125 lines
4.9 KiB
Markdown
125 lines
4.9 KiB
Markdown
|
|
This program, lottery.py, allows you to see how a lottery scheduler
|
|
works. As always, there are two steps to running the program. First, run
|
|
without the -c flag: this shows you what problem to solve without
|
|
revealing the answers.
|
|
|
|
prompt> ./lottery.py -j 2 -s 0
|
|
...
|
|
Here is the job list, with the run time of each job:
|
|
Job 0 ( length = 8, tickets = 75 )
|
|
Job 1 ( length = 4, tickets = 25 )
|
|
|
|
Here is the set of random numbers you will need (at most):
|
|
Random 511275
|
|
Random 404934
|
|
Random 783799
|
|
Random 303313
|
|
Random 476597
|
|
Random 583382
|
|
Random 908113
|
|
Random 504687
|
|
Random 281838
|
|
Random 755804
|
|
Random 618369
|
|
Random 250506
|
|
]
|
|
|
|
When you run the simulator in this manner, it first assigns you some random
|
|
jobs (here of lengths 8, and 4), each with some number of tickets (here 75 and
|
|
25, respectively). The simulator also gives you a list of random numbers,
|
|
which you will need to determine what the lottery scheduler will do. The
|
|
random numbers are chosen to be between 0 and a large number; thus, you'll
|
|
have to use the modulo operator to compute the lottery winner (i.e., winner
|
|
should equal this random number modulo the total number of tickets in the
|
|
system).
|
|
|
|
Running with -c shows exactly what you are supposed to calculate:
|
|
|
|
prompt> ./lottery.py -j 2 -s 0 -c
|
|
...
|
|
** Solutions **
|
|
Random 511275 -> Winning ticket 75 (of 100) -> Run 1
|
|
Jobs: ( job:0 timeleft:8 tix:75 ) (* job:1 timeleft:4 tix:25 )
|
|
Random 404934 -> Winning ticket 34 (of 100) -> Run 0
|
|
Jobs: (* job:0 timeleft:8 tix:75 ) ( job:1 timeleft:3 tix:25 )
|
|
Random 783799 -> Winning ticket 99 (of 100) -> Run 1
|
|
Jobs: ( job:0 timeleft:7 tix:75 ) (* job:1 timeleft:3 tix:25 )
|
|
Random 303313 -> Winning ticket 13 (of 100) -> Run 0
|
|
Jobs: (* job:0 timeleft:7 tix:75 ) ( job:1 timeleft:2 tix:25 )
|
|
Random 476597 -> Winning ticket 97 (of 100) -> Run 1
|
|
Jobs: ( job:0 timeleft:6 tix:75 ) (* job:1 timeleft:2 tix:25 )
|
|
Random 583382 -> Winning ticket 82 (of 100) -> Run 1
|
|
Jobs: ( job:0 timeleft:6 tix:75 ) (* job:1 timeleft:1 tix:25 )
|
|
--> JOB 1 DONE at time 6
|
|
Random 908113 -> Winning ticket 13 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:6 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
Random 504687 -> Winning ticket 12 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:5 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
Random 281838 -> Winning ticket 63 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:4 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
Random 755804 -> Winning ticket 29 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:3 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
Random 618369 -> Winning ticket 69 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:2 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
Random 250506 -> Winning ticket 6 (of 75) -> Run 0
|
|
Jobs: (* job:0 timeleft:1 tix:75 ) ( job:1 timeleft:0 tix:--- )
|
|
--> JOB 0 DONE at time 12
|
|
]
|
|
|
|
As you can see from this trace, what you are supposed to do is use the random
|
|
number to figure out which ticket is the winner. Then, given the winning
|
|
ticket, figure out which job should run. Repeat this until all of the jobs are
|
|
finished running. It's as simple as that -- you are just emulating what the
|
|
lottery scheduler does, but by hand!
|
|
|
|
Just to make this absolutely clear, let's look at the first decision made in
|
|
the example above. At this point, we have two jobs (job 0 which has a runtime
|
|
of 8 and 75 tickets, and job 1 which has a runtime of 4 and 25 tickets). The
|
|
first random number we are given is 511275. As there are 100 tickets in the
|
|
system, 511275 \% 100 is 75, and thus 75 is our winning ticket.
|
|
|
|
If ticket 75 is the winner, we simply search through the job list until we
|
|
find it. The first entry, for job 0, has 75 tickets (0 through 74), and thus
|
|
does not win; the next entry is for job 1, and thus we have found our winner,
|
|
so we run job 1 for the quantum length (1 in this example). All of this is
|
|
shown in the print out as follows:
|
|
|
|
Random 511275 -> Winning ticket 75 (of 100) -> Run 1
|
|
Jobs: ( job:0 timeleft:8 tix:75 ) (* job:1 timeleft:4 tix:25 )
|
|
]
|
|
|
|
As you can see, the first line summarizes what happens, and the second simply
|
|
shows the entire job queue, with an * denoting which job was chosen.
|
|
|
|
The simulator has a few other options, most of which should be
|
|
self-explanatory. Most notably, the -l/--jlist flag can be used to specify an
|
|
exact set of jobs and their ticket values, instead of always using
|
|
randomly-generated job lists.
|
|
|
|
prompt> ./lottery.py -h
|
|
Usage: lottery.py [options]
|
|
|
|
Options:
|
|
-h, --help
|
|
show this help message and exit
|
|
-s SEED, --seed=SEED
|
|
the random seed
|
|
-j JOBS, --jobs=JOBS
|
|
number of jobs in the system
|
|
-l JLIST, --jlist=JLIST
|
|
instead of random jobs, provide a comma-separated list
|
|
of run times and ticket values (e.g., 10:100,20:100
|
|
would have two jobs with run-times of 10 and 20, each
|
|
with 100 tickets)
|
|
-m MAXLEN, --maxlen=MAXLEN
|
|
max length of job
|
|
-T MAXTICKET, --maxtick=MAXTICKET
|
|
maximum ticket value, if randomly assigned
|
|
-q QUANTUM, --quantum=QUANTUM
|
|
length of time slice
|
|
-c, --compute
|
|
compute answers for me
|
|
|
|
|