Skip to main content

dfvue: A minimal GUI for a quick view of csv files

Project description

A simple GUI to view csv files

Zenodo DOI PyPI version Conda version License Build status

About dfvue

dfvue is a minimal GUI for a quick view of csv files. It uses an input panel similar to Microsoft Excel to check visually that the csv file is read correctly. It provides most options of the pandas.read_csv method to be very versatile on the possible csv format.

dfvue is a Python script that can be called from within Python or as a command line tool. It is not supposed to produce publication-ready plots but rather provide a quick overview of the csv file.

The complete documentation for dfvue is available from:

https://mcuntz.github.io/dfvue/

Quick usage guide

dfvue can be run from the command line:

dfvue csv_file*.csv

or from within Python:

from dfvue import dfvue
dfvue('csv_file.csv')

where the csv file is optional. The latter can be left out and csv file(s) can be opened with the “Open File” button from within dfvue.

Note, dfvue uses the TkAgg backend of matplotlib. It must be called before any other call to matplotlib. This also means that you cannot launch it from within iPython if it was launched with –pylab. It can be called from within a standard iPython, though, or using ipython –gui tk.

General layout

On opening, dfvue presents currently only one panel for producing scatter/line plots. Here is the look in macOS light mode (higher resolution images can be found in the documentation):

Graphical documentation of dfvue layout

The pane is organised in this fashion: the plotting canvas, the Matplotlib navigation toolbar and the pane, where one can choose the plotting variables and plotting options. You can open another, identical window for the same csv file with the button “New Window” on the top right. You can then also read in a new csv file in one of the windows with the button “Open File”.

Reading a csv file

The “Read csv file” window opens when a csv file is given.

Read csv file window

One or several csv files can be given on the command line:

dfvue csv_file*.csv

or from within Python:

from dfvue import dfvue
dfvue('csv_file.csv')

or being selected from the “Choose csv file(s)” selector that opens when hitting the button “Open File”.

The “Read csv file(s)” window reads the first 40 rows of the (first) csv file with the pandas.read_csv method using the options given in the pane. It shows the resulting pandas.DataFrame in tabulated format. Changing focus from one option entry to another, for example by hitting the <tab> key, re-reads the first 40 rows of the csv file with pandas.read_csv using the selected options in the form. Hitting <enter> or <return> within the window reads the entire csv file(s) using the selected options and returns to the plotting panels. This is the same than pressing the “Read csv” button in the lower right corner. Multiple csv files will be read one by one with pandas.read_csv using the same options and then concatenated with pandas.concat.

The options in the form are default options of pandas.read_csv except for parse_date, which is set to True instead of False. Hover over the entry boxes to see explanations of the options in the tooltips.

If the csv file includes a Date/Time column, it is best to set this column as the index of the pandas.DataFrame by using index_col. Correct datetime is indicated if the index has the data type datetime64[ns] in the plot panels. This is then correctly interpreted by the underlying Matplotlib when plotting, zooming, or panning the axes.

missing_value is not an option of pandas.read_csv. It is here for convenience and any number entered in missing_value will be added to pandas na_values.

Reading a csv file with options on the command line

The following options of pandas.read_csv can be given on the command line:

-s separator, --sep separator
                      Delimiter to use.
-i columns, --index_col columns
                      Column(s) to use as index, either given as column index
                      or string name.
-k rows, --skiprows rows
                      Line number(s) to skip (0-indexed, must include comma,
                      e.g. "1," for skipping the second row) or number of lines
                      to skip (int, without comma) at the start of the file.
-p bool/list/dict, --parse_dates bool/list/dict
                      boolean, if True -> try parsing the index.
                      list of int or names, e.g. 1,2,3
                          -> try parsing columns 1, 2, and 3 each as a separate
                             date column.
                      list of lists, e.g. [1,3]
                          -> combine columns 1 and 3 and parse as a single
                             date column.
                      dict, e.g. "foo":[1,3]
                          -> parse columns 1 and 3 as date and call result "foo"
-d format_string, --date_format format_string
                      Will parse dates according to this format.
                      For example: "%Y-%m-%d %H:%M%S". See
                      https://docs.python.org/3/library/datetime.html#strftime-and-strptime-behavior
-m missing_value, --missing_value missing_value
                     Missing or undefined value set to NaN. For negative values,
                     use long format, e.g. --missing_value=-9999.

Examples of pandas.read_csv options

Here are some examples of csv files and the options for pandas.read_csv.

The most simple csv file would be like:

DATETIME,TA_1_1_1,RH_1_1,ALB_1_1_1
2015-01-01 00:30:00,-2.17794549084,97.2958103396,0.0
2015-01-01 01:00:00,-2.02584908489,98.2103903979,0.0

This can simply be read by setting index_col=0. The first column including date and time can simply a be a ISO8601 date, for example “2015-01-01 00:30:00” or “2015-01-01T00:30:00”, or be given by date_format, which would be “%Y-%m-%d %H:%M:%S” in this case. See the documentation of pandas.to_datetime or strftime.

Command line options would be:

dfvue -i 0 csv-file

or

dfvue -i 0 -d “%Y-%m-%d %H:%M:%S” csv-file

A common practice is to put a special value for measurement errors or similar such as -9999:

DATETIME,TA_1_1_1,RH_1_1,ALB_1_1_1
2015-01-01 00:30:00,-2.17794549084,97.2958103396,-9999
2015-01-01 01:00:00,-2.02584908489,98.2103903979,-9999

This can be read by setting missing_value=-9999. On the command line, this is:

dfvue -i 0 –missing_value=-9999 csv-file

or

dfvue -i 0 -d “%Y-%m-%d %H:%M:%S” –missing_value=-9999 csv-file

You have to use the long form –missing_value=-9999 instead of the short form -m -9999 in case of negative missing values because the command line would interpret -9999 as a separate option in the second case and would fail.

Date and time information can be given in different formats, for example:

Date;rho H1 (kg/m3);alb H1 (-);T_Psy H1 (degC);WS_EC H1 (m/s);Prec H1 (mm/30min)
01.01.2015 00:30;97.2958103396;-9999;-2.17794549084
01.01.2015 01:00;98.2103903979,-9999;-2.02584908489

which can be read by setting the date format: date_format=%d.%m.%Y %H:%M, index_col=0, missing_value=-9999, as well as the field separator sep=;. On the the command line, this is:

dfvue -s “;” -i 0 -d “%d.%m.%Y %H:%M” –missing_value=-9999 csv-file

Or in FLUXNET / ICOS / europe-fluxdata.eu format with a second row that shows the variable units:

TIMESTAMP_END,TA_1_1_1,RH_1_1_1,ALB_1_1_1
YYYYMMDDhhmm,degC,%,adimensional
201501010030,-2.17794549084,97.2958103396,-9999
201501010100,-2.02584908489,98.2103903979,-9999

which is read with date_format=%Y%M%d%H%M, index_col=0, skiprows=1,, and missing_value=-9999. Note the comma after “1” in skiprows. Without the command, skiprows would be the number of rows to skip at the beginning, i.e. the first row, which would be wrong. The comma indicates that skiprows is a list and hence a list of row indexes, that means 1 here and thus skip the second row. This would be on the command line

dfvue -i 0 -d “%Y%m%d%H%M” –skiprows=1, –missing_value=-9999 csv-file

Date and time information can also be in different columns. Here the second column is the day-of-the-year:

year,jday,hour,min,tair,rhair,albedo
2015,1,0,30,-2.17794549084,97.2958103396,-9999
2015,1,1,0,-2.02584908489,98.2103903979,-9999

which can be read by setting parse_dates=[0,1,2,3], index_col=0, and date_format=%Y %j %H %M, as well as missing_value=-9999. Note the brackets “[]” around parse_dates. Without brackets it would parse columns 0, 1, 2, and 3 each as a separate date column, whereas with brackets it combines columns 0, 1, 2, and 3 and parses it as a single date column, with index “0”. It will use a space between column entries. Hence index_col=0 sets this combined column as the index, parsing the dates with the format “%Y %j %H %M” with spaces between the strftime formats.

On the command line, this would be:

dfvue -i 0 -p [0,1,2,3] -d “%Y %j %H %M” –missing_value=-9999 csv-file

If you want to have spaces in the list of parse_dates on the command line, you have to use the long form: –parse_dates=”[0, 1, 2, 3]”.

Scatter/Line panel

Here is the Scatter/Line panel in macOS dark mode, describing all buttons, sliders, entry boxes, spinboxes, and menus:

Graphical documentation of Scatter/Line panel

The default plot is a line plot with solid lines (line style ‘ls’ is ‘-‘). One can set line style ‘ls’ to None and set a marker symbol, e.g. ‘o’ for circles, to get a scatter plot. A large variety of line styles, marker symbols and color notations are supported.

Installation

dfvue is an application written in Python. It can be installed with pip:

python -m pip install dfvue

or via Conda:

conda install -c conda-forge dfvue

dfvue uses CustomTkinter if it is installed. CustomTkinter is not on Conda. One might install dfvue with pip in a conda environment to use CustomTkinter:

conda install pip
python -m pip install dfvue

If this looks ugly on Linux (see this thread), pip uninstall customtkinter, or pip uninstall dfvue and reinstall it with conda, which then uses the Azure theme by rdbende.

If the fonts in dfvue (and any other tkinter GUI) still look ugly, one can try to reinstall Tk with FreeType support via Xft:

conda install -c conda-forge tk=*=xft_*

License

dfvue is distributed under the MIT License. See the LICENSE file for details.

Copyright (c) 2023- Matthias Cuntz

dfvue uses CustomTkinter by Tom Schimansky if installed, and otherwise the Azure theme (v2.0) by rdbende, for example in conda environments.

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

dfvue-4.0.tar.gz (1.0 MB view details)

Uploaded Source

Built Distribution

dfvue-4.0-py3-none-any.whl (1.1 MB view details)

Uploaded Python 3

File details

Details for the file dfvue-4.0.tar.gz.

File metadata

  • Download URL: dfvue-4.0.tar.gz
  • Upload date:
  • Size: 1.0 MB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/5.1.1 CPython/3.12.7

File hashes

Hashes for dfvue-4.0.tar.gz
Algorithm Hash digest
SHA256 b8fd0c8f78714faa53a7a19bf197cea4d5d327b4e646631d751c2c78379a2a45
MD5 4637adc0915a95a976a00d3a020e297c
BLAKE2b-256 62e9ca507f11fe5f826fefdaeda3004c8aaf70e4e74fb7da64790dc24299d09e

See more details on using hashes here.

File details

Details for the file dfvue-4.0-py3-none-any.whl.

File metadata

  • Download URL: dfvue-4.0-py3-none-any.whl
  • Upload date:
  • Size: 1.1 MB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/5.1.1 CPython/3.12.7

File hashes

Hashes for dfvue-4.0-py3-none-any.whl
Algorithm Hash digest
SHA256 06f2deded2182a9cc658c78c480857d912e5521ba1b222f1fab18fcad23a4f82
MD5 f9de23f5b575d9ded11b7e5163c9a742
BLAKE2b-256 4b51b7df58d66429b213393673b978b69aaeb24c61149a0ae74d1c6ca4b649fb

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page