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asl_data.py
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asl_data.py
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import os
import numpy as np
import pandas as pd
class AslDb(object):
""" American Sign Language database drawn from the RWTH-BOSTON-104 frame positional data
This class has been designed to provide a convenient interface for individual word data for students in the Udacity AI Nanodegree Program.
For example, to instantiate and load train/test files using a feature_method
definition named features, the following snippet may be used:
asl = AslDb()
asl.build_training(tr_file, features)
asl.build_test(tst_file, features)
Reference for the original ASL data:
http://www-i6.informatik.rwth-aachen.de/~dreuw/database-rwth-boston-104.php
The sentences provided in the data have been segmented into isolated words for this database
"""
def __init__(self,
hands_fn=os.path.join('data', 'hands_condensed.csv'),
speakers_fn=os.path.join('data', 'speaker.csv'),
):
""" loads ASL database from csv files with hand position information by frame, and speaker information
:param hands_fn: str
filename of hand position csv data with expected format:
video,frame,left-x,left-y,right-x,right-y,nose-x,nose-y
:param speakers_fn:
filename of video speaker csv mapping with expected format:
video,speaker
Instance variables:
df: pandas dataframe
snippit example:
left-x left-y right-x right-y nose-x nose-y speaker
video frame
98 0 149 181 170 175 161 62 woman-1
1 149 181 170 175 161 62 woman-1
2 149 181 170 175 161 62 woman-1
"""
self.df = pd.read_csv(hands_fn).merge(pd.read_csv(speakers_fn),on='video')
self.df.set_index(['video','frame'], inplace=True)
def build_training(self, feature_list, csvfilename =os.path.join('data', 'train_words.csv')):
""" wrapper creates sequence data objects for training words suitable for hmmlearn library
:param feature_list: list of str label names
:param csvfilename: str
:return: WordsData object
dictionary of lists of feature list sequence lists for each word
{'FRANK': [[[87, 225], [87, 225], ...], [[88, 219], [88, 219], ...]]]}
"""
return WordsData(self, csvfilename, feature_list)
def build_test(self, feature_method, csvfile=os.path.join('data', 'test_words.csv')):
""" wrapper creates sequence data objects for individual test word items suitable for hmmlearn library
:param feature_method: Feature function
:param csvfile: str
:return: SinglesData object
dictionary of lists of feature list sequence lists for each indexed
{3: [[[87, 225], [87, 225], ...]]]}
"""
return SinglesData(self, csvfile, feature_method)
class WordsData(object):
""" class provides loading and getters for ASL data suitable for use with hmmlearn library
"""
def __init__(self, asl:AslDb, csvfile:str, feature_list:list):
""" loads training data sequences suitable for use with hmmlearn library based on feature_method chosen
:param asl: ASLdata object
:param csvfile: str
filename of csv file containing word training start and end frame data with expected format:
video,speaker,word,startframe,endframe
:param feature_list: list of str feature labels
"""
self._data = self._load_data(asl, csvfile, feature_list)
self._hmm_data = create_hmmlearn_data(self._data)
self.num_items = len(self._data)
self.words = list(self._data.keys())
def _load_data(self, asl, fn, feature_list):
""" Consolidates sequenced feature data into a dictionary of words
:param asl: ASLdata object
:param fn: str
filename of csv file containing word training data
:param feature_list: list of str
:return: dict
"""
tr_df = pd.read_csv(fn)
dict = {}
for i in range(len(tr_df)):
word = tr_df.ix[i,'word']
video = tr_df.ix[i,'video']
new_sequence = [] # list of sample lists for a sequence
for frame in range(tr_df.ix[i,'startframe'], tr_df.ix[i,'endframe']+1):
vid_frame = video, frame
sample = [asl.df.ix[vid_frame][f] for f in feature_list]
if len(sample) > 0: # dont add if not found
new_sequence.append(sample)
if word in dict:
dict[word].append(new_sequence) # list of sequences
else:
dict[word] = [new_sequence]
return dict
def get_all_sequences(self):
""" getter for entire db of words as series of sequences of feature lists for each frame
:return: dict
dictionary of lists of feature list sequence lists for each word
{'FRANK': [[[87, 225], [87, 225], ...], [[88, 219], [88, 219], ...]]],
...}
"""
return self._data
def get_all_Xlengths(self):
""" getter for entire db of words as (X, lengths) tuple for use with hmmlearn library
:return: dict
dictionary of (X, lengths) tuple, where X is a numpy array of feature lists and lengths is
a list of lengths of sequences within X
{'FRANK': (array([[ 87, 225],[ 87, 225], ... [ 87, 225, 62, 127], [ 87, 225, 65, 128]]), [14, 18]),
...}
"""
return self._hmm_data
def get_word_sequences(self, word:str):
""" getter for single word series of sequences of feature lists for each frame
:param word: str
:return: list
lists of feature list sequence lists for given word
[[[87, 225], [87, 225], ...], [[88, 219], [88, 219], ...]]]
"""
return self._data[word]
def get_word_Xlengths(self, word:str):
""" getter for single word (X, lengths) tuple for use with hmmlearn library
:param word:
:return: (list, list)
(X, lengths) tuple, where X is a numpy array of feature lists and lengths is
a list of lengths of sequences within X
(array([[ 87, 225],[ 87, 225], ... [ 87, 225, 62, 127], [ 87, 225, 65, 128]]), [14, 18])
"""
return self._hmm_data[word]
class SinglesData(object):
""" class provides loading and getters for ASL data suitable for use with hmmlearn library
"""
def __init__(self, asl:AslDb, csvfile:str, feature_list):
""" loads training data sequences suitable for use with hmmlearn library based on feature_method chosen
:param asl: ASLdata object
:param csvfile: str
filename of csv file containing word training start and end frame data with expected format:
video,speaker,word,startframe,endframe
:param feature_list: list str of feature labels
"""
self.df = pd.read_csv(csvfile)
self.wordlist = list(self.df['word'])
self.sentences_index = self._load_sentence_word_indices()
self._data = self._load_data(asl, feature_list)
self._hmm_data = create_hmmlearn_data(self._data)
self.num_items = len(self._data)
self.num_sentences = len(self.sentences_index)
# def _load_data(self, asl, fn, feature_method):
def _load_data(self, asl, feature_list):
""" Consolidates sequenced feature data into a dictionary of words and creates answer list of words in order
of index used for dictionary keys
:param asl: ASLdata object
:param fn: str
filename of csv file containing word training data
:param feature_method: Feature function
:return: dict
"""
dict = {}
# for each word indexed in the DataFrame
for i in range(len(self.df)):
video = self.df.ix[i,'video']
new_sequence = [] # list of sample dictionaries for a sequence
for frame in range(self.df.ix[i,'startframe'], self.df.ix[i,'endframe']+1):
vid_frame = video, frame
sample = [asl.df.ix[vid_frame][f] for f in feature_list]
if len(sample) > 0: # dont add if not found
new_sequence.append(sample)
if i in dict:
dict[i].append(new_sequence) # list of sequences
else:
dict[i] = [new_sequence]
return dict
def _load_sentence_word_indices(self):
""" create dict of video sentence numbers with list of word indices as values
:return: dict
{v0: [i0, i1, i2], v1: [i0, i1, i2], ... ,} where v# is video number and
i# is index to wordlist, ordered by sentence structure
"""
working_df = self.df.copy()
working_df['idx'] = working_df.index
working_df.sort_values(by='startframe', inplace=True)
p = working_df.pivot('video', 'startframe', 'idx')
p.fillna(-1, inplace=True)
p = p.transpose()
dict = {}
for v in p:
dict[v] = [int(i) for i in p[v] if i>=0]
return dict
def get_all_sequences(self):
""" getter for entire db of items as series of sequences of feature lists for each frame
:return: dict
dictionary of lists of feature list sequence lists for each indexed item
{3: [[[87, 225], [87, 225], ...], [[88, 219], [88, 219], ...]]],
...}
"""
return self._data
def get_all_Xlengths(self):
""" getter for entire db of items as (X, lengths) tuple for use with hmmlearn library
:return: dict
dictionary of (X, lengths) tuple, where X is a numpy array of feature lists and lengths is
a list of lengths of sequences within X; should always have only one item in lengths
{3: (array([[ 87, 225],[ 87, 225], ... [ 87, 225, 62, 127], [ 87, 225, 65, 128]]), [14]),
...}
"""
return self._hmm_data
def get_item_sequences(self, item:int):
""" getter for single item series of sequences of feature lists for each frame
:param word: str
:return: list
lists of feature list sequence lists for given word
[[[87, 225], [87, 225], ...]]]
"""
return self._data[item]
def get_item_Xlengths(self, item:int):
""" getter for single item (X, lengths) tuple for use with hmmlearn library
:param word:
:return: (list, list)
(X, lengths) tuple, where X is a numpy array of feature lists and lengths is
a list of lengths of sequences within X; lengths should always contain one item
(array([[ 87, 225],[ 87, 225], ... [ 87, 225, 62, 127], [ 87, 225, 65, 128]]), [14])
"""
return self._hmm_data[item]
def combine_sequences(sequences):
'''
concatenates sequences and return tuple of the new list and lengths
:param sequences:
:return: (list, list)
'''
sequence_cat = []
sequence_lengths = []
# print("num of sequences in {} = {}".format(key, len(sequences)))
for sequence in sequences:
sequence_cat += sequence
num_frames = len(sequence)
sequence_lengths.append(num_frames)
return sequence_cat, sequence_lengths
def create_hmmlearn_data(dict):
seq_len_dict = {}
for key in dict:
sequences = dict[key]
sequence_cat, sequence_lengths = combine_sequences(sequences)
seq_len_dict[key] = np.array(sequence_cat), sequence_lengths
return seq_len_dict
if __name__ == '__main__':
asl= AslDb()
print(asl.df.ix[98, 1])