Lazy loading of GEOS functions

2015-04-24 15:45:36 +02:00 · 2015-04-24 15:45:36 +02:00 · 61d09e61f5
parent 143255c8bb
commit 61d09e61f5
11 changed files with 345 additions and 372 deletions
--- a/django/contrib/gis/db/backends/spatialite/features.py
+++ b/django/contrib/gis/db/backends/spatialite/features.py
@ -1,8 +1,7 @@
 from django.contrib.gis.db.backends.base.features import BaseSpatialFeatures
-from django.contrib.gis.geos import geos_version
+from django.contrib.gis.geos import geos_version_info
 from django.db.backends.sqlite3.features import \
    DatabaseFeatures as SQLiteDatabaseFeatures
 from django.utils.encoding import force_text
 from django.utils.functional import cached_property
@ -20,4 +19,4 @@ class DatabaseFeatures(BaseSpatialFeatures, SQLiteDatabaseFeatures):
    @cached_property
    def supports_3d_storage(self):
-        return force_text(geos_version()) >= '3.3'
+        return geos_version_info()['version'] >= '3.3'
--- a/django/contrib/gis/geos/libgeos.py
+++ b/django/contrib/gis/geos/libgeos.py
@ -14,51 +14,61 @@ from ctypes.util import find_library
 from django.contrib.gis.geos.error import GEOSException
 from django.core.exceptions import ImproperlyConfigured
 from django.utils.functional import SimpleLazyObject
 logger = logging.getLogger('django.contrib.gis')
-# Custom library path set?
+
-try:
+def load_geos():
    # Custom library path set?
    try:
        from django.conf import settings
        lib_path = settings.GEOS_LIBRARY_PATH
-except (AttributeError, EnvironmentError,
+    except (AttributeError, EnvironmentError,
            ImportError, ImproperlyConfigured):
        lib_path = None
-# Setting the appropriate names for the GEOS-C library.
+    # Setting the appropriate names for the GEOS-C library.
-if lib_path:
+    if lib_path:
        lib_names = None
-elif os.name == 'nt':
+    elif os.name == 'nt':
        # Windows NT libraries
        lib_names = ['geos_c', 'libgeos_c-1']
-elif os.name == 'posix':
+    elif os.name == 'posix':
        # *NIX libraries
        lib_names = ['geos_c', 'GEOS']
-else:
+    else:
        raise ImportError('Unsupported OS "%s"' % os.name)
-# Using the ctypes `find_library` utility to find the path to the GEOS
+    # Using the ctypes `find_library` utility to find the path to the GEOS
-# shared library.  This is better than manually specifying each library name
+    # shared library.  This is better than manually specifying each library name
-# and extension (e.g., libgeos_c.[so|so.1|dylib].).
+    # and extension (e.g., libgeos_c.[so|so.1|dylib].).
-if lib_names:
+    if lib_names:
        for lib_name in lib_names:
            lib_path = find_library(lib_name)
            if lib_path is not None:
                break
-# No GEOS library could be found.
+    # No GEOS library could be found.
-if lib_path is None:
+    if lib_path is None:
        raise ImportError(
            'Could not find the GEOS library (tried "%s"). '
            'Try setting GEOS_LIBRARY_PATH in your settings.' %
            '", "'.join(lib_names)
        )
    # Getting the GEOS C library.  The C interface (CDLL) is used for
    # both *NIX and Windows.
    # See the GEOS C API source code for more details on the library function calls:
    #  http://geos.refractions.net/ro/doxygen_docs/html/geos__c_8h-source.html
    _lgeos = CDLL(lib_path)
    # Here we set up the prototypes for the initGEOS_r and finishGEOS_r
    # routines.  These functions aren't actually called until they are
    # attached to a GEOS context handle -- this actually occurs in
    # geos/prototypes/threadsafe.py.
    _lgeos.initGEOS_r.restype = CONTEXT_PTR
    _lgeos.finishGEOS_r.argtypes = [CONTEXT_PTR]
    return _lgeos
 # Getting the GEOS C library.  The C interface (CDLL) is used for
 # both *NIX and Windows.
 # See the GEOS C API source code for more details on the library function calls:
 #  http://geos.refractions.net/ro/doxygen_docs/html/geos__c_8h-source.html
 lgeos = CDLL(lib_path)
 # The notice and error handler C function callback definitions.
 # Supposed to mimic the GEOS message handler (C below):
@ -120,11 +130,42 @@ def get_pointer_arr(n):
    GeomArr = GEOM_PTR * n
    return GeomArr()
 lgeos = SimpleLazyObject(load_geos)
 class GEOSFuncFactory(object):
    argtypes = None
    restype = None
    errcheck = None
    def __init__(self, func_name, *args, **kwargs):
        self.func_name = func_name
        self.restype = kwargs.pop('restype', self.restype)
        self.errcheck = kwargs.pop('errcheck', self.errcheck)
        self.argtypes = kwargs.pop('argtypes', self.argtypes)
        self.args = args
        self.kwargs = kwargs
        self.func = None
    def __call__(self, *args, **kwargs):
        if self.func is None:
            self.func = self.get_func(*self.args, **self.kwargs)
        return self.func(*args, **kwargs)
    def get_func(self, *args, **kwargs):
        from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
        func = GEOSFunc(self.func_name)
        func.argtypes = self.argtypes or []
        func.restype = self.restype
        if self.errcheck:
            func.errcheck = self.errcheck
        return func
 # Returns the string version of the GEOS library. Have to set the restype
 # explicitly to c_char_p to ensure compatibility across 32 and 64-bit platforms.
-geos_version = lgeos.GEOSversion
+geos_version = GEOSFuncFactory('GEOSversion', restype=c_char_p)
 geos_version.argtypes = None
 geos_version.restype = c_char_p
 # Regular expression should be able to parse version strings such as
 # '3.0.0rc4-CAPI-1.3.3', '3.0.0-CAPI-1.4.1', '3.4.0dev-CAPI-1.8.0' or '3.4.0dev-CAPI-1.8.0 r0'
@ -147,18 +188,3 @@ def geos_version_info():
        raise GEOSException('Could not parse version info string "%s"' % ver)
    return {key: m.group(key) for key in (
        'version', 'release_candidate', 'capi_version', 'major', 'minor', 'subminor')}
 # Version numbers and whether or not prepared geometry support is available.
 _verinfo = geos_version_info()
 GEOS_MAJOR_VERSION = int(_verinfo['major'])
 GEOS_MINOR_VERSION = int(_verinfo['minor'])
 GEOS_SUBMINOR_VERSION = int(_verinfo['subminor'])
 del _verinfo
 GEOS_VERSION = (GEOS_MAJOR_VERSION, GEOS_MINOR_VERSION, GEOS_SUBMINOR_VERSION)
 # Here we set up the prototypes for the initGEOS_r and finishGEOS_r
 # routines.  These functions aren't actually called until they are
 # attached to a GEOS context handle -- this actually occurs in
 # geos/prototypes/threadsafe.py.
 lgeos.initGEOS_r.restype = CONTEXT_PTR
 lgeos.finishGEOS_r.argtypes = [CONTEXT_PTR]
--- a/django/contrib/gis/geos/prototypes/coordseq.py
+++ b/django/contrib/gis/geos/prototypes/coordseq.py
@ -1,23 +1,12 @@
 from ctypes import POINTER, c_double, c_int, c_uint
-from django.contrib.gis.geos.libgeos import CS_PTR, GEOM_PTR
+from django.contrib.gis.geos.libgeos import CS_PTR, GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import (
    GEOSException, last_arg_byref,
 )
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
 # ## Error-checking routines specific to coordinate sequences. ##
 def check_cs_ptr(result, func, cargs):
    "Error checking on routines that return Geometries."
    if not result:
        raise GEOSException(
            'Error encountered checking Coordinate Sequence returned from GEOS '
            'C function "%s".' % func.__name__
        )
    return result
 def check_cs_op(result, func, cargs):
    "Checks the status code of a coordinate sequence operation."
    if result == 0:
@ -33,63 +22,73 @@ def check_cs_get(result, func, cargs):
    return last_arg_byref(cargs)
-# ## Coordinate sequence prototype generation functions. ##
+# ## Coordinate sequence prototype factory classes. ##
-def cs_int(func):
+class CsInt(GEOSFuncFactory):
    "For coordinate sequence routines that return an integer."
-    func.argtypes = [CS_PTR, POINTER(c_uint)]
+    argtypes = [CS_PTR, POINTER(c_uint)]
-    func.restype = c_int
+    restype = c_int
-    func.errcheck = check_cs_get
+    errcheck = staticmethod(check_cs_get)
    return func
-def cs_operation(func, ordinate=False, get=False):
+class CsOperation(GEOSFuncFactory):
    "For coordinate sequence operations."
    restype = c_int
    def get_func(self, ordinate=False, get=False):
        if get:
-        # Get routines get double parameter passed-in by reference.
+            # Get routines have double parameter passed-in by reference.
-        func.errcheck = check_cs_get
+            self.errcheck = check_cs_get
            dbl_param = POINTER(c_double)
        else:
-        func.errcheck = check_cs_op
+            self.errcheck = check_cs_op
            dbl_param = c_double
        if ordinate:
            # Get/Set ordinate routines have an extra uint parameter.
-        func.argtypes = [CS_PTR, c_uint, c_uint, dbl_param]
+            self.argtypes = [CS_PTR, c_uint, c_uint, dbl_param]
        else:
-        func.argtypes = [CS_PTR, c_uint, dbl_param]
+            self.argtypes = [CS_PTR, c_uint, dbl_param]
-
+        return super(CsOperation, self).get_func()
    func.restype = c_int
    return func
-def cs_output(func, argtypes):
+class CsOutput(GEOSFuncFactory):
-    "For routines that return a coordinate sequence."
+    restype = CS_PTR
-    func.argtypes = argtypes
+
-    func.restype = CS_PTR
+    def get_func(self, argtypes):
-    func.errcheck = check_cs_ptr
+        self.argtypes = argtypes
-    return func
+        return super(CsOutput, self).get_func()
    @staticmethod
    def errcheck(result, func, cargs):
        if not result:
            raise GEOSException(
                'Error encountered checking Coordinate Sequence returned from GEOS '
                'C function "%s".' % func.__name__
            )
        return result
 # ## Coordinate Sequence ctypes prototypes ##
 # Coordinate Sequence constructors & cloning.
-cs_clone = cs_output(GEOSFunc('GEOSCoordSeq_clone'), [CS_PTR])
+cs_clone = CsOutput('GEOSCoordSeq_clone', [CS_PTR])
-create_cs = cs_output(GEOSFunc('GEOSCoordSeq_create'), [c_uint, c_uint])
+create_cs = CsOutput('GEOSCoordSeq_create', [c_uint, c_uint])
-get_cs = cs_output(GEOSFunc('GEOSGeom_getCoordSeq'), [GEOM_PTR])
+get_cs = CsOutput('GEOSGeom_getCoordSeq', [GEOM_PTR])
 # Getting, setting ordinate
-cs_getordinate = cs_operation(GEOSFunc('GEOSCoordSeq_getOrdinate'), ordinate=True, get=True)
+cs_getordinate = CsOperation('GEOSCoordSeq_getOrdinate', ordinate=True, get=True)
-cs_setordinate = cs_operation(GEOSFunc('GEOSCoordSeq_setOrdinate'), ordinate=True)
+cs_setordinate = CsOperation('GEOSCoordSeq_setOrdinate', ordinate=True)
 # For getting, x, y, z
-cs_getx = cs_operation(GEOSFunc('GEOSCoordSeq_getX'), get=True)
+cs_getx = CsOperation('GEOSCoordSeq_getX', get=True)
-cs_gety = cs_operation(GEOSFunc('GEOSCoordSeq_getY'), get=True)
+cs_gety = CsOperation('GEOSCoordSeq_getY', get=True)
-cs_getz = cs_operation(GEOSFunc('GEOSCoordSeq_getZ'), get=True)
+cs_getz = CsOperation('GEOSCoordSeq_getZ', get=True)
 # For setting, x, y, z
-cs_setx = cs_operation(GEOSFunc('GEOSCoordSeq_setX'))
+cs_setx = CsOperation('GEOSCoordSeq_setX')
-cs_sety = cs_operation(GEOSFunc('GEOSCoordSeq_setY'))
+cs_sety = CsOperation('GEOSCoordSeq_setY')
-cs_setz = cs_operation(GEOSFunc('GEOSCoordSeq_setZ'))
+cs_setz = CsOperation('GEOSCoordSeq_setZ')
 # These routines return size & dimensions.
-cs_getsize = cs_int(GEOSFunc('GEOSCoordSeq_getSize'))
+cs_getsize = CsInt('GEOSCoordSeq_getSize')
-cs_getdims = cs_int(GEOSFunc('GEOSCoordSeq_getDimensions'))
+cs_getdims = CsInt('GEOSCoordSeq_getDimensions')
--- a/django/contrib/gis/geos/prototypes/errcheck.py
+++ b/django/contrib/gis/geos/prototypes/errcheck.py
@ -4,13 +4,12 @@
 from ctypes import c_void_p, string_at
 from django.contrib.gis.geos.error import GEOSException
-from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
+from django.contrib.gis.geos.libgeos import GEOSFuncFactory
 # Getting the `free` routine used to free the memory allocated for
 # string pointers returned by GEOS.
-free = GEOSFunc('GEOSFree')
+free = GEOSFuncFactory('GEOSFree')
 free.argtypes = [c_void_p]
 free.restype = None
 def last_arg_byref(args):
--- a/django/contrib/gis/geos/prototypes/geom.py
+++ b/django/contrib/gis/geos/prototypes/geom.py
@ -1,10 +1,9 @@
 from ctypes import POINTER, c_char_p, c_int, c_size_t, c_ubyte
-from django.contrib.gis.geos.libgeos import CS_PTR, GEOM_PTR
+from django.contrib.gis.geos.libgeos import CS_PTR, GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import (
    check_geom, check_minus_one, check_sized_string, check_string, check_zero,
 )
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
 # This is the return type used by binary output (WKB, HEX) routines.
 c_uchar_p = POINTER(c_ubyte)
@ -21,109 +20,96 @@ class geos_char_p(c_char_p):
    pass
-# ### ctypes generation functions ###
+# ### ctypes factory classes ###
-def bin_constructor(func):
+class BinConstructor(GEOSFuncFactory):
    "Generates a prototype for binary construction (HEX, WKB) GEOS routines."
-    func.argtypes = [c_char_p, c_size_t]
+    argtypes = [c_char_p, c_size_t]
-    func.restype = GEOM_PTR
+    restype = GEOM_PTR
-    func.errcheck = check_geom
+    errcheck = staticmethod(check_geom)
    return func
 # HEX & WKB output
-def bin_output(func):
+class BinOutput(GEOSFuncFactory):
    "Generates a prototype for the routines that return a sized string."
-    func.argtypes = [GEOM_PTR, POINTER(c_size_t)]
+    argtypes = [GEOM_PTR, POINTER(c_size_t)]
-    func.errcheck = check_sized_string
+    restype = c_uchar_p
-    func.restype = c_uchar_p
+    errcheck = staticmethod(check_sized_string)
    return func
-def geom_output(func, argtypes):
+class GeomOutput(GEOSFuncFactory):
    "For GEOS routines that return a geometry."
-    if argtypes:
+    restype = GEOM_PTR
-        func.argtypes = argtypes
+    errcheck = staticmethod(check_geom)
-    func.restype = GEOM_PTR
+
-    func.errcheck = check_geom
+    def get_func(self, argtypes):
-    return func
+        self.argtypes = argtypes
        return super(GeomOutput, self).get_func()
-def geom_index(func):
+class IntFromGeom(GEOSFuncFactory):
    "For GEOS routines that return geometries from an index."
    return geom_output(func, [GEOM_PTR, c_int])
 def int_from_geom(func, zero=False):
    "Argument is a geometry, return type is an integer."
-    func.argtypes = [GEOM_PTR]
+    argtypes = [GEOM_PTR]
-    func.restype = c_int
+    restype = c_int
    def get_func(self, zero=False):
        if zero:
-        func.errcheck = check_zero
+            self.errcheck = check_zero
        else:
-        func.errcheck = check_minus_one
+            self.errcheck = check_minus_one
-    return func
+        return super(IntFromGeom, self).get_func()
-def string_from_geom(func):
+class StringFromGeom(GEOSFuncFactory):
    "Argument is a Geometry, return type is a string."
-    func.argtypes = [GEOM_PTR]
+    argtypes = [GEOM_PTR]
-    func.restype = geos_char_p
+    restype = geos_char_p
-    func.errcheck = check_string
+    errcheck = staticmethod(check_string)
-    return func
+
 # ### ctypes prototypes ###
 # Deprecated creation routines from WKB, HEX, WKT
-from_hex = bin_constructor(GEOSFunc('GEOSGeomFromHEX_buf'))
+from_hex = BinConstructor('GEOSGeomFromHEX_buf')
-from_wkb = bin_constructor(GEOSFunc('GEOSGeomFromWKB_buf'))
+from_wkb = BinConstructor('GEOSGeomFromWKB_buf')
-from_wkt = geom_output(GEOSFunc('GEOSGeomFromWKT'), [c_char_p])
+from_wkt = GeomOutput('GEOSGeomFromWKT', [c_char_p])
 # Deprecated output routines
-to_hex = bin_output(GEOSFunc('GEOSGeomToHEX_buf'))
+to_hex = BinOutput('GEOSGeomToHEX_buf')
-to_wkb = bin_output(GEOSFunc('GEOSGeomToWKB_buf'))
+to_wkb = BinOutput('GEOSGeomToWKB_buf')
-to_wkt = string_from_geom(GEOSFunc('GEOSGeomToWKT'))
+to_wkt = StringFromGeom('GEOSGeomToWKT')
 # The GEOS geometry type, typeid, num_coordites and number of geometries
-geos_normalize = int_from_geom(GEOSFunc('GEOSNormalize'))
+geos_normalize = IntFromGeom('GEOSNormalize')
-geos_type = string_from_geom(GEOSFunc('GEOSGeomType'))
+geos_type = StringFromGeom('GEOSGeomType')
-geos_typeid = int_from_geom(GEOSFunc('GEOSGeomTypeId'))
+geos_typeid = IntFromGeom('GEOSGeomTypeId')
-get_dims = int_from_geom(GEOSFunc('GEOSGeom_getDimensions'), zero=True)
+get_dims = IntFromGeom('GEOSGeom_getDimensions', zero=True)
-get_num_coords = int_from_geom(GEOSFunc('GEOSGetNumCoordinates'))
+get_num_coords = IntFromGeom('GEOSGetNumCoordinates')
-get_num_geoms = int_from_geom(GEOSFunc('GEOSGetNumGeometries'))
+get_num_geoms = IntFromGeom('GEOSGetNumGeometries')
 # Geometry creation factories
-create_point = geom_output(GEOSFunc('GEOSGeom_createPoint'), [CS_PTR])
+create_point = GeomOutput('GEOSGeom_createPoint', [CS_PTR])
-create_linestring = geom_output(GEOSFunc('GEOSGeom_createLineString'), [CS_PTR])
+create_linestring = GeomOutput('GEOSGeom_createLineString', [CS_PTR])
-create_linearring = geom_output(GEOSFunc('GEOSGeom_createLinearRing'), [CS_PTR])
+create_linearring = GeomOutput('GEOSGeom_createLinearRing', [CS_PTR])
 # Polygon and collection creation routines are special and will not
 # have their argument types defined.
-create_polygon = geom_output(GEOSFunc('GEOSGeom_createPolygon'), None)
+create_polygon = GeomOutput('GEOSGeom_createPolygon', None)
-create_collection = geom_output(GEOSFunc('GEOSGeom_createCollection'), None)
+create_collection = GeomOutput('GEOSGeom_createCollection', None)
 # Ring routines
-get_extring = geom_output(GEOSFunc('GEOSGetExteriorRing'), [GEOM_PTR])
+get_extring = GeomOutput('GEOSGetExteriorRing', [GEOM_PTR])
-get_intring = geom_index(GEOSFunc('GEOSGetInteriorRingN'))
+get_intring = GeomOutput('GEOSGetInteriorRingN', [GEOM_PTR, c_int])
-get_nrings = int_from_geom(GEOSFunc('GEOSGetNumInteriorRings'))
+get_nrings = IntFromGeom('GEOSGetNumInteriorRings')
 # Collection Routines
-get_geomn = geom_index(GEOSFunc('GEOSGetGeometryN'))
+get_geomn = GeomOutput('GEOSGetGeometryN', [GEOM_PTR, c_int])
 # Cloning
-geom_clone = GEOSFunc('GEOSGeom_clone')
+geom_clone = GEOSFuncFactory('GEOSGeom_clone', argtypes=[GEOM_PTR], restype=GEOM_PTR)
 geom_clone.argtypes = [GEOM_PTR]
 geom_clone.restype = GEOM_PTR
 # Destruction routine.
-destroy_geom = GEOSFunc('GEOSGeom_destroy')
+destroy_geom = GEOSFuncFactory('GEOSGeom_destroy', argtypes=[GEOM_PTR])
 destroy_geom.argtypes = [GEOM_PTR]
 destroy_geom.restype = None
 # SRID routines
-geos_get_srid = GEOSFunc('GEOSGetSRID')
+geos_get_srid = GEOSFuncFactory('GEOSGetSRID', argtypes=[GEOM_PTR], restype=c_int)
-geos_get_srid.argtypes = [GEOM_PTR]
+geos_set_srid = GEOSFuncFactory('GEOSSetSRID', argtypes=[GEOM_PTR, c_int])
 geos_get_srid.restype = c_int
 geos_set_srid = GEOSFunc('GEOSSetSRID')
 geos_set_srid.argtypes = [GEOM_PTR, c_int]
 geos_set_srid.restype = None
--- a/django/contrib/gis/geos/prototypes/io.py
+++ b/django/contrib/gis/geos/prototypes/io.py
@ -2,12 +2,11 @@ import threading
 from ctypes import POINTER, Structure, byref, c_char, c_char_p, c_int, c_size_t
 from django.contrib.gis.geos.base import GEOSBase
-from django.contrib.gis.geos.libgeos import GEOM_PTR
+from django.contrib.gis.geos.libgeos import GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import (
    check_geom, check_sized_string, check_string,
 )
 from django.contrib.gis.geos.prototypes.geom import c_uchar_p, geos_char_p
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
 from django.utils import six
 from django.utils.encoding import force_bytes
@ -34,99 +33,90 @@ WKB_READ_PTR = POINTER(WKBReader_st)
 WKB_WRITE_PTR = POINTER(WKBReader_st)
 # WKTReader routines
-wkt_reader_create = GEOSFunc('GEOSWKTReader_create')
+wkt_reader_create = GEOSFuncFactory('GEOSWKTReader_create', restype=WKT_READ_PTR)
-wkt_reader_create.restype = WKT_READ_PTR
+wkt_reader_destroy = GEOSFuncFactory('GEOSWKTReader_destroy', argtypes=[WKT_READ_PTR])
 wkt_reader_destroy = GEOSFunc('GEOSWKTReader_destroy')
 wkt_reader_destroy.argtypes = [WKT_READ_PTR]
 wkt_reader_read = GEOSFunc('GEOSWKTReader_read')
 wkt_reader_read.argtypes = [WKT_READ_PTR, c_char_p]
 wkt_reader_read.restype = GEOM_PTR
 wkt_reader_read.errcheck = check_geom
 wkt_reader_read = GEOSFuncFactory(
    'GEOSWKTReader_read', argtypes=[WKT_READ_PTR, c_char_p], restype=GEOM_PTR, errcheck=check_geom
 )
 # WKTWriter routines
-wkt_writer_create = GEOSFunc('GEOSWKTWriter_create')
+wkt_writer_create = GEOSFuncFactory('GEOSWKTWriter_create', restype=WKT_WRITE_PTR)
-wkt_writer_create.restype = WKT_WRITE_PTR
+wkt_writer_destroy = GEOSFuncFactory('GEOSWKTWriter_destroy', argtypes=[WKT_WRITE_PTR])
-wkt_writer_destroy = GEOSFunc('GEOSWKTWriter_destroy')
+wkt_writer_write = GEOSFuncFactory(
-wkt_writer_destroy.argtypes = [WKT_WRITE_PTR]
+    'GEOSWKTWriter_write', argtypes=[WKT_WRITE_PTR, GEOM_PTR], restype=geos_char_p, errcheck=check_string
 )
 wkt_writer_write = GEOSFunc('GEOSWKTWriter_write')
 wkt_writer_write.argtypes = [WKT_WRITE_PTR, GEOM_PTR]
 wkt_writer_write.restype = geos_char_p
 wkt_writer_write.errcheck = check_string
-try:
+class WKTOutputDim(GEOSFuncFactory):
-    wkt_writer_get_outdim = GEOSFunc('GEOSWKTWriter_getOutputDimension')
+    def get_func(self, *args, **kwargs):
-    wkt_writer_get_outdim.argtypes = [WKT_WRITE_PTR]
+        try:
-    wkt_writer_get_outdim.restype = c_int
+            return super(WKTOutputDim, self).get_func(*args, **kwargs)
-    wkt_writer_set_outdim = GEOSFunc('GEOSWKTWriter_setOutputDimension')
+        except AttributeError:
    wkt_writer_set_outdim.argtypes = [WKT_WRITE_PTR, c_int]
 except AttributeError:
            # GEOSWKTWriter_get/setOutputDimension has been introduced in GEOS 3.3.0
            # Always return 2 if not available
-    wkt_writer_get_outdim = lambda ptr: 2
+            return {
-    wkt_writer_set_outdim = lambda ptr, dim: None
+                'GEOSWKTWriter_getOutputDimension': lambda ptr: 2,
                'GEOSWKTWriter_setOutputDimension': lambda ptr, dim: None,
            }.get(self.func_name)
 wkt_writer_get_outdim = WKTOutputDim(
    'GEOSWKTWriter_getOutputDimension', argtypes=[WKT_WRITE_PTR], restype=c_int
 )
 wkt_writer_set_outdim = WKTOutputDim(
    'GEOSWKTWriter_setOutputDimension', argtypes=[WKT_WRITE_PTR, c_int]
 )
 # WKBReader routines
-wkb_reader_create = GEOSFunc('GEOSWKBReader_create')
+wkb_reader_create = GEOSFuncFactory('GEOSWKBReader_create', restype=WKB_READ_PTR)
-wkb_reader_create.restype = WKB_READ_PTR
+wkb_reader_destroy = GEOSFuncFactory('GEOSWKBReader_destroy', argtypes=[WKB_READ_PTR])
 wkb_reader_destroy = GEOSFunc('GEOSWKBReader_destroy')
 wkb_reader_destroy.argtypes = [WKB_READ_PTR]
-def wkb_read_func(func):
+class WKBReadFunc(GEOSFuncFactory):
    # Although the function definitions take `const unsigned char *`
    # as their parameter, we use c_char_p here so the function may
    # take Python strings directly as parameters.  Inside Python there
    # is not a difference between signed and unsigned characters, so
    # it is not a problem.
-    func.argtypes = [WKB_READ_PTR, c_char_p, c_size_t]
+    argtypes = [WKB_READ_PTR, c_char_p, c_size_t]
-    func.restype = GEOM_PTR
+    restype = GEOM_PTR
-    func.errcheck = check_geom
+    errcheck = staticmethod(check_geom)
    return func
-wkb_reader_read = wkb_read_func(GEOSFunc('GEOSWKBReader_read'))
+
-wkb_reader_read_hex = wkb_read_func(GEOSFunc('GEOSWKBReader_readHEX'))
+wkb_reader_read = WKBReadFunc('GEOSWKBReader_read')
 wkb_reader_read_hex = WKBReadFunc('GEOSWKBReader_readHEX')
 # WKBWriter routines
-wkb_writer_create = GEOSFunc('GEOSWKBWriter_create')
+wkb_writer_create = GEOSFuncFactory('GEOSWKBWriter_create', restype=WKB_WRITE_PTR)
-wkb_writer_create.restype = WKB_WRITE_PTR
+wkb_writer_destroy = GEOSFuncFactory('GEOSWKBWriter_destroy', argtypes=[WKB_WRITE_PTR])
 wkb_writer_destroy = GEOSFunc('GEOSWKBWriter_destroy')
 wkb_writer_destroy.argtypes = [WKB_WRITE_PTR]
 # WKB Writing prototypes.
-def wkb_write_func(func):
+class WKBWriteFunc(GEOSFuncFactory):
-    func.argtypes = [WKB_WRITE_PTR, GEOM_PTR, POINTER(c_size_t)]
+    argtypes = [WKB_WRITE_PTR, GEOM_PTR, POINTER(c_size_t)]
-    func.restype = c_uchar_p
+    restype = c_uchar_p
-    func.errcheck = check_sized_string
+    errcheck = staticmethod(check_sized_string)
    return func
-wkb_writer_write = wkb_write_func(GEOSFunc('GEOSWKBWriter_write'))
+
-wkb_writer_write_hex = wkb_write_func(GEOSFunc('GEOSWKBWriter_writeHEX'))
+wkb_writer_write = WKBWriteFunc('GEOSWKBWriter_write')
 wkb_writer_write_hex = WKBWriteFunc('GEOSWKBWriter_writeHEX')
 # WKBWriter property getter/setter prototypes.
-def wkb_writer_get(func, restype=c_int):
+class WKBWriterGet(GEOSFuncFactory):
-    func.argtypes = [WKB_WRITE_PTR]
+    argtypes = [WKB_WRITE_PTR]
-    func.restype = restype
+    restype = c_int
    return func
-def wkb_writer_set(func, argtype=c_int):
+class WKBWriterSet(GEOSFuncFactory):
-    func.argtypes = [WKB_WRITE_PTR, argtype]
+    argtypes = [WKB_WRITE_PTR, c_int]
    return func
-wkb_writer_get_byteorder = wkb_writer_get(GEOSFunc('GEOSWKBWriter_getByteOrder'))
+wkb_writer_get_byteorder = WKBWriterGet('GEOSWKBWriter_getByteOrder')
-wkb_writer_set_byteorder = wkb_writer_set(GEOSFunc('GEOSWKBWriter_setByteOrder'))
+wkb_writer_set_byteorder = WKBWriterSet('GEOSWKBWriter_setByteOrder')
-wkb_writer_get_outdim = wkb_writer_get(GEOSFunc('GEOSWKBWriter_getOutputDimension'))
+wkb_writer_get_outdim = WKBWriterGet('GEOSWKBWriter_getOutputDimension')
-wkb_writer_set_outdim = wkb_writer_set(GEOSFunc('GEOSWKBWriter_setOutputDimension'))
+wkb_writer_set_outdim = WKBWriterSet('GEOSWKBWriter_setOutputDimension')
-wkb_writer_get_include_srid = wkb_writer_get(GEOSFunc('GEOSWKBWriter_getIncludeSRID'), restype=c_char)
+wkb_writer_get_include_srid = WKBWriterGet('GEOSWKBWriter_getIncludeSRID', restype=c_char)
-wkb_writer_set_include_srid = wkb_writer_set(GEOSFunc('GEOSWKBWriter_setIncludeSRID'), argtype=c_char)
+wkb_writer_set_include_srid = WKBWriterSet('GEOSWKBWriter_setIncludeSRID', argtypes=[WKB_WRITE_PTR, c_char])
 # ### Base I/O Class ###
--- a/django/contrib/gis/geos/prototypes/misc.py
+++ b/django/contrib/gis/geos/prototypes/misc.py
@ -4,35 +4,35 @@
 """
 from ctypes import POINTER, c_double, c_int
-from django.contrib.gis.geos.libgeos import GEOM_PTR
+from django.contrib.gis.geos.libgeos import GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import check_dbl, check_string
 from django.contrib.gis.geos.prototypes.geom import geos_char_p
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
 from django.utils.six.moves import range
 __all__ = ['geos_area', 'geos_distance', 'geos_length', 'geos_isvalidreason']
-# ### ctypes generator function ###
+class DblFromGeom(GEOSFuncFactory):
 def dbl_from_geom(func, num_geom=1):
    """
    Argument is a Geometry, return type is double that is passed
    in by reference as the last argument.
    """
    restype = c_int  # Status code returned
    errcheck = staticmethod(check_dbl)
    def get_func(self, num_geom=1):
        argtypes = [GEOM_PTR for i in range(num_geom)]
        argtypes += [POINTER(c_double)]
-    func.argtypes = argtypes
+        self.argtypes = argtypes
-    func.restype = c_int  # Status code returned
+        return super(DblFromGeom, self).get_func()
-    func.errcheck = check_dbl
+
    return func
 # ### ctypes prototypes ###
 # Area, distance, and length prototypes.
-geos_area = dbl_from_geom(GEOSFunc('GEOSArea'))
+geos_area = DblFromGeom('GEOSArea')
-geos_distance = dbl_from_geom(GEOSFunc('GEOSDistance'), num_geom=2)
+geos_distance = DblFromGeom('GEOSDistance', num_geom=2)
-geos_length = dbl_from_geom(GEOSFunc('GEOSLength'))
+geos_length = DblFromGeom('GEOSLength')
-geos_isvalidreason = GEOSFunc('GEOSisValidReason')
+geos_isvalidreason = GEOSFuncFactory(
-geos_isvalidreason.argtypes = [GEOM_PTR]
+    'GEOSisValidReason', restype=geos_char_p, errcheck=check_string, argtypes=[GEOM_PTR]
-geos_isvalidreason.restype = geos_char_p
+)
 geos_isvalidreason.errcheck = check_string
--- a/django/contrib/gis/geos/prototypes/predicates.py
+++ b/django/contrib/gis/geos/prototypes/predicates.py
@ -4,45 +4,38 @@
 """
 from ctypes import c_char, c_char_p, c_double
-from django.contrib.gis.geos.libgeos import GEOM_PTR
+from django.contrib.gis.geos.libgeos import GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import check_predicate
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
-# ## Binary & unary predicate functions ##
+# ## Binary & unary predicate factories ##
-def binary_predicate(func, *args):
+class UnaryPredicate(GEOSFuncFactory):
    "For GEOS unary predicate functions."
    argtypes = [GEOM_PTR]
    restype = c_char
    errcheck = staticmethod(check_predicate)
 class BinaryPredicate(UnaryPredicate):
    "For GEOS binary predicate functions."
    argtypes = [GEOM_PTR, GEOM_PTR]
    if args:
        argtypes += args
    func.argtypes = argtypes
    func.restype = c_char
    func.errcheck = check_predicate
    return func
 def unary_predicate(func):
    "For GEOS unary predicate functions."
    func.argtypes = [GEOM_PTR]
    func.restype = c_char
    func.errcheck = check_predicate
    return func
 # ## Unary Predicates ##
-geos_hasz = unary_predicate(GEOSFunc('GEOSHasZ'))
+geos_hasz = UnaryPredicate('GEOSHasZ')
-geos_isempty = unary_predicate(GEOSFunc('GEOSisEmpty'))
+geos_isempty = UnaryPredicate('GEOSisEmpty')
-geos_isring = unary_predicate(GEOSFunc('GEOSisRing'))
+geos_isring = UnaryPredicate('GEOSisRing')
-geos_issimple = unary_predicate(GEOSFunc('GEOSisSimple'))
+geos_issimple = UnaryPredicate('GEOSisSimple')
-geos_isvalid = unary_predicate(GEOSFunc('GEOSisValid'))
+geos_isvalid = UnaryPredicate('GEOSisValid')
 # ## Binary Predicates ##
-geos_contains = binary_predicate(GEOSFunc('GEOSContains'))
+geos_contains = BinaryPredicate('GEOSContains')
-geos_crosses = binary_predicate(GEOSFunc('GEOSCrosses'))
+geos_crosses = BinaryPredicate('GEOSCrosses')
-geos_disjoint = binary_predicate(GEOSFunc('GEOSDisjoint'))
+geos_disjoint = BinaryPredicate('GEOSDisjoint')
-geos_equals = binary_predicate(GEOSFunc('GEOSEquals'))
+geos_equals = BinaryPredicate('GEOSEquals')
-geos_equalsexact = binary_predicate(GEOSFunc('GEOSEqualsExact'), c_double)
+geos_equalsexact = BinaryPredicate('GEOSEqualsExact', argtypes=[GEOM_PTR, GEOM_PTR, c_double])
-geos_intersects = binary_predicate(GEOSFunc('GEOSIntersects'))
+geos_intersects = BinaryPredicate('GEOSIntersects')
-geos_overlaps = binary_predicate(GEOSFunc('GEOSOverlaps'))
+geos_overlaps = BinaryPredicate('GEOSOverlaps')
-geos_relatepattern = binary_predicate(GEOSFunc('GEOSRelatePattern'), c_char_p)
+geos_relatepattern = BinaryPredicate('GEOSRelatePattern', argtypes=[GEOM_PTR, GEOM_PTR, c_char_p])
-geos_touches = binary_predicate(GEOSFunc('GEOSTouches'))
+geos_touches = BinaryPredicate('GEOSTouches')
-geos_within = binary_predicate(GEOSFunc('GEOSWithin'))
+geos_within = BinaryPredicate('GEOSWithin')
--- a/django/contrib/gis/geos/prototypes/prepared.py
+++ b/django/contrib/gis/geos/prototypes/prepared.py
@ -1,36 +1,30 @@
 from ctypes import c_char
 from django.contrib.gis.geos.libgeos import (
-    GEOM_PTR, PREPGEOM_PTR, geos_version_info,
+    GEOM_PTR, PREPGEOM_PTR, GEOSFuncFactory,
 )
 from django.contrib.gis.geos.prototypes.errcheck import check_predicate
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
 # Prepared geometry constructor and destructors.
-geos_prepare = GEOSFunc('GEOSPrepare')
+geos_prepare = GEOSFuncFactory('GEOSPrepare', argtypes=[GEOM_PTR], restype=PREPGEOM_PTR)
-geos_prepare.argtypes = [GEOM_PTR]
+prepared_destroy = GEOSFuncFactory('GEOSPreparedGeom_destroy', argtpes=[PREPGEOM_PTR])
 geos_prepare.restype = PREPGEOM_PTR
 prepared_destroy = GEOSFunc('GEOSPreparedGeom_destroy')
 prepared_destroy.argtpes = [PREPGEOM_PTR]
 prepared_destroy.restype = None
 # Prepared geometry binary predicate support.
-def prepared_predicate(func):
+class PreparedPredicate(GEOSFuncFactory):
-    func.argtypes = [PREPGEOM_PTR, GEOM_PTR]
+    argtypes = [PREPGEOM_PTR, GEOM_PTR]
-    func.restype = c_char
+    restype = c_char
-    func.errcheck = check_predicate
+    errcheck = staticmethod(check_predicate)
    return func
 prepared_contains = prepared_predicate(GEOSFunc('GEOSPreparedContains'))
 prepared_contains_properly = prepared_predicate(GEOSFunc('GEOSPreparedContainsProperly'))
 prepared_covers = prepared_predicate(GEOSFunc('GEOSPreparedCovers'))
 prepared_intersects = prepared_predicate(GEOSFunc('GEOSPreparedIntersects'))
-if geos_version_info()['version'] > '3.3.0':
+prepared_contains = PreparedPredicate('GEOSPreparedContains')
-    prepared_crosses = prepared_predicate(GEOSFunc('GEOSPreparedCrosses'))
+prepared_contains_properly = PreparedPredicate('GEOSPreparedContainsProperly')
-    prepared_disjoint = prepared_predicate(GEOSFunc('GEOSPreparedDisjoint'))
+prepared_covers = PreparedPredicate('GEOSPreparedCovers')
-    prepared_overlaps = prepared_predicate(GEOSFunc('GEOSPreparedOverlaps'))
+prepared_intersects = PreparedPredicate('GEOSPreparedIntersects')
-    prepared_touches = prepared_predicate(GEOSFunc('GEOSPreparedTouches'))
+
-    prepared_within = prepared_predicate(GEOSFunc('GEOSPreparedWithin'))
+# Functions added in GEOS 3.3
 prepared_crosses = PreparedPredicate('GEOSPreparedCrosses')
 prepared_disjoint = PreparedPredicate('GEOSPreparedDisjoint')
 prepared_overlaps = PreparedPredicate('GEOSPreparedOverlaps')
 prepared_touches = PreparedPredicate('GEOSPreparedTouches')
 prepared_within = PreparedPredicate('GEOSPreparedWithin')
--- a/django/contrib/gis/geos/prototypes/topology.py
+++ b/django/contrib/gis/geos/prototypes/topology.py
@ -2,64 +2,51 @@
 This module houses the GEOS ctypes prototype functions for the
 topological operations on geometries.
 """
 __all__ = ['geos_boundary', 'geos_buffer', 'geos_cascaded_union',
           'geos_centroid', 'geos_convexhull', 'geos_difference',
           'geos_envelope', 'geos_intersection', 'geos_linemerge',
           'geos_pointonsurface', 'geos_preservesimplify', 'geos_simplify',
           'geos_symdifference', 'geos_union', 'geos_relate',
           'geos_project', 'geos_interpolate', 'geos_project_normalized',
           'geos_interpolate_normalized']
 from ctypes import c_double, c_int
-from django.contrib.gis.geos.libgeos import GEOM_PTR
+from django.contrib.gis.geos.libgeos import GEOM_PTR, GEOSFuncFactory
 from django.contrib.gis.geos.prototypes.errcheck import (
    check_geom, check_minus_one, check_string,
 )
 from django.contrib.gis.geos.prototypes.geom import geos_char_p
 from django.contrib.gis.geos.prototypes.threadsafe import GEOSFunc
-def topology(func, *args, **kwargs):
+class Topology(GEOSFuncFactory):
    "For GEOS unary topology functions."
    argtypes = [GEOM_PTR]
-    if args:
+    restype = GEOM_PTR
-        argtypes += args
+    errcheck = staticmethod(check_geom)
-    func.argtypes = argtypes
+
    func.restype = kwargs.get('restype', GEOM_PTR)
    func.errcheck = kwargs.get('errcheck', check_geom)
    return func
 # Topology Routines
-geos_boundary = topology(GEOSFunc('GEOSBoundary'))
+geos_boundary = Topology('GEOSBoundary')
-geos_buffer = topology(GEOSFunc('GEOSBuffer'), c_double, c_int)
+geos_buffer = Topology('GEOSBuffer', argtypes=[GEOM_PTR, c_double, c_int])
-geos_centroid = topology(GEOSFunc('GEOSGetCentroid'))
+geos_centroid = Topology('GEOSGetCentroid')
-geos_convexhull = topology(GEOSFunc('GEOSConvexHull'))
+geos_convexhull = Topology('GEOSConvexHull')
-geos_difference = topology(GEOSFunc('GEOSDifference'), GEOM_PTR)
+geos_difference = Topology('GEOSDifference', argtypes=[GEOM_PTR, GEOM_PTR])
-geos_envelope = topology(GEOSFunc('GEOSEnvelope'))
+geos_envelope = Topology('GEOSEnvelope')
-geos_intersection = topology(GEOSFunc('GEOSIntersection'), GEOM_PTR)
+geos_intersection = Topology('GEOSIntersection', argtypes=[GEOM_PTR, GEOM_PTR])
-geos_linemerge = topology(GEOSFunc('GEOSLineMerge'))
+geos_linemerge = Topology('GEOSLineMerge')
-geos_pointonsurface = topology(GEOSFunc('GEOSPointOnSurface'))
+geos_pointonsurface = Topology('GEOSPointOnSurface')
-geos_preservesimplify = topology(GEOSFunc('GEOSTopologyPreserveSimplify'), c_double)
+geos_preservesimplify = Topology('GEOSTopologyPreserveSimplify', argtypes=[GEOM_PTR, c_double])
-geos_simplify = topology(GEOSFunc('GEOSSimplify'), c_double)
+geos_simplify = Topology('GEOSSimplify', argtypes=[GEOM_PTR, c_double])
-geos_symdifference = topology(GEOSFunc('GEOSSymDifference'), GEOM_PTR)
+geos_symdifference = Topology('GEOSSymDifference', argtypes=[GEOM_PTR, GEOM_PTR])
-geos_union = topology(GEOSFunc('GEOSUnion'), GEOM_PTR)
+geos_union = Topology('GEOSUnion', argtypes=[GEOM_PTR, GEOM_PTR])
-geos_cascaded_union = GEOSFunc('GEOSUnionCascaded')
+geos_cascaded_union = GEOSFuncFactory('GEOSUnionCascaded', argtypes=[GEOM_PTR], restype=GEOM_PTR)
 geos_cascaded_union.argtypes = [GEOM_PTR]
 geos_cascaded_union.restype = GEOM_PTR
 # GEOSRelate returns a string, not a geometry.
-geos_relate = GEOSFunc('GEOSRelate')
+geos_relate = GEOSFuncFactory(
-geos_relate.argtypes = [GEOM_PTR, GEOM_PTR]
+    'GEOSRelate', argtypes=[GEOM_PTR, GEOM_PTR], restype=geos_char_p, errcheck=check_string
-geos_relate.restype = geos_char_p
+)
 geos_relate.errcheck = check_string
 # Linear referencing routines
-geos_project = topology(GEOSFunc('GEOSProject'), GEOM_PTR,
+geos_project = GEOSFuncFactory(
-    restype=c_double, errcheck=check_minus_one)
+    'GEOSProject', argtypes=[GEOM_PTR, GEOM_PTR], restype=c_double, errcheck=check_minus_one
-geos_interpolate = topology(GEOSFunc('GEOSInterpolate'), c_double)
+)
 geos_interpolate = Topology('GEOSInterpolate', argtypes=[GEOM_PTR, c_double])
-geos_project_normalized = topology(GEOSFunc('GEOSProjectNormalized'),
+geos_project_normalized = GEOSFuncFactory(
-    GEOM_PTR, restype=c_double, errcheck=check_minus_one)
+    'GEOSProjectNormalized', argtypes=[GEOM_PTR, GEOM_PTR], restype=c_double, errcheck=check_minus_one
-geos_interpolate_normalized = topology(GEOSFunc('GEOSInterpolateNormalized'), c_double)
+)
 geos_interpolate_normalized = Topology('GEOSInterpolateNormalized', argtypes=[GEOM_PTR, c_double])
--- a/tests/gis_tests/distapp/tests.py
+++ b/tests/gis_tests/distapp/tests.py
@ -23,14 +23,14 @@ if HAS_GEOS:
 class DistanceTest(TestCase):
    fixtures = ['initial']
-    if HAS_GEOS:
+    def setUp(self):
        # A point we are testing distances with -- using a WGS84
        # coordinate that'll be implicitly transformed to that to
        # the coordinate system of the field, EPSG:32140 (Texas South Central
        # w/units in meters)
-        stx_pnt = GEOSGeometry('POINT (-95.370401017314293 29.704867409475465)', 4326)
+        self.stx_pnt = GEOSGeometry('POINT (-95.370401017314293 29.704867409475465)', 4326)
        # Another one for Australia
-        au_pnt = GEOSGeometry('POINT (150.791 -34.4919)', 4326)
+        self.au_pnt = GEOSGeometry('POINT (150.791 -34.4919)', 4326)
    def get_names(self, qs):
        cities = [c.name for c in qs]