def __init__(self, ds_input, ds_driver=False, write=False, encoding='utf-8'):
# The write flag.
if write:
self._write = 1
else:
self._write = 0
# See also http://trac.osgeo.org/gdal/wiki/rfc23_ogr_unicode
self.encoding = encoding
Driver.ensure_registered()
if isinstance(ds_input, six.string_types):
# The data source driver is a void pointer.
ds_driver = Driver.ptr_type()
try:
# OGROpen will auto-detect the data source type.
ds = capi.open_ds(force_bytes(ds_input), self._write, byref(ds_driver))
except OGRException:
# Making the error message more clear rather than something
# like "Invalid pointer returned from OGROpen".
raise OGRException('Could not open the datasource at "%s"' % ds_input)
elif isinstance(ds_input, self.ptr_type) and isinstance(ds_driver, Driver.ptr_type):
ds = ds_input
else:
raise OGRException('Invalid data source input type: %s' % type(ds_input))
if ds:
self.ptr = ds
self.driver = Driver(ds_driver)
else:
# Raise an exception if the returned pointer is NULL
raise OGRException('Invalid data source file "%s"' % ds_input)
def __init__(self, ds_input, ds_driver=False, write=False, encoding='utf-8'):
# The write flag.
if write:
self._write = 1
else:
self._write = 0
# See also https://trac.osgeo.org/gdal/wiki/rfc23_ogr_unicode
self.encoding = encoding
Driver.ensure_registered()
if isinstance(ds_input, str):
# The data source driver is a void pointer.
ds_driver = Driver.ptr_type()
try:
# OGROpen will auto-detect the data source type.
ds = capi.open_ds(force_bytes(ds_input), self._write, byref(ds_driver))
except GDALException:
# Making the error message more clear rather than something
# like "Invalid pointer returned from OGROpen".
raise GDALException('Could not open the datasource at "%s"' % ds_input)
elif isinstance(ds_input, self.ptr_type) and isinstance(ds_driver, Driver.ptr_type):
ds = ds_input
else:
raise GDALException('Invalid data source input type: %s' % type(ds_input))
if ds:
self.ptr = ds
self.driver = Driver(ds_driver)
else:
# Raise an exception if the returned pointer is NULL
raise GDALException('Invalid data source file "%s"' % ds_input)
def __init__(self, ds_input, ds_driver=False, write=False):
# The write flag.
if write:
self._write = 1
else:
self._write = 0
# Registering all the drivers, this needs to be done
# _before_ we try to open up a data source.
if not capi.get_driver_count():
capi.register_all()
if isinstance(ds_input, six.string_types):
# The data source driver is a void pointer.
ds_driver = Driver.ptr_type()
try:
# OGROpen will auto-detect the data source type.
ds = capi.open_ds(force_bytes(ds_input), self._write, byref(ds_driver))
except OGRException:
# Making the error message more clear rather than something
# like "Invalid pointer returned from OGROpen".
raise OGRException('Could not open the datasource at "%s"' % ds_input)
elif isinstance(ds_input, self.ptr_type) and isinstance(ds_driver, Driver.ptr_type):
ds = ds_input
else:
raise OGRException('Invalid data source input type: %s' % type(ds_input))
if bool(ds):
self.ptr = ds
self.driver = Driver(ds_driver)
else:
# Raise an exception if the returned pointer is NULL
raise OGRException('Invalid data source file "%s"' % ds_input)
def __init__(self, ds_input, ds_driver=False, write=False, encoding='utf-8'):
# The write flag.
if write:
self._write = 1
else:
self._write = 0
# See also http://trac.osgeo.org/gdal/wiki/rfc23_ogr_unicode
self.encoding = encoding
# Registering all the drivers, this needs to be done
# _before_ we try to open up a data source.
if not capi.get_driver_count():
capi.register_all()
if isinstance(ds_input, six.string_types):
# The data source driver is a void pointer.
ds_driver = Driver.ptr_type()
try:
# OGROpen will auto-detect the data source type.
ds = capi.open_ds(force_bytes(ds_input), self._write, byref(ds_driver))
except OGRException:
# Making the error message more clear rather than something
# like "Invalid pointer returned from OGROpen".
raise OGRException('Could not open the datasource at "%s"' % ds_input)
elif isinstance(ds_input, self.ptr_type) and isinstance(ds_driver, Driver.ptr_type):
ds = ds_input
else:
raise OGRException('Invalid data source input type: %s' % type(ds_input))
if bool(ds):
self.ptr = ds
self.driver = Driver(ds_driver)
else:
# Raise an exception if the returned pointer is NULL
raise OGRException('Invalid data source file "%s"' % ds_input)
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, six.string_types):
if os.path.exists(ds_input):
try:
# GDALOpen will auto-detect the data source type.
self.ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(
ds_input, err))
else:
raise GDALException('Unable to read raster source input "{}"'.format(ds_input))
else:
raise GDALException('Invalid data source input type: "{}".'.format(type(ds_input)))
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, six.string_types):
if os.path.exists(ds_input):
try:
# GDALOpen will auto-detect the data source type.
self.ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(
ds_input, err))
else:
raise GDALException('Unable to read raster source input "{}"'.format(ds_input))
else:
raise GDALException('Invalid data source input type: "{}".'.format(type(ds_input)))
def driver(self):
"""
<<<<<<< HEAD
Returns the GDAL Driver used for this raster.
=======
Return the GDAL Driver used for this raster.
>>>>>>> 37c99181c9a6b95433d60f8c8ef9af5731096435
"""
ds_driver = capi.get_ds_driver(self._ptr)
return Driver(ds_driver)
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, str) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, str):
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(ds_input, err))
elif isinstance(ds_input, bytes):
# Create a new raster in write mode.
self._write = 1
# Get size of buffer.
size = sys.getsizeof(ds_input)
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, str) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, str):
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(ds_input, err))
elif isinstance(ds_input, bytes):
# Create a new raster in write mode.
self._write = 1
# Get size of buffer.
size = sys.getsizeof(ds_input)
# Pass data to ctypes, keeping a reference to the ctypes object so
# that the vsimem file remains available until the GDALRaster is
# deleted.
self._ds_input = c_buffer(ds_input)
# Create random name to reference in vsimem filesystem.
vsi_path = os.path.join(VSI_FILESYSTEM_BASE_PATH, str(uuid.uuid4()))
# Create vsimem file from buffer.
capi.create_vsi_file_from_mem_buffer(
force_bytes(vsi_path),
byref(self._ds_input),
size,
VSI_TAKE_BUFFER_OWNERSHIP,
)
# Open the new vsimem file as a GDALRaster.
try:
self._ptr = capi.open_ds(force_bytes(vsi_path), self._write)
except GDALException:
# Remove the broken file from the VSI filesystem.
capi.unlink_vsi_file(force_bytes(vsi_path))
raise GDALException('Failed creating VSI raster from the input buffer.')
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get('driver', 'MEM'))
# For out of memory drivers, check filename argument
if driver.name != 'MEM' and 'name' not in ds_input:
raise GDALException('Specify name for creation of raster with driver "{}".'.format(driver.name))
# Check if width and height where specified
if 'width' not in ds_input or 'height' not in ds_input:
raise GDALException('Specify width and height attributes for JSON or dict input.')
# Check if srid was specified
if 'srid' not in ds_input:
raise GDALException('Specify srid for JSON or dict input.')
# Create null terminated gdal options array.
papsz_options = []
for key, val in ds_input.get('papsz_options', {}).items():
option = '{}={}'.format(key, val)
papsz_options.append(option.upper().encode())
papsz_options.append(None)
# Convert papszlist to ctypes array.
papsz_options = (c_char_p * len(papsz_options))(*papsz_options)
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr,
force_bytes(ds_input.get('name', '')),
ds_input['width'],
ds_input['height'],
ds_input.get('nr_of_bands', len(ds_input.get('bands', []))),
ds_input.get('datatype', 6),
byref(papsz_options),
)
# Set band data if provided
for i, band_input in enumerate(ds_input.get('bands', [])):
band = self.bands[i]
if 'nodata_value' in band_input:
band.nodata_value = band_input['nodata_value']
# Instantiate band filled with nodata values if only
# partial input data has been provided.
if band.nodata_value is not None and (
'data' not in band_input or
'size' in band_input or
'shape' in band_input):
band.data(data=(band.nodata_value,), shape=(1, 1))
# Set band data values from input.
band.data(
data=band_input.get('data'),
size=band_input.get('size'),
shape=band_input.get('shape'),
offset=band_input.get('offset'),
)
# Set SRID
self.srs = ds_input.get('srid')
# Set additional properties if provided
if 'origin' in ds_input:
self.origin.x, self.origin.y = ds_input['origin']
if 'scale' in ds_input:
self.scale.x, self.scale.y = ds_input['scale']
if 'skew' in ds_input:
self.skew.x, self.skew.y = ds_input['skew']
elif isinstance(ds_input, c_void_p):
# Instantiate the object using an existing pointer to a gdal raster.
self._ptr = ds_input
else:
raise GDALException('Invalid data source input type: "{}".'.format(type(ds_input)))
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, str) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, str):
if not ds_input.startswith(
VSI_FILESYSTEM_BASE_PATH) and not os.path.exists(ds_input):
raise GDALException(
'Unable to read raster source input "%s".' % ds_input)
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException(
'Could not open the datasource at "{}" ({}).'.format(
ds_input, err))
elif isinstance(ds_input, bytes):
# Create a new raster in write mode.
self._write = 1
# Get size of buffer.
size = sys.getsizeof(ds_input)
# Pass data to ctypes, keeping a reference to the ctypes object so
# that the vsimem file remains available until the GDALRaster is
# deleted.
self._ds_input = c_buffer(ds_input)
# Create random name to reference in vsimem filesystem.
vsi_path = os.path.join(VSI_FILESYSTEM_BASE_PATH,
str(uuid.uuid4()))
# Create vsimem file from buffer.
capi.create_vsi_file_from_mem_buffer(
force_bytes(vsi_path),
byref(self._ds_input),
size,
VSI_TAKE_BUFFER_OWNERSHIP,
)
# Open the new vsimem file as a GDALRaster.
try:
self._ptr = capi.open_ds(force_bytes(vsi_path), self._write)
except GDALException:
# Remove the broken file from the VSI filesystem.
capi.unlink_vsi_file(force_bytes(vsi_path))
raise GDALException(
"Failed creating VSI raster from the input buffer.")
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get("driver", "MEM"))
# For out of memory drivers, check filename argument
if driver.name != "MEM" and "name" not in ds_input:
raise GDALException(
'Specify name for creation of raster with driver "{}".'.
format(driver.name))
# Check if width and height where specified
if "width" not in ds_input or "height" not in ds_input:
raise GDALException(
"Specify width and height attributes for JSON or dict input."
)
# Check if srid was specified
if "srid" not in ds_input:
raise GDALException("Specify srid for JSON or dict input.")
# Create null terminated gdal options array.
papsz_options = []
for key, val in ds_input.get("papsz_options", {}).items():
option = "{}={}".format(key, val)
papsz_options.append(option.upper().encode())
papsz_options.append(None)
# Convert papszlist to ctypes array.
papsz_options = (c_char_p * len(papsz_options))(*papsz_options)
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr,
force_bytes(ds_input.get("name", "")),
ds_input["width"],
ds_input["height"],
ds_input.get("nr_of_bands", len(ds_input.get("bands", []))),
ds_input.get("datatype", 6),
byref(papsz_options),
)
# Set band data if provided
for i, band_input in enumerate(ds_input.get("bands", [])):
band = self.bands[i]
if "nodata_value" in band_input:
band.nodata_value = band_input["nodata_value"]
# Instantiate band filled with nodata values if only
# partial input data has been provided.
if band.nodata_value is not None and (
"data" not in band_input or "size" in band_input
or "shape" in band_input):
band.data(data=(band.nodata_value, ), shape=(1, 1))
# Set band data values from input.
band.data(
data=band_input.get("data"),
size=band_input.get("size"),
shape=band_input.get("shape"),
offset=band_input.get("offset"),
)
# Set SRID
self.srs = ds_input.get("srid")
# Set additional properties if provided
if "origin" in ds_input:
self.origin.x, self.origin.y = ds_input["origin"]
if "scale" in ds_input:
self.scale.x, self.scale.y = ds_input["scale"]
if "skew" in ds_input:
self.skew.x, self.skew.y = ds_input["skew"]
elif isinstance(ds_input, c_void_p):
# Instantiate the object using an existing pointer to a gdal raster.
self._ptr = ds_input
else:
raise GDALException('Invalid data source input type: "{}".'.format(
type(ds_input)))
def driver(self):
"""
Return the GDAL Driver used for this raster.
"""
ds_driver = capi.get_ds_driver(self._ptr)
return Driver(ds_driver)
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input,
six.string_types) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, six.string_types):
if not os.path.exists(ds_input):
raise GDALException(
'Unable to read raster source input "{}"'.format(ds_input))
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException(
'Could not open the datasource at "{}" ({}).'.format(
ds_input, err))
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get('driver', 'MEM'))
# For out of memory drivers, check filename argument
if driver.name != 'MEM' and 'name' not in ds_input:
raise GDALException(
'Specify name for creation of raster with driver "{}".'.
format(driver.name))
# Check if width and height where specified
if 'width' not in ds_input or 'height' not in ds_input:
raise GDALException(
'Specify width and height attributes for JSON or dict input.'
)
# Check if srid was specified
if 'srid' not in ds_input:
raise GDALException('Specify srid for JSON or dict input.')
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr, force_bytes(ds_input.get('name', '')),
ds_input['width'], ds_input['height'],
ds_input.get('nr_of_bands', len(ds_input.get('bands', []))),
ds_input.get('datatype', 6), None)
# Set band data if provided
for i, band_input in enumerate(ds_input.get('bands', [])):
band = self.bands[i]
band.data(band_input['data'])
if 'nodata_value' in band_input:
band.nodata_value = band_input['nodata_value']
# Set SRID
self.srs = ds_input.get('srid')
# Set additional properties if provided
if 'origin' in ds_input:
self.origin.x, self.origin.y = ds_input['origin']
if 'scale' in ds_input:
self.scale.x, self.scale.y = ds_input['scale']
if 'skew' in ds_input:
self.skew.x, self.skew.y = ds_input['skew']
elif isinstance(ds_input, c_void_p):
# Instantiate the object using an existing pointer to a gdal raster.
self._ptr = ds_input
else:
raise GDALException('Invalid data source input type: "{}".'.format(
type(ds_input)))
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, six.string_types) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, six.string_types):
if not os.path.exists(ds_input):
raise GDALException('Unable to read raster source input "{}"'.format(ds_input))
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(ds_input, err))
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get('driver', 'MEM'))
# For out of memory drivers, check filename argument
if driver.name != 'MEM' and 'name' not in ds_input:
raise GDALException('Specify name for creation of raster with driver "{}".'.format(driver.name))
# Check if width and height where specified
if 'width' not in ds_input or 'height' not in ds_input:
raise GDALException('Specify width and height attributes for JSON or dict input.')
# Check if srid was specified
if 'srid' not in ds_input:
raise GDALException('Specify srid for JSON or dict input.')
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr,
force_bytes(ds_input.get('name', '')),
ds_input['width'],
ds_input['height'],
ds_input.get('nr_of_bands', len(ds_input.get('bands', []))),
ds_input.get('datatype', 6),
None
)
# Set band data if provided
for i, band_input in enumerate(ds_input.get('bands', [])):
band = self.bands[i]
if 'nodata_value' in band_input:
band.nodata_value = band_input['nodata_value']
# Instantiate band filled with nodata values if only
# partial input data has been provided.
if band.nodata_value is not None and (
'data' not in band_input or
'size' in band_input or
'shape' in band_input):
band.data(data=(band.nodata_value,), shape=(1, 1))
# Set band data values from input.
band.data(
data=band_input.get('data'),
size=band_input.get('size'),
shape=band_input.get('shape'),
offset=band_input.get('offset'),
)
# Set SRID
self.srs = ds_input.get('srid')
# Set additional properties if provided
if 'origin' in ds_input:
self.origin.x, self.origin.y = ds_input['origin']
if 'scale' in ds_input:
self.scale.x, self.scale.y = ds_input['scale']
if 'skew' in ds_input:
self.skew.x, self.skew.y = ds_input['skew']
elif isinstance(ds_input, c_void_p):
# Instantiate the object using an existing pointer to a gdal raster.
self._ptr = ds_input
else:
raise GDALException('Invalid data source input type: "{}".'.format(type(ds_input)))
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, str) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, str):
if not os.path.exists(ds_input):
raise GDALException(
'Unable to read raster source input "{}"'.format(ds_input))
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException(
'Could not open the datasource at "{}" ({}).'.format(
ds_input, err))
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get('driver', 'MEM'))
# For out of memory drivers, check filename argument
if driver.name != 'MEM' and 'name' not in ds_input:
raise GDALException(
'Specify name for creation of raster with driver "{}".'.
format(driver.name))
# Check if width and height where specified
if 'width' not in ds_input or 'height' not in ds_input:
raise GDALException(
'Specify width and height attributes for JSON or dict input.'
)
# Check if srid was specified
if 'srid' not in ds_input:
raise GDALException('Specify srid for JSON or dict input.')
# Create null terminated gdal options array.
papsz_options = []
for key, val in ds_input.get('papsz_options', {}).items():
option = '{}={}'.format(key, val)
papsz_options.append(option.upper().encode())
papsz_options.append(None)
# Convert papszlist to ctypes array.
papsz_options = (c_char_p * len(papsz_options))(*papsz_options)
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr,
force_bytes(ds_input.get('name', '')),
ds_input['width'],
ds_input['height'],
ds_input.get('nr_of_bands', len(ds_input.get('bands', []))),
ds_input.get('datatype', 6),
byref(papsz_options),
)
# Set band data if provided
for i, band_input in enumerate(ds_input.get('bands', [])):
band = self.bands[i]
if 'nodata_value' in band_input:
band.nodata_value = band_input['nodata_value']
# Instantiate band filled with nodata values if only
# partial input data has been provided.
if band.nodata_value is not None and (
'data' not in band_input or 'size' in band_input
or 'shape' in band_input):
band.data(data=(band.nodata_value, ), shape=(1, 1))
# Set band data values from input.
band.data(
data=band_input.get('data'),
size=band_input.get('size'),
shape=band_input.get('shape'),
offset=band_input.get('offset'),
)
# Set SRID
self.srs = ds_input.get('srid')
# Set additional properties if provided
if 'origin' in ds_input:
self.origin.x, self.origin.y = ds_input['origin']
if 'scale' in ds_input:
self.scale.x, self.scale.y = ds_input['scale']
if 'skew' in ds_input:
self.skew.x, self.skew.y = ds_input['skew']
elif isinstance(ds_input, c_void_p):
# Instantiate the object using an existing pointer to a gdal raster.
self._ptr = ds_input
else:
raise GDALException('Invalid data source input type: "{}".'.format(
type(ds_input)))
def driver(self):
ds_driver = capi.get_ds_driver(self.ptr)
return Driver(ds_driver)
def __init__(self, ds_input, write=False):
self._write = 1 if write else 0
Driver.ensure_registered()
# Preprocess json inputs. This converts json strings to dictionaries,
# which are parsed below the same way as direct dictionary inputs.
if isinstance(ds_input, six.string_types) and json_regex.match(ds_input):
ds_input = json.loads(ds_input)
# If input is a valid file path, try setting file as source.
if isinstance(ds_input, six.string_types):
if not os.path.exists(ds_input):
raise GDALException('Unable to read raster source input "{}"'.format(ds_input))
try:
# GDALOpen will auto-detect the data source type.
self._ptr = capi.open_ds(force_bytes(ds_input), self._write)
except GDALException as err:
raise GDALException('Could not open the datasource at "{}" ({}).'.format(ds_input, err))
elif isinstance(ds_input, dict):
# A new raster needs to be created in write mode
self._write = 1
# Create driver (in memory by default)
driver = Driver(ds_input.get("driver", "MEM"))
# For out of memory drivers, check filename argument
if driver.name != "MEM" and "name" not in ds_input:
raise GDALException('Specify name for creation of raster with driver "{}".'.format(driver.name))
# Check if width and height where specified
if "width" not in ds_input or "height" not in ds_input:
raise GDALException("Specify width and height attributes for JSON or dict input.")
# Check if srid was specified
if "srid" not in ds_input:
raise GDALException("Specify srid for JSON or dict input.")
# Create GDAL Raster
self._ptr = capi.create_ds(
driver._ptr,
force_bytes(ds_input.get("name", "")),
ds_input["width"],
ds_input["height"],
ds_input.get("nr_of_bands", len(ds_input.get("bands", []))),
ds_input.get("datatype", 6),
None,
)
# Set band data if provided
for i, band_input in enumerate(ds_input.get("bands", [])):
self.bands[i].data(band_input["data"])
if "nodata_value" in band_input:
self.bands[i].nodata_value = band_input["nodata_value"]
# Set SRID, default to 0 (this assures SRS is always instanciated)
self.srs = ds_input.get("srid")
# Set additional properties if provided
if "origin" in ds_input:
self.origin.x, self.origin.y = ds_input["origin"]
if "scale" in ds_input:
self.scale.x, self.scale.y = ds_input["scale"]
if "skew" in ds_input:
self.skew.x, self.skew.y = ds_input["skew"]
else:
raise GDALException('Invalid data source input type: "{}".'.format(type(ds_input)))
