evennia/bin/testing/memplot.py

"""
Script that saves memory and idmapper data over time.

Data will be saved to game/logs/memoryusage.log. Note that
the script will append to this file if it already exists.

Call this module directly to plot the log (requires matplotlib and numpy).
"""
import os, sys
import time
#TODO!
#sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))))
#os.environ['DJANGO_SETTINGS_MODULE'] = 'game.settings'
import ev
from evennia.utils.idmapper import base as _idmapper

LOGFILE = "logs/memoryusage.log"
INTERVAL = 30 # log every 30 seconds

class Memplot(ev.Script):
    def at_script_creation(self):
        self.key = "memplot"
        self.desc = "Save server memory stats to file"
        self.start_delay = False
        self.persistent = True
        self.interval = INTERVAL
        self.db.starttime = time.time()

    def at_repeat(self):

        pid = os.getpid()
        rmem = float(os.popen('ps -p %d -o %s | tail -1' % (pid, "rss")).read()) / 1000.0  # resident memory
        vmem = float(os.popen('ps -p %d -o %s | tail -1' % (pid, "vsz")).read()) / 1000.0  # virtual memory
        total_num, cachedict = _idmapper.cache_size()
        t0 = (time.time() - self.db.starttime) / 60.0 # save in minutes

        with open(LOGFILE, "a") as f:
            f.write("%s, %s, %s, %s\n" % (t0, rmem, vmem, int(total_num)))

if __name__ == "__main__":

    # plot output from the file

    from matplotlib import pyplot as pp
    import numpy

    data = numpy.genfromtxt("../../../game/" + LOGFILE, delimiter=",")
    secs = data[:,0]
    rmem = data[:,1]
    vmem = data[:,2]
    nobj = data[:,3]

    # calculate derivative of obj creation
    #oderiv = (0.5*(nobj[2:] - nobj[:-2]) / (secs[2:] - secs[:-2])).copy()
    #oderiv = (0.5*(rmem[2:] - rmem[:-2]) / (secs[2:] - secs[:-2])).copy()

    fig = pp.figure()
    ax1 = fig.add_subplot(111)
    ax1.set_title("1000 bots (normal players with light building)")
    ax1.set_xlabel("Time (mins)")
    ax1.set_ylabel("Memory usage (MB)")
    ax1.plot(secs, rmem, "r", label="RMEM", lw=2)
    ax1.plot(secs, vmem, "b", label="VMEM", lw=2)
    ax1.legend(loc="upper left")

    ax2 = ax1.twinx()
    ax2.plot(secs, nobj, "g--", label="objs in cache", lw=2)
    #ax2.plot(secs[:-2], oderiv/60.0, "g--", label="Objs/second", lw=2)
    #ax2.plot(secs[:-2], oderiv, "g--", label="Objs/second", lw=2)
    ax2.set_ylabel("Number of objects")
    ax2.legend(loc="lower right")
    ax2.annotate("First 500 bots\nconnecting", xy=(10, 4000))
    ax2.annotate("Next 500 bots\nconnecting", xy=(350,10000))
    #ax2.annotate("@reload", xy=(185,600))

#    # plot mem vs cachesize
#    nobj, rmem, vmem = nobj[:262].copy(), rmem[:262].copy(), vmem[:262].copy()
#
#    fig = pp.figure()
#    ax1 = fig.add_subplot(111)
#    ax1.set_title("Memory usage per cache size")
#    ax1.set_xlabel("Cache size (number of objects)")
#    ax1.set_ylabel("Memory usage (MB)")
#    ax1.plot(nobj, rmem, "r", label="RMEM", lw=2)
#    ax1.plot(nobj, vmem, "b", label="VMEM", lw=2)
#

##    # empirical estimate of memory usage: rmem = 35.0 + 0.0157 * Ncache
##    # Ncache = int((rmem - 35.0) / 0.0157)  (rmem in MB)
#
#    rderiv_aver = 0.0157
#    fig = pp.figure()
#    ax1 = fig.add_subplot(111)
#    ax1.set_title("Relation between memory and cache size")
#    ax1.set_xlabel("Memory usage (MB)")
#    ax1.set_ylabel("Idmapper Cache Size (number of objects)")
#    rmem = numpy.linspace(35, 2000, 2000)
#    nobjs = numpy.array([int((mem - 35.0) / 0.0157) for mem in rmem])
#    ax1.plot(rmem, nobjs, "r", lw=2)

    pp.show()
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`"""`
			`Script that saves memory and idmapper data over time.`

			`Data will be saved to game/logs/memoryusage.log. Note that`
			`the script will append to this file if it already exists.`

			`Call this module directly to plot the log (requires matplotlib and numpy).`
			`"""`
			`import os, sys`
			`import time`
Fixed many path-related issues, getting closing to getting the server to boot. 2015-01-08 16:00:22 +01:00			`#TODO!`
			`#sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))))`
			`#os.environ['DJANGO_SETTINGS_MODULE'] = 'game.settings'`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`import ev`
Changed all src/ and ev references to evennia 2015-01-07 15:36:32 +01:00			`from evennia.utils.idmapper import base as _idmapper`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00
			`LOGFILE = "logs/memoryusage.log"`
			`INTERVAL = 30 # log every 30 seconds`

			`class Memplot(ev.Script):`
			`def at_script_creation(self):`
			`self.key = "memplot"`
			`self.desc = "Save server memory stats to file"`
			`self.start_delay = False`
			`self.persistent = True`
			`self.interval = INTERVAL`
			`self.db.starttime = time.time()`

			`def at_repeat(self):`

			`pid = os.getpid()`
			`rmem = float(os.popen('ps -p %d -o %s \| tail -1' % (pid, "rss")).read()) / 1000.0 # resident memory`
			`vmem = float(os.popen('ps -p %d -o %s \| tail -1' % (pid, "vsz")).read()) / 1000.0 # virtual memory`
			`total_num, cachedict = _idmapper.cache_size()`
			`t0 = (time.time() - self.db.starttime) / 60.0 # save in minutes`

			`with open(LOGFILE, "a") as f:`
Made lockhandler write lockwarnings to separate log file 2014-05-18 11:18:00 +02:00			`f.write("%s, %s, %s, %s\n" % (t0, rmem, vmem, int(total_num)))`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00
			`if __name__ == "__main__":`

			`# plot output from the file`

			`from matplotlib import pyplot as pp`
			`import numpy`

Made lockhandler write lockwarnings to separate log file 2014-05-18 11:18:00 +02:00			`data = numpy.genfromtxt("../../../game/" + LOGFILE, delimiter=",")`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`secs = data[:,0]`
			`rmem = data[:,1]`
			`vmem = data[:,2]`
			`nobj = data[:,3]`

Added periodic idmapper cache size check along with conditional flush mechanism. Ran a lot of tests and stress tests to get statistics on usage. 2014-05-18 18:28:10 +02:00			`# calculate derivative of obj creation`
Merged Memory modification branch with main. Includes some more testing. 2014-06-06 11:35:14 +02:00			`#oderiv = (0.5*(nobj[2:] - nobj[:-2]) / (secs[2:] - secs[:-2])).copy()`
			`#oderiv = (0.5*(rmem[2:] - rmem[:-2]) / (secs[2:] - secs[:-2])).copy()`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00
			`fig = pp.figure()`
			`ax1 = fig.add_subplot(111)`
Merged Memory modification branch with main. Includes some more testing. 2014-06-06 11:35:14 +02:00			`ax1.set_title("1000 bots (normal players with light building)")`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`ax1.set_xlabel("Time (mins)")`
			`ax1.set_ylabel("Memory usage (MB)")`
			`ax1.plot(secs, rmem, "r", label="RMEM", lw=2)`
			`ax1.plot(secs, vmem, "b", label="VMEM", lw=2)`
			`ax1.legend(loc="upper left")`

			`ax2 = ax1.twinx()`
			`ax2.plot(secs, nobj, "g--", label="objs in cache", lw=2)`
Added periodic idmapper cache size check along with conditional flush mechanism. Ran a lot of tests and stress tests to get statistics on usage. 2014-05-18 18:28:10 +02:00			`#ax2.plot(secs[:-2], oderiv/60.0, "g--", label="Objs/second", lw=2)`
Merged Memory modification branch with main. Includes some more testing. 2014-06-06 11:35:14 +02:00			`#ax2.plot(secs[:-2], oderiv, "g--", label="Objs/second", lw=2)`
Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`ax2.set_ylabel("Number of objects")`
			`ax2.legend(loc="lower right")`
Merged Memory modification branch with main. Includes some more testing. 2014-06-06 11:35:14 +02:00			`ax2.annotate("First 500 bots\nconnecting", xy=(10, 4000))`
			`ax2.annotate("Next 500 bots\nconnecting", xy=(350,10000))`
Added periodic idmapper cache size check along with conditional flush mechanism. Ran a lot of tests and stress tests to get statistics on usage. 2014-05-18 18:28:10 +02:00			`#ax2.annotate("@reload", xy=(185,600))`

			`# # plot mem vs cachesize`
			`# nobj, rmem, vmem = nobj[:262].copy(), rmem[:262].copy(), vmem[:262].copy()`
			`#`
			`# fig = pp.figure()`
			`# ax1 = fig.add_subplot(111)`
			`# ax1.set_title("Memory usage per cache size")`
			`# ax1.set_xlabel("Cache size (number of objects)")`
			`# ax1.set_ylabel("Memory usage (MB)")`
			`# ax1.plot(nobj, rmem, "r", label="RMEM", lw=2)`
			`# ax1.plot(nobj, vmem, "b", label="VMEM", lw=2)`
			`#`

			`## # empirical estimate of memory usage: rmem = 35.0 + 0.0157 * Ncache`
			`## # Ncache = int((rmem - 35.0) / 0.0157) (rmem in MB)`
			`#`
			`# rderiv_aver = 0.0157`
			`# fig = pp.figure()`
			`# ax1 = fig.add_subplot(111)`
			`# ax1.set_title("Relation between memory and cache size")`
			`# ax1.set_xlabel("Memory usage (MB)")`
			`# ax1.set_ylabel("Idmapper Cache Size (number of objects)")`
			`# rmem = numpy.linspace(35, 2000, 2000)`
			`# nobjs = numpy.array([int((mem - 35.0) / 0.0157) for mem in rmem])`
			`# ax1.plot(rmem, nobjs, "r", lw=2)`

Made more work around memory profiling, added a small Script and display program for logging memory usage 2014-05-18 10:54:04 +02:00			`pp.show()`