#!/usr/bin/env python # encoding: utf-8 # Thomas Nagy, 2008-2010 (ita) """ Execute the tasks with gcc -MD, read the dependencies from the .d file and prepare the dependency calculation for the next run. 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 gccdeps') """ import os, re, threading from waflib import Task, Logs, Utils, Errors from waflib.Tools import c_preproc from waflib.TaskGen import before_method, feature lock = threading.Lock() gccdeps_flags = ['-MD'] if not c_preproc.go_absolute: gccdeps_flags = ['-MMD'] # Third-party tools are allowed to add extra names in here with append() supported_compilers = ['gcc', 'icc', 'clang'] def scan(self): if not self.__class__.__name__ in self.env.ENABLE_GCCDEPS: return super(self.derived_gccdeps, self).scan() nodes = self.generator.bld.node_deps.get(self.uid(), []) names = [] return (nodes, names) re_o = re.compile("\.o$") re_splitter = re.compile(r'(?= 0: return line[sep_idx + 2:] else: return line 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 not self.__class__.__name__ in self.env.ENABLE_GCCDEPS: return super(self.derived_gccdeps, self).post_run() name = self.outputs[0].abspath() name = re_o.sub('.d', name) try: txt = Utils.readf(name) except EnvironmentError: Logs.error('Could not find a .d dependency file, are cflags/cxxflags overwritten?') raise #os.remove(name) # Compilers have the choice to either output the file's dependencies # as one large Makefile rule: # # /path/to/file.o: /path/to/dep1.h \ # /path/to/dep2.h \ # /path/to/dep3.h \ # ... # # or as many individual rules: # # /path/to/file.o: /path/to/dep1.h # /path/to/file.o: /path/to/dep2.h # /path/to/file.o: /path/to/dep3.h # ... # # So the first step is to sanitize the input by stripping out the left- # hand side of all these lines. After that, whatever remains are the # implicit dependencies of task.outputs[0] txt = '\n'.join([remove_makefile_rule_lhs(line) for line in txt.splitlines()]) # Now join all the lines together txt = txt.replace('\\\n', '') val = txt.strip() val = [x.replace('\\ ', ' ') for x in re_splitter.split(val) if x] nodes = [] bld = self.generator.bld # Dynamically bind to the cache try: cached_nodes = bld.cached_nodes except AttributeError: cached_nodes = bld.cached_nodes = {} for x in val: node = None if os.path.isabs(x): node = path_to_node(bld.root, x, cached_nodes) else: # TODO waf 1.9 - single cwd value path = getattr(bld, 'cwdx', bld.bldnode) # when calling find_resource, make sure the path does not contain '..' x = [k for k in Utils.split_path(x) if k and k != '.'] while '..' in x: idx = x.index('..') if idx == 0: x = x[1:] path = path.parent else: del x[idx] del x[idx-1] node = path_to_node(path, x, cached_nodes) if not node: continue if id(node) == id(self.inputs[0]): # ignore the source file, it is already in the dependencies # this way, successful config tests may be retrieved from the cache continue nodes.append(node) Logs.debug('deps: gccdeps for %s returned %s', self, nodes) bld.node_deps[self.uid()] = nodes bld.raw_deps[self.uid()] = [] try: del self.cache_sig except AttributeError: pass Task.Task.post_run(self) def sig_implicit_deps(self): if not self.__class__.__name__ in self.env.ENABLE_GCCDEPS: return super(self.derived_gccdeps, self).sig_implicit_deps() try: return Task.Task.sig_implicit_deps(self) except Errors.WafError: return Utils.SIG_NIL def wrap_compiled_task(classname): derived_class = type(classname, (Task.classes[classname],), {}) derived_class.derived_gccdeps = derived_class derived_class.post_run = post_run derived_class.scan = scan derived_class.sig_implicit_deps = sig_implicit_deps for k in ('c', 'cxx'): if k in Task.classes: wrap_compiled_task(k) @before_method('process_source') @feature('force_gccdeps') def force_gccdeps(self): self.env.ENABLE_GCCDEPS = ['c', 'cxx'] def configure(conf): # in case someone provides a --enable-gccdeps command-line option if not getattr(conf.options, 'enable_gccdeps', True): return global gccdeps_flags flags = conf.env.GCCDEPS_FLAGS or gccdeps_flags if conf.env.CC_NAME in supported_compilers: try: conf.check(fragment='int main() { return 0; }', features='c force_gccdeps', cflags=flags, msg='Checking for c flags %r' % ''.join(flags)) except Errors.ConfigurationError: pass else: conf.env.append_value('CFLAGS', gccdeps_flags) conf.env.append_unique('ENABLE_GCCDEPS', 'c') if conf.env.CXX_NAME in supported_compilers: try: conf.check(fragment='int main() { return 0; }', features='cxx force_gccdeps', cxxflags=flags, msg='Checking for cxx flags %r' % ''.join(flags)) except Errors.ConfigurationError: pass else: conf.env.append_value('CXXFLAGS', gccdeps_flags) conf.env.append_unique('ENABLE_GCCDEPS', 'cxx') def options(opt): raise ValueError('Do not load gccdeps options')