ifpower_match: |
| 43 | +win_amt=50_000 |
| 44 | +times_won["4+P"]+=1 |
| 45 | +else: |
| 46 | +win_amt=100 |
| 47 | +times_won["4"]+=1 |
| 48 | +elifwhite_matches==3: |
| 49 | +ifpower_match: |
| 50 | +win_amt=100 |
| 51 | +times_won["3+P"]+=1 |
| 52 | +else: |
| 53 | +win_amt=7 |
| 54 | +times_won["3"]+=1 |
| 55 | +elifwhite_matches==2andpower_match: |
| 56 | +win_amt=7 |
| 57 | +times_won["2+P"]+=1 |
| 58 | +elifwhite_matches==1andpower_match: |
| 59 | +win_amt=4 |
| 60 | +times_won["1+P"]+=1 |
| 61 | +elifpower_match: |
| 62 | +win_amt=4 |
| 63 | +times_won["P"]+=1 |
| 64 | +else: |
| 65 | +times_won["0"]+=1 |
| 66 | + |
| 67 | +returnwin_amt |
| 68 | + |
| 69 | + |
| 70 | +# for drawing in range(num_drawings): |
| 71 | +hit_jp=False |
| 72 | +drawings=0 |
| 73 | +years=0 |
| 74 | +whileTrue: |
| 75 | +drawings+=1 |
| 76 | +white_drawing=set(random.sample(white_possibles,k=5)) |
| 77 | +red_drawing=random.choice(red_possibles) |
| 78 | + |
| 79 | +winning_numbers= {"whites":white_drawing,"red":red_drawing} |
| 80 | + |
| 81 | +forticketinrange(tickets_per_drawing): |
| 82 | +total_spent+=2 |
| 83 | +my_whites=set(random.sample(white_possibles,k=5)) |
| 84 | +my_red=random.choice(red_possibles) |
| 85 | + |
| 86 | +my_numbers= {"whites":my_whites,"red":my_red} |
| 87 | + |
| 88 | +win_amt=calc_win_amt(my_numbers,winning_numbers) |
| 89 | +earnings+=win_amt |
| 90 | + |
| 91 | +ifwin_amt==2_000_000_000: |
| 92 | +hit_jp=True |
| 93 | +break |
| 94 | + |
| 95 | +ifdrawings%156==0: |
| 96 | +years+=1 |
| 97 | +print(f'{years} years') |
| 98 | + |
| 99 | +ifhit_jp: |
| 100 | +break |
| 101 | + |
| 102 | +print(f'Spent: ${total_spent}') |
| 103 | +print(f'Earnings: ${earnings}') |
| 104 | + |
| 105 | +print(json.dumps(times_won,indent=2)) |