"""
grd2xyz - Convert grid to data table
"""
import warnings
import pandas as pd
import xarray as xr
from pygmt.clib import Session
from pygmt.exceptions import GMTInvalidInput
from pygmt.helpers import (
GMTTempFile,
build_arg_string,
fmt_docstring,
kwargs_to_strings,
use_alias,
)
[docs]@fmt_docstring
@use_alias(
C="cstyle",
R="region",
V="verbose",
W="weight",
Z="convention",
b="binary",
d="nodata",
f="coltypes",
h="header",
o="outcols",
s="skiprows",
)
@kwargs_to_strings(R="sequence", o="sequence_comma")
def grd2xyz(grid, output_type="pandas", outfile=None, **kwargs):
r"""
Convert grid to data table.
Read a grid and output xyz-triplets as a :class:`numpy.ndarray`,
:class:`pandas.DataFrame`, or ASCII file.
Full option list at :gmt-docs:`grd2xyz.html`
{aliases}
Parameters
----------
grid : str or xarray.DataArray
The file name of the input grid or the grid loaded as a
:class:`xarray.DataArray`. This is the only required parameter.
output_type : str
Determine the format the xyz data will be returned in [Default is
``pandas``]:
- ``numpy`` - :class:`numpy.ndarray`
- ``pandas``- :class:`pandas.DataFrame`
- ``file`` - ASCII file (requires ``outfile``)
outfile : str
The file name for the output ASCII file.
cstyle : str
[**f**\|\ **i**].
Replace the x- and y-coordinates on output with the corresponding
column and row numbers. These start at 0 (C-style counting); append
**f** to start at 1 (Fortran-style counting). Alternatively, append
**i** to write just the two columns *index* and *z*, where *index*
is the 1-D indexing that GMT uses when referring to grid nodes.
{R}
Adding ``region`` will select a subsection of the grid. If this
subsection exceeds the boundaries of the grid, only the common region
will be output.
weight : str
[**a**\ [**+u**\ *unit*]\|\ *weight*].
Write out *x,y,z,w*\ , where *w* is the supplied *weight* (or 1 if not
supplied) [Default writes *x,y,z* only]. Choose **a** to compute
weights equal to the area each node represents. For Cartesian grids
this is simply the product of the *x* and *y* increments (except for
gridline-registered grids at all sides [half] and corners [quarter]).
For geographic grids we default to a length unit of **k**. Change
this by appending **+u**\ *unit*. For such grids, the area
varies with latitude and also sees special cases for
gridline-registered layouts at sides, corners, and poles.
{V}
convention : str
[*flags*].
Write a 1-column ASCII [or binary] table. Output will be organized
according to the specified ordering convention contained in *flags*.
If data should be written by rows, make *flags* start with
**T** (op) if first row is y = ymax or
**B** (ottom) if first row is y = ymin. Then,
append **L** or **R** to indicate that first element should start at
left or right end of row. Likewise for column formats: start with
**L** or **R** to position first column, and then append **T** or
**B** to position first element in a row. For gridline registered
grids: If grid is periodic in x but the written data should not
contain the (redundant) column at x = xmax, append **x**. For grid
periodic in y, skip writing the redundant row at y = ymax by
appending **y**. If the byte-order needs to be swapped, append
**w**. Select one of several data types (all binary except **a**):
* **a** ASCII representation of a single item per record
* **c** int8_t, signed 1-byte character
* **u** uint8_t, unsigned 1-byte character
* **h** int16_t, short 2-byte integer
* **H** uint16_t, unsigned short 2-byte integer
* **i** int32_t, 4-byte integer
* **I** uint32_t, unsigned 4-byte integer
* **l** int64_t, long (8-byte) integer
* **L** uint64_t, unsigned long (8-byte) integer
* **f** 4-byte floating point single precision
* **d** 8-byte floating point double precision
Default format is scanline orientation of ASCII numbers: **TLa**.
{b}
{d}
{f}
{h}
{o}
{s}
Returns
-------
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``)
- :class:`pandas.DataFrame` or :class:`numpy.ndarray` if ``outfile`` is
not set (depends on ``output_type``)
"""
if output_type not in ["numpy", "pandas", "file"]:
raise GMTInvalidInput(
"Must specify 'output_type' either as 'numpy', 'pandas' or 'file'."
)
if outfile is not None and output_type != "file":
msg = (
f"Changing 'output_type' of grd2xyz from '{output_type}' to 'file' "
"since 'outfile' parameter is set. Please use output_type='file' "
"to silence this warning."
)
warnings.warn(message=msg, category=RuntimeWarning, stacklevel=2)
output_type = "file"
elif outfile is None and output_type == "file":
raise GMTInvalidInput("Must specify 'outfile' for ASCII output.")
if "o" in kwargs and output_type == "pandas":
raise GMTInvalidInput(
"If 'outcols' is specified, 'output_type' must be either 'numpy'"
"or 'file'."
)
# Set the default column names for the pandas dataframe header
dataframe_header = ["x", "y", "z"]
# Let output pandas column names match input DataArray dimension names
if isinstance(grid, xr.DataArray) and output_type == "pandas":
# Reverse the dims because it is rows, columns ordered.
dataframe_header = [grid.dims[1], grid.dims[0], grid.name]
with GMTTempFile() as tmpfile:
with Session() as lib:
file_context = lib.virtualfile_from_data(check_kind="raster", data=grid)
with file_context as infile:
if outfile is None:
outfile = tmpfile.name
arg_str = " ".join([infile, build_arg_string(kwargs), "->" + outfile])
lib.call_module("grd2xyz", arg_str)
# Read temporary csv output to a pandas table
if outfile == tmpfile.name: # if user did not set outfile, return pd.DataFrame
result = pd.read_csv(
tmpfile.name, sep="\t", names=dataframe_header, comment=">"
)
elif outfile != tmpfile.name: # return None if outfile set, output in outfile
result = None
if output_type == "numpy":
result = result.to_numpy()
return result