/usr/lib/python3/dist-packages/owslib/feature/wfs200.py is in python3-owslib 0.16.0-1.
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# OWSLib. Copyright (C) 2005 Sean C. Gillies
#
# Contact email: sgillies@frii.com
#
# $Id: wfs.py 503 2006-02-01 17:09:12Z dokai $
# =============================================================================
from __future__ import (absolute_import, division, print_function)
#owslib imports:
from owslib.ows import ServiceIdentification, ServiceProvider, OperationsMetadata
from owslib.etree import etree
from owslib.util import nspath, testXMLValue, openURL
from owslib.crs import Crs
from owslib.feature import WebFeatureService_
from owslib.feature.common import WFSCapabilitiesReader
from owslib.namespaces import Namespaces
#other imports
from six import PY2
from six.moves import cStringIO as StringIO
try:
from urllib import urlencode
except ImportError:
from urllib.parse import urlencode
import logging
from owslib.util import log
n = Namespaces()
WFS_NAMESPACE = n.get_namespace("wfs20")
OWS_NAMESPACE = n.get_namespace("ows110")
OGC_NAMESPACE = n.get_namespace("ogc")
GML_NAMESPACE = n.get_namespace("gml")
FES_NAMESPACE = n.get_namespace("fes")
class ServiceException(Exception):
pass
class WebFeatureService_2_0_0(WebFeatureService_):
"""Abstraction for OGC Web Feature Service (WFS).
Implements IWebFeatureService.
"""
def __new__(self,url, version, xml, parse_remote_metadata=False, timeout=30,
username=None, password=None):
""" overridden __new__ method
@type url: string
@param url: url of WFS capabilities document
@type xml: string
@param xml: elementtree object
@type parse_remote_metadata: boolean
@param parse_remote_metadata: whether to fully process MetadataURL elements
@param timeout: time (in seconds) after which requests should timeout
@param username: service authentication username
@param password: service authentication password
@return: initialized WebFeatureService_2_0_0 object
"""
obj=object.__new__(self)
obj.__init__(url, version, xml, parse_remote_metadata, timeout,
username=username, password=password)
return obj
def __getitem__(self,name):
''' check contents dictionary to allow dict like access to service layers'''
if name in self.__getattribute__('contents').keys():
return self.__getattribute__('contents')[name]
else:
raise KeyError("No content named %s" % name)
def __init__(self, url, version, xml=None, parse_remote_metadata=False, timeout=30,
username=None, password=None):
"""Initialize."""
if log.isEnabledFor(logging.DEBUG):
log.debug('building WFS %s'%url)
self.url = url
self.version = version
self.timeout = timeout
self.username = username
self.password = password
self._capabilities = None
reader = WFSCapabilitiesReader(self.version, username=username, password=password)
if xml:
self._capabilities = reader.readString(xml)
else:
self._capabilities = reader.read(self.url)
self._buildMetadata(parse_remote_metadata)
def _buildMetadata(self, parse_remote_metadata=False):
'''set up capabilities metadata objects: '''
self.updateSequence = self._capabilities.attrib.get('updateSequence')
#serviceIdentification metadata
serviceidentelem=self._capabilities.find(nspath('ServiceIdentification'))
self.identification=ServiceIdentification(serviceidentelem)
#need to add to keywords list from featuretypelist information:
featuretypelistelem=self._capabilities.find(nspath('FeatureTypeList', ns=WFS_NAMESPACE))
featuretypeelems=featuretypelistelem.findall(nspath('FeatureType', ns=WFS_NAMESPACE))
for f in featuretypeelems:
kwds=f.findall(nspath('Keywords/Keyword',ns=OWS_NAMESPACE))
if kwds is not None:
for kwd in kwds[:]:
if kwd.text not in self.identification.keywords:
self.identification.keywords.append(kwd.text)
#TODO: update serviceProvider metadata, miss it out for now
serviceproviderelem=self._capabilities.find(nspath('ServiceProvider'))
self.provider=ServiceProvider(serviceproviderelem)
#serviceOperations metadata
self.operations=[]
for elem in self._capabilities.find(nspath('OperationsMetadata'))[:]:
if elem.tag !=nspath('ExtendedCapabilities'):
self.operations.append(OperationsMetadata(elem))
self.constraints = {}
for elem in self._capabilities.findall(nspath('OperationsMetadata/Constraint', ns=WFS_NAMESPACE)):
self.constraints[elem.attrib['name']] = Constraint(elem, self.owscommon.namespace)
self.parameters = {}
for elem in self._capabilities.findall(nspath('OperationsMetadata/Parameter', ns=WFS_NAMESPACE)):
self.parameters[elem.attrib['name']] = Parameter(elem, self.owscommon.namespace)
#serviceContents metadata: our assumption is that services use a top-level
#layer as a metadata organizer, nothing more.
self.contents={}
featuretypelist=self._capabilities.find(nspath('FeatureTypeList',ns=WFS_NAMESPACE))
features = self._capabilities.findall(nspath('FeatureTypeList/FeatureType', ns=WFS_NAMESPACE))
for feature in features:
cm=ContentMetadata(feature, featuretypelist, parse_remote_metadata)
self.contents[cm.id]=cm
#exceptions
self.exceptions = [f.text for f \
in self._capabilities.findall('Capability/Exception/Format')]
def getcapabilities(self):
"""Request and return capabilities document from the WFS as a
file-like object.
NOTE: this is effectively redundant now"""
reader = WFSCapabilitiesReader(self.version)
return openURL(reader.capabilities_url(self.url), timeout=self.timeout,
username=self.username, password=self.password)
def items(self):
'''supports dict-like items() access'''
items=[]
for item in self.contents:
items.append((item,self.contents[item]))
return items
def _makeStringIO(self, strval):
"""
Helper method to make sure the StringIO being returned will work.
Differences between Python 2.7/3.x mean we have a lot of cases to handle.
"""
if PY2:
return StringIO(strval)
return StringIO(strval.decode())
def getfeature(self, typename=None, filter=None, bbox=None, featureid=None,
featureversion=None, propertyname=None, maxfeatures=None,storedQueryID=None, storedQueryParams=None,
method='Get', outputFormat=None, startindex=None, sortby=None):
"""Request and return feature data as a file-like object.
#TODO: NOTE: have changed property name from ['*'] to None - check the use of this in WFS 2.0
Parameters
----------
typename : list
List of typenames (string)
filter : string
XML-encoded OGC filter expression.
bbox : tuple
(left, bottom, right, top) in the feature type's coordinates == (minx, miny, maxx, maxy)
featureid : list
List of unique feature ids (string)
featureversion : string
Default is most recent feature version.
propertyname : list
List of feature property names. '*' matches all.
maxfeatures : int
Maximum number of features to be returned.
method : string
Qualified name of the HTTP DCP method to use.
outputFormat: string (optional)
Requested response format of the request.
startindex: int (optional)
Start position to return feature set (paging in combination with maxfeatures)
sortby: list (optional)
List of property names whose values should be used to order
(upon presentation) the set of feature instances that
satify the query.
There are 3 different modes of use
1) typename and bbox (simple spatial query)
2) typename and filter (==query) (more expressive)
3) featureid (direct access to known features)
"""
storedQueryParams = storedQueryParams or {}
url = data = None
if typename and type(typename) == type(""):
typename = [typename]
if method.upper() == "GET":
(url) = self.getGETGetFeatureRequest(typename, filter, bbox, featureid,
featureversion, propertyname,
maxfeatures, storedQueryID,
storedQueryParams, outputFormat, 'Get',
startindex, sortby)
if log.isEnabledFor(logging.DEBUG):
log.debug('GetFeature WFS GET url %s'% url)
else:
(url,data) = self.getPOSTGetFeatureRequest()
# If method is 'Post', data will be None here
u = openURL(url, data, method, timeout=self.timeout,
username=self.username, password=self.password)
# check for service exceptions, rewrap, and return
# We're going to assume that anything with a content-length > 32k
# is data. We'll check anything smaller.
if 'Content-Length' in u.info():
length = int(u.info()['Content-Length'])
have_read = False
else:
data = u.read()
have_read = True
length = len(data)
if length < 32000:
if not have_read:
data = u.read()
try:
tree = etree.fromstring(data)
except BaseException:
# Not XML
return self._makeStringIO(data)
else:
if tree.tag == "{%s}ServiceExceptionReport" % OGC_NAMESPACE:
se = tree.find(nspath('ServiceException', OGC_NAMESPACE))
raise ServiceException(str(se.text).strip())
else:
return self._makeStringIO(data)
else:
if have_read:
return self._makeStringIO(data)
return u
def getpropertyvalue(self, query=None, storedquery_id=None, valuereference=None, typename=None, method=nspath('Get'),**kwargs):
''' the WFS GetPropertyValue method'''
try:
base_url = next((m.get('url') for m in self.getOperationByName('GetPropertyValue').methods if m.get('type').lower() == method.lower()))
except StopIteration:
base_url = self.url
request = {'service': 'WFS', 'version': self.version, 'request': 'GetPropertyValue'}
if query:
request['query'] = str(query)
if valuereference:
request['valueReference'] = str(valuereference)
if storedquery_id:
request['storedQuery_id'] = str(storedquery_id)
if typename:
request['typename']=str(typename)
if kwargs:
for kw in kwargs.keys():
request[kw]=str(kwargs[kw])
encoded_request=urlencode(request)
u = openURL(base_url + encoded_request, timeout=self.timeout,
username=self.username, password=self.password)
return u.read()
def _getStoredQueries(self):
''' gets descriptions of the stored queries available on the server '''
sqs=[]
#This method makes two calls to the WFS - one ListStoredQueries, and one DescribeStoredQueries. The information is then
#aggregated in 'StoredQuery' objects
method=nspath('Get')
#first make the ListStoredQueries response and save the results in a dictionary if form {storedqueryid:(title, returnfeaturetype)}
try:
base_url = next((m.get('url') for m in self.getOperationByName('ListStoredQueries').methods if m.get('type').lower() == method.lower()))
except StopIteration:
base_url = self.url
request = {'service': 'WFS', 'version': self.version, 'request': 'ListStoredQueries'}
encoded_request = urlencode(request)
u = openURL(base_url, data=encoded_request, timeout=self.timeout,
username=self.username, password=self.password)
tree=etree.fromstring(u.read())
tempdict={}
for sqelem in tree[:]:
title=rft=id=None
id=sqelem.get('id')
for elem in sqelem[:]:
if elem.tag==nspath('Title', WFS_NAMESPACE):
title=elem.text
elif elem.tag==nspath('ReturnFeatureType', WFS_NAMESPACE):
rft=elem.text
tempdict[id]=(title,rft) #store in temporary dictionary
#then make the DescribeStoredQueries request and get the rest of the information about the stored queries
try:
base_url = next((m.get('url') for m in self.getOperationByName('DescribeStoredQueries').methods if m.get('type').lower() == method.lower()))
except StopIteration:
base_url = self.url
request = {'service': 'WFS', 'version': self.version, 'request': 'DescribeStoredQueries'}
encoded_request = urlencode(request)
u = openURL(base_url, data=encoded_request, timeout=self.timeout,
username=self.username, password=self.password)
tree=etree.fromstring(u.read())
tempdict2={}
for sqelem in tree[:]:
params=[] #list to store parameters for the stored query description
id =sqelem.get('id')
for elem in sqelem[:]:
abstract = ''
if elem.tag==nspath('Abstract', WFS_NAMESPACE):
abstract=elem.text
elif elem.tag==nspath('Parameter', WFS_NAMESPACE):
newparam=Parameter(elem.get('name'), elem.get('type'))
params.append(newparam)
tempdict2[id]=(abstract, params) #store in another temporary dictionary
#now group the results into StoredQuery objects:
for key in tempdict.keys():
sqs.append(StoredQuery(key, tempdict[key][0], tempdict[key][1], tempdict2[key][0], tempdict2[key][1]))
return sqs
storedqueries = property(_getStoredQueries, None)
def getOperationByName(self, name):
"""Return a named content item."""
for item in self.operations:
if item.name == name:
return item
raise KeyError("No operation named %s" % name)
class StoredQuery(object):
'''' Class to describe a storedquery '''
def __init__(self, id, title, returntype, abstract, parameters):
self.id=id
self.title=title
self.returnfeaturetype=returntype
self.abstract=abstract
self.parameters=parameters
class Parameter(object):
def __init__(self, name, type):
self.name=name
self.type=type
class ContentMetadata:
"""Abstraction for WFS metadata.
Implements IMetadata.
"""
def __init__(self, elem, parent, parse_remote_metadata=False, timeout=30):
"""."""
self.id = elem.find(nspath('Name',ns=WFS_NAMESPACE)).text
self.title = elem.find(nspath('Title',ns=WFS_NAMESPACE)).text
abstract = elem.find(nspath('Abstract',ns=WFS_NAMESPACE))
if abstract is not None:
self.abstract = abstract.text
else:
self.abstract = None
self.keywords = [f.text for f in elem.findall(nspath('Keywords',ns=WFS_NAMESPACE))]
# bboxes
self.boundingBoxWGS84 = None
b = elem.find(nspath('WGS84BoundingBox',ns=OWS_NAMESPACE))
if b is not None:
try:
lc = b.find(nspath("LowerCorner",ns=OWS_NAMESPACE))
uc = b.find(nspath("UpperCorner",ns=OWS_NAMESPACE))
ll = [float(s) for s in lc.text.split()]
ur = [float(s) for s in uc.text.split()]
self.boundingBoxWGS84 = (ll[0],ll[1],ur[0],ur[1])
# there is no such think as bounding box
# make copy of the WGS84BoundingBox
self.boundingBox = (self.boundingBoxWGS84[0],
self.boundingBoxWGS84[1],
self.boundingBoxWGS84[2],
self.boundingBoxWGS84[3],
Crs("epsg:4326"))
except AttributeError:
self.boundingBoxWGS84 = None
# crs options
self.crsOptions = [Crs(srs.text) for srs in elem.findall(nspath('OtherCRS',ns=WFS_NAMESPACE))]
defaultCrs = elem.findall(nspath('DefaultCRS',ns=WFS_NAMESPACE))
if len(defaultCrs) > 0:
self.crsOptions.insert(0,Crs(defaultCrs[0].text))
# verbs
self.verbOptions = [op.tag for op \
in parent.findall(nspath('Operations/*',ns=WFS_NAMESPACE))]
self.verbOptions + [op.tag for op \
in elem.findall(nspath('Operations/*',ns=WFS_NAMESPACE)) \
if op.tag not in self.verbOptions]
#others not used but needed for iContentMetadata harmonisation
self.styles=None
self.timepositions=None
self.defaulttimeposition=None
# MetadataURLs
self.metadataUrls = []
for m in elem.findall('MetadataURL'):
metadataUrl = {
'type': testXMLValue(m.attrib['type'], attrib=True),
'format': m.find('Format').text.strip(),
'url': testXMLValue(m.find('OnlineResource').attrib['{http://www.w3.org/1999/xlink}href'], attrib=True)
}
if metadataUrl['url'] is not None and parse_remote_metadata: # download URL
try:
content = openURL(metadataUrl['url'], timeout=timeout)
doc = etree.parse(content)
try: # FGDC
metadataUrl['metadata'] = Metadata(doc)
except: # ISO
metadataUrl['metadata'] = MD_Metadata(doc)
except Exception:
metadataUrl['metadata'] = None
self.metadataUrls.append(metadataUrl)
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