""" KLayout standalone Python module setup script Copyright (C) 2006-2025 Matthias Koefferlein This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA This script provides distutils-based deployment for KLayout's standalone Python modules. The standalone libraries are basically extension modules. Build requirements are: * curl library * expat library * png library The main challenge is to map KLayout's shared object architecture. The structure consists of the Python extension libraries and a bunch of libraries providing the actual implementation part. The Python extension libraries reference the implementation libraries. The extension libraries are prefixed with an underscore. For example: tl (Python) -> _tl, _gsi There is a specific issue with the building of the extension libraries: distutils only allows building of shared objects as extension libraries and does not provide a intrinsic feature for linking other libraries into the extension library. Hence we need to add the dependencies through "extra_objects". On Linux there is a specific issue: The shared objects produced for extension libraries are not matching the Linux name conventions. So we have to add them as .so link objects including the path. If we do so, the runtime loading will look them up by their path and won't find them. So we need to take away the path with "-Wl,-soname" on Linux (see Config.link_args). """ from typing import List from setuptools import setup, Distribution, find_packages from setuptools.extension import Extension, Library from pathlib import Path import glob import os import re import sys import platform from distutils.errors import CompileError import distutils.command.build_ext import setuptools.command.build_ext from setuptools.command.build_ext import build_ext as _build_ext import multiprocessing import tomli # for Jenkins we do not want to be greedy multicore = os.getenv("KLAYOUT_SETUP_MULTICORE") if multicore: N_cores = int(multicore) else: N_cores = multiprocessing.cpu_count() # monkey-patch for parallel compilation # from https://stackoverflow.com/questions/11013851/speeding-up-build-process-with-distutils def parallelCCompile( self, sources, output_dir=None, macros=None, include_dirs=None, debug=0, extra_preargs=None, extra_postargs=None, depends=None, ): # those lines are copied from distutils.ccompiler.CCompiler directly macros, objects, extra_postargs, pp_opts, build = self._setup_compile( output_dir, macros, include_dirs, sources, depends, extra_postargs ) cc_args = self._get_cc_args(pp_opts, debug, extra_preargs) # parallel code N = min(N_cores, len(objects) // 2, 8) # number of parallel compilations N = max(N, 1) print("Compiling with", N, "threads.") import multiprocessing.pool def _single_compile(obj): try: src, ext = build[obj] except KeyError: return n_tries = 2 while n_tries > 0: try: print("Building", obj) self._compile(obj, src, ext, cc_args, extra_postargs, pp_opts) except CompileError: n_tries -= 1 print("Building", obj, "has failed. Trying again.") else: break # convert to list, imap is evaluated on-demand list(multiprocessing.pool.ThreadPool(N).map(_single_compile, objects)) return objects # only if python version > 2.6, somehow the travis compiler hangs in 2.6 if sys.version_info[0] * 100 + sys.version_info[1] > 206: import distutils.ccompiler distutils.ccompiler.CCompiler.compile = parallelCCompile # put a path in quotes if required def quote_path(path): # looks like disutils don't need path quoting in version >= 3.9: if " " in path and sys.version_info[0] * 100 + sys.version_info[1] < 309: return '"' + path + '"' else: return path import subprocess def check_libpng(): """ Check if libpng is available (Linux & Macos only)""" try: subprocess.check_call(["libpng-config", "--version"], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL) return True except FileNotFoundError as e: # libpng is not present. if True: # change to False to enable installation without libpng raise RuntimeError("libpng missing. libpng-config is not available") from e return False def libpng_cflags(): return subprocess.check_output(["libpng-config", "--cflags"]).decode().split() def libpng_ldflags(): return subprocess.check_output(["libpng-config", "--ldflags"]).decode().split() # TODO: delete (Obsolete) # patch get_ext_filename from distutils.command.build_ext import build_ext _old_get_ext_filename = build_ext.get_ext_filename def patched_get_ext_filename(self, ext_name): r"""Convert the name of an extension (eg. "foo.bar") into the name of the file from which it will be loaded (eg. "foo/bar.so", or "foo\bar.pyd"). """ filename = _old_get_ext_filename(self, ext_name) # Making sure this matches qmake's default extension .dylib, instead of .so if platform.system() == "Darwin" and "_dbpi" in ext_name: filename = filename.replace(".so", ".dylib") return filename distutils.command.build_ext.build_ext.get_ext_filename = patched_get_ext_filename # end patch get_ext_filename # TODO: customize this object instead of introspecting and patching distutils (if possible) class klayout_build_ext(_build_ext): """ Customize build extension class to check for dependencies before installing.""" def finalize_options(self) -> None: ret = super().finalize_options() return ret # patch CCompiler's library_filename for _dbpi libraries (SOs) # Its default is to have .so for shared objects, instead of dylib, # hence the patch from distutils.ccompiler import CCompiler old_library_filename = CCompiler.library_filename def patched_library_filename( self, libname, lib_type="static", strip_dir=0, output_dir="" # or 'shared' ): if platform.system() == "Darwin" and "_dbpi" in libname: lib_type = "dylib" return old_library_filename( self, libname, lib_type=lib_type, strip_dir=strip_dir, output_dir=output_dir ) distutils.ccompiler.CCompiler.library_filename = patched_library_filename # end patch CCompiler's library_filename for _dbpi libraries (SOs) # despite its name, setuptools.command.build_ext.link_shared_object won't # link a shared object on Linux, but a static library and patches distutils # for this ... We're patching this back now. def always_link_shared_object( self, objects, output_libname, output_dir=None, libraries=None, library_dirs=None, runtime_library_dirs=None, export_symbols=None, debug=0, extra_preargs=None, extra_postargs=None, build_temp=None, target_lang=None, ): self.link( self.SHARED_LIBRARY, objects, output_libname, output_dir, libraries, library_dirs, runtime_library_dirs, export_symbols, debug, extra_preargs, extra_postargs, build_temp, target_lang, ) setuptools.command.build_ext.libtype = "shared" setuptools.command.build_ext.link_shared_object = always_link_shared_object # ---------------------------------------------------------------------------------------- # TODO: # * Pull this from module-specific configuration files? # * Include dependencies: "extra_objects", "include_dirs" class Config(object): """ Provides some configuration-specific methods """ def __init__(self): # TODO: is this really how we get the build paths? build_cmd = Distribution().get_command_obj("build") build_cmd.finalize_options() self.build_platlib = build_cmd.build_platlib self.build_temp = build_cmd.build_temp if platform.system() == "Windows": # Windows uses separate temp build folders for debug and release if build_cmd.debug: self.build_temp = os.path.join(self.build_temp, "Debug") else: self.build_temp = os.path.join(self.build_temp, "Release") build_ext_cmd = Distribution().get_command_obj("build_ext") build_ext_cmd.initialize_options() build_ext_cmd.setup_shlib_compiler() self.build_ext_cmd = build_ext_cmd self.root = "klayout" self.src_paths = { } self.modules = [] def module(self, name, src_path): """ Declares a module with the given name and source path If a file called "pysetup.toml" is found in that path, it is read and a Library or Extension module is created. Structure of TOML is: [library] or [extension]: name = "" depends = [ list of module names this extension depends on ] defines = [ list of [name, value] pairs of defines for this module ] submodules = [ additional parent modules: klayout..mod_name ] includes = [ additional include paths, "/a/b/..." is absolute in src, "a/b/..." is relative to module source ] sources = [ additional source paths, see 'includes', takes '*.cc' from there ] cxxflags = [ additional compiler options ] cxxflags-gcc = [ additional compiler options for gcc ] cxxflags-msvc = [ additional compiler options for msvc ] cxxflags-win32 = [ additional compiler options for Windows ] cxxflags-linux = [ additional compiler options for Linux ] cxxflags-darwin = [ additional compiler options for MacOS ] Compiler option "$libpng_cflags" is replaced by the libpng build flags ldflags* = [ additional linker options (*=same suffixes as cxxflags) ] Linker option "$libpng_ldflags" is replaced by the libpng linker flags libraries* = [ additional libraries (*=same suffixes as cxxflags) ] """ pysetup_file = os.path.join(src_path, "pysetup.toml") if not os.path.isfile(pysetup_file): raise RuntimeError("Cannot find 'pysetup.toml' in " + src_path) with open(pysetup_file, "rb") as f: pysetup = tomli.load(f) header = {} is_library = None if "library" in pysetup: is_library = True header = pysetup["library"] elif "extension" in pysetup: is_library = False header = pysetup["extension"] else: raise RuntimeError("Invalid format - library or extension section expected in " + pysetup_file) header_name = header.get("name", None) if name is not None and header_name is not None and name != header_name: raise RuntimeError("Module name and specified name in setup file do not match in " + pysetup_file + ": " + header_name + " vs. " + name) elif name is None: if header_name is None: raise RuntimeError("No module name specified in " + pysetup_file) name = header_name depends = header.get("depends", []) for d in depends: # can't resolve now -> maybe later if d not in self.src_paths: return False print("Adding module " + name + " from pysetup file " + pysetup_file + " ...") self.src_paths[name] = src_path defines = header.get("defines", []) submodules = header.get("submodules", []) includes = header.get("includes", []) source_paths = header.get("sources", []) mod_path = ".".join([ self.root ] + submodules + [ name ]) include_dirs = [ self.src_path(m) for m in depends ] + [ src_path ] extra_objects = [ self.path_of(m) for m in depends ] define_macros = self.macros() + [ tuple(d) for d in defines ] sources = self.sources(name) for i in source_paths: p = i.split("/") if len(p) > 0 and p[0] == "": del p[0] else: p = [ src_path ] + p p.append("*.cc") sources += glob.glob(os.path.join(*p)) for i in includes: p = i.split("/") if len(p) > 0 and p[0] == "": del p[0] else: p = [ src_path ] + p include_dirs.append(os.path.join(*p)) if is_library: ext = Library(mod_path, define_macros=define_macros, include_dirs=include_dirs, extra_objects=extra_objects, language="c++", libraries=self.libraries(header), extra_link_args=self.link_args(header, True), extra_compile_args=self.compile_args(header), sources=sources) self.add_extension(ext) else: ext = Extension(mod_path, define_macros=define_macros, include_dirs=include_dirs, extra_objects=extra_objects, extra_link_args=self.link_args(header, False), extra_compile_args=self.compile_args(header), sources=sources) self.modules.append(ext) return True def src_path(self, name): return self.src_paths[name] def add_extension(self, ext): self.build_ext_cmd.ext_map[ext.name] = ext def libname_of(self, mod, is_lib=None): """ Returns the library name for a given module The library name is usually decorated (i.e. "tl" -> "tl.cpython-35m-x86_64-linux-gnu.so"). This code was extracted from the source in setuptools.command.build_ext.build_ext """ libtype = setuptools.command.build_ext.libtype full_mod = self.root + "." + mod if is_lib is True: # Here we are guessing it is a library and that the filename # is to be computed by shlib_compiler. # See source code of setuptools.command.build_ext.build_ext.get_ext_filename filename = self.build_ext_cmd.get_ext_filename(full_mod) fn, ext = os.path.splitext(filename) ext_path = self.build_ext_cmd.shlib_compiler.library_filename(fn, libtype) else: # This assumes that the Extension/Library object was added to the # ext_map dictionary via config.add_extension. assert full_mod in self.build_ext_cmd.ext_map ext_path = self.build_ext_cmd.get_ext_filename(full_mod) ext_filename = os.path.basename(ext_path) # Exception for database plugins, which will always be dylib. if platform.system() == "Darwin" and "_dbpi" in mod: ext_filename = ext_filename.replace(".so", ".dylib") return ext_filename def path_of(self, mod): """ Returns the build path of the library for a given module """ if platform.system() == "Windows": # On Windows, the library to link is the import library (dll_name, dll_ext) = os.path.splitext(self.libname_of(mod)) return os.path.join(self.build_temp, self.src_path(mod), dll_name + ".lib") else: return os.path.join(self.build_platlib, self.root, self.libname_of(mod)) def sources(self, mod): """ Gets the source files for the given module and root source path """ return glob.glob(os.path.join(self.src_path(mod), "*.cc")) def compile_args(self, options): """ Gets additional compiler arguments """ args = [] args += options.get("cxxflags", []) if platform.system() == "Windows": bits = os.getenv("KLAYOUT_BITS") if bits: args += [ quote_path("-I" + os.path.join(bits, "zlib", "include")), quote_path("-I" + os.path.join(bits, "ptw", "include")), quote_path("-I" + os.path.join(bits, "png", "include")), quote_path("-I" + os.path.join(bits, "expat", "include")), quote_path("-I" + os.path.join(bits, "curl", "include")), ] args += options.get("cxxflags-msvc", []) args += options.get("cxxflags-win32", []) else: args = [ "-Wno-strict-aliasing", # Avoids many "type-punned pointer" warnings "-std=c++11", # because we use unordered_map/unordered_set ] args += options.get("cxxflags-gcc", []) if platform.system() == "Darwin": args += options.get("cxxflags-darwin", []) else: args += options.get("cxxflags-linux", []) result = [] for a in args: if a == "$libpng_cflags": if check_libpng(): result += libpng_cflags() else: result.append(a) return result def libraries(self, options): """ Gets the libraries to add """ libs = [] libs += options.get("libraries", []) if platform.system() == "Windows": libs += options.get("libraries-msvc", []) libs += options.get("libraries-win32", []) else: libs += options.get("libraries-gcc", []) if platform.system() == "Darwin": libs += options.get("libraries-darwin", []) else: libs += options.get("libraries-linux", []) return libs def link_args(self, options, is_library): """ Gets additional linker arguments """ mod = options["name"] args = [] args += options.get("ldflags", []) if platform.system() == "Windows": args = ["/DLL"] bits = os.getenv("KLAYOUT_BITS") if bits: args += [ quote_path("/LIBPATH:" + os.path.join(bits, "zlib", "lib")), quote_path("/LIBPATH:" + os.path.join(bits, "ptw", "libraries")), quote_path("/LIBPATH:" + os.path.join(bits, "png", "libraries")), quote_path("/LIBPATH:" + os.path.join(bits, "expat", "libraries")), quote_path("/LIBPATH:" + os.path.join(bits, "curl", "libraries")), ] args += options.get("ldflags-msvc", []) args += options.get("ldflags-win32", []) elif platform.system() == "Darwin": # For the dependency modules, make sure we produce a dylib. # We can only link against such, but the bundles produced otherwise. args = [] if is_library: args += [ "-Wl,-dylib", "-Wl,-install_name,@rpath/%s" % self.libname_of(mod, is_lib=True), ] args += ["-Wl,-rpath,@loader_path/"] args += options.get("ldflags-gcc", []) args += options.get("ldflags-darwin", []) else: # this makes the libraries suitable for linking with a path - # i.e. from path_of('_tl'). Without this option, the path # will be included in the reference and at runtime the loaded # will look for the path-qualified library. But that's the # build path and the loader will fail. args = [] args += ["-Wl,-soname," + self.libname_of(mod, is_lib=True)] loader_path = ["$ORIGIN"] + [".."]*len(options.get("submodules", [])) args += ["-Wl,-rpath," + "/".join(loader_path)] # default linux shared object compilation uses the '-g' flag, # which generates unnecessary debug information # removing with strip-all during the linking stage args += ["-Wl,--strip-all"] args += options.get("ldflags-gcc", []) args += options.get("ldflags-linux", []) result = [] for a in args: if a == "$libpng_ldflags": if check_libpng(): result += libpng_ldflags() else: result.append(a) return result def macros(self): """ Returns the macros to use for building """ macros = [ ("HAVE_CURL", 1), ("HAVE_EXPAT", 1), ("HAVE_PNG", 1), ("KLAYOUT_VERSION", self.version()), ("KLAYOUT_MAJOR_VERSION", self.major_version()), ("KLAYOUT_MINOR_VERSION", self.minor_version()), ("GSI_ALIAS_INSPECT", 1), ] return macros def minor_version(self): """ Gets the version string """ # this will obtain the version string from the "version.sh" file which # is the central point of configuration version_file = os.path.join(os.path.dirname(__file__), "version.sh") with open(version_file, "r") as file: version_txt = file.read() rm = re.search( r"KLAYOUT_VERSION\s*=\s*\"(.*?)\.(.*?)(\..*)?\".*", version_txt ) if rm: version_string = rm.group(2) return version_string raise RuntimeError("Unable to obtain version string from version.sh") def major_version(self): """ Gets the version string """ # this will obtain the version string from the "version.sh" file which # is the central point of configuration version_file = os.path.join(os.path.dirname(__file__), "version.sh") with open(version_file, "r") as file: version_txt = file.read() rm = re.search( r"KLAYOUT_VERSION\s*=\s*\"(.*?)\.(.*?)(\..*)?\".*", version_txt ) if rm: version_string = rm.group(1) return version_string raise RuntimeError("Unable to obtain version string from version.sh") def version(self): """ Gets the version string """ # this will obtain the version string from the "version.sh" file which # is the central point of configuration version_file = os.path.join(os.path.dirname(__file__), "version.sh") with open(version_file, "r") as file: version_txt = file.read() rm = re.search(r"KLAYOUT_PYPI_VERSION\s*=\s*\"(.*?)\".*", version_txt) if rm: version_string = rm.group(1) return version_string raise RuntimeError("Unable to obtain version string from version.sh") config = Config() # Collect the module spec files with dependent modules coming after # the dependencies: mod_specs = glob.glob(os.path.join("src", "*", "pysetup.toml")) mod_specs += glob.glob(os.path.join("src", "*", "*", "pysetup.toml")) mod_specs += glob.glob(os.path.join("src", "*", "*", "*", "pysetup.toml")) mod_specs += glob.glob(os.path.join("src", "*", "*", "*", "*", "pysetup.toml")) todo = mod_specs while len(todo) > 0: not_done = [] for ms in todo: p = list(os.path.split(ms)) p.pop() if not config.module(None, os.path.join(*p)): not_done.append(ms) if len(not_done) == len(todo): raise RuntimeError("Dependency resolution failed - circular dependencies?") todo = not_done # ------------------------------------------------------------------ # Core setup function if __name__ == "__main__": typed_file = Path(__file__).parent / "src/pymod/distutils_src/klayout/py.typed" typed_file.parent.mkdir(parents=True, exist_ok=True) typed_file.touch() setup( name=config.root, version=config.version(), license="GPL-3.0-or-later", description="KLayout standalone Python package", long_description="This package is a standalone distribution of KLayout's Python API.\n\nFor more details see here: https://www.klayout.org/klayout-pypi", author="Matthias Koefferlein", author_email="matthias@klayout.org", classifiers=[ # Recommended classifiers "Programming Language :: Python :: 2", "Programming Language :: Python :: 3", "Operating System :: MacOS :: MacOS X", "Operating System :: Microsoft :: Windows", "Operating System :: POSIX :: Linux", # Optional classifiers "Topic :: Scientific/Engineering :: Electronic Design Automation (EDA)", ], url="https://github.com/klayout/klayout", packages=find_packages("src/pymod/distutils_src"), package_dir={ "": "src/pymod/distutils_src" }, # https://github.com/pypa/setuptools/issues/230 package_data={config.root: ["src/pymod/distutils_src/klayout/*.pyi"]}, data_files=[(config.root, ["src/pymod/distutils_src/klayout/py.typed"])], include_package_data=True, ext_modules=config.modules, cmdclass={'build_ext': klayout_build_ext} )