#!/usr/bin/env python # encoding: utf-8 # Copyright Garmin International or its subsidiaries, 2012-2013 ''' Off-load dependency scanning from Python code to MSVC compiler This tool is safe to load in any environment; it will only activate the MSVC exploits when it finds that a particular taskgen uses MSVC to compile. Empirical testing shows about a 10% execution time savings from using this tool as compared to c_preproc. The technique of gutting scan() and pushing the dependency calculation down to post_run() is cribbed from gccdeps.py. This affects the cxx class, so make sure to load Qt5 after this tool. Usage:: def options(opt): opt.load('compiler_cxx') def configure(conf): conf.load('compiler_cxx msvcdeps') ''' import os, sys, tempfile, threading from waflib import Context, Errors, Logs, Task, Utils from waflib.Tools import c_preproc, c, cxx, msvc from waflib.TaskGen import feature, before_method lock = threading.Lock() nodes = {} # Cache the path -> Node lookup PREPROCESSOR_FLAG = '/showIncludes' INCLUDE_PATTERN = 'Note: including file:' # Extensible by outside tools supported_compilers = ['msvc'] @feature('c', 'cxx') @before_method('process_source') def apply_msvcdeps_flags(taskgen): if taskgen.env.CC_NAME not in supported_compilers: return for flag in ('CFLAGS', 'CXXFLAGS'): if taskgen.env.get_flat(flag).find(PREPROCESSOR_FLAG) < 0: taskgen.env.append_value(flag, PREPROCESSOR_FLAG) # Figure out what casing conventions the user's shell used when # launching Waf (drive, _) = os.path.splitdrive(taskgen.bld.srcnode.abspath()) taskgen.msvcdeps_drive_lowercase = drive == drive.lower() def path_to_node(base_node, path, cached_nodes): # Take the base node and the path and return a node # Results are cached because searching the node tree is expensive # The following code is executed by threads, it is not safe, so a lock is needed... if getattr(path, '__hash__'): node_lookup_key = (base_node, path) else: # Not hashable, assume it is a list and join into a string node_lookup_key = (base_node, os.path.sep.join(path)) try: lock.acquire() node = cached_nodes[node_lookup_key] except KeyError: node = base_node.find_resource(path) cached_nodes[node_lookup_key] = node finally: lock.release() return node def post_run(self): if self.env.CC_NAME not in supported_compilers: return super(self.derived_msvcdeps, self).post_run() # TODO this is unlikely to work with netcache if getattr(self, 'cached', None): return Task.Task.post_run(self) bld = self.generator.bld unresolved_names = [] resolved_nodes = [] lowercase = self.generator.msvcdeps_drive_lowercase correct_case_path = bld.path.abspath() correct_case_path_len = len(correct_case_path) correct_case_path_norm = os.path.normcase(correct_case_path) # Dynamically bind to the cache try: cached_nodes = bld.cached_nodes except AttributeError: cached_nodes = bld.cached_nodes = {} for path in self.msvcdeps_paths: node = None if os.path.isabs(path): # Force drive letter to match conventions of main source tree drive, tail = os.path.splitdrive(path) if os.path.normcase(path[:correct_case_path_len]) == correct_case_path_norm: # Path is in the sandbox, force it to be correct. MSVC sometimes returns a lowercase path. path = correct_case_path + path[correct_case_path_len:] else: # Check the drive letter if lowercase and (drive != drive.lower()): path = drive.lower() + tail elif (not lowercase) and (drive != drive.upper()): path = drive.upper() + tail node = path_to_node(bld.root, path, cached_nodes) else: base_node = bld.bldnode # when calling find_resource, make sure the path does not begin by '..' path = [k for k in Utils.split_path(path) if k and k != '.'] while path[0] == '..': path = path[1:] base_node = base_node.parent node = path_to_node(base_node, path, cached_nodes) if not node: raise ValueError('could not find %r for %r' % (path, self)) else: if not c_preproc.go_absolute: if not (node.is_child_of(bld.srcnode) or node.is_child_of(bld.bldnode)): # System library Logs.debug('msvcdeps: Ignoring system include %r', node) continue if id(node) == id(self.inputs[0]): # Self-dependency continue resolved_nodes.append(node) bld.node_deps[self.uid()] = resolved_nodes bld.raw_deps[self.uid()] = unresolved_names try: del self.cache_sig except AttributeError: pass Task.Task.post_run(self) def scan(self): if self.env.CC_NAME not in supported_compilers: return super(self.derived_msvcdeps, self).scan() resolved_nodes = self.generator.bld.node_deps.get(self.uid(), []) unresolved_names = [] return (resolved_nodes, unresolved_names) def sig_implicit_deps(self): if self.env.CC_NAME not in supported_compilers: return super(self.derived_msvcdeps, self).sig_implicit_deps() try: return Task.Task.sig_implicit_deps(self) except Errors.WafError: return Utils.SIG_NIL def exec_command(self, cmd, **kw): if self.env.CC_NAME not in supported_compilers: return super(self.derived_msvcdeps, self).exec_command(cmd, **kw) if not 'cwd' in kw: kw['cwd'] = self.get_cwd() if self.env.PATH: env = kw['env'] = dict(kw.get('env') or self.env.env or os.environ) env['PATH'] = self.env.PATH if isinstance(self.env.PATH, str) else os.pathsep.join(self.env.PATH) # The Visual Studio IDE adds an environment variable that causes # the MS compiler to send its textual output directly to the # debugging window rather than normal stdout/stderr. # # This is unrecoverably bad for this tool because it will cause # all the dependency scanning to see an empty stdout stream and # assume that the file being compiled uses no headers. # # See http://blogs.msdn.com/b/freik/archive/2006/04/05/569025.aspx # # Attempting to repair the situation by deleting the offending # envvar at this point in tool execution will not be good enough-- # its presence poisons the 'waf configure' step earlier. We just # want to put a sanity check here in order to help developers # quickly diagnose the issue if an otherwise-good Waf tree # is then executed inside the MSVS IDE. assert 'VS_UNICODE_OUTPUT' not in kw['env'] cmd, args = self.split_argfile(cmd) try: (fd, tmp) = tempfile.mkstemp() os.write(fd, '\r\n'.join(args).encode()) os.close(fd) self.msvcdeps_paths = [] kw['env'] = kw.get('env', os.environ.copy()) kw['cwd'] = kw.get('cwd', os.getcwd()) kw['quiet'] = Context.STDOUT kw['output'] = Context.STDOUT out = [] if Logs.verbose: Logs.debug('argfile: @%r -> %r', tmp, args) try: raw_out = self.generator.bld.cmd_and_log(cmd + ['@' + tmp], **kw) ret = 0 except Errors.WafError as e: raw_out = e.stdout ret = e.returncode for line in raw_out.splitlines(): if line.startswith(INCLUDE_PATTERN): inc_path = line[len(INCLUDE_PATTERN):].strip() Logs.debug('msvcdeps: Regex matched %s', inc_path) self.msvcdeps_paths.append(inc_path) else: out.append(line) # Pipe through the remaining stdout content (not related to /showIncludes) if self.generator.bld.logger: self.generator.bld.logger.debug('out: %s' % os.linesep.join(out)) else: sys.stdout.write(os.linesep.join(out) + os.linesep) return ret finally: try: os.remove(tmp) except OSError: # anti-virus and indexers can keep files open -_- pass def wrap_compiled_task(classname): derived_class = type(classname, (Task.classes[classname],), {}) derived_class.derived_msvcdeps = derived_class derived_class.post_run = post_run derived_class.scan = scan derived_class.sig_implicit_deps = sig_implicit_deps derived_class.exec_command = exec_command for k in ('c', 'cxx'): if k in Task.classes: wrap_compiled_task(k) def options(opt): raise ValueError('Do not load msvcdeps options')