python/lib/Lib/site-packages/django/contrib/gis/geos/libgeos.py - platform/tools/idea - Git at Google

 """
  This module houses the ctypes initialization procedures, as well
  as the notice and error handler function callbacks (get called
  when an error occurs in GEOS).

  This module also houses GEOS Pointer utilities, including
  get_pointer_arr(), and GEOM_PTR.
 """
 import os, re, sys
 from ctypes import c_char_p, Structure, CDLL, CFUNCTYPE, POINTER
 from ctypes.util import find_library
 from django.contrib.gis.geos.error import GEOSException

 # Custom library path set?
 try:
     from django.conf import settings
     lib_path = settings.GEOS_LIBRARY_PATH
 except (AttributeError, EnvironmentError, ImportError):
     lib_path = None

 # Setting the appropriate names for the GEOS-C library.
 if lib_path:
     lib_names = None
 elif os.name == 'nt':
     # Windows NT libraries
     lib_names = ['libgeos_c-1']
 elif os.name == 'posix':
     # *NIX libraries
     lib_names = ['geos_c', 'GEOS']
 else:
     raise ImportError('Unsupported OS "%s"' % os.name)

 # Using the ctypes `find_library` utility to find the path to the GEOS
 # shared library.  This is better than manually specifiying each library name
 # and extension (e.g., libgeos_c.[so|so.1|dylib].).
 if lib_names:
     for lib_name in lib_names:
         lib_path = find_library(lib_name)
         if not lib_path is None: break

 # No GEOS library could be found.
 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)

 # The notice and error handler C function callback definitions.
 # Supposed to mimic the GEOS message handler (C below):
 #  typedef void (*GEOSMessageHandler)(const char *fmt, ...);
 NOTICEFUNC = CFUNCTYPE(None, c_char_p, c_char_p)
 def notice_h(fmt, lst, output_h=sys.stdout):
     try:
         warn_msg = fmt % lst
     except:
         warn_msg = fmt
     output_h.write('GEOS_NOTICE: %s\n' % warn_msg)
 notice_h = NOTICEFUNC(notice_h)

 ERRORFUNC = CFUNCTYPE(None, c_char_p, c_char_p)
 def error_h(fmt, lst, output_h=sys.stderr):
     try:
         err_msg = fmt % lst
     except:
         err_msg = fmt
     output_h.write('GEOS_ERROR: %s\n' % err_msg)
 error_h = ERRORFUNC(error_h)

 #### GEOS Geometry C data structures, and utility functions. ####

 # Opaque GEOS geometry structures, used for GEOM_PTR and CS_PTR
 class GEOSGeom_t(Structure): pass
 class GEOSPrepGeom_t(Structure): pass
 class GEOSCoordSeq_t(Structure): pass
 class GEOSContextHandle_t(Structure): pass

 # Pointers to opaque GEOS geometry structures.
 GEOM_PTR = POINTER(GEOSGeom_t)
 PREPGEOM_PTR = POINTER(GEOSPrepGeom_t)
 CS_PTR = POINTER(GEOSCoordSeq_t)
 CONTEXT_PTR  = POINTER(GEOSContextHandle_t)

 # Used specifically by the GEOSGeom_createPolygon and GEOSGeom_createCollection
 #  GEOS routines
 def get_pointer_arr(n):
     "Gets a ctypes pointer array (of length `n`) for GEOSGeom_t opaque pointer."
     GeomArr = GEOM_PTR * n
     return GeomArr()

 # Returns the string version of the GEOS library. Have to set the restype
 # explicitly to c_char_p to ensure compatibility accross 32 and 64-bit platforms.
 geos_version = lgeos.GEOSversion
 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', or '3.0.0-CAPI-1.4.1'
 version_regex = re.compile(r'^(?P<version>(?P<major>\d+)\.(?P<minor>\d+)\.(?P<subminor>\d+))(rc(?P<release_candidate>\d+))?-CAPI-(?P<capi_version>\d+\.\d+\.\d+)$')
 def geos_version_info():
     """
     Returns a dictionary containing the various version metadata parsed from
     the GEOS version string, including the version number, whether the version
     is a release candidate (and what number release candidate), and the C API
     version.
     """
     ver = geos_version()
     m = version_regex.match(ver)
     if not m: raise GEOSException('Could not parse version info string "%s"' % ver)
     return dict((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)
 GEOS_PREPARE = GEOS_VERSION >= (3, 1, 0)

 if GEOS_PREPARE:
     # 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]
 else:
     # When thread-safety isn't available, the initGEOS routine must be called
     # first.  This function takes the notice and error functions, defined
     # as Python callbacks above, as parameters. Here is the C code that is
     # wrapped:
     #  extern void GEOS_DLL initGEOS(GEOSMessageHandler notice_function, GEOSMessageHandler error_function);
     lgeos.initGEOS(notice_h, error_h)
     # Calling finishGEOS() upon exit of the interpreter.
     import atexit
     atexit.register(lgeos.finishGEOS)
	"""
	This module houses the ctypes initialization procedures, as well
	as the notice and error handler function callbacks (get called
	when an error occurs in GEOS).

	This module also houses GEOS Pointer utilities, including
	get_pointer_arr(), and GEOM_PTR.
	"""
	import os, re, sys
	from ctypes import c_char_p, Structure, CDLL, CFUNCTYPE, POINTER
	from ctypes.util import find_library
	from django.contrib.gis.geos.error import GEOSException

	# Custom library path set?
	try:
	from django.conf import settings
	lib_path = settings.GEOS_LIBRARY_PATH
	except (AttributeError, EnvironmentError, ImportError):
	lib_path = None

	# Setting the appropriate names for the GEOS-C library.
	if lib_path:
	lib_names = None
	elif os.name == 'nt':
	# Windows NT libraries
	lib_names = ['libgeos_c-1']
	elif os.name == 'posix':
	# *NIX libraries
	lib_names = ['geos_c', 'GEOS']
	else:
	raise ImportError('Unsupported OS "%s"' % os.name)

	# Using the ctypes `find_library` utility to find the path to the GEOS
	# shared library. This is better than manually specifiying each library name
	# and extension (e.g., libgeos_c.[so\|so.1\|dylib].).
	if lib_names:
	for lib_name in lib_names:
	lib_path = find_library(lib_name)
	if not lib_path is None: break

	# No GEOS library could be found.
	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)

	# The notice and error handler C function callback definitions.
	# Supposed to mimic the GEOS message handler (C below):
	# typedef void (GEOSMessageHandler)(const char fmt, ...);
	NOTICEFUNC = CFUNCTYPE(None, c_char_p, c_char_p)
	def notice_h(fmt, lst, output_h=sys.stdout):
	try:
	warn_msg = fmt % lst
	except:
	warn_msg = fmt
	output_h.write('GEOS_NOTICE: %s\n' % warn_msg)
	notice_h = NOTICEFUNC(notice_h)

	ERRORFUNC = CFUNCTYPE(None, c_char_p, c_char_p)
	def error_h(fmt, lst, output_h=sys.stderr):
	try:
	err_msg = fmt % lst
	except:
	err_msg = fmt
	output_h.write('GEOS_ERROR: %s\n' % err_msg)
	error_h = ERRORFUNC(error_h)

	#### GEOS Geometry C data structures, and utility functions. ####

	# Opaque GEOS geometry structures, used for GEOM_PTR and CS_PTR
	class GEOSGeom_t(Structure): pass
	class GEOSPrepGeom_t(Structure): pass
	class GEOSCoordSeq_t(Structure): pass
	class GEOSContextHandle_t(Structure): pass

	# Pointers to opaque GEOS geometry structures.
	GEOM_PTR = POINTER(GEOSGeom_t)
	PREPGEOM_PTR = POINTER(GEOSPrepGeom_t)
	CS_PTR = POINTER(GEOSCoordSeq_t)
	CONTEXT_PTR = POINTER(GEOSContextHandle_t)

	# Used specifically by the GEOSGeom_createPolygon and GEOSGeom_createCollection
	# GEOS routines
	def get_pointer_arr(n):
	"Gets a ctypes pointer array (of length `n`) for GEOSGeom_t opaque pointer."
	GeomArr = GEOM_PTR * n
	return GeomArr()

	# Returns the string version of the GEOS library. Have to set the restype
	# explicitly to c_char_p to ensure compatibility accross 32 and 64-bit platforms.
	geos_version = lgeos.GEOSversion
	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', or '3.0.0-CAPI-1.4.1'
	version_regex = re.compile(r'^(?P<version>(?P<major>\d+)\.(?P<minor>\d+)\.(?P<subminor>\d+))(rc(?P<release_candidate>\d+))?-CAPI-(?P<capi_version>\d+\.\d+\.\d+)$')
	def geos_version_info():
	"""
	Returns a dictionary containing the various version metadata parsed from
	the GEOS version string, including the version number, whether the version
	is a release candidate (and what number release candidate), and the C API
	version.
	"""
	ver = geos_version()
	m = version_regex.match(ver)
	if not m: raise GEOSException('Could not parse version info string "%s"' % ver)
	return dict((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)
	GEOS_PREPARE = GEOS_VERSION >= (3, 1, 0)

	if GEOS_PREPARE:
	# 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]
	else:
	# When thread-safety isn't available, the initGEOS routine must be called
	# first. This function takes the notice and error functions, defined
	# as Python callbacks above, as parameters. Here is the C code that is
	# wrapped:
	# extern void GEOS_DLL initGEOS(GEOSMessageHandler notice_function, GEOSMessageHandler error_function);
	lgeos.initGEOS(notice_h, error_h)
	# Calling finishGEOS() upon exit of the interpreter.
	import atexit
	atexit.register(lgeos.finishGEOS)