I created the LaTeX documentation for the 0.5 release of Pyevolve, the link is now on the front page of the documentation site.
You can download the PDF documentation here.
by Christian S. Perone
I created the LaTeX documentation for the 0.5 release of Pyevolve, the link is now on the front page of the documentation site.
You can download the PDF documentation here.
As I promised on the post about Pyevolve on N73, I’ve ported the TSP problem to run on the cellphone. The script will draw the best individual of every generation on the screen using the PyS60 Canvas API. The quality of the video is very low, I’m using another cellphone with VGA only recording.
When I have time, I’ll release the source-code here in the same post. The TSP code is the same used in PSP, but ported to use the Canvas API of PyS60.
I hope you enjoy.
UPDATE 24/04: the source-code can be downloaded here.
Good news for Python community ! PyS60 1.9.3 was released and now we have touch support ! Follow the list of changes from the project site:
– Python core is upgraded to 2.5.4
– Touch event support is added to appuifw Canvas. An API is added to appuifw
module, touch_enabled() for checking if the device supports touch input.– scribble application developed using PyS60 touch feature is available in the
installer.
– This release includes a new extension module, sciptext. This is an enabler for
using S60 Platform Service APIs that were introduced in the S60 5th Edition
and back ported on S60 3rd edition FP2, from Python. It supports services like
Application Manager, Calendar, Contacts, Landmarks, Location, Logging,
Messaging, Media Management, Sensors and Sys Info. Refer scriptext module
documentation for the usage and the convention for accessing the platform
Service API interfaces is subjected to change.– Easier runtime deployment: Python runtime and its dependent components can be
installed by just running the scriptshell application that comes with 1.9.3
release. This feature is available only from S60 3rd edition FP2 devices
onwards and also these devices should have been updated with the latest
firmware. The easier runtime deployment support will be available with all
ensymble packaged applications in future releases.– SSL support for socket is enabled
See more on the release announce.
PyS60 is a great piece of code between the mobile open-source projects ! Congratulations for the team !
I’ve done the port of TSP problem for Nokia N73 as promised, it’s working very smoothly and the Canvas API of PyS60 is amazing and fast, I’ll post the video and source-code soon.
PyS60 related links
Download of PyS60 installation
Nokia forum (get started)
Hello ! This is the 2nd post related to the Pyevolve on portable devices, the first was in the Sony PSP here and the PoC of Pyevolve solving the TSP problem with a graphical output of best individuals on the Sony PSP screen. Now, it’s time to go further and run Pyevolve into the most portable device used by us, the cellphone.
Using the new version of the PyS60, the release 1.9.1, which comes with the new amazing 2.5.1 Python core, I’ve executed the Pyevolve with no problem, and I was very surprised by the performance of the GA on the Nokia N73, the GA I’ve ran is the minimization of one of the De Jogn’s test suite functions, the Sphere function, the function is very simple and I’ve used 5 real variables between the interval of [-5.12, 5.12], the Gaussian Real Mutator and the Single Point Crossover of the Pyevolve framework. Also I’ve set a population size of 80 individuals and the mutation rate of 2% and crossover rate of 90%.
After 18 generations (about 8 seconds), the GA ended with the best score of 0.0, representing the optimal minimization of the De Jong’s Sphere function.
Follow some screenshots of the adventure (click on the pictures to enlarge):
1) First, you need to install the PyS60 for your Symbian platform. Here is the installation manual. The order of the installation is: Python Runtime for S60, Python Script Shell and PIPS Library.
2) Then, you must create a directory on your Memory Card, inside the “Python” directory, named “Lib”, and inside this directory, you copy the “pyevolve” folder. The absolute folder structure will be like this:
MemoryCard:\Python\Lib\pyevolve
Some features of the framework will not work, like the some DB Adapters, however, the GA core is working really good. I’ve used the Pyevolve subversion release r157, but it should works with the 0.5 release too. I’ve not finished the documentation of the new release, I’m working on some features yet.
Here is the source code I’ve used to minimize the De Jong’s Sphere function:
import e32
print "Loading Pyevolve modules...",
e32.ao_yield()
from pyevolve import G1DList, GSimpleGA
from pyevolve import Initializators, Mutators, Consts
print " done !"
e32.ao_yield()
def sphere(xlist):
n = len(xlist)
total = 0
for i in range(n):
total += (xlist[i]**2)
return total
def ga_callback(ga_engine):
gen = ga_engine.getCurrentGeneration()
best = ga.bestIndividual()
print "Generation %d - Best Score: %.2f" % (gen, best.score)
e32.ao_yield()
return False
if __name__ == "__main__":
genome = G1DList.G1DList(5)
genome.setParams(rangemin=-5.12, rangemax=5.13, bestRawScore=0.00, roundDecimal=2)
genome.initializator.set(Initializators.G1DListInitializatorReal)
genome.mutator.set(Mutators.G1DListMutatorRealGaussian)
genome.evaluator.set(sphere)
ga = GSimpleGA.GSimpleGA(genome)
ga.setMinimax(Consts.minimaxType["minimize"])
ga.setGenerations(100)
ga.setMutationRate(0.02)
ga.terminationCriteria.set(GSimpleGA.RawScoreCriteria)
ga.stepCallback.set(ga_callback)
ga.evolve()
best = ga.bestIndividual()
print "\nBest individual score: %.2f" % (best.score,)
You can note the use of the module “e32” of the PyS60, this is used to process pending events, so we can follow the statistics of current generation while it evolves.
I hope you enjoyed this work, the next step is to port the TSP problem to cellphone =)
Some time ago I’ve asked Guido van Rossum on the Google Moderator about the future of Python for mobile phones (aka PyS60), and here is the full answer from him:
I’m hopeful, but concerned that Java has cornered this market. For example, the Android development kit is extremely slick but only supports Java at the moment. There’s no doubt about which is the dominant app development language on most mobile platforms, including S60 and anything Symbian-based. In the long run I expect Python to just happen on mobile devices, as increases in disk space will allow the set of pre-installed tools to grow. In the mean time I see a bigger role for Python server-side, for example there are iPhone apps backed by services written in Python running on App Engine (and probably also apps backed by Python running on other server platforms).Guido van Rossum, San Francisco Bay Area
Well, I think that with this new version of PyS60, with the 2.5.1 core, the Python on mobiles can be very useful and productive. Recently, Nokia have signed a loan agreement with the European Investment Bank (EIB) to the tune of €500 million ($623.9 million). According to Reuters, the five-year loan will be used in part to “finance software research and development (R&D) projects Nokia is undertaking during 2009-2011 to make Symbian-based smartphones more competitive.” So I’m with great expectations with this new investment on Symbian smartphones and with the future possibilities of the PyS60.
Today is the fourth Genetic Argonaut birthday ! So take a time to visit the blog of my great fellow countryman Marcelo de Brito. I’m following his blog since years ago, there is a lot of contents to read.
Pauca, Sed Matura!
Congratulations man ! Keep walking.
This is my first PoC of the Travelling Salesman Problem on PSP, since I’ve installed the Pyevolve on the Sony PSP, I can optimize any problem while using the graphical interface of PSP (in that problem I’m using the 2D functions to plot the cities and the path) to show results in real-time. Here is the video, the quality is very low, I’ve used my cellphone 🙂
Here is the source code I’ve used, the Pyevolve version of this example is the development version r166, which in the future will be the 0.6 final release (I’m working on many new features yet, so it will take time to release), however, this PoC should work on 0.5 release too:
import psp2d, pspos
WHITE_COLOR = psp2d.Color(255,255,255)
CLEAR_COLOR = psp2d.Color(0,0,0,255)
RED_COLOR = psp2d.Color(255, 0, 0)
cm = []
coords = []
CITIES = 20
pspos.setclocks(333,166)
psp_scr = psp2d.Screen()
psp_font = psp2d.Font('font.png')
psp_scr.clear(CLEAR_COLOR)
psp_font.drawText(psp_scr, 0, 5, "Loading Pyevolve modules...")
psp_scr.swap()
from pyevolve import G1DList
from pyevolve import GSimpleGA
from pyevolve import GAllele
from pyevolve import Mutators
from pyevolve import Crossovers
from pyevolve import Consts
from random import shuffle as rand_shuffle, randint as rand_randint
from math import sqrt
def cartesian_matrix(coords):
""" A distance matrix """
matrix={}
for i,(x1,y1) in enumerate(coords):
for j,(x2,y2) in enumerate(coords):
dx, dy = x1-x2, y1-y2
dist=sqrt(dx*dx + dy*dy)
matrix[i,j] = dist
return matrix
def tour_length(matrix, tour):
""" Returns the total length of the tour """
total = 0
for i in range(CITIES):
j = (i+1)%CITIES
total += matrix[tour[i], tour[j]]
return total
def write_tour_to_img(coords, tour):
""" The function to plot the graph """
psp_scr.clear(CLEAR_COLOR)
for i in range(CITIES):
j = (i+1)%CITIES
city_i = tour[i]
city_j = tour[j]
x1, y1 = coords[city_i]
x2, y2 = coords[city_j]
psp_scr.drawLine(int(x1), int(y1), int(x2), int(y2), WHITE_COLOR)
psp_font.drawText(psp_scr, int(x1)+7, int(y1)-5, str(i))
psp_scr.fillRect(int(x1), int(y1), 6, 6, RED_COLOR)
psp_scr.swap()
def G1DListTSPInitializator(genome, **args):
""" The initializator for the TSP """
lst = [i for i in xrange(genome.getListSize())]
rand_shuffle(lst)
genome.genomeList = lst
def evolve_callback(ga_engine):
""" Callback called every generation by Pyevolve """
write_tour_to_img(coords, ga_engine.bestIndividual())
return False
def main_run():
global cm, coords
width, height = psp_scr.size
coords = [(rand_randint(0, width),rand_randint(0, height))
for i in xrange(CITIES)]
cm = cartesian_matrix(coords)
setOfAlleles = GAllele.GAlleles(homogeneous=True)
range_allele = GAllele.GAlleleRange(0, len(coords)-1)
setOfAlleles.add(range_allele)
genome = G1DList.G1DList(len(coords))
genome.setParams(allele=setOfAlleles)
genome.evaluator.set(lambda chromosome: tour_length(cm, chromosome))
genome.mutator.set(Mutators.G1DListMutatorSwap)
genome.crossover.set(Crossovers.G1DListCrossoverOX)
genome.initializator.set(G1DListTSPInitializator)
ga = GSimpleGA.GSimpleGA(genome)
ga.setMinimax(Consts.minimaxType["minimize"])
ga.setGenerations(300)
ga.setPopulationSize(200)
ga.setCrossoverRate(1.0)
ga.setMutationRate(0.1)
ga.stepCallback.set(evolve_callback)
ga.evolve()
if __name__ == "__main__":
main_run()
I have done a search for the keywords “genetic algorithm” and “genetic programming” on Google Insights for Search and I noticed that India is the region with the most interest on this search terms:
I’ve used the category “Science” to remove some terms of other search categories, but unfortunately this is only an approximation of the real interest, since is obviously that the terms “genetic algorithms” can be searches of algorithms for genetics too.
This post is a report of an optimization test suite applied to Pyevolve GA Core.
I’m writing a paper about Pyevolve and I’ve done some tests on the GA quality of Pyevolve with must common optimization test functions: Schaffer, Rastringin, Sphere, Ackley and the absolute GA-hard Rosenbrock. Follows in the end of the post, the results of the trials, I’ve exported the latex formulae as images.
The only function that the GA had some trouble (it failed to find the global minima in 3 of 10 trials, the “fail” term means that it had not found an optimal solution for 5.000 generations) was the Rosenbrock’s function with 20 variables, also known as Rosenbrock’s banana function due the dinstinctive shape of the contour lines, here is the 3D plot with 2 variables.
As Wikipedia says,
This function is often used to test performance of optimization algorithms. The global minimum is inside a long, narrow, parabolic shaped flat valley. To find the valley is trivial, however to converge to the global minimum is difficult.
However, this behavior was not unexpected, since we can note the same on the research of [1], [2], [3] and [4], among other many papers.
I think this trial results brings more reliability to the framework, when the Pyevolve paper was published, I’ll post it here.
[1] Seredynski, Franciszek, et. al. (2003). “Function Optimization with Coevolutionary Algorithms”, in International Intelligent Information Processing and Web Mining Conference.
[2] Hiroyasu, Tomoyuki, et. al. (1999). “Distributed Genetic Algorithms with Randomized Migration Rate”, IEEE Proceedings of Systems, Man and Cybernetics Conference SMC’99, Vol. 1, pp. 689-694.
[3] Bouvry, Pascal, et. al. (1997). “Distributed evolutionary optimization in Manifold: the Rosenbrock’s function case study”, Duke University.
[4] Panait, Liviu (2002). “A comparison of two competitive fitness functions”, in GECCO 2002: Proceedings of the Genetic and Evolutionary Computation Conference.