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Command line script to manipulate time series files.

Project description

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TSToolbox - Quick Guide

The tstoolbox is a Python script to manipulate time-series on the command line or by function calls within Python. Uses pandas (http://pandas.pydata.org/) or numpy (http://numpy.scipy.org) for any heavy lifting.

Installation

Should be as easy as running pip install tstoolbox or easy_install tstoolbox at any command line. Not sure on Windows whether this will bring in pandas, but as mentioned above, if you start with scientific Python distribution then you shouldn’t have a problem.

Usage - Command Line

Just run ‘tstoolbox –help’ to get a list of subcommands:

usage: tstoolbox [-h]
                 {accumulate, add_trend, aggregate, calculate_fdc,
                 calculate_kde, clip, convert, convert_index,
                 convert_index_to_julian, converttz, lag, correlation,
                 createts, date_offset, date_slice, describe, dtw,
                 equation, ewm_window, expanding_window, fill, filter, gof,
                 normalization, pca, pct_change, peak_detection, pick,
                 plot, rank, read, remove_trend, replace, rolling_window,
                 stack, stdtozrxp, tstopickle, unstack, about} ...

positional arguments:
  {accumulate, add_trend, aggregate, calculate_fdc, calculate_kde, clip,
  convert, convert_index, convert_index_to_julian, converttz, lag,
  correlation, createts, date_offset, date_slice, describe, dtw, equation,
  ewm_window, expanding_window, fill, filter, gof, normalization, pca,
  pct_change, peak_detection, pick, plot, rank, read, remove_trend,
  replace, rolling_window, stack, stdtozrxp, tstopickle, unstack, about}

accumulate
    Calculate accumulating statistics.
add_trend
    Add a trend.
aggregate
    Take a time series and aggregate to specified frequency.
calculate_fdc
    Return the frequency distribution curve.
calculate_kde
    Return the kernel density estimation (KDE) curve.
clip
    Return a time-series with values limited to [a_min, a_max].
convert
    Convert values of a time series by applying a factor and offset.
convert_index
    Convert datetime to/from Julian dates from different epochs.
convert_index_to_julian
    DEPRECATED: Use convert_index instead.
converttz
    Convert the time zone of the index.
lag
    Create a series of lagged time-series.
correlation
    Develop a correlation between time-series and potentially lags.
createts
    Create empty time series, optionally fill with a value.
date_offset
    Apply an offset to a time-series.
date_slice
    Print out data to the screen between start_date and end_date.
describe
    Print out statistics for the time-series.
dtw
    Dynamic Time Warping.
equation
    Apply <equation_str> to the time series data.
ewm_window
    Calculate exponential weighted functions.
expanding_window
    Calculate an expanding window statistic.
fill
    Fill missing values (NaN) with different methods.
filter
    Apply different filters to the time-series.
gof
    Will calculate goodness of fit statistics between two time-series.
normalization
    Return the normalization of the time series.
pca
    Return the principal components analysis of the time series.
pct_change
    Return the percent change between times.
peak_detection
    Peak and valley detection.
pick
    Will pick a column or list of columns from input.
plot
    Plot data.
rank
    Compute numerical data ranks (1 through n) along axis.
read
    Collect time series from a list of pickle or csv files.
remove_trend
    Remove a 'trend'.
replace
    Return a time-series replacing values with others.
rolling_window
    Calculate a rolling window statistic.
stack
    Return the stack of the input table.
stdtozrxp
    Print out data to the screen in a WISKI ZRXP format.
tstopickle
    Pickle the data into a Python pickled file.
unstack
    Return the unstack of the input table.
about
    Display version number and system information.

optional arguments:
    -h, --help            show this help message and exit

The default for all of the subcommands is to accept data from stdin (typically a pipe). If a subcommand accepts an input file for an argument, you can use “–input_ts=input_file_name.csv”, or to explicitly specify from stdin (the default) “–input_ts=’-‘”.

For the subcommands that output data it is printed to the screen and you can then redirect to a file.

Usage - API

You can use all of the command line subcommands as functions. The function signature is identical to the command line subcommands. The return is always a PANDAS DataFrame. Input can be a CSV or TAB separated file, or a PANDAS DataFrame and is supplied to the function via the ‘input_ts’ keyword.

Simply import tstoolbox:

from tstoolbox import tstoolbox

# Then you could call the functions
ntsd = tstoolbox.fill(method='linear', input_ts='tests/test_fill_01.csv')

# Once you have a PANDAS DataFrame you can use that as input to other
# tstoolbox functions.
ntsd = tstoolbox.aggregate(statistic='mean', agg_interval='daily', input_ts=ntsd)

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