opencv/samples/python2/digits_adjust.py

'''
Digit recognition adjustment. 
Grid search is used to find the best parameters for SVN and KNearest classifiers.
SVM adjustment follows the guidelines given in 
http://www.csie.ntu.edu.tw/~cjlin/papers/guide/guide.pdf

Threading or cloud computing (with http://www.picloud.com/)) may be used 
to speedup the computation.

Usage:
  digits_adjust.py [--model {svm|knearest}] [--cloud] [--env <PiCloud environment>]
  
  --model {svm|knearest}   - select the classifier (SVM is the default)
  --cloud                  - use PiCloud computing platform (for SVM only)
  --env                    - cloud environment name

'''
# TODO dataset preprocessing in cloud
# TODO cloud env setup tutorial

import numpy as np
import cv2
from multiprocessing.pool import ThreadPool

from digits import *

def cross_validate(model_class, params, samples, labels, kfold = 3, pool = None):
    n = len(samples)
    folds = np.array_split(np.arange(n), kfold)
    def f(i):
        model = model_class(**params)
        test_idx = folds[i]
        train_idx = list(folds)
        train_idx.pop(i)
        train_idx = np.hstack(train_idx)
        train_samples, train_labels = samples[train_idx], labels[train_idx]
        test_samples, test_labels = samples[test_idx], labels[test_idx]
        model.train(train_samples, train_labels)
        resp = model.predict(test_samples)
        score = (resp != test_labels).mean()
        print ".",
        return score
    if pool is None:
        scores = map(f, xrange(kfold))
    else:
        scores = pool.map(f, xrange(kfold))
    return np.mean(scores)

def adjust_KNearest(samples, labels):
    print 'adjusting KNearest ...'
    best_err, best_k = np.inf, -1
    for k in xrange(1, 9):
        err = cross_validate(KNearest, dict(k=k), samples, labels)
        if err < best_err:
            best_err, best_k = err, k
        print 'k = %d, error: %.2f %%' % (k, err*100)
    best_params = dict(k=best_k)
    print 'best params:', best_params
    return best_params

def adjust_SVM(samples, labels, usecloud=False, cloud_env=''):
    Cs = np.logspace(0, 5, 10, base=2)
    gammas = np.logspace(-7, -2, 10, base=2)
    scores = np.zeros((len(Cs), len(gammas)))
    scores[:] = np.nan

    if usecloud:
        try: 
            import cloud
        except ImportError: 
            print 'cloud module is not installed'
            usecloud = False
    if usecloud:
        print 'uploading dataset to cloud...'
        np.savez('train.npz', samples=samples, labels=labels)
        cloud.files.put('train.npz')

    print 'adjusting SVM (may take a long time) ...'
    def f(job):
        i, j = job
        params = dict(C = Cs[i], gamma=gammas[j])
        score = cross_validate(SVM, params, samples, labels)
        return i, j, score
    def fcloud(job):
        i, j = job
        cloud.files.get('train.npz')
        npz = np.load('train.npz')
        params = dict(C = Cs[i], gamma=gammas[j])
        score = cross_validate(SVM, params, npz['samples'], npz['labels'])
        return i, j, score
    
    if usecloud:
        jids = cloud.map(fcloud, np.ndindex(*scores.shape), _env=cloud_env, _profile=True)
        ires = cloud.iresult(jids)
    else:
        pool = ThreadPool(processes=cv2.getNumberOfCPUs())
        ires = pool.imap_unordered(f, np.ndindex(*scores.shape))

    for count, (i, j, score) in enumerate(ires):
        scores[i, j] = score
        print '%d / %d (best error: %.2f %%, last: %.2f %%)' % (count+1, scores.size, np.nanmin(scores)*100, score*100)
    print scores

    i, j = np.unravel_index(scores.argmin(), scores.shape)
    best_params = dict(C = Cs[i], gamma=gammas[j])
    print 'best params:', best_params
    print 'best error: %.2f %%' % (scores.min()*100)
    return best_params

if __name__ == '__main__':
    import getopt
    import sys
    
    print __doc__

    args, _ = getopt.getopt(sys.argv[1:], '', ['model=', 'cloud', 'env='])
    args = dict(args)
    args.setdefault('--model', 'svm')
    args.setdefault('--env', '')
    if args['--model'] not in ['svm', 'knearest']:
        print 'unknown model "%s"' % args['--model']
        sys.exit(1)

    digits, labels = load_digits('digits.png')
    shuffle = np.random.permutation(len(digits))
    digits, labels = digits[shuffle], labels[shuffle]
    digits2 = map(deskew, digits)
    samples = np.float32(digits2).reshape(-1, SZ*SZ) / 255.0
    
    t = clock()
    if args['--model'] == 'knearest':
        adjust_KNearest(samples, labels)
    else:
        adjust_SVM(samples, labels, usecloud='--cloud' in args, cloud_env = args['--env'])
    print 'work time: %f s' % (clock() - t)
digits_adjust.py sample added 13 years ago			`'''`
			`Digit recognition adjustment.`
			`Grid search is used to find the best parameters for SVN and KNearest classifiers.`
			`SVM adjustment follows the guidelines given in`
			`http://www.csie.ntu.edu.tw/~cjlin/papers/guide/guide.pdf`

			`Threading or cloud computing (with http://www.picloud.com/)) may be used`
			`to speedup the computation.`

			`Usage:`
			`digits_adjust.py [--model {svm\|knearest}] [--cloud] [--env <PiCloud environment>]`

			`--model {svm\|knearest} - select the classifier (SVM is the default)`
			`--cloud - use PiCloud computing platform (for SVM only)`
			`--env - cloud environment name`

			`'''`
			`# TODO dataset preprocessing in cloud`
			`# TODO cloud env setup tutorial`

			`import numpy as np`
			`import cv2`
			`from multiprocessing.pool import ThreadPool`

			`from digits import *`

			`def cross_validate(model_class, params, samples, labels, kfold = 3, pool = None):`
			`n = len(samples)`
			`folds = np.array_split(np.arange(n), kfold)`
			`def f(i):`
			`model = model_class(**params)`
			`test_idx = folds[i]`
			`train_idx = list(folds)`
			`train_idx.pop(i)`
			`train_idx = np.hstack(train_idx)`
			`train_samples, train_labels = samples[train_idx], labels[train_idx]`
			`test_samples, test_labels = samples[test_idx], labels[test_idx]`
			`model.train(train_samples, train_labels)`
			`resp = model.predict(test_samples)`
			`score = (resp != test_labels).mean()`
			`print ".",`
			`return score`
			`if pool is None:`
			`scores = map(f, xrange(kfold))`
			`else:`
			`scores = pool.map(f, xrange(kfold))`
			`return np.mean(scores)`

			`def adjust_KNearest(samples, labels):`
			`print 'adjusting KNearest ...'`
			`best_err, best_k = np.inf, -1`
			`for k in xrange(1, 9):`
			`err = cross_validate(KNearest, dict(k=k), samples, labels)`
			`if err < best_err:`
			`best_err, best_k = err, k`
			`print 'k = %d, error: %.2f %%' % (k, err*100)`
			`best_params = dict(k=best_k)`
			`print 'best params:', best_params`
			`return best_params`

			`def adjust_SVM(samples, labels, usecloud=False, cloud_env=''):`
			`Cs = np.logspace(0, 5, 10, base=2)`
			`gammas = np.logspace(-7, -2, 10, base=2)`
			`scores = np.zeros((len(Cs), len(gammas)))`
			`scores[:] = np.nan`

			`if usecloud:`
			`try:`
			`import cloud`
			`except ImportError:`
			`print 'cloud module is not installed'`
			`usecloud = False`
			`if usecloud:`
			`print 'uploading dataset to cloud...'`
			`np.savez('train.npz', samples=samples, labels=labels)`
			`cloud.files.put('train.npz')`

			`print 'adjusting SVM (may take a long time) ...'`
			`def f(job):`
			`i, j = job`
			`params = dict(C = Cs[i], gamma=gammas[j])`
			`score = cross_validate(SVM, params, samples, labels)`
			`return i, j, score`
			`def fcloud(job):`
			`i, j = job`
			`cloud.files.get('train.npz')`
			`npz = np.load('train.npz')`
			`params = dict(C = Cs[i], gamma=gammas[j])`
			`score = cross_validate(SVM, params, npz['samples'], npz['labels'])`
			`return i, j, score`

			`if usecloud:`
			`jids = cloud.map(fcloud, np.ndindex(*scores.shape), _env=cloud_env, _profile=True)`
			`ires = cloud.iresult(jids)`
			`else:`
			`pool = ThreadPool(processes=cv2.getNumberOfCPUs())`
			`ires = pool.imap_unordered(f, np.ndindex(*scores.shape))`

			`for count, (i, j, score) in enumerate(ires):`
			`scores[i, j] = score`
			`print '%d / %d (best error: %.2f %%, last: %.2f %%)' % (count+1, scores.size, np.nanmin(scores)100, score100)`
			`print scores`

			`i, j = np.unravel_index(scores.argmin(), scores.shape)`
			`best_params = dict(C = Cs[i], gamma=gammas[j])`
			`print 'best params:', best_params`
			`print 'best error: %.2f %%' % (scores.min()*100)`
			`return best_params`

			`if __name__ == '__main__':`
			`import getopt`
			`import sys`

			`print __doc__`

			`args, _ = getopt.getopt(sys.argv[1:], '', ['model=', 'cloud', 'env='])`
			`args = dict(args)`
			`args.setdefault('--model', 'svm')`
			`args.setdefault('--env', '')`
			`if args['--model'] not in ['svm', 'knearest']:`
			`print 'unknown model "%s"' % args['--model']`
			`sys.exit(1)`

			`digits, labels = load_digits('digits.png')`
			`shuffle = np.random.permutation(len(digits))`
			`digits, labels = digits[shuffle], labels[shuffle]`
			`digits2 = map(deskew, digits)`
			`samples = np.float32(digits2).reshape(-1, SZ*SZ) / 255.0`

			`t = clock()`
			`if args['--model'] == 'knearest':`
			`adjust_KNearest(samples, labels)`
			`else:`
			`adjust_SVM(samples, labels, usecloud='--cloud' in args, cloud_env = args['--env'])`
			`print 'work time: %f s' % (clock() - t)`