static grdhisteq.compute_bins(grid, *, output_type='pandas', outfile=None, divisions=None, quadratic=None, verbose=None, region=None, header=None)[source]

Perform histogram equalization for a grid.

Histogram equalization provides a way to highlight data that has most values clustered in a small portion of the dynamic range, such as a grid of flat topography with a mountain in the middle. Ordinary gray shading of this grid (using pygmt.Figure.grdimage or pygmt.Figure.grdview) with a linear mapping from topography to graytone will result in most of the image being very dark gray, with the mountain being almost white. pygmt.grdhisteq.compute_bins can provide a list of data values that divide the data range into divisions which have an equal area in the image [Default is 16 if divisions is not set]. The pandas.DataFrame or ASCII file output can be used to make a colormap with pygmt.makecpt and an image with pygmt.Figure.grdimage that has all levels of gray occurring equally.

Full option list at

  • grid (str or xarray.DataArray) – The file name of the input grid or the grid loaded as a DataArray.

  • outfile (str or bool or None) – The name of the output ASCII file to store the results of the histogram equalization in.

  • output_type (str) –

    Determine the format the xyz data will be returned in [Default is pandas]:

  • divisions (int) – Set the number of divisions of the data range.

  • quadratic (bool) – Perform quadratic equalization [Default is linear].

  • region (str or list) – xmin/xmax/ymin/ymax[+r][+uunit]. Specify the region of interest.

  • verbose (bool or str) –

    Select verbosity level [Default is w], which modulates the messages written to stderr. Choose among 7 levels of verbosity:

    • q - Quiet, not even fatal error messages are produced

    • e - Error messages only

    • w - Warnings [Default]

    • t - Timings (report runtimes for time-intensive algorithms)

    • i - Informational messages (same as verbose=True)

    • c - Compatibility warnings

    • d - Debugging messages

  • header (str) –

    [i|o][n][+c][+d][+msegheader][+rremark][+ttitle]. Specify that input and/or output file(s) have n header records [Default is 0]. Prepend i if only the primary input should have header records. Prepend o to control the writing of header records, with the following modifiers supported:

    • +d to remove existing header records.

    • +c to add a header comment with column names to the output [Default is no column names].

    • +m to add a segment header segheader to the output after the header block [Default is no segment header].

    • +r to add a remark comment to the output [Default is no comment]. The remark string may contain \n to indicate line-breaks.

    • +t to add a title comment to the output [Default is no title]. The title string may contain \n to indicate line-breaks.

    Blank lines and lines starting with # are always skipped.


ret (pandas.DataFrame or numpy.ndarray or None) – Return type depends on outfile and output_type:

  • None if outfile is set (output will be stored in file set by outfile)

  • pandas.DataFrame or numpy.ndarray if outfile is not set (depends on output_type)


>>> import pygmt
>>> # Load a grid of @earth_relief_30m data, with an x-range of 10 to
>>> # 30, and a y-range of 15 to 25
>>> grid = pygmt.datasets.load_earth_relief(
...     resolution="30m", region=[10, 30, 15, 25]
... )
>>> # Find elevation intervals that splits the data range into 5
>>> # divisions, each of which have an equal area in the original grid.
>>> bins = pygmt.grdhisteq.compute_bins(grid=grid, divisions=5)
>>> print(bins)
        start    stop
0       170.0   389.0
1       389.0   470.5
2       470.5   571.0
3       571.0   705.0
4       705.0  2275.5

See also



This method does a weighted histogram equalization for geographic grids to account for node area varying with latitude.

Examples using pygmt.grdhisteq.compute_bins

Performing grid histogram equalization

Performing grid histogram equalization

Performing grid histogram equalization