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ProjektAI/kelner/venv/Lib/site-packages/pygame/threads/__init__.py

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2020-03-22 02:01:57 +01:00
"""
* Experimental *
Like the map function, but can use a pool of threads.
Really easy to use threads. eg. tmap(f, alist)
If you know how to use the map function, you can use threads.
"""
__author__ = "Rene Dudfield"
__version__ = "0.3.0"
__license__ = 'Python license'
import traceback, sys
from pygame.compat import geterror
if sys.version_info[0] == 3:
from queue import Queue
from queue import Empty
elif (sys.version_info[0] == 2 and sys.version_info[1] < 5):
from Py25Queue import Queue
from Py25Queue import Empty
else:
# use up to date version
from Queue import Queue
from Queue import Empty
import threading
Thread = threading.Thread
STOP = object()
FINISH = object()
# DONE_ONE = object()
# DONE_TWO = object()
# a default worker queue.
_wq = None
# if we are using threads or not. This is the number of workers.
_use_workers = 0
# Set this to the maximum for the amount of Cores/CPUs
# Note, that the tests early out.
# So it should only test the best number of workers +2
MAX_WORKERS_TO_TEST = 64
def init(number_of_workers = 0):
""" Does a little test to see if threading is worth it.
Sets up a global worker queue if it's worth it.
Calling init() is not required, but is generally better to do.
"""
global _wq, _use_workers
if number_of_workers:
_use_workers = number_of_workers
else:
_use_workers = benchmark_workers()
# if it is best to use zero workers, then use that.
_wq = WorkerQueue(_use_workers)
def quit():
""" cleans up everything.
"""
global _wq, _use_workers
_wq.stop()
_wq = None
_use_workers = False
def benchmark_workers(a_bench_func = None, the_data = None):
""" does a little test to see if workers are at all faster.
Returns the number of workers which works best.
Takes a little bit of time to run, so you should only really call
it once.
You can pass in benchmark data, and functions if you want.
a_bench_func - f(data)
the_data - data to work on.
"""
global _use_workers
#TODO: try and make this scale better with slower/faster cpus.
# first find some variables so that using 0 workers takes about 1.0 seconds.
# then go from there.
# note, this will only work with pygame 1.8rc3+
# replace the doit() and the_data with something that releases the GIL
import pygame
import pygame.transform
import time
if not a_bench_func:
def doit(x):
return pygame.transform.scale(x, (544, 576))
else:
doit = a_bench_func
if not the_data:
thedata = []
for x in range(10):
thedata.append(pygame.Surface((155,155), 0, 32))
else:
thedata = the_data
best = time.time() + 100000000
best_number = 0
last_best = -1
for num_workers in range(0, MAX_WORKERS_TO_TEST):
wq = WorkerQueue(num_workers)
t1 = time.time()
for xx in range(20):
print ("active count:%s" % threading.activeCount())
results = tmap(doit, thedata, worker_queue = wq)
t2 = time.time()
wq.stop()
total_time = t2 - t1
print ("total time num_workers:%s: time:%s:" % (num_workers, total_time))
if total_time < best:
last_best = best_number
best_number =num_workers
best = total_time
if num_workers - best_number > 1:
# We tried to add more, but it didn't like it.
# so we stop with testing at this number.
break
return best_number
class WorkerQueue(object):
def __init__(self, num_workers = 20):
self.queue = Queue()
self.pool = []
self._setup_workers(num_workers)
def _setup_workers(self, num_workers):
""" Sets up the worker threads
NOTE: undefined behaviour if you call this again.
"""
self.pool = []
for _ in range(num_workers):
self.pool.append(Thread(target=self.threadloop))
for a_thread in self.pool:
a_thread.setDaemon(True)
a_thread.start()
def do(self, f, *args, **kwArgs):
""" puts a function on a queue for running later.
"""
self.queue.put((f, args, kwArgs))
def stop(self):
""" Stops the WorkerQueue, waits for all of the threads to finish up.
"""
self.queue.put(STOP)
for thread in self.pool:
thread.join()
def threadloop(self): #, finish = False):
""" Loops until all of the tasks are finished.
"""
while True:
args = self.queue.get()
if args is STOP:
self.queue.put(STOP)
self.queue.task_done()
break
else:
try:
args[0](*args[1], **args[2])
finally:
# clean up the queue, raise the exception.
self.queue.task_done()
#raise
def wait(self):
""" waits until all tasks are complete.
"""
self.queue.join()
class FuncResult:
""" Used for wrapping up a function call so that the results are stored
inside the instances result attribute.
"""
def __init__(self, f, callback = None, errback = None):
""" f - is the function we that we call
callback(result) - this is called when the function(f) returns
errback(exception) - this is called when the function(f) raises
an exception.
"""
self.f = f
self.exception = None
self.callback = callback
self.errback = errback
def __call__(self, *args, **kwargs):
#we try to call the function here. If it fails we store the exception.
try:
self.result = self.f(*args, **kwargs)
if self.callback:
self.callback(self.result)
except Exception:
self.exception = geterror()
if self.errback:
self.errback(self.exception)
def tmap(f, seq_args, num_workers = 20, worker_queue = None, wait = True, stop_on_error = True):
""" like map, but uses a thread pool to execute.
num_workers - the number of worker threads that will be used. If pool
is passed in, then the num_workers arg is ignored.
worker_queue - you can optionally pass in an existing WorkerQueue.
wait - True means that the results are returned when everything is finished.
False means that we return the [worker_queue, results] right away instead.
results, is returned as a list of FuncResult instances.
stop_on_error -
"""
if worker_queue:
wq = worker_queue
else:
# see if we have a global queue to work with.
if _wq:
wq = _wq
else:
if num_workers == 0:
return map(f, seq_args)
wq = WorkerQueue(num_workers)
# we short cut it here if the number of workers is 0.
# normal map should be faster in this case.
if len(wq.pool) == 0:
return map(f, seq_args)
#print ("queue size:%s" % wq.queue.qsize())
#TODO: divide the data (seq_args) into even chunks and
# then pass each thread a map(f, equal_part(seq_args))
# That way there should be less locking, and overhead.
results = []
for sa in seq_args:
results.append(FuncResult(f))
wq.do(results[-1], sa)
#wq.stop()
if wait:
#print ("wait")
wq.wait()
#print ("after wait")
#print ("queue size:%s" % wq.queue.qsize())
if wq.queue.qsize():
raise Exception("buggy threadmap")
# if we created a worker queue, we need to stop it.
if not worker_queue and not _wq:
#print ("stoping")
wq.stop()
if wq.queue.qsize():
um = wq.queue.get()
if not um is STOP:
raise Exception("buggy threadmap")
# see if there were any errors. If so raise the first one. This matches map behaviour.
# TODO: the traceback doesn't show up nicely.
# NOTE: TODO: we might want to return the results anyway? This should be an option.
if stop_on_error:
error_ones = list(filter(lambda x:x.exception, results))
if error_ones:
raise error_ones[0].exception
return map(lambda x:x.result, results)
else:
return [wq, results]