""" Generates a wheel (.whl) file from the output of makepanda. """ import json import sys import os from os.path import join import zipfile import hashlib import tempfile import subprocess import time import struct from sysconfig import get_platform, get_config_var from optparse import OptionParser from base64 import urlsafe_b64encode from makepandacore import LocateBinary, GetExtensionSuffix, SetVerbose, GetVerbose, GetMetadataValue, CrossCompiling, GetThirdpartyDir, SDK, GetStrip def get_abi_tag(): soabi = get_config_var('SOABI') if soabi and soabi.startswith('cpython-'): return 'cp' + soabi.split('-')[1] elif soabi: return soabi.replace('.', '_').replace('-', '_') return 'cp%d%d' % (sys.version_info[:2]) def is_exe_file(path): return os.path.isfile(path) and path.lower().endswith('.exe') def is_elf_file(path): base = os.path.basename(path) return os.path.isfile(path) and '.' not in base and \ open(path, 'rb').read(4) == b'\x7FELF' def is_macho_or_fat_file(path): base = os.path.basename(path) return os.path.isfile(path) and '.' not in base and \ open(path, 'rb').read(4) in (b'\xFE\xED\xFA\xCE', b'\xCE\xFA\xED\xFE', b'\xFE\xED\xFA\xCF', b'\xCF\xFA\xED\xFE', b'\xCA\xFE\xBA\xBE', b'\xBE\xBA\xFE\xCA', b'\xCA\xFE\xBA\xBF', b'\xBF\xBA\xFE\xCA') def is_fat_file(path): return os.path.isfile(path) and \ open(path, 'rb').read(4) in (b'\xCA\xFE\xBA\xBE', b'\xBE\xBA\xFE\xCA', b'\xCA\xFE\xBA\xBF', b'\xBF\xBA\xFE\xCA') def get_python_ext_module_dir(): if CrossCompiling(): return os.path.join(GetThirdpartyDir(), "python", "lib", SDK["PYTHONVERSION"], "lib-dynload") else: import _ctypes return os.path.dirname(_ctypes.__file__) if sys.platform in ('win32', 'cygwin'): is_executable = is_exe_file elif sys.platform == 'darwin': is_executable = is_macho_or_fat_file else: is_executable = is_elf_file # Other global parameters PY_VERSION = "cp{0}{1}".format(*sys.version_info) ABI_TAG = get_abi_tag() EXCLUDE_EXT = [".pyc", ".pyo", ".N", ".prebuilt", ".xcf", ".plist", ".vcproj", ".sln"] # Plug-ins to install. PLUGIN_LIBS = ["pandagl", "pandagles", "pandagles2", "pandadx9", "p3tinydisplay", "p3ptloader", "p3assimp", "p3ffmpeg", "p3openal_audio", "p3fmod_audio", "p3headlessgl"] # Libraries included in manylinux ABI that should be ignored. See PEP 513/571/599. MANYLINUX_LIBS = [ "libgcc_s.so.1", "libstdc++.so.6", "libm.so.6", "libdl.so.2", "librt.so.1", "libcrypt.so.1", "libc.so.6", "libnsl.so.1", "libutil.so.1", "libpthread.so.0", "libresolv.so.2", "libX11.so.6", "libXext.so.6", "libXrender.so.1", "libICE.so.6", "libSM.so.6", "libGL.so.1", "libgobject-2.0.so.0", "libgthread-2.0.so.0", "libglib-2.0.so.0", # These are not mentioned in manylinux1 spec but should nonetheless always # be excluded. "linux-vdso.so.1", "linux-gate.so.1", "ld-linux.so.2", "libdrm.so.2", "libEGL.so.1", "libOpenGL.so.0", "libGLX.so.0", "libGLdispatch.so.0", ] # Binaries to never scan for dependencies on non-Windows systems. IGNORE_UNIX_DEPS_OF = [ "panda3d_tools/pstats", ] WHEEL_DATA = """Wheel-Version: 1.0 Generator: makepanda Root-Is-Purelib: false Tag: {0}-{1}-{2} """ PROJECT_URLS = dict([line.split('=', 1) for line in GetMetadataValue('project_urls').strip().splitlines()]) METADATA = { "license": GetMetadataValue('license'), "name": GetMetadataValue('name'), "metadata_version": "2.0", "generator": "makepanda", "summary": GetMetadataValue('description'), "extensions": { "python.details": { "project_urls": dict(PROJECT_URLS, Home=GetMetadataValue('url')), "document_names": { "license": "LICENSE.txt" }, "contacts": [ { "role": "author", "name": GetMetadataValue('author'), "email": GetMetadataValue('author_email'), } ] } }, "classifiers": GetMetadataValue('classifiers'), } DESCRIPTION = """ The Panda3D free 3D game engine =============================== Panda3D is a powerful 3D engine written in C++, with a complete set of Python bindings. Unlike other engines, these bindings are automatically generated, meaning that they are always up-to-date and complete: all functions of the engine can be controlled from Python. All major Panda3D applications have been written in Python, this is the intended way of using the engine. Panda3D now supports automatic shader generation, which now means you can use normal maps, gloss maps, glow maps, HDR, cartoon shading, and the like without having to write any shaders. Panda3D is a modern engine supporting advanced features such as shaders, stencil, and render-to-texture. Panda3D is unusual in that it emphasizes a short learning curve, rapid development, and extreme stability and robustness. Panda3D is free software that runs under Windows, Linux, or macOS. The Panda3D team is very concerned with making the engine accessible to new users. We provide a detailed manual, a complete API reference, and a large collection of sample programs to help you get started. We have active forums, with many helpful users, and the developers are regularly online to answer questions. """ PANDA3D_TOOLS_INIT = """import os, sys import panda3d dir = os.path.dirname(panda3d.__file__) del panda3d if sys.platform in ('win32', 'cygwin'): path_var = 'PATH' if hasattr(os, 'add_dll_directory'): os.add_dll_directory(dir) elif sys.platform == 'darwin': path_var = 'DYLD_LIBRARY_PATH' else: path_var = 'LD_LIBRARY_PATH' if not os.environ.get(path_var): os.environ[path_var] = dir else: os.environ[path_var] = dir + os.pathsep + os.environ[path_var] del os, sys, path_var, dir def _exec_tool(tool): import os, sys from subprocess import Popen tools_dir = os.path.dirname(__file__) handle = Popen(sys.argv, executable=os.path.join(tools_dir, tool)) try: try: return handle.wait() except KeyboardInterrupt: # Give the program a chance to handle the signal gracefully. return handle.wait() except: handle.kill() handle.wait() raise # Register all the executables in this directory as global functions. {0} """ def parse_dependencies_windows(data): """ Parses the given output from dumpbin /dependents to determine the list of dll's this executable file depends on. """ lines = data.splitlines() li = 0 while li < len(lines): line = lines[li] li += 1 if line.find(' has the following dependencies') != -1: break if li < len(lines): line = lines[li] if line.strip() == '': # Skip a blank line. li += 1 # Now we're finding filenames, until the next blank line. filenames = [] while li < len(lines): line = lines[li] li += 1 line = line.strip() if line == '': # We're done. return filenames filenames.append(line) # At least we got some data. return filenames def parse_dependencies_unix(data): """ Parses the given output from otool -XL or ldd to determine the list of libraries this executable file depends on. """ lines = data.splitlines() filenames = [] for l in lines: l = l.strip() if l != "statically linked": filenames.append(l.split(' ', 1)[0]) return filenames def _scan_dependencies_elf(elf): deps = [] ident = elf.read(12) # Make sure we read in the correct endianness and integer size byte_order = "<>"[ord(ident[1:2]) - 1] elf_class = ord(ident[0:1]) - 1 # 0 = 32-bits, 1 = 64-bits header_struct = byte_order + ("HHIIIIIHHHHHH", "HHIQQQIHHHHHH")[elf_class] section_struct = byte_order + ("4xI8xIII8xI", "4xI16xQQI12xQ")[elf_class] dynamic_struct = byte_order + ("iI", "qQ")[elf_class] type, machine, version, entry, phoff, shoff, flags, ehsize, phentsize, phnum, shentsize, shnum, shstrndx \ = struct.unpack(header_struct, elf.read(struct.calcsize(header_struct))) dynamic_sections = [] string_tables = {} # Seek to the section header table and find the .dynamic section. elf.seek(shoff) for i in range(shnum): type, offset, size, link, entsize = struct.unpack_from(section_struct, elf.read(shentsize)) if type == 6 and link != 0: # DYNAMIC type, links to string table dynamic_sections.append((offset, size, link, entsize)) string_tables[link] = None # Read the relevant string tables. for idx in string_tables.keys(): elf.seek(shoff + idx * shentsize) type, offset, size, link, entsize = struct.unpack_from(section_struct, elf.read(shentsize)) if type != 3: continue elf.seek(offset) string_tables[idx] = elf.read(size) # Loop through the dynamic sections to get the NEEDED entries. needed = [] for offset, size, link, entsize in dynamic_sections: elf.seek(offset) data = elf.read(entsize) tag, val = struct.unpack_from(dynamic_struct, data) # Read tags until we find a NULL tag. while tag != 0: if tag == 1: # A NEEDED entry. Read it from the string table. string = string_tables[link][val : string_tables[link].find(b'\0', val)] needed.append(string.decode('utf-8')) data = elf.read(entsize) tag, val = struct.unpack_from(dynamic_struct, data) elf.close() return needed def scan_dependencies(pathname): """ Checks the named file for DLL dependencies, and adds any appropriate dependencies found into pluginDependencies and dependentFiles. """ with open(pathname, 'rb') as fh: if fh.read(4) == b'\x7FELF': return _scan_dependencies_elf(fh) if sys.platform == "darwin": command = ['otool', '-XL', pathname] elif sys.platform in ("win32", "cygwin"): command = ['dumpbin', '/dependents', pathname] else: sys.exit("Don't know how to determine dependencies from %s" % (pathname)) process = subprocess.Popen(command, stdout=subprocess.PIPE, universal_newlines=True) output, unused_err = process.communicate() retcode = process.poll() if retcode: raise subprocess.CalledProcessError(retcode, command[0], output=output) filenames = None if sys.platform in ("win32", "cygwin"): filenames = parse_dependencies_windows(output) else: filenames = parse_dependencies_unix(output) if filenames is None: sys.exit("Unable to determine dependencies from %s" % (pathname)) if sys.platform == "darwin" and len(filenames) > 0: # Filter out the library ID. if os.path.basename(filenames[0]).split('.', 1)[0] == os.path.basename(pathname).split('.', 1)[0]: del filenames[0] return filenames class WheelFile(object): def __init__(self, name, version, platform): self.name = name self.version = version self.platform = platform wheel_name = "{0}-{1}-{2}-{3}-{4}.whl".format( name, version, PY_VERSION, ABI_TAG, platform) print("Writing %s" % (wheel_name)) self.zip_file = zipfile.ZipFile(wheel_name, 'w', zipfile.ZIP_DEFLATED) self.records = [] # Used to locate dependency libraries. self.lib_path = [] self.dep_paths = {} self.ignore_deps = set() # This can be set if a reproducible (deterministic) build is desired, in # which case we have to clamp all dates to the given SOURCE_DATE_EPOCH. epoch = os.environ.get('SOURCE_DATE_EPOCH') self.max_date_time = time.localtime(int(epoch) if epoch else time.time())[:6] if self.max_date_time < (1980, 1, 1, 0, 0, 0): # Earliest representable time in zip archives. self.max_date_time = (1980, 1, 1, 0, 0, 0) def consider_add_dependency(self, target_path, dep, search_path=None): """Considers adding a dependency library. Returns the target_path if it was added, which may be different from target_path if it was already added earlier, or None if it wasn't.""" if dep in self.dep_paths: # Already considered this. return self.dep_paths[dep] self.dep_paths[dep] = None if dep in self.ignore_deps: if GetVerbose(): print("Ignoring {0} (explicitly ignored)".format(dep)) return if not self.platform.startswith("android"): if dep.lower().startswith("python") or os.path.basename(dep).startswith("libpython"): if GetVerbose(): print("Ignoring {0} (explicitly ignored)".format(dep)) return if self.platform.startswith("macosx"): if dep.endswith(".so"): # Temporary hack for 1.9, which had link deps on modules. return if dep.startswith("/System/"): return if dep.startswith('/'): source_path = dep else: source_path = None if search_path is None: search_path = self.lib_path for lib_dir in search_path: # Ignore static stuff. path = os.path.join(lib_dir, dep) if os.path.isfile(path): source_path = os.path.normpath(path) break if not source_path: # Couldn't find library in the panda3d lib dir. if GetVerbose(): print("Ignoring {0} (not in search path)".format(dep)) return self.dep_paths[dep] = target_path self.write_file(target_path, source_path) return target_path def write_file(self, target_path, source_path): """Adds the given file to the .whl file.""" orig_source_path = source_path # If this is a .so file, we should set the rpath appropriately. temp = None basename, ext = os.path.splitext(source_path) if ext in ('.so', '.dylib') or '.so.' in os.path.basename(source_path) or \ (not ext and is_executable(source_path)): # Scan Unix dependencies. if target_path not in IGNORE_UNIX_DEPS_OF: deps = scan_dependencies(source_path) else: deps = [] suffix = '' if '.so' in os.path.basename(source_path): suffix = '.so' elif ext == '.dylib': suffix = '.dylib' temp = tempfile.NamedTemporaryFile(suffix=suffix, prefix='whl', delete=False) # On macOS, if no fat wheel was requested, extract the right architecture. if self.platform.startswith("macosx") and is_fat_file(source_path) \ and not self.platform.endswith("_intel") \ and "_fat" not in self.platform \ and "_universal" not in self.platform: if self.platform.endswith("_x86_64"): arch = 'x86_64' else: arch = self.platform.split('_')[-1] subprocess.call(['lipo', source_path, '-extract', arch, '-output', temp.name]) else: # Otherwise, just copy it over. temp.write(open(source_path, 'rb').read()) temp.close() os.chmod(temp.name, os.stat(temp.name).st_mode | 0o711) # Now add dependencies. On macOS, fix @loader_path references. if self.platform.startswith("macosx"): if source_path.endswith('deploy-stubw'): deps_path = '@executable_path/../Frameworks' else: deps_path = '@loader_path' loader_path = [os.path.dirname(source_path)] for dep in deps: if dep.endswith('/Python'): # If this references the Python framework, change it # to reference libpython instead. new_dep = deps_path + '/libpython{0}.{1}.dylib'.format(*sys.version_info) elif '@loader_path' in dep: dep_path = dep.replace('@loader_path', '.') target_dep = os.path.dirname(target_path) + '/' + os.path.basename(dep) target_dep = self.consider_add_dependency(target_dep, dep_path, loader_path) if not target_dep: # It won't be included, so no use adjusting the path. continue new_dep = os.path.join(deps_path, os.path.relpath(target_dep, os.path.dirname(target_path))) elif '@rpath' in dep: # Unlike makepanda, CMake uses @rpath instead of # @loader_path. This means we can just search for the # dependencies like normal. dep_path = dep.replace('@rpath', '.') target_dep = os.path.dirname(target_path) + '/' + os.path.basename(dep) self.consider_add_dependency(target_dep, dep_path) continue elif dep.startswith('/Library/Frameworks/Python.framework/'): # Add this dependency if it's in the Python directory. target_dep = os.path.dirname(target_path) + '/' + os.path.basename(dep) target_dep = self.consider_add_dependency(target_dep, dep, loader_path) if not target_dep: # It won't be included, so no use adjusting the path. continue new_dep = os.path.join(deps_path, os.path.relpath(target_dep, os.path.dirname(target_path))) else: if '/' in dep: if GetVerbose(): print("Ignoring dependency %s" % (dep)) continue subprocess.call(["install_name_tool", "-change", dep, new_dep, temp.name]) # Make sure it has an ad-hoc code signature. subprocess.call(["codesign", "-f", "-s", "-", temp.name]) else: # On other unixes, we just add dependencies normally. for dep in deps: # Only include dependencies with relative path, for now. if '/' in dep: continue if self.platform.startswith('android') and '.so.' in dep: # Change .so.1.2 suffix to .so, to allow loading in .apk new_dep = dep.rpartition('.so.')[0] + '.so' subprocess.call(["patchelf", "--replace-needed", dep, new_dep, temp.name]) target_dep = os.path.dirname(target_path) + '/' + new_dep else: target_dep = os.path.dirname(target_path) + '/' + dep self.consider_add_dependency(target_dep, dep) subprocess.call([GetStrip(), "-s", temp.name]) if self.platform.startswith('android'): # We must link explicitly with Python, because the usual # -rdynamic trick doesn't work from a shared library loaded # through ANativeActivity. if suffix == '.so' and not os.path.basename(source_path).startswith('lib'): pylib_name = "libpython" + get_config_var('LDVERSION') + ".so" subprocess.call(["patchelf", "--add-needed", pylib_name, temp.name]) else: # On other systems, we use the rpath to force it to locate # dependencies in the same directory. subprocess.call(["patchelf", "--force-rpath", "--set-rpath", "$ORIGIN", temp.name]) source_path = temp.name ext = ext.lower() if ext in ('.dll', '.pyd', '.exe'): # Scan and add Win32 dependencies. for dep in scan_dependencies(source_path): target_dep = os.path.dirname(target_path) + '/' + dep self.consider_add_dependency(target_dep, dep) if GetVerbose(): print("Adding {0} from {1}".format(target_path, orig_source_path)) zinfo = zipfile.ZipInfo.from_file(source_path, target_path) zinfo.compress_type = self.zip_file.compression if zinfo.date_time > self.max_date_time: zinfo.date_time = self.max_date_time # Copy the data to the zip file, while also calculating the SHA-256. size = 0 sha = hashlib.sha256() with open(source_path, 'rb') as source_fp, self.zip_file.open(zinfo, 'w') as target_fp: data = source_fp.read(1024 * 1024) while data: size += len(data) target_fp.write(data) sha.update(data) data = source_fp.read(1024 * 1024) # Save it in PEP-0376 format for writing out later. digest = urlsafe_b64encode(sha.digest()).decode('ascii') digest = digest.rstrip('=') self.records.append("{0},sha256={1},{2}\n".format(target_path, digest, size)) #if temp: # os.unlink(temp.name) def write_file_data(self, target_path, source_data): """Adds the given file from a string.""" sha = hashlib.sha256() sha.update(source_data.encode()) digest = urlsafe_b64encode(sha.digest()).decode('ascii') digest = digest.rstrip('=') self.records.append("{0},sha256={1},{2}\n".format(target_path, digest, len(source_data))) if GetVerbose(): print("Adding %s from data" % target_path) zinfo = zipfile.ZipInfo(filename=target_path, date_time=self.max_date_time) zinfo.compress_type = self.zip_file.compression zinfo.external_attr = 0o600 << 16 self.zip_file.writestr(zinfo, source_data) def write_directory(self, target_dir, source_dir): """Adds the given directory recursively to the .whl file.""" for root, dirs, files in os.walk(source_dir): dirs.sort() for file in sorted(files): if os.path.splitext(file)[1] in EXCLUDE_EXT: continue source_path = os.path.join(root, file) target_path = os.path.join(target_dir, os.path.relpath(source_path, source_dir)) target_path = target_path.replace('\\', '/') self.write_file(target_path, source_path) def close(self): # Write the RECORD file. record_file = "{0}-{1}.dist-info/RECORD".format(self.name, self.version) self.records.append(record_file + ",,\n") zinfo = zipfile.ZipInfo(filename=record_file, date_time=self.max_date_time) zinfo.compress_type = self.zip_file.compression zinfo.external_attr = 0o600 << 16 self.zip_file.writestr(zinfo, "".join(self.records)) self.zip_file.close() def makewheel(version, output_dir, platform=None): if sys.platform not in ("win32", "darwin") and not sys.platform.startswith("cygwin"): if not LocateBinary("patchelf"): raise Exception("patchelf is required when building a Linux wheel.") if sys.version_info < (3, 8): raise Exception("Python 3.8 or higher is required to produce a wheel.") if platform is None: # Determine the platform from the build. platform_dat = os.path.join(output_dir, 'tmp', 'platform.dat') if os.path.isfile(platform_dat): platform = open(platform_dat, 'r').read().strip() else: print("Could not find platform.dat in build directory") platform = get_platform() if platform.startswith("linux-") and os.path.isdir("/opt/python"): # Is this manylinux? if os.path.isfile("/lib/libc-2.5.so") or os.path.isfile("/lib64/libc-2.5.so"): platform = platform.replace("linux", "manylinux1") elif os.path.isfile("/lib/libc-2.12.so") or os.path.isfile("/lib64/libc-2.12.so"): platform = platform.replace("linux", "manylinux2010") elif os.path.isfile("/lib/libc-2.17.so") or os.path.isfile("/lib64/libc-2.17.so"): platform = platform.replace("linux", "manylinux2014") elif os.path.isfile("/lib/i386-linux-gnu/libc-2.24.so") or os.path.isfile("/lib/x86_64-linux-gnu/libc-2.24.so"): platform = platform.replace("linux", "manylinux_2_24") elif os.path.isfile("/lib64/libc-2.28.so") and os.path.isfile('/etc/almalinux-release'): platform = platform.replace("linux", "manylinux_2_28") platform = platform.replace('-', '_').replace('.', '_') is_windows = platform == 'win32' \ or platform.startswith('win_') \ or platform.startswith('cygwin_') is_macosx = platform.startswith('macosx_') # Global filepaths panda3d_dir = join(output_dir, "panda3d") pandac_dir = join(output_dir, "pandac") direct_dir = join(output_dir, "direct") models_dir = join(output_dir, "models") etc_dir = join(output_dir, "etc") bin_dir = join(output_dir, "bin") if is_windows: libs_dir = join(output_dir, "bin") else: libs_dir = join(output_dir, "lib") ext_mod_dir = get_python_ext_module_dir() license_src = "LICENSE" readme_src = "README.md" # Update relevant METADATA entries METADATA['version'] = version # Build out the metadata details = METADATA["extensions"]["python.details"] homepage = details["project_urls"]["Home"] author = details["contacts"][0]["name"] email = details["contacts"][0]["email"] metadata = ''.join([ "Metadata-Version: {metadata_version}\n" \ "Name: {name}\n" \ "Version: {version}\n" \ "Summary: {summary}\n" \ "License: {license}\n".format(**METADATA), "Home-page: {0}\n".format(homepage), ] + ["Project-URL: {0}, {1}\n".format(*url) for url in PROJECT_URLS.items()] + [ "Author: {0}\n".format(author), "Author-email: {0}\n".format(email), "Platform: {0}\n".format(platform), ] + ["Classifier: {0}\n".format(c) for c in METADATA['classifiers']]) metadata += '\n' + DESCRIPTION.strip() + '\n' # Zip it up and name it the right thing whl = WheelFile('panda3d', version, platform) whl.lib_path = [libs_dir] if is_windows: whl.lib_path.append(ext_mod_dir) if platform.startswith("manylinux"): # On manylinux1, we pick up all libraries except for the ones specified # by the manylinux1 ABI. whl.lib_path.append("/usr/local/lib") if platform.endswith("_x86_64"): whl.lib_path += ["/lib64", "/usr/lib64"] else: whl.lib_path += ["/lib", "/usr/lib"] whl.ignore_deps.update(MANYLINUX_LIBS) # Add libpython for deployment. if is_windows: pylib_name = 'python{0}{1}.dll'.format(*sys.version_info) pylib_path = os.path.join(get_config_var('BINDIR'), pylib_name) elif is_macosx: pylib_name = 'libpython{0}.{1}.dylib'.format(*sys.version_info) pylib_path = os.path.join(get_config_var('LIBDIR'), pylib_name) else: pylib_name = get_config_var('LDLIBRARY') pylib_arch = get_config_var('MULTIARCH') libdir = get_config_var('LIBDIR') if pylib_arch and os.path.exists(os.path.join(libdir, pylib_arch, pylib_name)): pylib_path = os.path.join(libdir, pylib_arch, pylib_name) else: pylib_path = os.path.join(libdir, pylib_name) # If Python was linked statically, we don't need to include this. if not pylib_name.endswith('.a'): whl.write_file('deploy_libs/' + pylib_name, pylib_path) # Add the trees with Python modules. whl.write_directory('direct', direct_dir) # Write the panda3d tree. We use a custom empty __init__ since the # default one adds the bin directory to the PATH, which we don't have. p3d_init = """"Python bindings for the Panda3D libraries" __version__ = '{0}' """.format(version) if '27' in ABI_TAG: p3d_init += """ if __debug__: if 1 / 2 == 0: raise ImportError(\"Python 2 is not supported.\") """ whl.write_file_data('panda3d/__init__.py', p3d_init) # Copy the extension modules from the panda3d directory. ext_suffix = GetExtensionSuffix() for file in sorted(os.listdir(panda3d_dir)): if file == '__init__.py': pass elif file.endswith('.py') or (file.endswith(ext_suffix) and '.' not in file[:-len(ext_suffix)]): source_path = os.path.join(panda3d_dir, file) if file.endswith('.pyd') and platform.startswith('cygwin'): # Rename it to .dll for cygwin Python to be able to load it. target_path = 'panda3d/' + os.path.splitext(file)[0] + '.dll' elif file.endswith(ext_suffix) and platform.startswith('android'): # Strip the extension suffix on Android. target_path = 'panda3d/' + file[:-len(ext_suffix)] + '.so' else: target_path = 'panda3d/' + file whl.write_file(target_path, source_path) # And copy the extension modules from the Python installation into the # deploy_libs directory, for use by deploy-ng. ext_suffix = '.pyd' if is_windows else '.so' for file in sorted(os.listdir(ext_mod_dir)): if file.endswith(ext_suffix): if file.startswith('_tkinter.'): # Tkinter is supplied in a separate wheel. continue source_path = os.path.join(ext_mod_dir, file) if file.endswith('.pyd') and platform.startswith('cygwin'): # Rename it to .dll for cygwin Python to be able to load it. target_path = 'deploy_libs/' + os.path.splitext(file)[0] + '.dll' else: target_path = 'deploy_libs/' + file whl.write_file(target_path, source_path) # Include the special sysconfigdata module. if os.name == 'posix': import sysconfig if hasattr(sysconfig, '_get_sysconfigdata_name'): modname = sysconfig._get_sysconfigdata_name() + '.py' else: modname = '_sysconfigdata.py' for entry in sys.path: source_path = os.path.join(entry, modname) if os.path.isfile(source_path): whl.write_file('deploy_libs/' + modname, source_path) break # Add plug-ins. for lib in PLUGIN_LIBS: plugin_name = 'lib' + lib if is_windows: plugin_name += '.dll' elif is_macosx: plugin_name += '.dylib' else: plugin_name += '.so' plugin_path = os.path.join(libs_dir, plugin_name) if os.path.isfile(plugin_path): whl.write_file('panda3d/' + plugin_name, plugin_path) if platform.startswith('android'): deploy_stub_path = os.path.join(libs_dir, 'libdeploy-stubw.so') if os.path.isfile(deploy_stub_path): whl.write_file('deploy_libs/libdeploy-stubw.so', deploy_stub_path) classes_dex_path = os.path.join(output_dir, 'classes.dex') if os.path.isfile(classes_dex_path): whl.write_file('deploy_libs/classes.dex', classes_dex_path) # Add the .data directory, containing additional files. data_dir = 'panda3d-{0}.data'.format(version) #whl.write_directory(data_dir + '/data/etc', etc_dir) #whl.write_directory(data_dir + '/data/models', models_dir) # Actually, let's not. That seems to install the files to the strangest # places in the user's filesystem. Let's instead put them in panda3d. whl.write_directory('panda3d/etc', etc_dir) whl.write_directory('panda3d/models', models_dir) # Add the pandac tree for backward compatibility. for file in sorted(os.listdir(pandac_dir)): if file.endswith('.py'): whl.write_file('pandac/' + file, os.path.join(pandac_dir, file)) # Let's also add the interrogate databases. input_dir = os.path.join(pandac_dir, 'input') if os.path.isdir(input_dir): for file in sorted(os.listdir(input_dir)): if file.endswith('.in'): whl.write_file('pandac/input/' + file, os.path.join(input_dir, file)) # Add a panda3d-tools directory containing the executables. entry_points = '[console_scripts]\n' entry_points += 'eggcacher = direct.directscripts.eggcacher:main\n' entry_points += 'pfreeze = direct.dist.pfreeze:main\n' tools_init = '' for file in sorted(os.listdir(bin_dir)): basename = os.path.splitext(file)[0] if basename in ('eggcacher', 'packpanda'): continue source_path = os.path.join(bin_dir, file) if is_executable(source_path): # Put the .exe files inside the panda3d-tools directory. whl.write_file('panda3d_tools/' + file, source_path) if basename.endswith('_bin'): # These tools won't be invoked by the user directly. continue # Tell pip to create a wrapper script. funcname = basename.replace('-', '_') entry_points += '{0} = panda3d_tools:{1}\n'.format(basename, funcname) tools_init += '{0} = lambda: _exec_tool({1!r})\n'.format(funcname, file) entry_points += '[distutils.commands]\n' entry_points += 'build_apps = direct.dist.commands:build_apps\n' entry_points += 'bdist_apps = direct.dist.commands:bdist_apps\n' entry_points += '[setuptools.finalize_distribution_options]\n' entry_points += 'build_apps = direct.dist.commands:finalize_distribution_options\n' whl.write_file_data('panda3d_tools/__init__.py', PANDA3D_TOOLS_INIT.format(tools_init)) # Add the dist-info directory last. info_dir = 'panda3d-{0}.dist-info'.format(version) whl.write_file_data(info_dir + '/entry_points.txt', entry_points) whl.write_file_data(info_dir + '/metadata.json', json.dumps(METADATA, indent=4, separators=(',', ': '))) whl.write_file_data(info_dir + '/METADATA', metadata) whl.write_file_data(info_dir + '/WHEEL', WHEEL_DATA.format(PY_VERSION, ABI_TAG, platform)) whl.write_file(info_dir + '/LICENSE.txt', license_src) whl.write_file(info_dir + '/README.md', readme_src) whl.write_file_data(info_dir + '/top_level.txt', 'direct\npanda3d\npandac\npanda3d_tools\n') whl.close() if __name__ == "__main__": version = GetMetadataValue('version') parser = OptionParser() parser.add_option('', '--version', dest = 'version', help = 'Panda3D version number (default: %s)' % (version), default = version) parser.add_option('', '--outputdir', dest = 'outputdir', help = 'Makepanda\'s output directory (default: built)', default = 'built') parser.add_option('', '--verbose', dest = 'verbose', help = 'Enable verbose output', action = 'store_true', default = False) parser.add_option('', '--platform', dest = 'platform', help = 'Override platform tag', default = None) (options, args) = parser.parse_args() SetVerbose(options.verbose) makewheel(options.version, options.outputdir, options.platform)