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- """
- Functions to use GRASS 2D and 3D rasters with NumPy.
- Usage:
- >>> import grass.script as grass
- >>> from grass.script import array as garray
- >>>
- >>> # We create a temporary region that is only valid in this python session
- ... grass.use_temp_region()
- >>> grass.run_command("g.region", n=80, e=120, t=60, s=0, w=0, b=0, res=20, res3=20)
- 0
- >>>
- >>> # Lets create a raster map numpy array
- ... # based at the current region settings
- ... map2d_1 = garray.array()
- >>>
- >>> # Write some data
- ... for y in range(map2d_1.shape[0]):
- ... for x in range(map2d_1.shape[1]):
- ... map2d_1[y][x] = y + x
- ...
- >>> # Lets have a look at the array
- ... print map2d_1
- [[ 0. 1. 2. 3. 4. 5.]
- [ 1. 2. 3. 4. 5. 6.]
- [ 2. 3. 4. 5. 6. 7.]
- [ 3. 4. 5. 6. 7. 8.]]
- >>> # This will write the numpy array as GRASS raster map
- ... # with name map2d_1
- ... map2d_1.write(mapname="map2d_1", overwrite=True)
- 100%
- 0
- >>>
- >>> # We create a new array and read map2d_1 to modify it
- ... map2d_2 = garray.array()
- >>> # Don't do map2d_2 = map2d_1 % 3
- ... # because: this will overwrite the internal temporary filename
- ... map2d_2.read("map2d_1")
- 0
- >>> map2d_2 %= 3
- >>> # Show the result
- ... print map2d_2
- [[ 0. 1. 2. 0. 1. 2.]
- [ 1. 2. 0. 1. 2. 0.]
- [ 2. 0. 1. 2. 0. 1.]
- [ 0. 1. 2. 0. 1. 2.]]
- >>> # Write the result as new raster map with name map2d_2
- ... map2d_2.write(mapname="map2d_2", overwrite=True)
- 100%
- 0
- >>>
- >>> # Here we create a 3D raster map numpy array
- ... # based in the current region settings
- ... map3d_1 = garray.array3d()
- >>>
- >>> # Write some data
- ... # Note: the 3D array has map[depth][row][column] order
- ... for z in range(map3d_1.shape[0]):
- ... for y in range(map3d_1.shape[1]):
- ... for x in range(map3d_1.shape[2]):
- ... map3d_1[z][y][x] = z + y + x
- ...
- >>> # Lets have a look at the 3D array
- ... print map3d_1
- [[[ 0. 1. 2. 3. 4. 5.]
- [ 1. 2. 3. 4. 5. 6.]
- [ 2. 3. 4. 5. 6. 7.]
- [ 3. 4. 5. 6. 7. 8.]]
- [[ 1. 2. 3. 4. 5. 6.]
- [ 2. 3. 4. 5. 6. 7.]
- [ 3. 4. 5. 6. 7. 8.]
- [ 4. 5. 6. 7. 8. 9.]]
- [[ 2. 3. 4. 5. 6. 7.]
- [ 3. 4. 5. 6. 7. 8.]
- [ 4. 5. 6. 7. 8. 9.]
- [ 5. 6. 7. 8. 9. 10.]]]
- >>> # This will write the numpy array as GRASS 3D raster map
- ... # with name map3d_1
- ... map3d_1.write(mapname="map3d_1", overwrite=True)
- Loading floating point data with 8 bytes ... (6x4x3)
- 100%
- 0
- >>> # We create a new 3D array and read map3d_1 to modify it
- ... map3d_2 = garray.array3d()
- >>> # Don't do map3d_2 = map3d_1 % 3
- ... # because: this will overwrite the internal temporary filename
- ... map3d_2.read("map3d_1")
- 0
- >>> map3d_2 %= 3
- >>> # Show the result
- ... print map3d_2
- [[[ 0. 1. 2. 0. 1. 2.]
- [ 1. 2. 0. 1. 2. 0.]
- [ 2. 0. 1. 2. 0. 1.]
- [ 0. 1. 2. 0. 1. 2.]]
- [[ 1. 2. 0. 1. 2. 0.]
- [ 2. 0. 1. 2. 0. 1.]
- [ 0. 1. 2. 0. 1. 2.]
- [ 1. 2. 0. 1. 2. 0.]]
- [[ 2. 0. 1. 2. 0. 1.]
- [ 0. 1. 2. 0. 1. 2.]
- [ 1. 2. 0. 1. 2. 0.]
- [ 2. 0. 1. 2. 0. 1.]]]
- >>> # Write the result as new 3D raster map with name map3d_2
- ... map3d_2.write(mapname="map3d_2", overwrite=True)
- Loading floating point data with 8 bytes ... (6x4x3)
- 100%
- 0
- (C) 2010-2012 by Glynn Clements and the GRASS Development Team
- This program is free software under the GNU General Public
- License (>=v2). Read the file COPYING that comes with GRASS
- for details.
- .. sectionauthor:: Glynn Clements
- """
- import os
- import numpy
- from utils import try_remove
- import core as grass
- from grass.exceptions import CalledModuleError
- ###############################################################################
- class array(numpy.memmap):
- def __new__(cls, dtype=numpy.double):
- """Define new numpy array
- :param cls:
- :param dtype: data type (default: numpy.double)
- """
- reg = grass.region()
- r = reg['rows']
- c = reg['cols']
- shape = (r, c)
- filename = grass.tempfile()
- self = numpy.memmap.__new__(
- cls,
- filename=filename,
- dtype=dtype,
- mode='w+',
- shape=shape)
- self.filename = filename
- return self
- def __del__(self):
- if isinstance(self, array):
- try_remove(self.filename)
- def read(self, mapname, null=None):
- """Read raster map into array
- :param str mapname: name of raster map to be read
- :param null: null value
- :return: 0 on success
- :return: non-zero code on failure
- """
- kind = self.dtype.kind
- size = self.dtype.itemsize
- if kind == 'f':
- flags = 'f'
- elif kind in 'biu':
- flags = 'i'
- else:
- raise ValueError(_('Invalid kind <%s>') % kind)
- if size not in [1, 2, 4, 8]:
- raise ValueError(_('Invalid size <%d>') % size)
- try:
- grass.run_command(
- 'r.out.bin',
- flags=flags,
- input=mapname,
- output=self.filename,
- bytes=size,
- null=null,
- quiet=True,
- overwrite=True)
- except CalledModuleError:
- return 1
- else:
- return 0
- def write(self, mapname, title=None, null=None, overwrite=None):
- """Write array into raster map
- :param str mapname: name for raster map
- :param str title: title for raster map
- :param null: null value
- :param bool overwrite: True for overwritting existing raster maps
- :return: 0 on success
- :return: non-zero code on failure
- """
- kind = self.dtype.kind
- size = self.dtype.itemsize
- if kind == 'f':
- if size == 4:
- flags = 'f'
- elif size == 8:
- flags = 'd'
- else:
- raise ValueError(_('Invalid FP size <%d>') % size)
- size = None
- elif kind in 'biu':
- if size not in [1, 2, 4]:
- raise ValueError(_('Invalid integer size <%d>') % size)
- flags = None
- else:
- raise ValueError(_('Invalid kind <%s>') % kind)
- reg = grass.region()
- try:
- grass.run_command(
- 'r.in.bin',
- flags=flags,
- input=self.filename,
- output=mapname,
- title=title,
- bytes=size,
- anull=null,
- overwrite=overwrite,
- north=reg['n'],
- south=reg['s'],
- east=reg['e'],
- west=reg['w'],
- rows=reg['rows'],
- cols=reg['cols'])
- except CalledModuleError:
- return 1
- else:
- return 0
- ###############################################################################
- class array3d(numpy.memmap):
- def __new__(cls, dtype=numpy.double):
- """Define new 3d numpy array
- :param cls:
- :param dtype: data type (default: numpy.double)
- """
- reg = grass.region(True)
- r = reg['rows3']
- c = reg['cols3']
- d = reg['depths']
- shape = (d, r, c)
- filename = grass.tempfile()
- self = numpy.memmap.__new__(
- cls,
- filename=filename,
- dtype=dtype,
- mode='w+',
- shape=shape)
- self.filename = filename
- return self
- def __del__(self):
- if isinstance(self, array3d):
- try_remove(self.filename)
- def read(self, mapname, null=None):
- """Read 3D raster map into array
- :param str mapname: name of 3D raster map to be read
- :param null: null value
- :return: 0 on success
- :return: non-zero code on failure
- """
- kind = self.dtype.kind
- size = self.dtype.itemsize
- if kind == 'f':
- flags = None # default is double
- elif kind in 'biu':
- flags = 'i'
- else:
- raise ValueError(_('Invalid kind <%s>') % kind)
- if size not in [1, 2, 4, 8]:
- raise ValueError(_('Invalid size <%d>') % size)
- try:
- grass.run_command(
- 'r3.out.bin',
- flags=flags,
- input=mapname,
- output=self.filename,
- bytes=size,
- null=null,
- quiet=True,
- overwrite=True)
- except CalledModuleError:
- exit(1)
- else:
- exit(0)
- def write(self, mapname, null=None, overwrite=None):
- """Write array into 3D raster map
- :param str mapname: name for 3D raster map
- :param null: null value
- :param bool overwrite: True for overwriting existing raster maps
- :return: 0 on success
- :return: non-zero code on failure
- """
- kind = self.dtype.kind
- size = self.dtype.itemsize
- flags = None
- if kind == 'f':
- if size != 4 and size != 8:
- raise ValueError(_('Invalid FP size <%d>') % size)
- elif kind in 'biu':
- if size not in [1, 2, 4, 8]:
- raise ValueError(_('Invalid integer size <%d>') % size)
- flags = 'i'
- else:
- raise ValueError(_('Invalid kind <%s>') % kind)
- reg = grass.region(True)
- try:
- grass.run_command(
- 'r3.in.bin',
- flags=flags,
- input=self.filename,
- output=mapname,
- bytes=size,
- null=null,
- overwrite=overwrite,
- north=reg['n'],
- south=reg['s'],
- top=reg['t'],
- bottom=reg['b'],
- east=reg['e'],
- west=reg['w'],
- depths=reg['depths'],
- rows=reg['rows3'],
- cols=reg['cols3'])
- except CalledModuleError:
- exit(1)
- else:
- exit(0)
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