summaryrefslogtreecommitdiff
path: root/jam-files/boost-build/build/targets.py
diff options
context:
space:
mode:
Diffstat (limited to 'jam-files/boost-build/build/targets.py')
-rw-r--r--jam-files/boost-build/build/targets.py1401
1 files changed, 1401 insertions, 0 deletions
diff --git a/jam-files/boost-build/build/targets.py b/jam-files/boost-build/build/targets.py
new file mode 100644
index 00000000..a35612ce
--- /dev/null
+++ b/jam-files/boost-build/build/targets.py
@@ -0,0 +1,1401 @@
+# Status: ported.
+# Base revision: 64488
+
+# Copyright Vladimir Prus 2002-2007.
+# Copyright Rene Rivera 2006.
+#
+# Distributed under the Boost Software License, Version 1.0.
+# (See accompanying file LICENSE_1_0.txt or copy at
+# http://www.boost.org/LICENSE_1_0.txt)
+
+# Supports 'abstract' targets, which are targets explicitly defined in Jamfile.
+#
+# Abstract targets are represented by classes derived from 'AbstractTarget' class.
+# The first abstract target is 'project_target', which is created for each
+# Jamfile, and can be obtained by the 'target' rule in the Jamfile's module.
+# (see project.jam).
+#
+# Project targets keep a list of 'MainTarget' instances.
+# A main target is what the user explicitly defines in a Jamfile. It is
+# possible to have several definitions for a main target, for example to have
+# different lists of sources for different platforms. So, main targets
+# keep a list of alternatives.
+#
+# Each alternative is an instance of 'AbstractTarget'. When a main target
+# subvariant is defined by some rule, that rule will decide what class to
+# use, create an instance of that class and add it to the list of alternatives
+# for the main target.
+#
+# Rules supplied by the build system will use only targets derived
+# from 'BasicTarget' class, which will provide some default behaviour.
+# There will be two classes derived from it, 'make-target', created by the
+# 'make' rule, and 'TypedTarget', created by rules such as 'exe' and 'dll'.
+
+#
+# +------------------------+
+# |AbstractTarget |
+# +========================+
+# |name |
+# |project |
+# | |
+# |generate(properties) = 0|
+# +-----------+------------+
+# |
+# ^
+# / \
+# +-+-+
+# |
+# |
+# +------------------------+------+------------------------------+
+# | | |
+# | | |
+# +----------+-----------+ +------+------+ +------+-------+
+# | project_target | | MainTarget | | BasicTarget |
+# +======================+ 1 * +=============+ alternatives +==============+
+# | generate(properties) |o-----------+ generate |<>------------->| generate |
+# | main-target | +-------------+ | construct = 0|
+# +----------------------+ +--------------+
+# |
+# ^
+# / \
+# +-+-+
+# |
+# |
+# ...--+----------------+------------------+----------------+---+
+# | | | |
+# | | | |
+# ... ---+-----+ +------+-------+ +------+------+ +--------+-----+
+# | | TypedTarget | | make-target | | stage-target |
+# . +==============+ +=============+ +==============+
+# . | construct | | construct | | construct |
+# +--------------+ +-------------+ +--------------+
+
+import re
+import os.path
+import sys
+
+from b2.manager import get_manager
+
+from b2.util.utility import *
+import property, project, virtual_target, property_set, feature, generators, toolset
+from virtual_target import Subvariant
+from b2.exceptions import *
+from b2.util.sequence import unique
+from b2.util import path, bjam_signature
+from b2.build.errors import user_error_checkpoint
+
+import b2.build.build_request as build_request
+
+import b2.util.set
+_re_separate_target_from_properties = re.compile (r'^([^<]*)(/(<.*))?$')
+
+class TargetRegistry:
+
+ def __init__ (self):
+ # All targets that are currently being built.
+ # Only the key is id (target), the value is the actual object.
+ self.targets_being_built_ = {}
+
+ # Current indent for debugging messages
+ self.indent_ = ""
+
+ self.debug_building_ = "--debug-building" in bjam.variable("ARGV")
+
+ self.targets_ = []
+
+ def main_target_alternative (self, target):
+ """ Registers the specified target as a main target alternatives.
+ Returns 'target'.
+ """
+ target.project ().add_alternative (target)
+ return target
+
+ def main_target_sources (self, sources, main_target_name, no_renaming=0):
+ """Return the list of sources to use, if main target rule is invoked
+ with 'sources'. If there are any objects in 'sources', they are treated
+ as main target instances, and the name of such targets are adjusted to
+ be '<name_of_this_target>__<name_of_source_target>'. Such renaming
+ is disabled is non-empty value is passed for 'no-renaming' parameter."""
+ result = []
+
+ for t in sources:
+
+ t = b2.util.jam_to_value_maybe(t)
+
+ if isinstance (t, AbstractTarget):
+ name = t.name ()
+
+ if not no_renaming:
+ name = main_target_name + '__' + name
+ t.rename (name)
+
+ # Inline targets are not built by default.
+ p = t.project()
+ p.mark_targets_as_explicit([name])
+ result.append(name)
+
+ else:
+ result.append (t)
+
+ return result
+
+
+ def main_target_requirements(self, specification, project):
+ """Returns the requirement to use when declaring a main target,
+ which are obtained by
+ - translating all specified property paths, and
+ - refining project requirements with the one specified for the target
+
+ 'specification' are the properties xplicitly specified for a
+ main target
+ 'project' is the project where the main taret is to be declared."""
+
+ specification.extend(toolset.requirements())
+
+ requirements = property_set.refine_from_user_input(
+ project.get("requirements"), specification,
+ project.project_module(), project.get("location"))
+
+ return requirements
+
+ def main_target_usage_requirements (self, specification, project):
+ """ Returns the use requirement to use when declaraing a main target,
+ which are obtained by
+ - translating all specified property paths, and
+ - adding project's usage requirements
+ specification: Use-properties explicitly specified for a main target
+ project: Project where the main target is to be declared
+ """
+ project_usage_requirements = project.get ('usage-requirements')
+
+ # We don't use 'refine-from-user-input' because I'm not sure if:
+ # - removing of parent's usage requirements makes sense
+ # - refining of usage requirements is not needed, since usage requirements
+ # are always free.
+ usage_requirements = property_set.create_from_user_input(
+ specification, project.project_module(), project.get("location"))
+
+ return project_usage_requirements.add (usage_requirements)
+
+ def main_target_default_build (self, specification, project):
+ """ Return the default build value to use when declaring a main target,
+ which is obtained by using specified value if not empty and parent's
+ default build attribute otherwise.
+ specification: Default build explicitly specified for a main target
+ project: Project where the main target is to be declared
+ """
+ if specification:
+ return property_set.create_with_validation(specification)
+ else:
+ return project.get ('default-build')
+
+ def start_building (self, main_target_instance):
+ """ Helper rules to detect cycles in main target references.
+ """
+ if self.targets_being_built_.has_key(id(main_target_instance)):
+ names = []
+ for t in self.targets_being_built_.values() + [main_target_instance]:
+ names.append (t.full_name())
+
+ get_manager().errors()("Recursion in main target references\n")
+
+ self.targets_being_built_[id(main_target_instance)] = main_target_instance
+
+ def end_building (self, main_target_instance):
+ assert (self.targets_being_built_.has_key (id (main_target_instance)))
+ del self.targets_being_built_ [id (main_target_instance)]
+
+ def create_typed_target (self, type, project, name, sources, requirements, default_build, usage_requirements):
+ """ Creates a TypedTarget with the specified properties.
+ The 'name', 'sources', 'requirements', 'default_build' and
+ 'usage_requirements' are assumed to be in the form specified
+ by the user in Jamfile corresponding to 'project'.
+ """
+ return self.main_target_alternative (TypedTarget (name, project, type,
+ self.main_target_sources (sources, name),
+ self.main_target_requirements (requirements, project),
+ self.main_target_default_build (default_build, project),
+ self.main_target_usage_requirements (usage_requirements, project)))
+
+ def increase_indent(self):
+ self.indent_ += " "
+
+ def decrease_indent(self):
+ self.indent_ = self.indent_[0:-4]
+
+ def logging(self):
+ return self.debug_building_
+
+ def log(self, message):
+ if self.debug_building_:
+ print self.indent_ + message
+
+ def push_target(self, target):
+ self.targets_.append(target)
+
+ def pop_target(self):
+ self.targets_ = self.targets_[:-1]
+
+ def current(self):
+ return self.targets_[0]
+
+
+class GenerateResult:
+
+ def __init__ (self, ur=None, targets=None):
+ if not targets:
+ targets = []
+
+ self.__usage_requirements = ur
+ self.__targets = targets
+ assert all(isinstance(t, virtual_target.VirtualTarget) for t in targets)
+
+ if not self.__usage_requirements:
+ self.__usage_requirements = property_set.empty ()
+
+ def usage_requirements (self):
+ return self.__usage_requirements
+
+ def targets (self):
+ return self.__targets
+
+ def extend (self, other):
+ assert (isinstance (other, GenerateResult))
+
+ self.__usage_requirements = self.__usage_requirements.add (other.usage_requirements ())
+ self.__targets.extend (other.targets ())
+
+class AbstractTarget:
+ """ Base class for all abstract targets.
+ """
+ def __init__ (self, name, project, manager = None):
+ """ manager: the Manager object
+ name: name of the target
+ project: the project target to which this one belongs
+ manager:the manager object. If none, uses project.manager ()
+ """
+ assert (isinstance (project, ProjectTarget))
+ # Note: it might seem that we don't need either name or project at all.
+ # However, there are places where we really need it. One example is error
+ # messages which should name problematic targets. Another is setting correct
+ # paths for sources and generated files.
+
+ # Why allow manager to be specified? Because otherwise project target could not derive
+ # from this class.
+ if manager:
+ self.manager_ = manager
+ else:
+ self.manager_ = project.manager ()
+
+ self.name_ = name
+ self.project_ = project
+
+ def manager (self):
+ return self.manager_
+
+ def name (self):
+ """ Returns the name of this target.
+ """
+ return self.name_
+
+ def project (self):
+ """ Returns the project for this target.
+ """
+ return self.project_
+
+ def location (self):
+ """ Return the location where the target was declared.
+ """
+ return self.location_
+
+ def full_name (self):
+ """ Returns a user-readable name for this target.
+ """
+ location = self.project ().get ('location')
+ return location + '/' + self.name_
+
+ def generate (self, property_set):
+ """ Takes a property set. Generates virtual targets for this abstract
+ target, using the specified properties, unless a different value of some
+ feature is required by the target.
+ On success, returns a GenerateResult instance with:
+ - a property_set with the usage requirements to be
+ applied to dependents
+ - a list of produced virtual targets, which may be
+ empty.
+ If 'property_set' is empty, performs default build of this
+ target, in a way specific to derived class.
+ """
+ raise BaseException ("method should be defined in derived classes")
+
+ def rename (self, new_name):
+ self.name_ = new_name
+
+class ProjectTarget (AbstractTarget):
+ """ Project target class (derived from 'AbstractTarget')
+
+ This class these responsibilities:
+ - maintaining a list of main target in this project and
+ building it
+
+ Main targets are constructed in two stages:
+ - When Jamfile is read, a number of calls to 'add_alternative' is made.
+ At that time, alternatives can also be renamed to account for inline
+ targets.
+ - The first time 'main-target' or 'has-main-target' rule is called,
+ all alternatives are enumerated an main targets are created.
+ """
+ def __init__ (self, manager, name, project_module, parent_project, requirements, default_build):
+ AbstractTarget.__init__ (self, name, self, manager)
+
+ self.project_module_ = project_module
+ self.location_ = manager.projects().attribute (project_module, 'location')
+ self.requirements_ = requirements
+ self.default_build_ = default_build
+
+ self.build_dir_ = None
+
+ # A cache of IDs
+ self.ids_cache_ = {}
+
+ # True is main targets have already been built.
+ self.built_main_targets_ = False
+
+ # A list of the registered alternatives for this project.
+ self.alternatives_ = []
+
+ # A map from main target name to the target corresponding
+ # to it.
+ self.main_target_ = {}
+
+ # Targets marked as explicit.
+ self.explicit_targets_ = set()
+
+ # Targets marked as always
+ self.always_targets_ = set()
+
+ # The constants defined for this project.
+ self.constants_ = {}
+
+ # Whether targets for all main target are already created.
+ self.built_main_targets_ = 0
+
+ if parent_project:
+ self.inherit (parent_project)
+
+
+ # TODO: This is needed only by the 'make' rule. Need to find the
+ # way to make 'make' work without this method.
+ def project_module (self):
+ return self.project_module_
+
+ def get (self, attribute):
+ return self.manager().projects().attribute(
+ self.project_module_, attribute)
+
+ def build_dir (self):
+ if not self.build_dir_:
+ self.build_dir_ = self.get ('build-dir')
+ if not self.build_dir_:
+ self.build_dir_ = os.path.join(self.project_.get ('location'), 'bin')
+
+ return self.build_dir_
+
+ def generate (self, ps):
+ """ Generates all possible targets contained in this project.
+ """
+ self.manager_.targets().log(
+ "Building project '%s' with '%s'" % (self.name (), str(ps)))
+ self.manager_.targets().increase_indent ()
+
+ result = GenerateResult ()
+
+ for t in self.targets_to_build ():
+ g = t.generate (ps)
+ result.extend (g)
+
+ self.manager_.targets().decrease_indent ()
+ return result
+
+ def targets_to_build (self):
+ """ Computes and returns a list of AbstractTarget instances which
+ must be built when this project is built.
+ """
+ result = []
+
+ if not self.built_main_targets_:
+ self.build_main_targets ()
+
+ # Collect all main targets here, except for "explicit" ones.
+ for n, t in self.main_target_.iteritems ():
+ if not t.name () in self.explicit_targets_:
+ result.append (t)
+
+ # Collect all projects referenced via "projects-to-build" attribute.
+ self_location = self.get ('location')
+ for pn in self.get ('projects-to-build'):
+ result.append (self.find(pn + "/"))
+
+ return result
+
+ def mark_targets_as_explicit (self, target_names):
+ """Add 'target' to the list of targets in this project
+ that should be build only by explicit request."""
+
+ # Record the name of the target, not instance, since this
+ # rule is called before main target instaces are created.
+ self.explicit_targets_.update(target_names)
+
+ def mark_targets_as_always(self, target_names):
+ self.always_targets_.update(target_names)
+
+ def add_alternative (self, target_instance):
+ """ Add new target alternative.
+ """
+ if self.built_main_targets_:
+ raise IllegalOperation ("add-alternative called when main targets are already created for project '%s'" % self.full_name ())
+
+ self.alternatives_.append (target_instance)
+
+ def main_target (self, name):
+ if not self.built_main_targets_:
+ self.build_main_targets()
+
+ return self.main_target_[name]
+
+ def has_main_target (self, name):
+ """Tells if a main target with the specified name exists."""
+ if not self.built_main_targets_:
+ self.build_main_targets()
+
+ return self.main_target_.has_key(name)
+
+ def create_main_target (self, name):
+ """ Returns a 'MainTarget' class instance corresponding to the 'name'.
+ """
+ if not self.built_main_targets_:
+ self.build_main_targets ()
+
+ return self.main_targets_.get (name, None)
+
+
+ def find_really(self, id):
+ """ Find and return the target with the specified id, treated
+ relative to self.
+ """
+ result = None
+ current_location = self.get ('location')
+
+ __re_split_project_target = re.compile (r'(.*)//(.*)')
+ split = __re_split_project_target.match (id)
+
+ project_part = None
+ target_part = None
+
+ if split:
+ project_part = split.group (1)
+ target_part = split.group (2)
+
+ project_registry = self.project_.manager ().projects ()
+
+ extra_error_message = ''
+ if project_part:
+ # There's explicit project part in id. Looks up the
+ # project and pass the request to it.
+ pm = project_registry.find (project_part, current_location)
+
+ if pm:
+ project_target = project_registry.target (pm)
+ result = project_target.find (target_part, no_error=1)
+
+ else:
+ extra_error_message = "error: could not find project '$(project_part)'"
+
+ else:
+ # Interpret target-name as name of main target
+ # Need to do this before checking for file. Consider this:
+ #
+ # exe test : test.cpp ;
+ # install s : test : <location>. ;
+ #
+ # After first build we'll have target 'test' in Jamfile and file
+ # 'test' on the disk. We need target to override the file.
+
+ result = None
+ if self.has_main_target(id):
+ result = self.main_target(id)
+
+ if not result:
+ result = FileReference (self.manager_, id, self.project_)
+ if not result.exists ():
+ # File actually does not exist.
+ # Reset 'target' so that an error is issued.
+ result = None
+
+
+ if not result:
+ # Interpret id as project-id
+ project_module = project_registry.find (id, current_location)
+ if project_module:
+ result = project_registry.target (project_module)
+
+ return result
+
+ def find (self, id, no_error = False):
+ v = self.ids_cache_.get (id, None)
+
+ if not v:
+ v = self.find_really (id)
+ self.ids_cache_ [id] = v
+
+ if v or no_error:
+ return v
+
+ raise BaseException ("Unable to find file or target named '%s'\nreferred from project at '%s'" % (id, self.get ('location')))
+
+
+ def build_main_targets (self):
+ self.built_main_targets_ = True
+
+ for a in self.alternatives_:
+ name = a.name ()
+ if not self.main_target_.has_key (name):
+ t = MainTarget (name, self.project_)
+ self.main_target_ [name] = t
+
+ if name in self.always_targets_:
+ a.always()
+
+ self.main_target_ [name].add_alternative (a)
+
+ def add_constant(self, name, value, path=0):
+ """Adds a new constant for this project.
+
+ The constant will be available for use in Jamfile
+ module for this project. If 'path' is true,
+ the constant will be interpreted relatively
+ to the location of project.
+ """
+
+ if path:
+ l = self.location_
+ if not l:
+ # Project corresponding to config files do not have
+ # 'location' attribute, but do have source location.
+ # It might be more reasonable to make every project have
+ # a location and use some other approach to prevent buildable
+ # targets in config files, but that's for later.
+ l = get('source-location')
+
+ value = os.path.join(l, value)
+ # Now make the value absolute path
+ value = os.path.join(os.getcwd(), value)
+
+ self.constants_[name] = value
+ bjam.call("set-variable", self.project_module(), name, value)
+
+ def inherit(self, parent_project):
+ for c in parent_project.constants_:
+ # No need to pass the type. Path constants were converted to
+ # absolute paths already by parent.
+ self.add_constant(c, parent_project.constants_[c])
+
+ # Import rules from parent
+ this_module = self.project_module()
+ parent_module = parent_project.project_module()
+
+ rules = bjam.call("RULENAMES", parent_module)
+ if not rules:
+ rules = []
+ user_rules = [x for x in rules
+ if x not in self.manager().projects().project_rules().all_names()]
+ if user_rules:
+ bjam.call("import-rules-from-parent", parent_module, this_module, user_rules)
+
+class MainTarget (AbstractTarget):
+ """ A named top-level target in Jamfile.
+ """
+ def __init__ (self, name, project):
+ AbstractTarget.__init__ (self, name, project)
+ self.alternatives_ = []
+ self.default_build_ = property_set.empty ()
+
+ def add_alternative (self, target):
+ """ Add a new alternative for this target.
+ """
+ d = target.default_build ()
+
+ if self.alternatives_ and self.default_build_ != d:
+ get_manager().errors()("default build must be identical in all alternatives\n"
+ "main target is '%s'\n"
+ "with '%s'\n"
+ "differing from previous default build: '%s'" % (self.full_name (), d.raw (), self.default_build_.raw ()))
+
+ else:
+ self.default_build_ = d
+
+ self.alternatives_.append (target)
+
+ def __select_alternatives (self, property_set, debug):
+ """ Returns the best viable alternative for this property_set
+ See the documentation for selection rules.
+ # TODO: shouldn't this be 'alternative' (singular)?
+ """
+ # When selecting alternatives we have to consider defaults,
+ # for example:
+ # lib l : l.cpp : <variant>debug ;
+ # lib l : l_opt.cpp : <variant>release ;
+ # won't work unless we add default value <variant>debug.
+ property_set = property_set.add_defaults ()
+
+ # The algorithm: we keep the current best viable alternative.
+ # When we've got new best viable alternative, we compare it
+ # with the current one.
+ best = None
+ best_properties = None
+
+ if len (self.alternatives_) == 0:
+ return None
+
+ if len (self.alternatives_) == 1:
+ return self.alternatives_ [0]
+
+ if debug:
+ print "Property set for selection:", property_set
+
+ for v in self.alternatives_:
+ properties = v.match (property_set, debug)
+
+ if properties is not None:
+ if not best:
+ best = v
+ best_properties = properties
+
+ else:
+ if b2.util.set.equal (properties, best_properties):
+ return None
+
+ elif b2.util.set.contains (properties, best_properties):
+ # Do nothing, this alternative is worse
+ pass
+
+ elif b2.util.set.contains (best_properties, properties):
+ best = v
+ best_properties = properties
+
+ else:
+ return None
+
+ return best
+
+ def apply_default_build (self, property_set):
+ return apply_default_build(property_set, self.default_build_)
+
+ def generate (self, ps):
+ """ Select an alternative for this main target, by finding all alternatives
+ which requirements are satisfied by 'properties' and picking the one with
+ longest requirements set.
+ Returns the result of calling 'generate' on that alternative.
+ """
+ self.manager_.targets ().start_building (self)
+
+ # We want composite properties in build request act as if
+ # all the properties it expands too are explicitly specified.
+ ps = ps.expand ()
+
+ all_property_sets = self.apply_default_build (ps)
+
+ result = GenerateResult ()
+
+ for p in all_property_sets:
+ result.extend (self.__generate_really (p))
+
+ self.manager_.targets ().end_building (self)
+
+ return result
+
+ def __generate_really (self, prop_set):
+ """ Generates the main target with the given property set
+ and returns a list which first element is property_set object
+ containing usage_requirements of generated target and with
+ generated virtual target in other elements. It's possible
+ that no targets are generated.
+ """
+ best_alternative = self.__select_alternatives (prop_set, debug=0)
+
+ if not best_alternative:
+ # FIXME: revive.
+ # self.__select_alternatives(prop_set, debug=1)
+ self.manager_.errors()(
+ "No best alternative for '%s'.\n"
+ % (self.full_name(),))
+
+ result = best_alternative.generate (prop_set)
+
+ # Now return virtual targets for the only alternative
+ return result
+
+ def rename(self, new_name):
+ AbstractTarget.rename(self, new_name)
+ for a in self.alternatives_:
+ a.rename(new_name)
+
+class FileReference (AbstractTarget):
+ """ Abstract target which refers to a source file.
+ This is artificial creature; it's usefull so that sources to
+ a target can be represented as list of abstract target instances.
+ """
+ def __init__ (self, manager, file, project):
+ AbstractTarget.__init__ (self, file, project)
+ self.file_location_ = None
+
+ def generate (self, properties):
+ return GenerateResult (None, [
+ self.manager_.virtual_targets ().from_file (
+ self.name_, self.location(), self.project_) ])
+
+ def exists (self):
+ """ Returns true if the referred file really exists.
+ """
+ if self.location ():
+ return True
+ else:
+ return False
+
+ def location (self):
+ # Returns the location of target. Needed by 'testing.jam'
+ if not self.file_location_:
+ source_location = self.project_.get('source-location')
+
+ for src_dir in source_location:
+ location = os.path.join(src_dir, self.name())
+ if os.path.isfile(location):
+ self.file_location_ = src_dir
+ self.file_path = location
+ break
+
+ return self.file_location_
+
+def resolve_reference(target_reference, project):
+ """ Given a target_reference, made in context of 'project',
+ returns the AbstractTarget instance that is referred to, as well
+ as properties explicitly specified for this reference.
+ """
+ # Separate target name from properties override
+ split = _re_separate_target_from_properties.match (target_reference)
+ if not split:
+ raise BaseException ("Invalid reference: '%s'" % target_reference)
+
+ id = split.group (1)
+
+ sproperties = []
+
+ if split.group (3):
+ sproperties = property.create_from_strings(feature.split(split.group(3)))
+ sproperties = feature.expand_composites(sproperties)
+
+ # Find the target
+ target = project.find (id)
+
+ return (target, property_set.create(sproperties))
+
+def generate_from_reference(target_reference, project, property_set):
+ """ Attempts to generate the target given by target reference, which
+ can refer both to a main target or to a file.
+ Returns a list consisting of
+ - usage requirements
+ - generated virtual targets, if any
+ target_reference: Target reference
+ project: Project where the reference is made
+ property_set: Properties of the main target that makes the reference
+ """
+ target, sproperties = resolve_reference(target_reference, project)
+
+ # Take properties which should be propagated and refine them
+ # with source-specific requirements.
+ propagated = property_set.propagated()
+ rproperties = propagated.refine(sproperties)
+
+ return target.generate(rproperties)
+
+
+
+class BasicTarget (AbstractTarget):
+ """ Implements the most standard way of constructing main target
+ alternative from sources. Allows sources to be either file or
+ other main target and handles generation of those dependency
+ targets.
+ """
+ def __init__ (self, name, project, sources, requirements = None, default_build = None, usage_requirements = None):
+ AbstractTarget.__init__ (self, name, project)
+
+ for s in sources:
+ if get_grist (s):
+ raise InvalidSource ("property '%s' found in the 'sources' parameter for '%s'" % (s, name))
+
+ self.sources_ = sources
+
+ if not requirements: requirements = property_set.empty ()
+ self.requirements_ = requirements
+
+ if not default_build: default_build = property_set.empty ()
+ self.default_build_ = default_build
+
+ if not usage_requirements: usage_requirements = property_set.empty ()
+ self.usage_requirements_ = usage_requirements
+
+ # A cache for resolved references
+ self.source_targets_ = None
+
+ # A cache for generated targets
+ self.generated_ = {}
+
+ # A cache for build requests
+ self.request_cache = {}
+
+ # Result of 'capture_user_context' has everything. For example, if this
+ # target is declare as result of loading Jamfile which was loaded when
+ # building target B which was requested from A, then we'll have A, B and
+ # Jamroot location in context. We only care about Jamroot location, most
+ # of the times.
+ self.user_context_ = self.manager_.errors().capture_user_context()[-1:]
+
+ self.always_ = False
+
+ def always(self):
+ self.always_ = True
+
+ def sources (self):
+ """ Returns the list of AbstractTargets which are used as sources.
+ The extra properties specified for sources are not represented.
+ The only used of this rule at the moment is the '--dump-tests'
+ feature of the test system.
+ """
+ if self.source_targets_ == None:
+ self.source_targets_ = []
+ for s in self.sources_:
+ self.source_targets_.append(resolve_reference(s, self.project_)[0])
+
+ return self.source_targets_
+
+ def requirements (self):
+ return self.requirements_
+
+ def default_build (self):
+ return self.default_build_
+
+ def common_properties (self, build_request, requirements):
+ """ Given build request and requirements, return properties
+ common to dependency build request and target build
+ properties.
+ """
+ # For optimization, we add free unconditional requirements directly,
+ # without using complex algorithsm.
+ # This gives the complex algorithm better chance of caching results.
+ # The exact effect of this "optimization" is no longer clear
+ free_unconditional = []
+ other = []
+ for p in requirements.all():
+ if p.feature().free() and not p.condition() and p.feature().name() != 'conditional':
+ free_unconditional.append(p)
+ else:
+ other.append(p)
+ other = property_set.create(other)
+
+ key = (build_request, other)
+ if not self.request_cache.has_key(key):
+ self.request_cache[key] = self.__common_properties2 (build_request, other)
+
+ return self.request_cache[key].add_raw(free_unconditional)
+
+ # Given 'context' -- a set of already present properties, and 'requirements',
+ # decide which extra properties should be applied to 'context'.
+ # For conditional requirements, this means evaluating condition. For
+ # indirect conditional requirements, this means calling a rule. Ordinary
+ # requirements are always applied.
+ #
+ # Handles situation where evaluating one conditional requirements affects
+ # condition of another conditional requirements, for example:
+ #
+ # <toolset>gcc:<variant>release <variant>release:<define>RELEASE
+ #
+ # If 'what' is 'refined' returns context refined with new requirements.
+ # If 'what' is 'added' returns just the requirements that must be applied.
+ def evaluate_requirements(self, requirements, context, what):
+ # Apply non-conditional requirements.
+ # It's possible that that further conditional requirement change
+ # a value set by non-conditional requirements. For example:
+ #
+ # exe a : a.cpp : <threading>single <toolset>foo:<threading>multi ;
+ #
+ # I'm not sure if this should be an error, or not, especially given that
+ #
+ # <threading>single
+ #
+ # might come from project's requirements.
+ unconditional = feature.expand(requirements.non_conditional())
+
+ context = context.refine(property_set.create(unconditional))
+
+ # We've collected properties that surely must be present in common
+ # properties. We now try to figure out what other properties
+ # should be added in order to satisfy rules (4)-(6) from the docs.
+
+ conditionals = property_set.create(requirements.conditional())
+
+ # It's supposed that #conditionals iterations
+ # should be enough for properties to propagate along conditions in any
+ # direction.
+ max_iterations = len(conditionals.all()) +\
+ len(requirements.get("<conditional>")) + 1
+
+ added_requirements = []
+ current = context
+
+ # It's assumed that ordinary conditional requirements can't add
+ # <indirect-conditional> properties, and that rules referred
+ # by <indirect-conditional> properties can't add new
+ # <indirect-conditional> properties. So the list of indirect conditionals
+ # does not change.
+ indirect = requirements.get("<conditional>")
+
+ ok = 0
+ for i in range(0, max_iterations):
+
+ e = conditionals.evaluate_conditionals(current).all()[:]
+
+ # Evaluate indirect conditionals.
+ for i in indirect:
+ i = b2.util.jam_to_value_maybe(i)
+ if callable(i):
+ # This is Python callable, yeah.
+ e.extend(i(current))
+ else:
+ # Name of bjam function. Because bjam is unable to handle
+ # list of Property, pass list of strings.
+ br = b2.util.call_jam_function(i[1:], [str(p) for p in current.all()])
+ if br:
+ e.extend(property.create_from_strings(br))
+
+ if e == added_requirements:
+ # If we got the same result, we've found final properties.
+ ok = 1
+ break
+ else:
+ # Oops, results of evaluation of conditionals has changed.
+ # Also 'current' contains leftover from previous evaluation.
+ # Recompute 'current' using initial properties and conditional
+ # requirements.
+ added_requirements = e
+ current = context.refine(property_set.create(feature.expand(e)))
+
+ if not ok:
+ self.manager().errors()("Can't evaluate conditional properties "
+ + str(conditionals))
+
+
+ if what == "added":
+ return property_set.create(unconditional + added_requirements)
+ elif what == "refined":
+ return current
+ else:
+ self.manager().errors("Invalid value of the 'what' parameter")
+
+ def __common_properties2(self, build_request, requirements):
+ # This guarantees that default properties are present
+ # in result, unless they are overrided by some requirement.
+ # TODO: There is possibility that we've added <foo>bar, which is composite
+ # and expands to <foo2>bar2, but default value of <foo2> is not bar2,
+ # in which case it's not clear what to do.
+ #
+ build_request = build_request.add_defaults()
+ # Featured added by 'add-default' can be composite and expand
+ # to features without default values -- so they are not added yet.
+ # It could be clearer/faster to expand only newly added properties
+ # but that's not critical.
+ build_request = build_request.expand()
+
+ return self.evaluate_requirements(requirements, build_request,
+ "refined")
+
+ def match (self, property_set, debug):
+ """ Returns the alternative condition for this alternative, if
+ the condition is satisfied by 'property_set'.
+ """
+ # The condition is composed of all base non-conditional properties.
+ # It's not clear if we should expand 'self.requirements_' or not.
+ # For one thing, it would be nice to be able to put
+ # <toolset>msvc-6.0
+ # in requirements.
+ # On the other hand, if we have <variant>release in condition it
+ # does not make sense to require <optimization>full to be in
+ # build request just to select this variant.
+ bcondition = self.requirements_.base ()
+ ccondition = self.requirements_.conditional ()
+ condition = b2.util.set.difference (bcondition, ccondition)
+
+ if debug:
+ print " next alternative: required properties:", [str(p) for p in condition]
+
+ if b2.util.set.contains (condition, property_set.all()):
+
+ if debug:
+ print " matched"
+
+ return condition
+
+ else:
+ return None
+
+
+ def generate_dependency_targets (self, target_ids, property_set):
+ targets = []
+ usage_requirements = []
+ for id in target_ids:
+
+ result = generate_from_reference(id, self.project_, property_set)
+ targets += result.targets()
+ usage_requirements += result.usage_requirements().all()
+
+ return (targets, usage_requirements)
+
+ def generate_dependency_properties(self, properties, ps):
+ """ Takes a target reference, which might be either target id
+ or a dependency property, and generates that target using
+ 'property_set' as build request.
+
+ Returns a tuple (result, usage_requirements).
+ """
+ result_properties = []
+ usage_requirements = []
+ for p in properties:
+
+ result = generate_from_reference(p.value(), self.project_, ps)
+
+ for t in result.targets():
+ result_properties.append(property.Property(p.feature(), t))
+
+ usage_requirements += result.usage_requirements().all()
+
+ return (result_properties, usage_requirements)
+
+
+
+
+ @user_error_checkpoint
+ def generate (self, ps):
+ """ Determines final build properties, generates sources,
+ and calls 'construct'. This method should not be
+ overridden.
+ """
+ self.manager_.errors().push_user_context(
+ "Generating target " + self.full_name(), self.user_context_)
+
+ if self.manager().targets().logging():
+ self.manager().targets().log(
+ "Building target '%s'" % self.name_)
+ self.manager().targets().increase_indent ()
+ self.manager().targets().log(
+ "Build request: '%s'" % str (ps.raw ()))
+ cf = self.manager().command_line_free_features()
+ self.manager().targets().log(
+ "Command line free features: '%s'" % str (cf.raw ()))
+ self.manager().targets().log(
+ "Target requirements: %s'" % str (self.requirements().raw ()))
+
+ self.manager().targets().push_target(self)
+
+ if not self.generated_.has_key(ps):
+
+ # Apply free features form the command line. If user
+ # said
+ # define=FOO
+ # he most likely want this define to be set for all compiles.
+ ps = ps.refine(self.manager().command_line_free_features())
+ rproperties = self.common_properties (ps, self.requirements_)
+
+ self.manager().targets().log(
+ "Common properties are '%s'" % str (rproperties))
+
+ if rproperties.get("<build>") != ["no"]:
+
+ result = GenerateResult ()
+
+ properties = rproperties.non_dependency ()
+
+ (p, u) = self.generate_dependency_properties (rproperties.dependency (), rproperties)
+ properties += p
+ assert all(isinstance(p, property.Property) for p in properties)
+ usage_requirements = u
+
+ (source_targets, u) = self.generate_dependency_targets (self.sources_, rproperties)
+ usage_requirements += u
+
+ self.manager_.targets().log(
+ "Usage requirements for '%s' are '%s'" % (self.name_, usage_requirements))
+
+ # FIXME:
+
+ rproperties = property_set.create(properties + usage_requirements)
+ usage_requirements = property_set.create (usage_requirements)
+
+ self.manager_.targets().log(
+ "Build properties: '%s'" % str(rproperties))
+
+ source_targets += rproperties.get('<source>')
+
+ # We might get duplicate sources, for example if
+ # we link to two library which have the same <library> in
+ # usage requirements.
+ # Use stable sort, since for some targets the order is
+ # important. E.g. RUN_PY target need python source to come
+ # first.
+ source_targets = unique(source_targets, stable=True)
+
+ # FIXME: figure why this call messes up source_targets in-place
+ result = self.construct (self.name_, source_targets[:], rproperties)
+
+ if result:
+ assert len(result) == 2
+ gur = result [0]
+ result = result [1]
+
+ if self.always_:
+ for t in result:
+ t.always()
+
+ s = self.create_subvariant (
+ result,
+ self.manager().virtual_targets().recent_targets(), ps,
+ source_targets, rproperties, usage_requirements)
+ self.manager().virtual_targets().clear_recent_targets()
+
+ ur = self.compute_usage_requirements (s)
+ ur = ur.add (gur)
+ s.set_usage_requirements (ur)
+
+ self.manager_.targets().log (
+ "Usage requirements from '%s' are '%s'" %
+ (self.name(), str(rproperties)))
+
+ self.generated_[ps] = GenerateResult (ur, result)
+ else:
+ self.generated_[ps] = GenerateResult (property_set.empty(), [])
+ else:
+ # If we just see <build>no, we cannot produce any reasonable
+ # diagnostics. The code that adds this property is expected
+ # to explain why a target is not built, for example using
+ # the configure.log-component-configuration function.
+
+ # If this target fails to build, add <build>no to properties
+ # to cause any parent target to fail to build. Except that it
+ # - does not work now, since we check for <build>no only in
+ # common properties, but not in properties that came from
+ # dependencies
+ # - it's not clear if that's a good idea anyway. The alias
+ # target, for example, should not fail to build if a dependency
+ # fails.
+ self.generated_[ps] = GenerateResult(
+ property_set.create(["<build>no"]), [])
+ else:
+ self.manager().targets().log ("Already built")
+
+ self.manager().targets().pop_target()
+ self.manager().targets().decrease_indent()
+
+ return self.generated_[ps]
+
+ def compute_usage_requirements (self, subvariant):
+ """ Given the set of generated targets, and refined build
+ properties, determines and sets appripriate usage requirements
+ on those targets.
+ """
+ rproperties = subvariant.build_properties ()
+ xusage_requirements =self.evaluate_requirements(
+ self.usage_requirements_, rproperties, "added")
+
+ # We generate all dependency properties and add them,
+ # as well as their usage requirements, to result.
+ (r1, r2) = self.generate_dependency_properties(xusage_requirements.dependency (), rproperties)
+ extra = r1 + r2
+
+ result = property_set.create (xusage_requirements.non_dependency () + extra)
+
+ # Propagate usage requirements we've got from sources, except
+ # for the <pch-header> and <pch-file> features.
+ #
+ # That feature specifies which pch file to use, and should apply
+ # only to direct dependents. Consider:
+ #
+ # pch pch1 : ...
+ # lib lib1 : ..... pch1 ;
+ # pch pch2 :
+ # lib lib2 : pch2 lib1 ;
+ #
+ # Here, lib2 should not get <pch-header> property from pch1.
+ #
+ # Essentially, when those two features are in usage requirements,
+ # they are propagated only to direct dependents. We might need
+ # a more general mechanism, but for now, only those two
+ # features are special.
+ raw = subvariant.sources_usage_requirements().raw()
+ raw = property.change(raw, "<pch-header>", None);
+ raw = property.change(raw, "<pch-file>", None);
+ result = result.add(property_set.create(raw))
+
+ return result
+
+ def create_subvariant (self, root_targets, all_targets,
+ build_request, sources,
+ rproperties, usage_requirements):
+ """Creates a new subvariant-dg instances for 'targets'
+ - 'root-targets' the virtual targets will be returned to dependents
+ - 'all-targets' all virtual
+ targets created while building this main target
+ - 'build-request' is property-set instance with
+ requested build properties"""
+
+ for e in root_targets:
+ e.root (True)
+
+ s = Subvariant (self, build_request, sources,
+ rproperties, usage_requirements, all_targets)
+
+ for v in all_targets:
+ if not v.creating_subvariant():
+ v.creating_subvariant(s)
+
+ return s
+
+ def construct (self, name, source_targets, properties):
+ """ Constructs the virtual targets for this abstract targets and
+ the dependecy graph. Returns a tuple consisting of the properties and the list of virtual targets.
+ Should be overrided in derived classes.
+ """
+ raise BaseException ("method should be defined in derived classes")
+
+
+class TypedTarget (BasicTarget):
+ import generators
+
+ def __init__ (self, name, project, type, sources, requirements, default_build, usage_requirements):
+ BasicTarget.__init__ (self, name, project, sources, requirements, default_build, usage_requirements)
+ self.type_ = type
+
+ def __jam_repr__(self):
+ return b2.util.value_to_jam(self)
+
+ def type (self):
+ return self.type_
+
+ def construct (self, name, source_targets, prop_set):
+
+ r = generators.construct (self.project_, name, self.type_,
+ prop_set.add_raw(['<main-target-type>' + self.type_]),
+ source_targets, True)
+
+ if not r:
+ print "warning: Unable to construct '%s'" % self.full_name ()
+
+ # Are there any top-level generators for this type/property set.
+ if not generators.find_viable_generators (self.type_, prop_set):
+ print "error: no generators were found for type '" + self.type_ + "'"
+ print "error: and the requested properties"
+ print "error: make sure you've configured the needed tools"
+ print "See http://boost.org/boost-build2/doc/html/bbv2/advanced/configuration.html"
+
+ print "To debug this problem, try the --debug-generators option."
+ sys.exit(1)
+
+ return r
+
+def apply_default_build(property_set, default_build):
+ # 1. First, see what properties from default_build
+ # are already present in property_set.
+
+ specified_features = set(p.feature() for p in property_set.all())
+
+ defaults_to_apply = []
+ for d in default_build.all():
+ if not d.feature() in specified_features:
+ defaults_to_apply.append(d)
+
+ # 2. If there's any defaults to be applied, form the new
+ # build request. Pass it throw 'expand-no-defaults', since
+ # default_build might contain "release debug", which will
+ # result in two property_sets.
+ result = []
+ if defaults_to_apply:
+
+ # We have to compress subproperties here to prevent
+ # property lists like:
+ #
+ # <toolset>msvc <toolset-msvc:version>7.1 <threading>multi
+ #
+ # from being expanded into:
+ #
+ # <toolset-msvc:version>7.1/<threading>multi
+ # <toolset>msvc/<toolset-msvc:version>7.1/<threading>multi
+ #
+ # due to cross-product property combination. That may
+ # be an indication that
+ # build_request.expand-no-defaults is the wrong rule
+ # to use here.
+ compressed = feature.compress_subproperties(property_set.all())
+
+ result = build_request.expand_no_defaults(
+ b2.build.property_set.create([p]) for p in (compressed + defaults_to_apply))
+
+ else:
+ result.append (property_set)
+
+ return result
+
+
+def create_typed_metatarget(name, type, sources, requirements, default_build, usage_requirements):
+
+ from b2.manager import get_manager
+ t = get_manager().targets()
+
+ project = get_manager().projects().current()
+
+ return t.main_target_alternative(
+ TypedTarget(name, project, type,
+ t.main_target_sources(sources, name),
+ t.main_target_requirements(requirements, project),
+ t.main_target_default_build(default_build, project),
+ t.main_target_usage_requirements(usage_requirements, project)))
+
+
+def create_metatarget(klass, name, sources, requirements=[], default_build=[], usage_requirements=[]):
+ from b2.manager import get_manager
+ t = get_manager().targets()
+
+ project = get_manager().projects().current()
+
+ return t.main_target_alternative(
+ klass(name, project,
+ t.main_target_sources(sources, name),
+ t.main_target_requirements(requirements, project),
+ t.main_target_default_build(default_build, project),
+ t.main_target_usage_requirements(usage_requirements, project)))
+
+def metatarget_function_for_class(class_):
+
+ @bjam_signature((["name"], ["sources", "*"], ["requirements", "*"],
+ ["default_build", "*"], ["usage_requirements", "*"]))
+ def create_metatarget(name, sources, requirements = [], default_build = None, usage_requirements = []):
+
+ from b2.manager import get_manager
+ t = get_manager().targets()
+
+ project = get_manager().projects().current()
+
+ return t.main_target_alternative(
+ class_(name, project,
+ t.main_target_sources(sources, name),
+ t.main_target_requirements(requirements, project),
+ t.main_target_default_build(default_build, project),
+ t.main_target_usage_requirements(usage_requirements, project)))
+
+ return create_metatarget