# MIT License # # Copyright The SCons Foundation # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. """SCons tool selection. Looks for modules that define a callable object that can modify a construction environment as appropriate for a given tool (or tool chain). Note that because this subsystem just *selects* a callable that can modify a construction environment, it's possible for people to define their own "tool specification" in an arbitrary callable function. No one needs to use or tie in to this subsystem in order to roll their own tool specifications. """ import sys import os import importlib.util from typing import Optional import SCons.Builder import SCons.Errors import SCons.Node.FS import SCons.Scanner import SCons.Scanner.C import SCons.Scanner.D import SCons.Scanner.Java import SCons.Scanner.LaTeX import SCons.Scanner.Prog import SCons.Scanner.SWIG from SCons.Tool.linkCommon import LibSymlinksActionFunction, LibSymlinksStrFun DefaultToolpath = [] CScanner = SCons.Scanner.C.CScanner() DScanner = SCons.Scanner.D.DScanner() JavaScanner = SCons.Scanner.Java.JavaScanner() LaTeXScanner = SCons.Scanner.LaTeX.LaTeXScanner() PDFLaTeXScanner = SCons.Scanner.LaTeX.PDFLaTeXScanner() ProgramScanner = SCons.Scanner.Prog.ProgramScanner() SourceFileScanner = SCons.Scanner.ScannerBase({}, name='SourceFileScanner') SWIGScanner = SCons.Scanner.SWIG.SWIGScanner() CSuffixes = [".c", ".C", ".cxx", ".cpp", ".c++", ".cc", ".h", ".H", ".hxx", ".hpp", ".hh", ".F", ".fpp", ".FPP", ".m", ".mm", ".S", ".spp", ".SPP", ".sx"] DSuffixes = ['.d'] IDLSuffixes = [".idl", ".IDL"] LaTeXSuffixes = [".tex", ".ltx", ".latex"] SWIGSuffixes = ['.i'] for suffix in CSuffixes: SourceFileScanner.add_scanner(suffix, CScanner) for suffix in DSuffixes: SourceFileScanner.add_scanner(suffix, DScanner) for suffix in SWIGSuffixes: SourceFileScanner.add_scanner(suffix, SWIGScanner) # FIXME: what should be done here? Two scanners scan the same extensions, # but look for different files, e.g., "picture.eps" vs. "picture.pdf". # The builders for DVI and PDF explicitly reference their scanners # I think that means this is not needed??? for suffix in LaTeXSuffixes: SourceFileScanner.add_scanner(suffix, LaTeXScanner) SourceFileScanner.add_scanner(suffix, PDFLaTeXScanner) # Tool aliases are needed for those tools whose module names also # occur in the python standard library (This causes module shadowing and # can break using python library functions under python3) or if the current tool/file names # are not legal module names (violate python's identifier rules or are # python language keywords). TOOL_ALIASES = { 'gettext': 'gettext_tool', 'clang++': 'clangxx', 'as': 'asm', } class Tool: def __init__(self, name, toolpath=None, **kwargs): if toolpath is None: toolpath = [] # Rename if there's a TOOL_ALIAS for this tool self.name = TOOL_ALIASES.get(name, name) self.toolpath = toolpath + DefaultToolpath # remember these so we can merge them into the call self.init_kw = kwargs module = self._tool_module() self.generate = module.generate self.exists = module.exists if hasattr(module, 'options'): self.options = module.options def _tool_module(self): """Try to load a tool module. This will hunt in the toolpath for both a Python file (toolname.py) and a Python module (toolname directory), then try the regular import machinery, then fallback to try a zipfile. """ oldpythonpath = sys.path sys.path = self.toolpath + sys.path # These could be enabled under "if debug:" # sys.stderr.write(f"Tool: {self.name}\n") # sys.stderr.write(f"PATH: {sys.path}\n") # sys.stderr.write(f"toolpath: {self.toolpath}\n") # sys.stderr.write(f"SCONS.TOOL path: {sys.modules['SCons.Tool'].__path__}\n") debug = False spec = None found_name = self.name add_to_scons_tools_namespace = False # Search for the tool module, but don't import it, yet. # # First look in the toolpath: these take priority. # TODO: any reason to not just use find_spec here? for path in self.toolpath: sepname = self.name.replace('.', os.path.sep) file_path = os.path.join(path, sepname + ".py") file_package = os.path.join(path, sepname) if debug: sys.stderr.write(f"Trying: {file_path} {file_package}\n") if os.path.isfile(file_path): spec = importlib.util.spec_from_file_location(self.name, file_path) if debug: sys.stderr.write(f"file_Path: {file_path} FOUND\n") break elif os.path.isdir(file_package): file_package = os.path.join(file_package, '__init__.py') spec = importlib.util.spec_from_file_location(self.name, file_package) if debug: sys.stderr.write(f"PACKAGE: {file_package} Found\n") break else: continue # Now look in the builtin tools (SCons.Tool package) if spec is None: if debug: sys.stderr.write(f"NO SPEC: {self.name}\n") spec = importlib.util.find_spec("." + self.name, package='SCons.Tool') if spec: found_name = 'SCons.Tool.' + self.name add_to_scons_tools_namespace = True if debug: sys.stderr.write(f"Spec Found? .{self.name}: {spec}\n") if spec is None: # we are going to bail out here, format up stuff for the msg sconstools = os.path.normpath(sys.modules['SCons.Tool'].__path__[0]) if self.toolpath: sconstools = ", ".join(self.toolpath) + ", " + sconstools msg = f"No tool module '{self.name}' found in {sconstools}" raise SCons.Errors.UserError(msg) # We have a module spec, so we're good to go. module = importlib.util.module_from_spec(spec) if module is None: if debug: sys.stderr.write(f"MODULE IS NONE: {self.name}\n") msg = f"Tool module '{self.name}' failed import" raise SCons.Errors.SConsEnvironmentError(msg) # Don't reload a tool we already loaded. sys_modules_value = sys.modules.get(found_name, False) found_module = None if sys_modules_value and sys_modules_value.__file__ == spec.origin: found_module = sys.modules[found_name] else: # Not sure what to do in the case that there already # exists sys.modules[self.name] but the source file is # different.. ? sys.modules[found_name] = module spec.loader.exec_module(module) if add_to_scons_tools_namespace: # If we found it in SCons.Tool, add it to the module setattr(SCons.Tool, self.name, module) found_module = module if found_module is not None: sys.path = oldpythonpath return found_module sys.path = oldpythonpath # We try some other things here, but this is essentially dead code, # because we bailed out above if we didn't find a module spec. full_name = 'SCons.Tool.' + self.name try: return sys.modules[full_name] except KeyError: try: # This support was added to enable running inside # a py2exe bundle a long time ago - unclear if it's # still needed. It is *not* intended to load individual # tool modules stored in a zipfile. import zipimport tooldir = sys.modules['SCons.Tool'].__path__[0] importer = zipimport.zipimporter(tooldir) if not hasattr(importer, 'find_spec'): # zipimport only added find_spec, exec_module in 3.10, # unlike importlib, where they've been around since 3.4. # If we don't have 'em, use the old way. module = importer.load_module(full_name) else: spec = importer.find_spec(full_name) module = importlib.util.module_from_spec(spec) importer.exec_module(module) sys.modules[full_name] = module setattr(SCons.Tool, self.name, module) return module except zipimport.ZipImportError as e: msg = "No tool named '{self.name}': {e}" raise SCons.Errors.SConsEnvironmentError(msg) def __call__(self, env, *args, **kw): if self.init_kw is not None: # Merge call kws into init kws; # but don't bash self.init_kw. if kw is not None: call_kw = kw kw = self.init_kw.copy() kw.update(call_kw) else: kw = self.init_kw env.Append(TOOLS=[self.name]) if hasattr(self, 'options'): import SCons.Variables if 'options' not in env: from SCons.Script import ARGUMENTS env['options'] = SCons.Variables.Variables(args=ARGUMENTS) opts = env['options'] self.options(opts) opts.Update(env) self.generate(env, *args, **kw) def __str__(self): return self.name LibSymlinksAction = SCons.Action.Action(LibSymlinksActionFunction, LibSymlinksStrFun) ########################################################################## # Create common executable program / library / object builders def createProgBuilder(env): """This is a utility function that creates the Program Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: program = env['BUILDERS']['Program'] except KeyError: import SCons.Defaults program = SCons.Builder.Builder(action=SCons.Defaults.LinkAction, emitter='$PROGEMITTER', prefix='$PROGPREFIX', suffix='$PROGSUFFIX', src_suffix='$OBJSUFFIX', src_builder='Object', target_scanner=ProgramScanner) env['BUILDERS']['Program'] = program return program def createStaticLibBuilder(env): """This is a utility function that creates the StaticLibrary Builder in an Environment if it is not there already. If it is already there, we return the existing one. """ try: static_lib = env['BUILDERS']['StaticLibrary'] except KeyError: action_list = [SCons.Action.Action("$ARCOM", "$ARCOMSTR")] if env.get('RANLIB', False) or env.Detect('ranlib'): ranlib_action = SCons.Action.Action("$RANLIBCOM", "$RANLIBCOMSTR") action_list.append(ranlib_action) static_lib = SCons.Builder.Builder(action=action_list, emitter='$LIBEMITTER', prefix='$LIBPREFIX', suffix='$LIBSUFFIX', src_suffix='$OBJSUFFIX', src_builder='StaticObject') env['BUILDERS']['StaticLibrary'] = static_lib env['BUILDERS']['Library'] = static_lib return static_lib def createSharedLibBuilder(env, shlib_suffix='$_SHLIBSUFFIX'): """This is a utility function that creates the SharedLibrary Builder in an Environment if it is not there already. If it is already there, we return the existing one. Args: shlib_suffix: The suffix specified for the shared library builder """ try: shared_lib = env['BUILDERS']['SharedLibrary'] except KeyError: import SCons.Defaults action_list = [SCons.Defaults.SharedCheck, SCons.Defaults.ShLinkAction, LibSymlinksAction] shared_lib = SCons.Builder.Builder(action=action_list, emitter="$SHLIBEMITTER", prefix="$SHLIBPREFIX", suffix=shlib_suffix, target_scanner=ProgramScanner, src_suffix='$SHOBJSUFFIX', src_builder='SharedObject') env['BUILDERS']['SharedLibrary'] = shared_lib return shared_lib def createLoadableModuleBuilder(env, loadable_module_suffix='$_LDMODULESUFFIX'): """This is a utility function that creates the LoadableModule Builder in an Environment if it is not there already. If it is already there, we return the existing one. Args: loadable_module_suffix: The suffix specified for the loadable module builder """ try: ld_module = env['BUILDERS']['LoadableModule'] except KeyError: import SCons.Defaults action_list = [SCons.Defaults.SharedCheck, SCons.Defaults.LdModuleLinkAction, LibSymlinksAction] ld_module = SCons.Builder.Builder(action=action_list, emitter="$LDMODULEEMITTER", prefix="$LDMODULEPREFIX", suffix=loadable_module_suffix, target_scanner=ProgramScanner, src_suffix='$SHOBJSUFFIX', src_builder='SharedObject') env['BUILDERS']['LoadableModule'] = ld_module return ld_module def createObjBuilders(env): """This is a utility function that creates the StaticObject and SharedObject Builders in an Environment if they are not there already. If they are there already, we return the existing ones. This is a separate function because soooo many Tools use this functionality. The return is a 2-tuple of (StaticObject, SharedObject) """ try: static_obj = env['BUILDERS']['StaticObject'] except KeyError: static_obj = SCons.Builder.Builder(action={}, emitter={}, prefix='$OBJPREFIX', suffix='$OBJSUFFIX', src_builder=['CFile', 'CXXFile'], source_scanner=SourceFileScanner, single_source=1) env['BUILDERS']['StaticObject'] = static_obj env['BUILDERS']['Object'] = static_obj try: shared_obj = env['BUILDERS']['SharedObject'] except KeyError: shared_obj = SCons.Builder.Builder(action={}, emitter={}, prefix='$SHOBJPREFIX', suffix='$SHOBJSUFFIX', src_builder=['CFile', 'CXXFile'], source_scanner=SourceFileScanner, single_source=1) env['BUILDERS']['SharedObject'] = shared_obj return (static_obj, shared_obj) def createCFileBuilders(env): """This is a utility function that creates the CFile/CXXFile Builders in an Environment if they are not there already. If they are there already, we return the existing ones. This is a separate function because soooo many Tools use this functionality. The return is a 2-tuple of (CFile, CXXFile) """ try: c_file = env['BUILDERS']['CFile'] except KeyError: c_file = SCons.Builder.Builder(action={}, emitter={}, suffix={None: '$CFILESUFFIX'}) env['BUILDERS']['CFile'] = c_file env.SetDefault(CFILESUFFIX='.c') try: cxx_file = env['BUILDERS']['CXXFile'] except KeyError: cxx_file = SCons.Builder.Builder(action={}, emitter={}, suffix={None: '$CXXFILESUFFIX'}) env['BUILDERS']['CXXFile'] = cxx_file env.SetDefault(CXXFILESUFFIX='.cc') return (c_file, cxx_file) ########################################################################## # Create common Java builders def CreateJarBuilder(env): """The Jar builder expects a list of class files which it can package into a jar file. The jar tool provides an interface for passing other types of java files such as .java, directories or swig interfaces and will build them to class files in which it can package into the jar. """ try: java_jar = env['BUILDERS']['JarFile'] except KeyError: fs = SCons.Node.FS.get_default_fs() jar_com = SCons.Action.Action('$JARCOM', '$JARCOMSTR') java_jar = SCons.Builder.Builder(action=jar_com, suffix='$JARSUFFIX', src_suffix='$JAVACLASSSUFFIX', src_builder='JavaClassFile', source_factory=fs.Entry) env['BUILDERS']['JarFile'] = java_jar return java_jar def CreateJavaHBuilder(env): try: java_javah = env['BUILDERS']['JavaH'] except KeyError: fs = SCons.Node.FS.get_default_fs() java_javah_com = SCons.Action.Action('$JAVAHCOM', '$JAVAHCOMSTR') java_javah = SCons.Builder.Builder(action=java_javah_com, src_suffix='$JAVACLASSSUFFIX', target_factory=fs.Entry, source_factory=fs.File, src_builder='JavaClassFile') env['BUILDERS']['JavaH'] = java_javah return java_javah def CreateJavaClassFileBuilder(env): try: java_class_file = env['BUILDERS']['JavaClassFile'] except KeyError: fs = SCons.Node.FS.get_default_fs() javac_com = SCons.Action.Action('$JAVACCOM', '$JAVACCOMSTR') java_class_file = SCons.Builder.Builder(action=javac_com, emitter={}, # suffix = '$JAVACLASSSUFFIX', src_suffix='$JAVASUFFIX', src_builder=['JavaFile'], target_factory=fs.Entry, source_factory=fs.File, target_scanner=JavaScanner) env['BUILDERS']['JavaClassFile'] = java_class_file return java_class_file def CreateJavaClassDirBuilder(env): try: java_class_dir = env['BUILDERS']['JavaClassDir'] except KeyError: fs = SCons.Node.FS.get_default_fs() javac_com = SCons.Action.Action('$JAVACCOM', '$JAVACCOMSTR') java_class_dir = SCons.Builder.Builder(action=javac_com, emitter={}, target_factory=fs.Dir, source_factory=fs.Dir, target_scanner=JavaScanner) env['BUILDERS']['JavaClassDir'] = java_class_dir return java_class_dir def CreateJavaFileBuilder(env): try: java_file = env['BUILDERS']['JavaFile'] except KeyError: java_file = SCons.Builder.Builder(action={}, emitter={}, suffix={None: '$JAVASUFFIX'}) env['BUILDERS']['JavaFile'] = java_file env['JAVASUFFIX'] = '.java' return java_file class ToolInitializerMethod: """ This is added to a construction environment in place of a method(s) normally called for a Builder (env.Object, env.StaticObject, etc.). When called, it has its associated ToolInitializer object search the specified list of tools and apply the first one that exists to the construction environment. It then calls whatever builder was (presumably) added to the construction environment in place of this particular instance. """ def __init__(self, name, initializer): """ Note: we store the tool name as __name__ so it can be used by the class that attaches this to a construction environment. """ self.__name__ = name self.initializer = initializer def get_builder(self, env): """ Returns the appropriate real Builder for this method name after having the associated ToolInitializer object apply the appropriate Tool module. """ builder = getattr(env, self.__name__) self.initializer.apply_tools(env) builder = getattr(env, self.__name__) if builder is self: # There was no Builder added, which means no valid Tool # for this name was found (or possibly there's a mismatch # between the name we were called by and the Builder name # added by the Tool module). return None self.initializer.remove_methods(env) return builder def __call__(self, env, *args, **kw): """ """ builder = self.get_builder(env) if builder is None: return [], [] return builder(*args, **kw) class ToolInitializer: """ A class for delayed initialization of Tools modules. Instances of this class associate a list of Tool modules with a list of Builder method names that will be added by those Tool modules. As part of instantiating this object for a particular construction environment, we also add the appropriate ToolInitializerMethod objects for the various Builder methods that we want to use to delay Tool searches until necessary. """ def __init__(self, env, tools, names): if not SCons.Util.is_List(tools): tools = [tools] if not SCons.Util.is_List(names): names = [names] self.env = env self.tools = tools self.names = names self.methods = {} for name in names: method = ToolInitializerMethod(name, self) self.methods[name] = method env.AddMethod(method) def remove_methods(self, env): """ Removes the methods that were added by the tool initialization so we no longer copy and re-bind them when the construction environment gets cloned. """ for method in self.methods.values(): env.RemoveMethod(method) def apply_tools(self, env): """ Searches the list of associated Tool modules for one that exists, and applies that to the construction environment. """ for t in self.tools: tool = SCons.Tool.Tool(t) if tool.exists(env): env.Tool(tool) return # If we fall through here, there was no tool module found. # This is where we can put an informative error message # about the inability to find the tool. We'll start doing # this as we cut over more pre-defined Builder+Tools to use # the ToolInitializer class. def Initializers(env): ToolInitializer(env, ['install'], ['_InternalInstall', '_InternalInstallAs', '_InternalInstallVersionedLib']) def Install(self, *args, **kw): return self._InternalInstall(*args, **kw) def InstallAs(self, *args, **kw): return self._InternalInstallAs(*args, **kw) def InstallVersionedLib(self, *args, **kw): return self._InternalInstallVersionedLib(*args, **kw) env.AddMethod(Install) env.AddMethod(InstallAs) env.AddMethod(InstallVersionedLib) def FindTool(tools, env): for tool in tools: t = Tool(tool) if t.exists(env): return tool return None def FindAllTools(tools, env): def ToolExists(tool, env=env): return Tool(tool).exists(env) return list(filter(ToolExists, tools)) def tool_list(platform, env): other_plat_tools = [] # XXX this logic about what tool to prefer on which platform # should be moved into either the platform files or # the tool files themselves. # The search orders here are described in the man page. If you # change these search orders, update the man page as well. if str(platform) == 'win32': "prefer Microsoft tools on Windows" linkers = ['mslink', 'gnulink', 'ilink', 'linkloc', 'ilink32'] c_compilers = ['msvc', 'mingw', 'gcc', 'intelc', 'icl', 'icc', 'cc', 'bcc32'] cxx_compilers = ['msvc', 'intelc', 'icc', 'g++', 'cxx', 'bcc32'] assemblers = ['masm', 'nasm', 'gas', '386asm'] fortran_compilers = ['gfortran', 'g77', 'ifl', 'cvf', 'f95', 'f90', 'fortran'] ars = ['mslib', 'ar', 'tlib'] other_plat_tools = ['msvs', 'midl', 'wix'] elif str(platform) == 'os2': "prefer IBM tools on OS/2" linkers = ['ilink', 'gnulink', ] # 'mslink'] c_compilers = ['icc', 'gcc', ] # 'msvc', 'cc'] cxx_compilers = ['icc', 'g++', ] # 'msvc', 'cxx'] assemblers = ['nasm', ] # 'masm', 'gas'] fortran_compilers = ['ifl', 'g77'] ars = ['ar', ] # 'mslib'] elif str(platform) == 'irix': "prefer MIPSPro on IRIX" linkers = ['sgilink', 'gnulink'] c_compilers = ['sgicc', 'gcc', 'cc'] cxx_compilers = ['sgicxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'f77', 'g77', 'fortran'] ars = ['sgiar'] elif str(platform) == 'sunos': "prefer Forte tools on SunOS" linkers = ['sunlink', 'gnulink'] c_compilers = ['suncc', 'gcc', 'cc'] cxx_compilers = ['suncxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['sunf95', 'sunf90', 'sunf77', 'f95', 'f90', 'f77', 'gfortran', 'g77', 'fortran'] ars = ['sunar'] elif str(platform) == 'hpux': "prefer aCC tools on HP-UX" linkers = ['hplink', 'gnulink'] c_compilers = ['hpcc', 'gcc', 'cc'] cxx_compilers = ['hpcxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'f77', 'g77', 'fortran'] ars = ['ar'] elif str(platform) == 'aix': "prefer AIX Visual Age tools on AIX" linkers = ['aixlink', 'gnulink'] c_compilers = ['aixcc', 'gcc', 'cc'] cxx_compilers = ['aixcxx', 'g++', 'cxx'] assemblers = ['as', 'gas'] fortran_compilers = ['f95', 'f90', 'aixf77', 'g77', 'fortran'] ars = ['ar'] elif str(platform) == 'darwin': "prefer GNU tools on Mac OS X, except for some linkers and IBM tools" linkers = ['applelink', 'gnulink'] c_compilers = ['gcc', 'cc'] cxx_compilers = ['g++', 'cxx'] assemblers = ['as'] fortran_compilers = ['gfortran', 'f95', 'f90', 'g77'] ars = ['ar'] elif str(platform) == 'cygwin': "prefer GNU tools on Cygwin, except for a platform-specific linker" linkers = ['cyglink', 'mslink', 'ilink'] c_compilers = ['gcc', 'msvc', 'intelc', 'icc', 'cc'] cxx_compilers = ['g++', 'msvc', 'intelc', 'icc', 'cxx'] assemblers = ['gas', 'nasm', 'masm'] fortran_compilers = ['gfortran', 'g77', 'ifort', 'ifl', 'f95', 'f90', 'f77'] ars = ['ar', 'mslib'] else: "prefer GNU tools on all other platforms" linkers = ['gnulink', 'ilink'] c_compilers = ['gcc', 'intelc', 'icc', 'cc'] cxx_compilers = ['g++', 'intelc', 'icc', 'cxx'] assemblers = ['gas', 'nasm', 'masm'] fortran_compilers = ['gfortran', 'g77', 'ifort', 'ifl', 'f95', 'f90', 'f77'] ars = ['ar', ] if not str(platform) == 'win32': other_plat_tools += ['m4', 'rpm'] c_compiler = FindTool(c_compilers, env) or c_compilers[0] # XXX this logic about what tool provides what should somehow be # moved into the tool files themselves. if c_compiler and c_compiler == 'mingw': # MinGW contains a linker, C compiler, C++ compiler, # Fortran compiler, archiver and assembler: cxx_compiler = None linker = None assembler = None fortran_compiler = None ar = None else: # Don't use g++ if the C compiler has built-in C++ support: if c_compiler in ('msvc', 'intelc', 'icc'): cxx_compiler = None else: cxx_compiler = FindTool(cxx_compilers, env) or cxx_compilers[0] linker = FindTool(linkers, env) or linkers[0] assembler = FindTool(assemblers, env) or assemblers[0] fortran_compiler = FindTool(fortran_compilers, env) or fortran_compilers[0] ar = FindTool(ars, env) or ars[0] d_compilers = ['dmd', 'ldc', 'gdc'] d_compiler = FindTool(d_compilers, env) or d_compilers[0] other_tools = FindAllTools(other_plat_tools + [ # TODO: merge 'install' into 'filesystem' and # make 'filesystem' the default 'filesystem', # Parser generators 'lex', 'yacc', # Foreign function interface 'rpcgen', 'swig', # Java 'jar', 'javac', 'javah', 'rmic', # TeX 'dvipdf', 'dvips', 'gs', 'tex', 'latex', 'pdflatex', 'pdftex', # Archivers 'tar', 'zip', # File builders (text) 'textfile', ], env) tools = [ linker, c_compiler, cxx_compiler, fortran_compiler, assembler, ar, d_compiler, ] + other_tools return [x for x in tools if x] def find_program_path(env, key_program, default_paths=None, add_path=False) -> Optional[str]: """ Find the location of a tool using various means. Mainly for windows where tools aren't all installed in /usr/bin, etc. Args: env: Current Construction Environment. key_program: Tool to locate. default_paths: List of additional paths this tool might be found in. add_path: If true, add path found if it was from *default_paths*. """ # First search in the SCons path path = env.WhereIs(key_program) if path: return path # Then in the OS path path = SCons.Util.WhereIs(key_program) if path: if add_path: env.AppendENVPath('PATH', os.path.dirname(path)) return path # Finally, add the defaults and check again. if default_paths is None: return path save_path = env['ENV']['PATH'] for p in default_paths: env.AppendENVPath('PATH', p) path = env.WhereIs(key_program) # By default, do not change ['ENV']['PATH'] permananetly # leave that to the caller, unless add_path is true. env['ENV']['PATH'] = save_path if path and add_path: env.AppendENVPath('PATH', os.path.dirname(path)) return path # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: