#!/usr/bin/env python # encoding: utf-8 # Copyright (C) 2015-2016 Intel Corporation. All rights reserved. # # This file 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 3 of the License, or # (at your option) any later version. # # This file 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, see . """ Waf tool for external builds with cmake. This tool defines the feature 'cmake_build', for building through the cmake interface. You can use CMAKE_MIN_VERSION environment variable before loading this tool in the configuration to set a minimum version required for cmake. Example:: def configure(cfg): cfg.CMAKE_MIN_VERSION = '3.5.2' cfg.load('cmake') Usage example:: def build(bld): # cmake configuration foo = bld.cmake( name='foo', cmake_src='path/to/foosrc', # where is the source tree cmake_bld='path/to/foobld', # where to generate the build system cmake_vars=dict( CMAKE_BUILD_TYPE='Release', ... ), ) # cmake build for external target 'bar' bld( features='cmake_build', cmake_config='foo', # this build depends on the cmake generation above defined cmake_target='bar', # what to pass to option --target of cmake ) # cmake build for target 'baz' (syntactic sugar) foo.build('baz') The keys of cmake_vars are sorted so that unnecessary execution is avoided. If you want to ensure an order in which the variables are passed to cmake, use an OrderedDict. Example:: def build(bld): foo_vars = OrderedDict() foo_vars['CMAKE_BUILD_TYPE'] = 'Release' foo_vars['FOO'] = 'value_of_foo' foo_vars['BAR'] = 'value_of_bar' # cmake configuration foo = bld.cmake( cmake_vars=foo_vars, ... ) There may be cases when you want to establish dependency between other tasks and the external build system's products (headers and libraries, for example). In that case, you can specify the specific files in the option 'target' of your cmake_build task generator. Example:: def build(bld): ... # declaring on target only what I'm interested in foo.build('baz', target='path/to/foobld/include/baz.h') # myprogram.c includes baz.h, so the dependency is (implicitly) # established bld.program(target='myprogram', source='myprogram.c') # another example foo.build('another', target='another.txt') bld( rule='${CP} ${SRC} ${TGT}', source=bld.bldnode.find_or_declare('another.txt'), target='another_copied.txt', ) You can also establish the dependency directly on a task object:: @feature('myfeature') def process_myfeature(self): baz_taskgen = self.bld.get_tgen_by_name('baz') baz_taskgen.post() # every cmake_build taskgen stores its task in cmake_build_task baz_task = baz_taskgen.cmake_build_task tsk = self.create_task('mytask') tsk.set_run_after(baz_task) # tsk is run whenever baz_task changes its outputs, namely, # path/to/foobld/include/baz.h tsk.dep_nodes.extend(baz_task.outputs) If your cmake build creates several files (that may be dependency for several tasks), you can use the parameter cmake_output_patterns. It receives a pattern or a list of patterns relative to the cmake build directory. After the build task is run, the files that match those patterns are set as output of the cmake build task, so that they get a signature. Example:: def build(bld): ... foo.build('baz', cmake_output_patterns='include/*.h') ... """ from waflib import Context, Node, Task, Utils from waflib.Configure import conf from waflib.TaskGen import feature, taskgen_method from collections import OrderedDict import os import re import sys class cmake_configure_task(Task.Task): vars = ['CMAKE_BLD_DIR'] run_str = '${CMAKE} ${CMAKE_SRC_DIR} ${CMAKE_VARS} ${CMAKE_GENERATOR_OPTION}' color = 'BLUE' def exec_command(self, cmd, **kw): kw['stdout'] = sys.stdout return super(cmake_configure_task, self).exec_command(cmd, **kw) def uid(self): if not hasattr(self, 'uid_'): m = Utils.md5() def u(s): m.update(s.encode('utf-8')) u(self.__class__.__name__) u(self.env.get_flat('CMAKE_SRC_DIR')) u(self.env.get_flat('CMAKE_BLD_DIR')) u(self.env.get_flat('CMAKE_VARS')) self.uid_ = m.digest() return self.uid_ def __str__(self): return self.cmake.name def keyword(self): return 'CMake Configure' # Clean cmake configuration cmake_configure_task._original_run = cmake_configure_task.run def _cmake_configure_task_run(self): cmakecache_path = self.outputs[0].abspath() if os.path.exists(cmakecache_path): os.remove(cmakecache_path) self._original_run() cmake_configure_task.run = _cmake_configure_task_run class cmake_build_task(Task.Task): run_str = '${CMAKE} --build ${CMAKE_BLD_DIR} --target ${CMAKE_TARGET}' color = 'BLUE' def exec_command(self, cmd, **kw): kw['stdout'] = sys.stdout return super(cmake_build_task, self).exec_command(cmd, **kw) def uid(self): if not hasattr(self, 'uid_'): m = Utils.md5() def u(s): m.update(s.encode('utf-8')) u(self.__class__.__name__) u(self.env.get_flat('CMAKE_BLD_DIR')) u(self.env.get_flat('CMAKE_TARGET')) self.uid_ = m.digest() return self.uid_ def __str__(self): return '%s %s' % (self.cmake.name, self.cmake_target) def keyword(self): return 'CMake Build' # allow tasks to depend on possible headers or other resources if the user # declares outputs for the cmake build cmake_build_task = Task.update_outputs(cmake_build_task) cmake_build_task.original_post_run = cmake_build_task.post_run def _cmake_build_task_post_run(self): self.output_patterns = Utils.to_list(self.output_patterns) if not self.output_patterns: return self.original_post_run() bldnode = self.cmake.bldnode for node in bldnode.ant_glob(self.output_patterns, remove=False): self.set_outputs(node) return self.original_post_run() cmake_build_task.post_run = _cmake_build_task_post_run # the cmake-generated build system is responsible of managing its own # dependencies cmake_build_task = Task.always_run(cmake_build_task) class CMakeConfig(object): ''' CMake configuration. This object shouldn't be instantiated directly. Use bld.cmake(). ''' def __init__(self, bld, name, srcnode, bldnode, cmake_vars): self.bld = bld self.name = name self.srcnode = srcnode self.bldnode = bldnode self.vars = cmake_vars self._config_task = None self.last_build_task = None def vars_keys(self): keys = list(self.vars.keys()) if not isinstance(self.vars, OrderedDict): keys.sort() return keys def config_sig(self): m = Utils.md5() def u(s): m.update(s.encode('utf-8')) u(self.srcnode.abspath()) u(self.bldnode.abspath()) keys = self.vars_keys() for k in keys: u(k) u(self.vars[k]) return m.digest() def config_task(self, taskgen): sig = self.config_sig() if self._config_task and self._config_task.cmake_config_sig == sig: return self._config_task # NOTE: we'll probably need to use the full class name in waf 1.9 self._config_task = taskgen.create_task('cmake_configure') self._config_task.cwd = self.bldnode.abspath() self._config_task.cmake = self self._config_task.cmake_config_sig = sig env = self._config_task.env env.CMAKE_BLD_DIR = self.bldnode.abspath() env.CMAKE_SRC_DIR = self.srcnode.abspath() keys = self.vars_keys() env.CMAKE_VARS = ["-D%s='%s'" % (k, self.vars[k]) for k in keys] self._config_task.set_outputs( self.bldnode.find_or_declare('CMakeCache.txt'), ) if self.last_build_task: self._config_task.set_run_after(self.last_build_task) self.bldnode.mkdir() return self._config_task def build(self, cmake_target, **kw): return self.bld.cmake_build(self.name, cmake_target, **kw) _cmake_instances = {} def get_cmake(name): if name not in _cmake_instances: raise Exception('cmake: configuration named "%s" not found' % name) return _cmake_instances[name] @conf def cmake(bld, name, cmake_src=None, cmake_bld=None, cmake_vars={}): ''' This function has two signatures: - bld.cmake(name, cmake_src, cmake_bld, cmake_vars): Create a cmake configuration. - bld.cmake(name): Get the cmake configuration with name. ''' if not cmake_src and not cmake_bld and not cmake_vars: return get_cmake(name) if name in _cmake_instances: bld.fatal('cmake: configuration named "%s" already exists' % name) if not isinstance(cmake_src, Node.Node): cmake_src = bld.path.find_dir(cmake_src) if not cmake_bld: cmake_bld = cmake_src.get_bld() elif not isinstance(cmake_bld, Node.Node): cmake_bld = bld.bldnode.make_node(cmake_bld) c = CMakeConfig(bld, name, cmake_src, cmake_bld, cmake_vars) _cmake_instances[name] = c return c @feature('cmake_build') def process_cmake_build(self): if not hasattr(self, 'cmake_target'): self.bld.fatal('cmake_build: taskgen is missing cmake_target') if not hasattr(self, 'cmake_config'): self.bld.fatal('cmake_build: taskgen is missing cmake_config') tsk = self.create_cmake_build_task(self.cmake_config, self.cmake_target) self.cmake_build_task = tsk outputs = Utils.to_list(getattr(self, 'target', '')) if not isinstance(outputs, list): outputs = [outputs] for o in outputs: if not isinstance(o, Node.Node): o = self.path.find_or_declare(o) tsk.set_outputs(o) tsk.output_patterns = getattr(self, 'cmake_output_patterns', []) @conf def cmake_build(bld, cmake_config, cmake_target, **kw): kw['cmake_config'] = cmake_config kw['cmake_target'] = cmake_target kw['features'] = Utils.to_list(kw.get('features', [])) + ['cmake_build'] if 'name' not in kw: kw['name'] = '%s_%s' % (cmake_config, cmake_target) return bld(**kw) @taskgen_method def create_cmake_build_task(self, cmake_config, cmake_target): cmake = get_cmake(cmake_config) # NOTE: we'll probably need to use the full class name in waf 1.9 tsk = self.create_task('cmake_build') tsk.cmake = cmake tsk.cmake_target = cmake_target tsk.output_patterns = [] tsk.env.CMAKE_BLD_DIR = cmake.bldnode.abspath() tsk.env.CMAKE_TARGET = cmake_target self.cmake_config_task = cmake.config_task(self) tsk.set_run_after(self.cmake_config_task) if cmake.last_build_task: tsk.set_run_after(cmake.last_build_task) cmake.last_build_task = tsk return tsk def _check_min_version(cfg): cfg.start_msg('Checking cmake version') cmd = cfg.env.get_flat('CMAKE'), '--version' out = cfg.cmd_and_log(cmd, quiet=Context.BOTH) m = re.search(r'\d+\.\d+(\.\d+(\.\d+)?)?', out) if not m: cfg.end_msg( 'unable to parse version, build is not guaranteed to succeed', color='YELLOW', ) else: version = Utils.num2ver(m.group(0)) minver_str = cfg.env.get_flat('CMAKE_MIN_VERSION') minver = Utils.num2ver(minver_str) if version < minver: cfg.fatal('cmake must be at least at version %s' % minver_str) cfg.end_msg(m.group(0)) def configure(cfg): cfg.find_program('cmake') if cfg.env.CMAKE_MIN_VERSION: _check_min_version(cfg) cfg.find_program(['ninja', 'ninja-build'], var='NINJA', mandatory=False) cfg.env.CMAKE_GENERATOR_OPTION = '' if cfg.env.NINJA: cfg.env.CMAKE_GENERATOR_OPTION = '-GNinja'