From 07f28d33092145748a57d597e160d5141f74a9c5 Mon Sep 17 00:00:00 2001 From: Alexander Mordvintsev Date: Sun, 5 Jun 2011 06:44:19 +0000 Subject: [PATCH] added python cv2 port of letter_recog sample --- samples/python2/letter_recog.py | 136 ++++++++++++++++++++++++++++++++ 1 file changed, 136 insertions(+) create mode 100644 samples/python2/letter_recog.py diff --git a/samples/python2/letter_recog.py b/samples/python2/letter_recog.py new file mode 100644 index 0000000000..efd4297967 --- /dev/null +++ b/samples/python2/letter_recog.py @@ -0,0 +1,136 @@ +import numpy as np +import cv2 + +def load_base(fn): + a = np.loadtxt(fn, np.float32, delimiter=',', converters={ 0 : lambda ch : ord(ch)-ord('A') }) + samples, responses = a[:,1:], a[:,0] + return samples, responses + +# TODO move these to cv2 +CV_ROW_SAMPLE = 1 +CV_VAR_NUMERICAL = 0 +CV_VAR_ORDERED = 0 +CV_VAR_CATEGORICAL = 1 + + +class LetterStatModel(object): + train_ratio = 0.5 + def load(self, fn): + self.model.load(fn) + def save(self, fn): + self.model.save(fn) + +class RTrees(LetterStatModel): + def __init__(self): + self.model = cv2.RTrees() + + def train(self, samples, responses): + sample_n, var_n = samples.shape + var_types = np.array([CV_VAR_NUMERICAL] * var_n + [CV_VAR_CATEGORICAL], np.uint8) + #CvRTParams(10,10,0,false,15,0,true,4,100,0.01f,CV_TERMCRIT_ITER)); + params = dict(max_depth=10 ) + self.model.train(samples, CV_ROW_SAMPLE, responses, varType = var_types, params = params) + + def predict(self, samples): + return np.float32( [self.model.predict(s) for s in samples] ) + + +class KNearest(LetterStatModel): + def __init__(self): + self.model = cv2.KNearest() + + def train(self, samples, responses): + self.model.train(samples, responses) + + def predict(self, samples): + retval, results, neigh_resp, dists = self.model.find_nearest(samples, k = 10) + return results.ravel() + + +class Boost(LetterStatModel): + def __init__(self): + self.model = cv2.Boost() + self.class_n = 26 + + def train(self, samples, responses): + sample_n, var_n = samples.shape + new_samples = self.unroll_samples(samples) + new_responses = self.unroll_responses(responses) + var_types = np.array([CV_VAR_NUMERICAL] * var_n + [CV_VAR_CATEGORICAL, CV_VAR_CATEGORICAL], np.uint8) + #CvBoostParams(CvBoost::REAL, 100, 0.95, 5, false, 0 ) + params = dict(max_depth=5) #, use_surrogates=False) + self.model.train(new_samples, CV_ROW_SAMPLE, new_responses, varType = var_types, params=params) + + def predict(self, samples): + new_samples = self.unroll_samples(samples) + pred = np.array( [self.model.predict(s, returnSum = True) for s in new_samples] ) + pred = pred.reshape(-1, self.class_n).argmax(1) + return pred + + def unroll_samples(self, samples): + sample_n, var_n = samples.shape + new_samples = np.zeros((sample_n * self.class_n, var_n+1), np.float32) + new_samples[:,:-1] = np.repeat(samples, self.class_n, axis=0) + new_samples[:,-1] = np.tile(np.arange(self.class_n), sample_n) + return new_samples + + def unroll_responses(self, responses): + sample_n = len(responses) + new_responses = np.zeros(sample_n*self.class_n, np.int32) + resp_idx = np.int32( responses + np.arange(sample_n)*self.class_n ) + new_responses[resp_idx] = 1 + return new_responses + + +class SVM(LetterStatModel): + train_ratio = 0.1 + def __init__(self): + self.model = cv2.SVM() + + def train(self, samples, responses): + params = dict( kernel_type = cv2.SVM_LINEAR, + svm_type = cv2.SVM_C_SVC, + C = 1 ) + self.model.train(samples, responses, params = params) + + def predict(self, samples): + return np.float32( [self.model.predict(s) for s in samples] ) + + +if __name__ == '__main__': + import argparse + + models = [RTrees, KNearest, Boost, SVM] # MLP, NBayes + models = dict( [(cls.__name__.lower(), cls) for cls in models] ) + + parser = argparse.ArgumentParser() + parser.add_argument('-model', default='rtrees', choices=models.keys()) + parser.add_argument('-data', nargs=1, default='letter-recognition.data') + parser.add_argument('-load', nargs=1) + parser.add_argument('-save', nargs=1) + args = parser.parse_args() + + print 'loading data %s ...' % args.data + samples, responses = load_base(args.data) + Model = models[args.model] + model = Model() + + train_n = int(len(samples)*model.train_ratio) + if args.load is None: + print 'training %s ...' % Model.__name__ + model.train(samples[:train_n], responses[:train_n]) + else: + fn = args.load[0] + print 'loading model from %s ...' % fn + model.load(fn) + + print 'testing...' + train_rate = np.mean(model.predict(samples[:train_n]) == responses[:train_n]) + test_rate = np.mean(model.predict(samples[train_n:]) == responses[train_n:]) + + print 'train rate: %f test rate: %f' % (train_rate*100, test_rate*100) + + if args.save is not None: + fn = args.save[0] + print 'saving model to %s ...' % fn + model.save(fn)