I can think of two approaches that provide some of the functionality you are asking for:
To read a file either in chunks / or in strides of n-lines / etc.:
You can pass a
generator to numpy.genfromtxt as well as to numpy.loadtxt. This way you can load a large dataset from a textfile memory-efficiently while retaining all the convenient parsing features of the two functions.
To read data only from lines that match a criterion that can be expressed as a regex:
You can use numpy.fromregex and use a
regular expression to precisely define which tokens from a given line in the input file should be loaded. Lines not matching the pattern will be ignored.
To illustrate the two approaches, I'm going to use an example from my research context.
I often need to load files with the following structure:
generated by VMD
CM 5.420501 3.880814 6.988216
HM1 5.645992 2.839786 7.044024
HM2 5.707437 4.336298 7.926170
HM3 4.279596 4.059821 7.029471
OD1 3.587806 6.069084 8.018103
OD2 4.504519 4.977242 9.709150
generated by VMD
CM 5.421396 3.878586 6.989128
HM1 5.639769 2.841884 7.045364
HM2 5.707584 4.343513 7.928119
HM3 4.277448 4.057222 7.022429
OD1 3.588119 6.069086 8.017814
These files can be huge (GBs) and I'm only interested in the numerical data. All data blocks have the same size --
6 in this example -- and they are always separated by two lines. So the
stride of the blocks is
Using the first approach:
First I'm going to define a generator that filters out the undesired lines:
def filter_lines(f, stride):
for i, line in enumerate(f):
if i%stride and (i-1)%stride:
Then I open the file, create a
filter_lines-generator (here I need to know the
stride), and pass that generator to
with open(fname) as f:
data = np.genfromtxt(filter_lines(f, 8),
usecols=(1, 2, 3))
This works like a breeze. Note that I'm able to use
usecols to get rid of the first column of the data. In the same way, you could use all the other features of
genfromtxt -- detecting the types, varying types from column to column, missing values, converters, etc.
In this example
(204000, 3) while the original file consisted of
generator is used to filter homogenously strided lines but one can likewise imagine it filtering out inhomogenous blocks of lines based on (simple) criteria.
Using the second approach:
regexp I'm going to use:
regexp = r'\s+\w+' + r'\s+([-.0-9]+)' * 3 + r'\s*\n'
Groups -- i.e. inside
() -- define the tokens to be extracted from a given line.
fromregex does the job and ignores lines not matching the pattern:
data = np.fromregex(fname, regexp, dtype='f')
The result is exactly the same as in the first approach.