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188 lines
6.1 KiB
Python
Executable File
188 lines
6.1 KiB
Python
Executable File
#!/usr/bin/env python
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'''
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The sample demonstrates how to train Random Trees classifier
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(or Boosting classifier, or MLP, or Knearest, or Support Vector Machines) using the provided dataset.
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We use the sample database letter-recognition.data
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from UCI Repository, here is the link:
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Newman, D.J. & Hettich, S. & Blake, C.L. & Merz, C.J. (1998).
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UCI Repository of machine learning databases
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[http://www.ics.uci.edu/~mlearn/MLRepository.html].
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Irvine, CA: University of California, Department of Information and Computer Science.
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The dataset consists of 20000 feature vectors along with the
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responses - capital latin letters A..Z.
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The first 10000 samples are used for training
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and the remaining 10000 - to test the classifier.
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======================================================
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USAGE:
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letter_recog.py [--model <model>]
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[--data <data fn>]
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[--load <model fn>] [--save <model fn>]
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Models: RTrees, KNearest, Boost, SVM, MLP
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'''
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# Python 2/3 compatibility
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from __future__ import print_function
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import numpy as np
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import cv2 as cv
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def load_base(fn):
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a = np.loadtxt(fn, np.float32, delimiter=',', converters={ 0 : lambda ch : ord(ch)-ord('A') })
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samples, responses = a[:,1:], a[:,0]
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return samples, responses
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class LetterStatModel(object):
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class_n = 26
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train_ratio = 0.5
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def load(self, fn):
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self.model.load(fn)
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def save(self, fn):
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self.model.save(fn)
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def unroll_samples(self, samples):
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sample_n, var_n = samples.shape
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new_samples = np.zeros((sample_n * self.class_n, var_n+1), np.float32)
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new_samples[:,:-1] = np.repeat(samples, self.class_n, axis=0)
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new_samples[:,-1] = np.tile(np.arange(self.class_n), sample_n)
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return new_samples
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def unroll_responses(self, responses):
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sample_n = len(responses)
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new_responses = np.zeros(sample_n*self.class_n, np.int32)
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resp_idx = np.int32( responses + np.arange(sample_n)*self.class_n )
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new_responses[resp_idx] = 1
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return new_responses
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class RTrees(LetterStatModel):
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def __init__(self):
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self.model = cv.ml.RTrees_create()
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def train(self, samples, responses):
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self.model.setMaxDepth(20)
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self.model.train(samples, cv.ml.ROW_SAMPLE, responses.astype(int))
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def predict(self, samples):
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_ret, resp = self.model.predict(samples)
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return resp.ravel()
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class KNearest(LetterStatModel):
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def __init__(self):
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self.model = cv.ml.KNearest_create()
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def train(self, samples, responses):
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self.model.train(samples, cv.ml.ROW_SAMPLE, responses)
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def predict(self, samples):
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_retval, results, _neigh_resp, _dists = self.model.findNearest(samples, k = 10)
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return results.ravel()
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class Boost(LetterStatModel):
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def __init__(self):
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self.model = cv.ml.Boost_create()
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def train(self, samples, responses):
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_sample_n, var_n = samples.shape
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new_samples = self.unroll_samples(samples)
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new_responses = self.unroll_responses(responses)
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var_types = np.array([cv.ml.VAR_NUMERICAL] * var_n + [cv.ml.VAR_CATEGORICAL, cv.ml.VAR_CATEGORICAL], np.uint8)
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self.model.setWeakCount(15)
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self.model.setMaxDepth(10)
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self.model.train(cv.ml.TrainData_create(new_samples, cv.ml.ROW_SAMPLE, new_responses.astype(int), varType = var_types))
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def predict(self, samples):
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new_samples = self.unroll_samples(samples)
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_ret, resp = self.model.predict(new_samples)
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return resp.ravel().reshape(-1, self.class_n).argmax(1)
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class SVM(LetterStatModel):
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def __init__(self):
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self.model = cv.ml.SVM_create()
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def train(self, samples, responses):
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self.model.setType(cv.ml.SVM_C_SVC)
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self.model.setC(1)
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self.model.setKernel(cv.ml.SVM_RBF)
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self.model.setGamma(.1)
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self.model.train(samples, cv.ml.ROW_SAMPLE, responses.astype(int))
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def predict(self, samples):
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_ret, resp = self.model.predict(samples)
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return resp.ravel()
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class MLP(LetterStatModel):
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def __init__(self):
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self.model = cv.ml.ANN_MLP_create()
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def train(self, samples, responses):
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_sample_n, var_n = samples.shape
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new_responses = self.unroll_responses(responses).reshape(-1, self.class_n)
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layer_sizes = np.int32([var_n, 100, 100, self.class_n])
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self.model.setLayerSizes(layer_sizes)
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self.model.setTrainMethod(cv.ml.ANN_MLP_BACKPROP)
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self.model.setBackpropMomentumScale(0.0)
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self.model.setBackpropWeightScale(0.001)
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self.model.setTermCriteria((cv.TERM_CRITERIA_COUNT, 20, 0.01))
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self.model.setActivationFunction(cv.ml.ANN_MLP_SIGMOID_SYM, 2, 1)
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self.model.train(samples, cv.ml.ROW_SAMPLE, np.float32(new_responses))
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def predict(self, samples):
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_ret, resp = self.model.predict(samples)
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return resp.argmax(-1)
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if __name__ == '__main__':
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import getopt
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import sys
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print(__doc__)
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models = [RTrees, KNearest, Boost, SVM, MLP] # NBayes
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models = dict( [(cls.__name__.lower(), cls) for cls in models] )
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args, dummy = getopt.getopt(sys.argv[1:], '', ['model=', 'data=', 'load=', 'save='])
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args = dict(args)
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args.setdefault('--model', 'svm')
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args.setdefault('--data', '../data/letter-recognition.data')
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print('loading data %s ...' % args['--data'])
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samples, responses = load_base(args['--data'])
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Model = models[args['--model']]
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model = Model()
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train_n = int(len(samples)*model.train_ratio)
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if '--load' in args:
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fn = args['--load']
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print('loading model from %s ...' % fn)
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model.load(fn)
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else:
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print('training %s ...' % Model.__name__)
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model.train(samples[:train_n], responses[:train_n])
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print('testing...')
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train_rate = np.mean(model.predict(samples[:train_n]) == responses[:train_n].astype(int))
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test_rate = np.mean(model.predict(samples[train_n:]) == responses[train_n:].astype(int))
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print('train rate: %f test rate: %f' % (train_rate*100, test_rate*100))
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if '--save' in args:
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fn = args['--save']
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print('saving model to %s ...' % fn)
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model.save(fn)
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cv.destroyAllWindows()
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