def write_to_file(self, filename):
"""Save raster data to file
Args:
* filename: filename with extension .tif
Gdal documentation at: http://www.gdal.org/classGDALRasterBand.html
"""
# Check file format
basename, extension = os.path.splitext(filename)
msg = ('Invalid file type for file %s. Only extension '
'tif allowed.' % filename)
verify(extension in ['.tif'], msg)
file_format = DRIVER_MAP[extension]
# Get raster data
A = self.get_data()
# Get Dimensions. Note numpy and Gdal swap order
N, M = A.shape
# Create empty file.
# FIXME (Ole): It appears that this is created as single
# precision even though Float64 is specified
# - see issue #17
driver = gdal.GetDriverByName(file_format)
fid = driver.Create(get_string(filename), M, N, 1, gdal.GDT_Float64)
if fid is None:
msg = ('Gdal could not create filename %s using '
'format %s' % (filename, file_format))
raise WriteLayerError(msg)
self.filename = filename
# Write metadata
fid.SetProjection(str(self.projection))
fid.SetGeoTransform(self.geotransform)
# Write data
fid.GetRasterBand(1).WriteArray(A)
fid.GetRasterBand(1).SetNoDataValue(self.get_nodata_value())
# noinspection PyUnusedLocal
fid = None # Close
# Write keywords if any
write_iso19115_metadata(filename, self.keywords)
def write_to_file(self, filename):
"""Save raster data to file
Args:
* filename: filename with extension .tif
"""
# Check file format
basename, extension = os.path.splitext(filename)
msg = ('Invalid file type for file %s. Only extension '
'tif allowed.' % filename)
verify(extension in ['.tif', '.asc'], msg)
file_format = DRIVER_MAP[extension]
# Get raster data
A = self.get_data()
# Get Dimensions. Note numpy and Gdal swap order
N, M = A.shape
# Create empty file.
# FIXME (Ole): It appears that this is created as single
# precision even though Float64 is specified
# - see issue #17
driver = gdal.GetDriverByName(file_format)
fid = driver.Create(filename, M, N, 1, gdal.GDT_Float64)
if fid is None:
msg = ('Gdal could not create filename %s using '
'format %s' % (filename, file_format))
raise WriteLayerError(msg)
# Write metada
fid.SetProjection(str(self.projection))
fid.SetGeoTransform(self.geotransform)
# Write data
fid.GetRasterBand(1).WriteArray(A)
# Write keywords if any
write_keywords(self.keywords, basename + '.keywords')
def write_to_file(self, filename, sublayer=None):
"""Save vector data to file
:param filename: filename with extension .shp or .gml
:type filename: str
:param sublayer: Optional parameter for writing a sublayer. Ignored
unless we are writing to an sqlite file.
:type sublayer: str
:raises: WriteLayerError
Note:
Shp limitation, if attribute names are longer than 10
characters they will be truncated. This is due to limitations in
the shp file driver and has to be done here since gdal v1.7 onwards
has changed its handling of this issue:
http://www.gdal.org/ogr/drv_shapefile.html
**For this reason we recommend writing to spatialite.**
"""
# Check file format
base_name, extension = os.path.splitext(filename)
msg = ('Invalid file type for file %s. Only extensions '
'sqlite, shp or gml allowed.' % filename)
verify(extension in ['.sqlite', '.shp', '.gml'], msg)
driver = DRIVER_MAP[extension]
# FIXME (Ole): Tempory flagging of GML issue (ticket #18)
if extension == '.gml':
msg = ('OGR GML driver does not store geospatial reference.'
'This format is disabled for the time being. See '
'https://github.com/AIFDR/riab/issues/18')
raise WriteLayerError(msg)
# Derive layer_name from filename (excluding preceding dirs)
if sublayer is None or extension == '.shp':
layer_name = os.path.split(base_name)[-1]
else:
layer_name = sublayer
# Get vector data
if self.is_polygon_data:
geometry = self.get_geometry(as_geometry_objects=True)
else:
geometry = self.get_geometry()
data = self.get_data()
N = len(geometry)
# Clear any previous file of this name (ogr does not overwrite)
try:
os.remove(filename)
except OSError:
pass
# Create new file with one layer
drv = ogr.GetDriverByName(driver)
if drv is None:
msg = 'OGR driver %s not available' % driver
raise WriteLayerError(msg)
ds = drv.CreateDataSource(filename)
if ds is None:
msg = 'Creation of output file %s failed' % filename
raise WriteLayerError(msg)
lyr = ds.CreateLayer(layer_name, self.projection.spatial_reference,
self.geometry_type)
if lyr is None:
msg = 'Could not create layer %s' % layer_name
raise WriteLayerError(msg)
# Define attributes if any
store_attributes = False
fields = []
if data is not None:
if len(data) > 0:
try:
fields = data[0].keys()
except:
msg = ('Input parameter "attributes" was specified '
'but it does not contain list of dictionaries '
'with field information as expected. The first '
'element is %s' % data[0])
raise WriteLayerError(msg)
else:
# Establish OGR types for each element
ogr_types = {}
for name in fields:
att = data[0][name]
py_type = type(att)
msg = ('Unknown type for storing vector '
'data: %s, %s' % (name, str(py_type)[1:-1]))
verify(py_type in TYPE_MAP, msg)
ogr_types[name] = TYPE_MAP[py_type]
else:
#msg = ('Input parameter "data" was specified '
# 'but appears to be empty')
#raise InaSAFEError(msg)
pass
# Create attribute fields in layer
store_attributes = True
for name in fields:
fd = ogr.FieldDefn(name, ogr_types[name])
# FIXME (Ole): Trying to address issue #16
# But it doesn't work and
# somehow changes the values of MMI in test
#width = max(128, len(name))
#print name, width
#fd.SetWidth(width)
# Silent handling of warnings like
# Warning 6: Normalized/laundered field name:
#'CONTENTS_LOSS_AUD' to 'CONTENTS_L'
gdal.PushErrorHandler('CPLQuietErrorHandler')
if lyr.CreateField(fd) != 0:
msg = 'Could not create field %s' % name
raise WriteLayerError(msg)
# Restore error handler
gdal.PopErrorHandler()
# Store geometry
geom = ogr.Geometry(self.geometry_type)
layer_def = lyr.GetLayerDefn()
for i in range(N):
# Create new feature instance
feature = ogr.Feature(layer_def)
# Store geometry and check
if self.is_point_data:
x = float(geometry[i][0])
y = float(geometry[i][1])
geom.SetPoint_2D(0, x, y)
elif self.is_line_data:
geom = array_to_line(geometry[i],
geometry_type=ogr.wkbLineString)
elif self.is_polygon_data:
# Create polygon geometry
geom = ogr.Geometry(ogr.wkbPolygon)
# Add outer ring
linear_ring = array_to_line(geometry[i].outer_ring,
geometry_type=ogr.wkbLinearRing)
geom.AddGeometry(linear_ring)
# Add inner rings if any
for A in geometry[i].inner_rings:
geom.AddGeometry(
array_to_line(A, geometry_type=ogr.wkbLinearRing))
else:
msg = 'Geometry type %s not implemented' % self.geometry_type
raise WriteLayerError(msg)
feature.SetGeometry(geom)
G = feature.GetGeometryRef()
if G is None:
msg = 'Could not create GeometryRef for file %s' % filename
raise WriteLayerError(msg)
# Store attributes
if store_attributes:
for j, name in enumerate(fields):
actual_field_name = layer_def.GetFieldDefn(j).GetNameRef()
val = data[i][name]
if type(val) == numpy.ndarray:
# A singleton of type <type 'numpy.ndarray'> works
# for gdal version 1.6 but fails for version 1.8
# in SetField with error: NotImplementedError:
# Wrong number of arguments for overloaded function
val = float(val)
elif val is None:
val = ''
# We do this because there is NaN problem on windows
# NaN value must be converted to _pseudo_in to solve the
# problem. But, when InaSAFE read the file, it'll be
# converted back to NaN value, so that NaN in InaSAFE is a
# numpy.nan
# please check https://github.com/AIFDR/inasafe/issues/269
# for more information
if val != val:
val = _pseudo_inf
feature.SetField(actual_field_name, val)
# Save this feature
if lyr.CreateFeature(feature) != 0:
msg = 'Failed to create feature %i in file %s' % (i, filename)
raise WriteLayerError(msg)
feature.Destroy()
# Write keywords if any
write_keywords(self.keywords, base_name + '.keywords')