#!/usr/bin/env python # -*- coding: utf-8 -*- """Setup script for the tables package""" import os import re import sys import ctypes import tempfile import textwrap import subprocess from os.path import exists, expanduser import glob # Using ``setuptools`` enables lots of goodies, such as building eggs. if 'FORCE_SETUPTOOLS' in os.environ: from setuptools import setup, find_packages has_setuptools = True else: from distutils.core import setup has_setuptools = False from distutils.core import Extension from distutils.dep_util import newer from distutils.util import convert_path from distutils.ccompiler import new_compiler cmdclass = {} setuptools_kwargs = {} if sys.version_info >= (3,): fixer_names = [ 'lib2to3.fixes.fix_basestring', 'lib2to3.fixes.fix_dict', 'lib2to3.fixes.fix_imports', 'lib2to3.fixes.fix_long', 'lib2to3.fixes.fix_metaclass', 'lib2to3.fixes.fix_next', 'lib2to3.fixes.fix_numliterals', 'lib2to3.fixes.fix_print', 'lib2to3.fixes.fix_unicode', 'lib2to3.fixes.fix_xrange', ] if has_setuptools: from lib2to3.refactor import get_fixers_from_package all_fixers = set(get_fixers_from_package('lib2to3.fixes')) exclude_fixers = sorted(all_fixers.difference(fixer_names)) setuptools_kwargs['use_2to3'] = True setuptools_kwargs['use_2to3_fixers'] = [] setuptools_kwargs['use_2to3_exclude_fixers'] = exclude_fixers else: from distutils.command.build_py import build_py_2to3 as build_py from distutils.command.build_scripts \ import build_scripts_2to3 as build_scripts build_py.fixer_names = fixer_names build_scripts.fixer_names = fixer_names cmdclass['build_py'] = build_py cmdclass['build_scripts'] = build_scripts # The minimum required versions min_numpy_version = None min_numexpr_version = None min_cython_version = None min_hdf5_version = None min_python_version = (2, 6) exec(open(os.path.join('tables', 'req_versions.py')).read()) # Some functions for showing errors and warnings. def _print_admonition(kind, head, body): tw = textwrap.TextWrapper(initial_indent=' ', subsequent_indent=' ') print(".. %s:: %s" % (kind.upper(), head)) for line in tw.wrap(body): print(line) def exit_with_error(head, body=''): _print_admonition('error', head, body) sys.exit(1) def print_warning(head, body=''): _print_admonition('warning', head, body) # Check for Python if sys.version_info < min_python_version: exit_with_error("You need Python 2.6 or greater to install PyTables!") print("* Using Python %s" % sys.version.splitlines()[0]) # Check for required Python packages def check_import(pkgname, pkgver): try: mod = __import__(pkgname) except ImportError: exit_with_error( "You need %(pkgname)s %(pkgver)s or greater to run PyTables!" % {'pkgname': pkgname, 'pkgver': pkgver}) else: if mod.__version__ < pkgver: exit_with_error( "You need %(pkgname)s %(pkgver)s or greater to run PyTables!" % {'pkgname': pkgname, 'pkgver': pkgver}) print("* Found %(pkgname)s %(pkgver)s package installed." % {'pkgname': pkgname, 'pkgver': mod.__version__}) globals()[pkgname] = mod check_import('numpy', min_numpy_version) # Check for numexpr only if not using setuptools (see #298) if not has_setuptools: check_import('numexpr', min_numexpr_version) # Check if Cython is installed or not (requisite) try: from Cython.Distutils import build_ext from Cython.Compiler import Version cmdclass['build_ext'] = build_ext except ImportError: exit_with_error( "You need %(pkgname)s %(pkgver)s or greater to compile PyTables!" % {'pkgname': 'Cython', 'pkgver': min_cython_version}) if Version.version < min_cython_version: exit_with_error( "At least Cython %s is needed so as to generate extensions!" % (min_cython_version)) else: print("* Found %(pkgname)s %(pkgver)s package installed." % {'pkgname': 'Cython', 'pkgver': Version.version}) VERSION = open('VERSION').read().strip() #---------------------------------------------------------------------- debug = '--debug' in sys.argv # Global variables lib_dirs = [] inc_dirs = ['c-blosc/hdf5'] optional_libs = [] data_files = [] # list of data files to add to packages (mainly for DLL's) default_header_dirs = None default_library_dirs = None default_runtime_dirs = None def add_from_path(envname, dirs): try: dirs.extend(os.environ[envname].split(os.pathsep)) except KeyError: pass def add_from_flags(envname, flag_key, dirs): for flag in os.environ.get(envname, "").split(): if flag.startswith(flag_key): dirs.append(flag[len(flag_key):]) if os.name == 'posix': prefixes = ('/usr/local', '/sw', '/opt', '/opt/local', '/usr', '/') default_header_dirs = [] add_from_path("CPATH", default_header_dirs) add_from_path("C_INCLUDE_PATH", default_header_dirs) add_from_flags("CPPFLAGS", "-I", default_header_dirs) default_header_dirs.extend( os.path.join(_tree, 'include') for _tree in prefixes ) default_library_dirs = [] add_from_flags("LDFLAGS", "-L", default_library_dirs) default_library_dirs.extend( os.path.join(_tree, _arch) for _tree in prefixes for _arch in ('lib64', 'lib')) default_runtime_dirs = default_library_dirs elif os.name == 'nt': default_header_dirs = [] # no default, must be given explicitly default_library_dirs = [] # no default, must be given explicitly default_runtime_dirs = [ # look for DLL files in ``%PATH%`` _path for _path in os.environ['PATH'].split(';')] # Add the \Windows\system to the runtime list (necessary for Vista) default_runtime_dirs.append('\\windows\\system') # Add the \path_to_python\DLLs and tables package to the list default_runtime_dirs.extend( [os.path.join(sys.prefix, 'Lib\\site-packages\\tables')]) from numpy.distutils.misc_util import get_numpy_include_dirs inc_dirs.extend(get_numpy_include_dirs()) # Gcc 4.0.1 on Mac OS X 10.4 does not seem to include the default # header and library paths. See ticket #18. if sys.platform.lower().startswith('darwin'): inc_dirs.extend(default_header_dirs) lib_dirs.extend(default_library_dirs) def _find_file_path(name, locations, prefixes=[''], suffixes=['']): for prefix in prefixes: for suffix in suffixes: for location in locations: path = os.path.join(location, prefix + name + suffix) if os.path.isfile(path): return path return None class Package(object): def __init__(self, name, tag, header_name, library_name, target_function=None): self.name = name self.tag = tag self.header_name = header_name self.library_name = library_name self.runtime_name = library_name self.target_function = target_function def find_header_path(self, locations=default_header_dirs): return _find_file_path(self.header_name, locations, suffixes=['.h']) def find_library_path(self, locations=default_library_dirs): return _find_file_path( self.library_name, locations, self._library_prefixes, self._library_suffixes) def find_runtime_path(self, locations=default_runtime_dirs): """ returns True if the runtime can be found returns None otherwise """ # An explicit path can not be provided for runtime libraries. # (The argument is accepted for compatibility with previous methods.) # dlopen() won't tell us where the file is, just whether # success occurred, so this returns True instead of a filename for prefix in self._runtime_prefixes: for suffix in self._runtime_suffixes: try: ctypes.CDLL(prefix + self.runtime_name + suffix) return True except OSError: pass def find_directories(self, location): dirdata = [ (self.header_name, self.find_header_path, default_header_dirs), (self.library_name, self.find_library_path, default_library_dirs), (self.runtime_name, self.find_runtime_path, default_runtime_dirs), ] locations = [] if location: # The path of a custom install of the package has been # provided, so the directories where the components # (headers, libraries, runtime) are going to be searched # are constructed by appending platform-dependent # component directories to the given path. # Remove leading and trailing '"' chars that can mislead # the finding routines on Windows machines locations = [ os.path.join(location.strip('"'), compdir) for compdir in self._component_dirs ] directories = [None, None, None] # headers, libraries, runtime for idx, (name, find_path, default_dirs) in enumerate(dirdata): path = find_path(locations or default_dirs) if path: if path is True: directories[idx] = True continue # Take care of not returning a directory component # included in the name. For instance, if name is # 'foo/bar' and path is '/path/foo/bar.h', do *not* # take '/path/foo', but just '/path'. This also works # for name 'libfoo.so' and path '/path/libfoo.so'. # This has been modified to just work over include files. # For libraries, its names can be something like 'bzip2' # and if they are located in places like: # \stuff\bzip2-1.0.3\lib\bzip2.lib # then, the directory will be returned as '\stuff' (!!) # F. Alted 2006-02-16 if idx == 0: directories[idx] = os.path.dirname(path[:path.rfind(name)]) else: directories[idx] = os.path.dirname(path) return tuple(directories) class PosixPackage(Package): _library_prefixes = ['lib'] _library_suffixes = ['.so', '.dylib'] # , '.a'] _runtime_prefixes = _library_prefixes _runtime_suffixes = ['.so', '.dylib'] _component_dirs = ['include', 'lib'] class WindowsPackage(Package): _library_prefixes = [''] _library_suffixes = ['.lib'] _runtime_prefixes = [''] _runtime_suffixes = ['.dll'] # lookup in '.' seems necessary for LZO2 _component_dirs = ['include', 'lib', 'dll', '.'] def find_runtime_path(self, locations=default_runtime_dirs): # An explicit path can not be provided for runtime libraries. # (The argument is accepted for compatibility with previous methods.) return _find_file_path( self.runtime_name, default_runtime_dirs, self._runtime_prefixes, self._runtime_suffixes) # Get the HDF5 version provided the 'H5public.h' header def get_hdf5_version(headername): major_version = -1 minor_version = -1 release_version = -1 for line in open(headername): if 'H5_VERS_MAJOR' in line: major_version = int(re.split("\s*", line)[2]) if 'H5_VERS_MINOR' in line: minor_version = int(re.split("\s*", line)[2]) if 'H5_VERS_RELEASE' in line: release_version = int(re.split("\s*", line)[2]) if (major_version != -1 and minor_version != -1 and release_version != -1): break if (major_version == -1 or minor_version == -1 or release_version == -1): exit_with_error("Unable to detect HDF5 library version!") return (major_version, minor_version, release_version) _cp = convert_path if os.name == 'posix': _Package = PosixPackage _platdep = { # package tag -> platform-dependent components 'HDF5': ['hdf5'], 'LZO2': ['lzo2'], 'LZO': ['lzo'], 'BZ2': ['bz2'], 'BLOSC': ['blosc'], } elif os.name == 'nt': _Package = WindowsPackage _platdep = { # package tag -> platform-dependent components 'HDF5': ['hdf5dll', 'hdf5dll'], 'LZO2': ['lzo2', 'lzo2'], 'LZO': ['liblzo', 'lzo1'], 'BZ2': ['bzip2', 'bzip2'], 'BLOSC': ['blosc', 'blosc'], } # Copy the next DLL's to binaries by default. # Update these paths for your own system! dll_files = ['\\windows\\system\\zlib1.dll', '\\windows\\system\\szip.dll', ] if '--debug' in sys.argv: _platdep['HDF5'] = ['hdf5ddll', 'hdf5ddll'] hdf5_package = _Package("HDF5", 'HDF5', 'H5public', *_platdep['HDF5']) hdf5_package.target_function = 'H5close' lzo2_package = _Package("LZO 2", 'LZO2', _cp('lzo/lzo1x'), *_platdep['LZO2']) lzo2_package.target_function = 'lzo_version_date' lzo1_package = _Package("LZO 1", 'LZO', 'lzo1x', *_platdep['LZO']) lzo1_package.target_function = 'lzo_version_date' bzip2_package = _Package("bzip2", 'BZ2', 'bzlib', *_platdep['BZ2']) bzip2_package.target_function = 'BZ2_bzlibVersion' blosc_package = _Package("blosc", 'BLOSC', 'blosc', *_platdep['BLOSC']) blosc_package.target_function = 'blosc_list_compressors' # Blosc >= 1.3 #----------------------------------------------------------------- def_macros = [('NDEBUG', 1)] # Define macros for Windows platform if os.name == 'nt': def_macros.append(('WIN32', 1)) def_macros.append(('_HDF5USEDLL_', 1)) # Allow setting the HDF5 dir and additional link flags either in # the environment or on the command line. # First check the environment... HDF5_DIR = os.environ.get('HDF5_DIR', '') LZO_DIR = os.environ.get('LZO_DIR', '') BZIP2_DIR = os.environ.get('BZIP2_DIR', '') BLOSC_DIR = os.environ.get('BLOSC_DIR', '') LFLAGS = os.environ.get('LFLAGS', '').split() # in GCC-style compilers, -w in extra flags will get rid of copious # 'uninitialized variable' Cython warnings. However, this shouldn't be # the default as it will suppress *all* the warnings, which definitely # is not a good idea. CFLAGS = os.environ.get('CFLAGS', '').split() LIBS = os.environ.get('LIBS', '').split() # ...then the command line. # Handle --hdf5=[PATH] --lzo=[PATH] --bzip2=[PATH] --blosc=[PATH] # --lflags=[FLAGS] --cflags=[FLAGS] and --debug args = sys.argv[:] for arg in args: if arg.find('--hdf5=') == 0: HDF5_DIR = expanduser(arg.split('=')[1]) sys.argv.remove(arg) elif arg.find('--lzo=') == 0: LZO_DIR = expanduser(arg.split('=')[1]) sys.argv.remove(arg) elif arg.find('--bzip2=') == 0: BZIP2_DIR = expanduser(arg.split('=')[1]) sys.argv.remove(arg) elif arg.find('--blosc=') == 0: BLOSC_DIR = expanduser(arg.split('=')[1]) sys.argv.remove(arg) elif arg.find('--lflags=') == 0: LFLAGS = arg.split('=')[1].split() sys.argv.remove(arg) elif arg.find('--cflags=') == 0: CFLAGS = arg.split('=')[1].split() sys.argv.remove(arg) elif arg.find('--debug') == 0: # For debugging (mainly compression filters) if os.name != 'nt': # to prevent including dlfcn.h by utils.c!!! def_macros = [('DEBUG', 1)] # Don't delete this argument. It maybe useful for distutils # when adding more flags later on #sys.argv.remove(arg) # For windows, search for the hdf5 dll in the path and use it if found. # This is much more convenient than having to manually set an environment # variable to rebuild pytables if not HDF5_DIR and os.name == 'nt': import ctypes.util libdir = ctypes.util.find_library('hdf5dll.dll') # Like 'C:\\Program Files\\HDF Group\\HDF5\\1.8.8\\bin\\hdf5dll.dll' if libdir: # Strip off the filename libdir = os.path.dirname(libdir) # Strip off the 'bin' directory HDF5_DIR = os.path.dirname(libdir) print("* Found HDF5 using system PATH ('%s')" % libdir) # The next flag for the C compiler is needed for finding the C headers for # the Cython extensions CFLAGS.append("-Isrc") # Force the 1.8.x HDF5 API even if the library as been compiled to use the # 1.6.x API by default CFLAGS.extend([ "-DH5Acreate_vers=2", "-DH5Aiterate_vers=2", "-DH5Dcreate_vers=2", "-DH5Dopen_vers=2", "-DH5Eclear_vers=2", "-DH5Eprint_vers=2", "-DH5Epush_vers=2", "-DH5Eset_auto_vers=2", "-DH5Eget_auto_vers=2", "-DH5Ewalk_vers=2", "-DH5E_auto_t_vers=2", "-DH5Gcreate_vers=2", "-DH5Gopen_vers=2", "-DH5Pget_filter_vers=2", "-DH5Pget_filter_by_id_vers=2", #"-DH5Pinsert_vers=2", #"-DH5Pregister_vers=2", #"-DH5Rget_obj_type_vers=2", "-DH5Tarray_create_vers=2", #"-DH5Tcommit_vers=2", "-DH5Tget_array_dims_vers=2", #"-DH5Topen_vers=2", "-DH5Z_class_t_vers=2", ]) CFLAGS.append("-DH5_NO_DEPRECATED_SYMBOLS") # Do not use numpy deprecated API #CFLAGS.append("-DNPY_NO_DEPRECATED_API=NPY_1_7_API_VERSION") # Try to locate the compulsory and optional libraries. lzo2_enabled = False compiler = new_compiler() for (package, location) in [(hdf5_package, HDF5_DIR), (lzo2_package, LZO_DIR), (lzo1_package, LZO_DIR), (bzip2_package, BZIP2_DIR), (blosc_package, BLOSC_DIR)]: if package.tag == 'LZO' and lzo2_enabled: print("* Skipping detection of %s since %s has already been found." % (lzo1_package.name, lzo2_package.name)) continue # do not use LZO 1 if LZO 2 is available (hdrdir, libdir, rundir) = package.find_directories(location) # check if the library is in the standard compiler paths if not libdir and package.target_function: libdir = compiler.has_function(package.target_function, libraries=(package.library_name,)) if not (hdrdir and libdir): if package.tag in ['HDF5']: # these are compulsory! pname, ptag = package.name, package.tag exit_with_error( "Could not find a local %s installation." % pname, "You may need to explicitly state " "where your local %(name)s headers and library can be found " "by setting the ``%(tag)s_DIR`` environment variable " "or by using the ``--%(ltag)s`` command-line option." % dict(name=pname, tag=ptag, ltag=ptag.lower())) if package.tag == 'BLOSC': # this is optional, but comes with sources print("* Could not find %s headers and library; " "using internal sources." % package.name) else: print("* Could not find %s headers and library; " "disabling support for it." % package.name) continue # look for the next library if libdir in ("", True): print("* Found %s headers at ``%s``, the library is located in the " "standard system search dirs." % (package.name, hdrdir)) else: print("* Found %s headers at ``%s``, library at ``%s``." % (package.name, hdrdir, libdir)) if package.tag in ['HDF5']: hdf5_header = os.path.join(hdrdir, "H5public.h") hdf5_version = get_hdf5_version(hdf5_header) if hdf5_version < min_hdf5_version: exit_with_error( "Unsupported HDF5 version! HDF5 v%s+ required. " "Found version v%s" % ( '.'.join(map(str, min_hdf5_version)), '.'.join(map(str, hdf5_version)))) if hdrdir not in default_header_dirs: inc_dirs.append(hdrdir) # save header directory if needed if libdir not in default_library_dirs and libdir not in ("", True): # save library directory if needed if os.name == "nt": # Important to quote the libdir for Windows (Vista) systems lib_dirs.append('"%s"' % libdir) else: lib_dirs.append(libdir) if package.tag not in ['HDF5']: # Keep record of the optional libraries found. optional_libs.append(package.tag) def_macros.append(('HAVE_%s_LIB' % package.tag, 1)) if not rundir: loc = { 'posix': "the default library paths.", 'nt': "any of the directories in %%PATH%%.", }[os.name] print_warning( "Could not find the %s runtime." % package.name, "The %(name)s shared library was *not* found in %(loc)s " "In case of runtime problems, please remember to install it." % dict(name=package.name, loc=loc) ) if os.name == "nt": # LZO DLLs cannot be copied to the binary package for license reasons if package.tag not in ['LZO', 'LZO2']: dll_file = _platdep[package.tag][1] + '.dll' # If DLL is not in rundir, do nothing. This can be useful # for BZIP2, that can be linked either statically (.LIB) # or dinamically (.DLL) if rundir is not None: dll_files.append(os.path.join(rundir, dll_file)) if package.tag == 'LZO2': lzo2_enabled = True if lzo2_enabled: lzo_package = lzo2_package else: lzo_package = lzo1_package #------------------------------------------------------------------------------ cython_extnames = [ 'utilsextension', 'hdf5extension', 'tableextension', 'linkextension', '_comp_lzo', '_comp_bzip2', 'lrucacheextension', 'indexesextension', ] def get_cython_extfiles(extnames): extdir = 'tables' extfiles = {} for extname in extnames: extfile = os.path.join(extdir, extname) extpfile = '%s.pyx' % extfile extcfile = '%s.c' % extfile if not exists(extcfile) or newer(extpfile, extcfile): # For some reason, setup in setuptools does not compile # Cython files (!) Do that manually... # 2013/08/24: the issue should be fixed in distribute 0.6.15 # see also https://bitbucket.org/tarek/distribute/issue/195 print("cythoning %s to %s" % (extpfile, extcfile)) retcode = subprocess.call( [sys.executable, "-m", "cython", extpfile] ) if retcode > 0: print("cython aborted compilation with retcode:", retcode) sys.exit() extfiles[extname] = extcfile return extfiles cython_extfiles = get_cython_extfiles(cython_extnames) # Update the version.h file if this file is newer if newer('VERSION', 'src/version.h'): open('src/version.h', 'w').write( '#define PYTABLES_VERSION "%s"\n' % VERSION) #-------------------------------------------------------------------- # Package information for ``setuptools``. if has_setuptools: # PyTables contains data files for tests. setuptools_kwargs['zip_safe'] = False # ``NumPy`` headers are needed for building the extensions, as # well as Cython. setuptools_kwargs['setup_requires'] = [ 'numpy>=%s' % min_numpy_version, 'cython>=%s' % min_cython_version, ] # ``NumPy`` and ``Numexpr`` are absolutely required for running PyTables. setuptools_kwargs['install_requires'] = [ 'numpy>=%s' % min_numpy_version, 'numexpr>=%s' % min_numexpr_version, ] setuptools_kwargs['extras_require'] = {} # Detect packages automatically. setuptools_kwargs['packages'] = find_packages(exclude=['*.bench']) # Entry points for automatic creation of scripts. setuptools_kwargs['entry_points'] = { 'console_scripts': [ 'ptdump = tables.scripts.ptdump:main', 'ptrepack = tables.scripts.ptrepack:main', 'pt2to3 = tables.scripts.pt2to3:main', ], } # Test suites. setuptools_kwargs['test_suite'] = 'tables.tests.test_all.suite' setuptools_kwargs['scripts'] = [] else: # The next should work with stock distutils, but it does not! # It is better to rely on check_import # setuptools_kwargs['requires'] = ['numpy (>= %s)' % min_numpy_version, # 'numexpr (>= %s)' % min_numexpr_version] # There is no other chance, these values must be hardwired. setuptools_kwargs['packages'] = [ 'tables', 'tables.nodes', 'tables.scripts', 'tables.misc', # Test suites. 'tables.tests', 'tables.nodes.tests', ] setuptools_kwargs['scripts'] = [ 'utils/ptdump', 'utils/ptrepack', 'utils/pt2to3'] # Copy additional data for packages that need it. setuptools_kwargs['package_data'] = { 'tables.tests': ['*.h5', '*.mat'], 'tables.nodes.tests': ['*.dat', '*.xbm', '*.h5']} #Having the Python version included in the package name makes managing a #system with multiple versions of Python much easier. def find_name(base='tables'): '''If "--name-with-python-version" is on the command line then append "-pyX.Y" to the base name''' name = base if '--name-with-python-version' in sys.argv: name += '-py%i.%i' % (sys.version_info[0], sys.version_info[1]) sys.argv.remove('--name-with-python-version') return name name = find_name() if os.name == "nt": # Add DLL's to the final package for windows data_files.extend([ ('Lib/site-packages/%s' % name, dll_files), ]) ADDLIBS = [hdf5_package.library_name] # List of Blosc file dependencies blosc_files = ["c-blosc/hdf5/blosc_filter.c"] if 'BLOSC' not in optional_libs: # Compiling everything from sources # Blosc + BloscLZ sources blosc_files += glob.glob('c-blosc/blosc/*.c') # LZ4 sources #blosc_files += glob.glob('c-blosc/internal-complibs/lz4*/*.c') # Snappy sources #blosc_files += glob.glob('c-blosc/internal-complibs/snappy*/*.cc') # Zlib sources #blosc_files += glob.glob('c-blosc/internal-complibs/zlib*/*.c') ADDLIBS.extend(['lz4', 'snappy', 'z']) # Finally, add all the include dirs... inc_dirs += [os.path.join('c-blosc', 'blosc')] #inc_dirs += glob.glob('c-blosc/internal-complibs/*') # ...and the macros for all the compressors supported def_macros += [('HAVE_LZ4', 1), ('HAVE_SNAPPY', 1), ('HAVE_ZLIB', 1)] # Add -msse2 flag for optimizing shuffle in include Blosc def compiler_has_flags(compiler, flags): with tempfile.NamedTemporaryFile(mode='w', suffix='.c', delete=False) as fd: fd.write('int main() {return 0;}') try: compiler.compile([fd.name], extra_preargs=flags) except Exception: return False else: return True finally: os.remove(fd.name) if False and compiler_has_flags(compiler, ["-msse2"]): print("Setting compiler flag '-msse2'") CFLAGS.append("-msse2") else: ADDLIBS += ['blosc'] utilsExtension_libs = LIBS + ADDLIBS hdf5Extension_libs = LIBS + ADDLIBS tableExtension_libs = LIBS + ADDLIBS linkExtension_libs = LIBS + ADDLIBS indexesExtension_libs = LIBS + ADDLIBS lrucacheExtension_libs = [] # Doesn't need external libraries # Compressor modules only need other libraries if they are enabled. _comp_lzo_libs = LIBS[:] _comp_bzip2_libs = LIBS[:] for (package, complibs) in [(lzo_package, _comp_lzo_libs), (bzip2_package, _comp_bzip2_libs)]: if package.tag in optional_libs: complibs.extend([hdf5_package.library_name, package.library_name]) extensions = [ Extension("tables.utilsextension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['utilsextension'], "src/utils.c", "src/H5ARRAY.c", "src/H5ATTR.c", ] + blosc_files, library_dirs=lib_dirs, libraries=utilsExtension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables.hdf5extension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['hdf5extension'], "src/utils.c", "src/typeconv.c", "src/H5ARRAY.c", "src/H5ARRAY-opt.c", "src/H5VLARRAY.c", "src/H5ATTR.c", ] + blosc_files, library_dirs=lib_dirs, libraries=hdf5Extension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables.tableextension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['tableextension'], "src/utils.c", "src/typeconv.c", "src/H5TB-opt.c", "src/H5ATTR.c", ] + blosc_files, library_dirs=lib_dirs, libraries=tableExtension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables._comp_lzo", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['_comp_lzo'], "src/H5Zlzo.c"], library_dirs=lib_dirs, libraries=_comp_lzo_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables._comp_bzip2", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['_comp_bzip2'], "src/H5Zbzip2.c"], library_dirs=lib_dirs, libraries=_comp_bzip2_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables.linkextension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['linkextension']], library_dirs=lib_dirs, libraries=tableExtension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables.lrucacheextension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['lrucacheextension']], library_dirs=lib_dirs, libraries=lrucacheExtension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), Extension("tables.indexesextension", include_dirs=inc_dirs, define_macros=def_macros, sources=[cython_extfiles['indexesextension'], "src/H5ARRAY-opt.c", "src/idx-opt.c"], library_dirs=lib_dirs, libraries=indexesExtension_libs, extra_link_args=LFLAGS, extra_compile_args=CFLAGS), ] classifiers = """\ Development Status :: 5 - Production/Stable Intended Audience :: Developers Intended Audience :: Information Technology Intended Audience :: Science/Research License :: OSI Approved :: BSD License Programming Language :: Python Programming Language :: Python :: 2 Programming Language :: Python :: 3 Topic :: Database Topic :: Software Development :: Libraries :: Python Modules Operating System :: Microsoft :: Windows Operating System :: Unix """ setup( name=name, version=VERSION, description='Hierarchical datasets for Python', long_description="""\ PyTables is a package for managing hierarchical datasets and designed to efficently cope with extremely large amounts of data. PyTables is built on top of the HDF5 library and the NumPy package and features an object-oriented interface that, combined with C-code generated from Cython sources, makes of it a fast, yet extremely easy to use tool for interactively save and retrieve large amounts of data. """, classifiers=[c for c in classifiers.split("\n") if c], author='Francesc Alted, Ivan Vilata, et al.', author_email='pytables@pytables.org', maintainer='PyTables maintainers', maintainer_email='pytables@pytables.org', url='http://www.pytables.org/', license='http://www.opensource.org/licenses/bsd-license.php', download_url="http://sourceforge.net/projects/pytables/files/pytables/", platforms=['any'], ext_modules=extensions, cmdclass=cmdclass, data_files=data_files, **setuptools_kwargs )