def loadTopicModelFromTxtFiles(snapshotPath,
returnTPA=False,
returnWordCounts=False,
normalizeProbs=True,
normalizeTopics=True,
**kwargs):
''' Load from snapshot text files.
Returns
-------
hmodel
'''
Mdict = dict()
possibleKeys = [
'K', 'probs', 'alpha', 'beta', 'lam', 'gamma', 'nTopics', 'nTypes',
'vocab_size'
]
keyMap = dict(beta='lam', nTopics='K', nTypes='vocab_size')
for key in possibleKeys:
try:
arr = np.loadtxt(snapshotPath + "/%s.txt" % (key))
if key in keyMap:
Mdict[keyMap[key]] = arr
else:
Mdict[key] = arr
except Exception:
pass
assert 'K' in Mdict
assert 'lam' in Mdict
K = int(Mdict['K'])
V = int(Mdict['vocab_size'])
if os.path.exists(snapshotPath + "/topics.txt"):
Mdict['topics'] = np.loadtxt(snapshotPath + "/topics.txt")
Mdict['topics'] = as2D(toCArray(Mdict['topics'], dtype=np.float64))
assert Mdict['topics'].ndim == 2
assert Mdict['topics'].shape == (K, V)
else:
TWC_data = np.loadtxt(snapshotPath + "/TopicWordCount_data.txt")
TWC_inds = np.loadtxt(snapshotPath + "/TopicWordCount_indices.txt",
dtype=np.int32)
if os.path.exists(snapshotPath + "/TopicWordCount_cscindptr.txt"):
TWC_cscindptr = np.loadtxt(snapshotPath +
"/TopicWordCount_cscindptr.txt",
dtype=np.int32)
TWC = scipy.sparse.csc_matrix((TWC_data, TWC_inds, TWC_cscindptr),
shape=(K, V))
else:
TWC_csrindptr = np.loadtxt(snapshotPath +
"/TopicWordCount_indptr.txt",
dtype=np.int32)
TWC = scipy.sparse.csr_matrix((TWC_data, TWC_inds, TWC_csrindptr),
shape=(K, V))
Mdict['WordCounts'] = TWC.toarray()
if returnTPA:
# Load topics : 2D array, K x vocab_size
if 'WordCounts' in Mdict:
topics = Mdict['WordCounts'] + Mdict['lam']
else:
topics = Mdict['topics']
topics = as2D(toCArray(topics, dtype=np.float64))
assert topics.ndim == 2
K = topics.shape[0]
if normalizeTopics:
topics /= topics.sum(axis=1)[:, np.newaxis]
# Load probs : 1D array, size K
try:
probs = Mdict['probs']
except KeyError:
probs = (1.0 / K) * np.ones(K)
probs = as1D(toCArray(probs, dtype=np.float64))
assert probs.ndim == 1
assert probs.size == K
if normalizeProbs:
probs = probs / np.sum(probs)
# Load alpha : scalar float > 0
try:
alpha = float(Mdict['alpha'])
except KeyError:
if 'alpha' in os.environ:
alpha = float(os.environ['alpha'])
else:
raise ValueError('Unknown parameter alpha')
return topics, probs, alpha
# BUILD HMODEL FROM LOADED TXT
infAlg = 'VB'
# avoids circular import
from bnpy.HModel import HModel
if 'gamma' in Mdict:
aPriorDict = dict(alpha=Mdict['alpha'], gamma=Mdict['gamma'])
HDPTopicModel = AllocModelConstructorsByName['HDPTopicModel']
amodel = HDPTopicModel(infAlg, aPriorDict)
else:
FiniteTopicModel = AllocModelConstructorsByName['FiniteTopicModel']
amodel = FiniteTopicModel(infAlg, dict(alpha=Mdict['alpha']))
omodel = ObsModelConstructorsByName['Mult'](infAlg, **Mdict)
hmodel = HModel(amodel, omodel)
hmodel.set_global_params(**Mdict)
if returnWordCounts:
return hmodel, Mdict['WordCounts']
return hmodel
def loadTopicModel(matfilepath,
queryLap=None,
prefix=None,
returnWordCounts=0,
returnTPA=0,
normalizeTopics=0,
normalizeProbs=0,
**kwargs):
''' Load saved topic model
Returns
-------
topics : 2D array, K x vocab_size (if returnTPA)
probs : 1D array, size K (if returnTPA)
alpha : scalar (if returnTPA)
hmodel : HModel
WordCounts : 2D array, size K x vocab_size (if returnWordCounts)
'''
if prefix is None:
prefix, lapQuery = getPrefixForLapQuery(matfilepath, queryLap)
# avoids circular import
from bnpy.HModel import HModel
if len(glob.glob(os.path.join(matfilepath, "*.log_prob_w"))) > 0:
return loadTopicModelFromMEDLDA(matfilepath,
prefix,
returnTPA=returnTPA)
snapshotList = glob.glob(os.path.join(matfilepath, 'Lap*TopicSnapshot'))
matfileList = glob.glob(os.path.join(matfilepath, 'Lap*TopicModel.mat'))
if len(snapshotList) > 0:
if prefix is None:
snapshotList.sort()
snapshotPath = snapshotList[-1]
else:
snapshotPath = None
for curPath in snapshotList:
if curPath.count(prefix):
snapshotPath = curPath
return loadTopicModelFromTxtFiles(snapshotPath,
normalizeTopics=normalizeTopics,
normalizeProbs=normalizeProbs,
returnWordCounts=returnWordCounts,
returnTPA=returnTPA)
if prefix is not None:
matfilepath = os.path.join(matfilepath, prefix + 'TopicModel.mat')
Mdict = loadDictFromMatfile(matfilepath)
if 'SparseWordCount_data' in Mdict:
data = np.asarray(Mdict['SparseWordCount_data'], dtype=np.float64)
K = int(Mdict['K'])
vocab_size = int(Mdict['vocab_size'])
try:
indices = Mdict['SparseWordCount_indices']
indptr = Mdict['SparseWordCount_indptr']
WordCounts = scipy.sparse.csr_matrix((data, indices, indptr),
shape=(K, vocab_size))
except KeyError:
rowIDs = Mdict['SparseWordCount_i'] - 1
colIDs = Mdict['SparseWordCount_j'] - 1
WordCounts = scipy.sparse.csr_matrix((data, (rowIDs, colIDs)),
shape=(K, vocab_size))
Mdict['WordCounts'] = WordCounts.toarray()
if returnTPA:
# Load topics : 2D array, K x vocab_size
if 'WordCounts' in Mdict:
topics = Mdict['WordCounts'] + Mdict['lam']
else:
topics = Mdict['topics']
topics = as2D(toCArray(topics, dtype=np.float64))
assert topics.ndim == 2
K = topics.shape[0]
if normalizeTopics:
topics /= topics.sum(axis=1)[:, np.newaxis]
# Load probs : 1D array, size K
try:
probs = Mdict['probs']
except KeyError:
probs = (1.0 / K) * np.ones(K)
probs = as1D(toCArray(probs, dtype=np.float64))
assert probs.ndim == 1
assert probs.size == K
if normalizeProbs:
probs = probs / np.sum(probs)
# Load alpha : scalar float > 0
try:
alpha = float(Mdict['alpha'])
except KeyError:
if 'alpha' in os.environ:
alpha = float(os.environ['alpha'])
else:
raise ValueError('Unknown parameter alpha')
if 'eta' in Mdict:
return topics, probs, alpha, as1D(toCArray(Mdict['eta']))
return topics, probs, alpha
infAlg = 'VB'
if 'gamma' in Mdict:
aPriorDict = dict(alpha=Mdict['alpha'], gamma=Mdict['gamma'])
HDPTopicModel = AllocModelConstructorsByName['HDPTopicModel']
amodel = HDPTopicModel(infAlg, aPriorDict)
else:
FiniteTopicModel = AllocModelConstructorsByName['FiniteTopicModel']
amodel = FiniteTopicModel(infAlg, dict(alpha=Mdict['alpha']))
omodel = ObsModelConstructorsByName['Mult'](infAlg, **Mdict)
hmodel = HModel(amodel, omodel)
hmodel.set_global_params(**Mdict)
if returnWordCounts:
return hmodel, Mdict['WordCounts']
return hmodel
